A cylinder cleaning device and cleaning fabric receiving device

Abstract

 A cleaning fabric take-up shaft (27) is arranged within a range in which a cleaning fabric take-up roll (70) to be rolled on the cleaning fabric take-up shaft (27) interferes with a cleaning fabric receiving portion (4) for receiving a cleaning fabric supply element (3). A portion of the cleaning fabric receiving portion (4), as faced by the cleaning fabric take-up shaft (27), is equipped with a movable bottom member (17) so that the shape of the cleaning fabric receiving portion (4) is physically changed in a direction to increase the diameter of the cleaning fabric take-up roll (70). In according to the increase in the diameter of the cleaning fabric take-up roll, the outer surface of the roll is brought into abutment against the bottom member so that it is raised.

Description

BACKGROUND OF THE INVENTION

1. Field of the Invention

[0001] The present invention relates to a cylinder cleaning device for cleaning a surface of a cylinder such as a blanket cylinder of an offset printing machine, an impression cylinder or an ink roller. More particularly, the invention relates to a cylinder cleaning device in which a cleaning fabric supply element is made in a roll form, or folded in a pleated form (or folded in zigzags), or a container holding the cleaning fabric supply element.

2. Description of the Related Art

[0002] Conventionally, in a cylinder cleaning device for cleaning the surface of a cylinder such as a blanket cylinder of an offset printing machine, a cleaning fabric, as used, is wrapped around a hollow core to form a cleaning fabric roll, into which a shaft made of metal is inserted. This metal shaft in the cleaning unit as a rotary shaft. This arrangement has been widely used. As an improvement, a method of directly holding a core to make it a rotary shaft without using such metal shaft has been proposed in Japanese Patent Laid-Open No. 234659/1992.

[0003] Despite of this proposal, however, the rigidity of the cleaning fabric roll is reduced, and the center of the roll deflects by the pulling force of the cleaning fabric take-up means so that the cleaning fabric is not uniformly applied. Thus, there arises a danger that the roll is disengaged from the frame and fall into the printing machine.

[0004] Since the external diameter of the metal shaft and the dimension of the device used for mounting a core directly on the cleaning device differ in accordance with the kind of cleaning device, not every cleaning fabric roll can be used in every kind of cleaning device. Furthermore, it is cumbersome to attach a cleaning fabric roll to the cleaning device, which involves inserting a heavy shaft of high rigidity into the core, fixing the shaft and core together, and attaching them to the cleaning unit.

[0005] There has also been proposed a cleaning fabric roll which is made efficient and economical by reducing the portion of the core, i.e., the roll core extremely to wrap the cleaning fabric more. Since a diametrically reduced core has to be used, however, there is raised a problem in strength by the conventional mounting method, and this problem has been desired to be solved.

[0006] For this solution, we have proposed in Japanese Patent Application No. 352877/1995 a cylinder cleaning device having a structure, in which the outer surface of a cleaning fabric supply element is mounted on the inner wall of a container. According to this structure, the distance between the container and the cleaning fabric take-up roll is so enlarged in advance that the outer surface of the cleaning fabric take-up roll may not abut against the container even if the cleaning operation advances to enlarge the diameter of the cleaning fabric take-up roll. As a result, if the container holding the cleaning fabric supply element is enabled to be used, there arises a problem that the device is more large-sized than the type using only the cleaning fabric supply element.

[0007] An object of the present invention is to provide a cylinder cleaning device which is enabled either by thinning a roll core extremely or by using no roll core to improve the space efficiency (or space factor) of a cleaning fabric supply element and to use the cleaning fabric supply element held by a container while being small-sized.

SUMMARY OF THE INVENTION

[0008] According to the present invention, there is provided a cylinder cleaning device for cleaning an outer surface of a cylinder by pressing a cleaning fabric supplied from a cleaning fabric supply element against an outer surface of said cylinder, comprising: a frame; and a cleaning fabric supply element container supported on said frame; and a cleaning fabric take-up shaft attached to the frame for taking up the cleaning fabric, wherein the cleaning fabric take-up shaft is arranged within a range to interfere with the container when a diameter of cleaning fabric take-up roll increases, and wherein the container includes a structure in which its shape is physically changed in a direction of increasing diameter of the cleaning fabric take-up roll.

[0009] Thanks to the aforementioned structure in which the outer surface of the cleaning fabric supply element is received, it is possible to remarkably easily charge many kinds of rolls of different kinds such as cleaning fabric roll having different cores or cleaning fabric rolls having no core without using any metal shaft.

[0010] Especially thanks to the structure in which the cleaning fabric is held in the container, the cleaning fabric can be easily handled, i.e., attached and detached. At the same time, the device can be made compact by arranging the cleaning fabric take-up shaft within the range in which the cleaning fabric take-up roll interferes with the container. It is also possible to use cleaning fabric rolls or cleaning fabric supply elements of various shapes or core sizes. Moreover, the various cleaning fabric supply elements can be used merely by slightly remedying the various types of conventional cleaning device, which has already been installed.

[0011] In a preferable mode, the cleaning fabric supply element is held in a reluctantly deformable and rigid container (e.g., a cassette or cartridge) or a deformable container a film material (including a container packaged with the film material), and the container is supported as it is, so that the handling of the cleaning fabric supply element is improved. Especially in the case of the cleaning fabric which is impregnated with a liquid, jellied or pasty detergent or to which the detergent is applied, the cleaning fabric can be prevented from volatilizing or drying by the container to suppress the reduction in the performance of the cleaning fabric, so that it can be easily handled. This effect is enhanced by holding the cleaning fabric using a highly volatile detergent in the container. When much detergent is used as in the cleaning fabric employed in a cylinder cleaning device of an offset printing machine, for example, the amount of detergent to be introduced into or applied to the cleaning fabric is so high that the detergent can be prevented from leaking out of even the cleaning fabric impregnated in a saturated state and can be confined in the container.

[0012] Especially thanks to the provision of cleaning fabric pull-back means, the cleaning fabric, as supplied from the cleaning fabric supply element, can be partially drawn back to the cleaning fabric supply side and used again as a new one to improve the using efficiency of the cleaning fabric and to lower the cleaning cost and spare the resources.

[0013] Thanks to the provision of brake means, moreover, the following advantage can be achieved. When the cleaning fabric is pressed onto the cylinder surface, a dragging force in the rotational direction of the cylinder acts upon the cleaning fabric, and this force may draw out the cleaning fabric from the cleaning fabric supply element. However, the cleaning fabric can be braked by the brake means to overcome the dragging force so that it can be prevented from being drawn out.

[0014] Thanks to the provision of cleaning fabric tensioning means, moreover, there can be achieved the following advantage. If the cleaning fabric is slack, a wrinkle is formed in the cylinder pressing portion so that the cleaning fabric may not be uniformly pressed onto the cylinder surface to cause an non-homogeneous cleaning operation. With the slackness, on the other hand, the slack portion may come into contact to blot the cylinder surface or may be taken up on the cylinder, when it is not in the cleaning operation. These drawbacks can be eliminated by tensioning the cleaning fabric by the tensioning means.

[0015] According to the present invention, on the other hand, there is provided a cylinder cleaning device for cleaning the outer surface of a cylinder by pressing a cleaning fabric supplied from a cleaning fabric supply element against said outer surface of said cylinder, comprising: a frame; a receiving member attached to the frame for receiving the outer surface of the cleaning fabric supply element; a first guide member extending longitudinally of the receiving member; and a second guide member extending longitudinally of the receiving member and pairing the first guide member, wherein the first guide member and the second guide member define an S-shaped passage in-between for allowing the cleaning fabric to pass there through.

[0016] In the case of the aforementioned construction, the cleaning fabric can be stably supplied by causing it to pass through the S-shaped passage, as defined by the two guide members, from the state, in which it is received by the cleaning fabric supply element, to apply the braking action thereto and by causing it to pass through a predetermined portion near the cleaning fabric supporting receiver.

[0017] Moreover, the roll core or the diametrically reduced cleaning fabric roll is blocked, when intensively forced to come out from the cleaning fabric supporting receiver, from disengaging out by the S-shaped passage so that the roll core or the cleaning fabric roll can be accidentally wrapped by the cylinder to damage the cylinder.

[0018] Especially by providing the crossbeam member, the strength of the cleaning unit can be enhanced to support the cleaning fabric supporting receiver stably and reliably.

[0019] By using one guide member to form the S-shaped passage between it and the crossbeam member, moreover, the braking action on the cleaning fabric can be increased by the two S-shaped passages while further enhancing the disengagement preventing effect.

[0020] When one guide member is attached to the turnable arm, the passage of the cleaning fabric can be widely opened by turning the arm. As a result, the introduction of the cleaning fabric into the S-shaped passage is completed by letting off the cleaning fabric from the received cleaning fabric roll to the outside of the other guide member, by returning the turned guide member to thread the cleaning fabric into the clearance between the returned guide member and the other guide member, so that the threading work of the cleaning fabric can be facilitated.

[0021] One guide member is turned across the open portion of the cleaning fabric supporting receiver to be charged with the cleaning fabric roll, so that it is positioned at the position opposite to the non-turned other guide member across the cleaning fabric supporting receiver. As a result, the cleaning fabric roll can be introduced without being hindered by the turned guide member into the cleaning fabric supporting receiver so that the charging work can be facilitated.

[0022] When one side of the cleaning fabric supporting receiver is turnably attached to the frame, the charging operation can be performed with an excellent workability by turning the cleaning fabric supporting receiver as a whole without being disengaged from the cleaning unit thereby to open the inlet side of the cleaning fabric supply element widely.

[0023] When there is provided the urging means for urging the guide member, an intense braking action can be applied to the cleaning fabric so that the cleaning fabric can be highly tensioned and reliably prevented from becoming slack.

[0024] When the cleaning fabric supporting receiver is partially made of the cover member, this cover member can be opened to introduce the cleaning fabric supply element to be charged, without disengaging the cleaning fabric supporting receiver from the cleaning unit, so that the workability can be improved.

[0025] With the construction in which the movable member and the cover member make up the receiving member of the cleaning fabric supply element so that the cleaning fabric supply element is introduced into the portion to be opened by turning those members, the cleaning fabric supply element can be introduced without disengaging the cleaning fabric supporting receiver from the cleaning unit. At the same time, the take-up shaft is arranged in the proximity to the movable member so that the cleaning unit can be small-sized.

[0026] When the movable member is hinged to the side of the cleaning fabric guide member, the movable member moves according to the change in the diameter of the cleaning fabric roll to move the cleaning fabric roll toward the cleaning fabric guide portion so that the direction to let off the cleaning fabric from the cleaning fabric roll is hardly changed with respect to the cleaning fabric guide portion thereby to stabilize the letting-off of the cleaning fabric.

[0027] Since there is provided the disengagement preventing means for blocking the core having the wrapped cleaning fabric and the diametrically reduced cleaning fabric roll from disengaging out, the safety of the cleaning work of the cylinder can be enhanced to prevent the damage of the cylinder in advance thereby to enhance the reliability of the device.

[0028] According to the present invention, on the other hand, there is provided a cleaning fabric receiving device for receiving a cleaning fabric supply element and for being mounted to a cylinder cleaning device, comprising: a mounting member including end plates and a spindle; a receiving member coupled to the mounting member for receiving the outer surface of the cleaning fabric supply element; a guide member extending longitudinally of said receiving member and define an S-shaped passage in-between for allowing the cleaning fabric to pass there through, and wherein the spindle of said mounting member is attached for use to the frame of said cylinder cleaning device.

[0029] With the aforementioned construction, the present invention can be applied as an adapter without any changing work to the existing device of the type using a cleaning fabric supply element.

BRIEF DESCRIPTION OF THE DRAWINGS

[0030] 

Fig. 1 is a sectional view showing the basic arrangement of a cylinder cleaning device of the present invention;

Fig. 2 is a back elevation showing a cleaning unit from which is removed a cleaning fabric;

Fig. 3 is an explanatory view showing a relation between a cleaning fabric take-up roll and a bottom member;

Fig. 4 is a sectional view showing a structure in which the bottom member is made of a deformable soft material;

Fig. 5 is an explanatory view showing a relation between the cleaning fabric take-up roll and the soft bottom member;

Fig. 6 is a sectional view showing a structure in which a cleaning fabric supply element is mounted on an immovable bottom member;

Fig. 7 is a diagram for explaining a relation between the cleaning fabric take-up roll and a movable member;

Fig. 8 is a back elevation showing the basic arrangement of a cylinder cleaning device having a mechanism for pull-back a portion of the used cleaning fabric with the cleaning fabric being removed;

Fig. 9 is a sectional view taken along line B - B of Fig. 8;

Fig. 10 are explanatory diagrams showing a specific example of cleaning fabric extraction blocking means in the cleaning fabric extracting state at (1) and in the cleaning fabric pull-back state at (2);

Fig. 11 is a view showing the state before the start of the cleaning operation and taken along line C - C of Fig. 8;

Fig. 12 is a view showing the state at the cleaning fabric extracting time and taken along line C - C of Fig. 8;

Fig. 13 is a view showing the state at the cleaning fabric pull-back time and taken along line C - C of Fig. 8;

Fig. 14 is a sectional view showing another embodiment of the movable bottom member;

Fig. 15 is an explanatory view showing a relation between the cleaning fabric take-up roll and the bottom member;

Fig. 16 is a sectional view showing an embodiment of the detection of a cleaning fabric end;

Fig. 17 is a back elevation of Fig. 16;

Fig. 18 is a sectional view showing another embodiment of the detection of a cleaning fabric end;

Fig. 19 is an explanatory view showing a structure for inserting the cleaning fabric supply element from the side end of a container;

Fig. 20 is a sectional view showing another embodiment;

Fig. 21 is a back elevation showing a cleaning unit from which is removed the cleaning fabric;

Fig. 22 is a front elevation showing the cleaning unit from which is removed the cleaning fabric;

Fig. 23 is a sectional view showing another embodiment;

Fig. 24 is an explanatory view showing the case of charging a cleaning fabric roll;

Fig. 25 is a sectional view showing a modification of a cleaning fabric guide portion;

Fig. 26 is an explanatory view showing the action of Fig. 25;

Fig. 27 is a sectional view showing another embodiment;

Fig. 28 is a front elevation showing a cleaning fabric receiving portion;

Fig. 29 is an explanatory view showing the case of charging the cleaning fabric roll;

Fig. 30 is a sectional view showing another embodiment;

Fig. 31 is an explanatory view showing the case of charging the cleaning fabric roll;

Fig. 32 is a sectional view showing a modification of the cleaning fabric guide portion;

Fig. 33 is a sectional view showing another embodiment;

Fig. 34 is an enlarged sectional view showing a fixing portion;

Fig. 35 is an explanatory view showing the case of charging the cleaning fabric roll;

Fig. 36 is a sectional view showing a modification of the cleaning fabric guide portion;

Fig. 37 is a sectional view showing another embodiment;

Fig. 38 is a sectional view showing another embodiment;

Fig. 39 is a front elevation of Fig. 38;

Fig. 40 is an explanatory view showing a disengagement preventing mechanism;

Fig. 41 is a front elevation showing a modification of a disengagement preventing mechanism;

Fig. 42 is an explanatory view showing the disengagement preventing mechanism;

Fig. 43 is a sectional view showing another embodiment;

Fig. 44 is a sectional view showing a modification of a cleaning fabric tensioning mechanism.

Fig. 45 is a sectional view showing further embodiment;

Fig. 46 is a front elevation showing the cleaning unit from which is removed the cleaning fabric;

Fig. 47 is a plan view showing a supporting plate securing mechanism;

Fig. 48 is a view for explaining an arrangement of the top of the supporting plate and the supporting bar;

Fig. 49 is a view for explaining the case of charging the cleaning fabric roll; and

Fig. 50 is a view for explaining an arrangement of the movable member and the cleaning fabric take-up shaft.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0031] A common characteristic of the present invention is that the cleaning fabric supply element can have any form such as a rolled form or a folded pleated form (i.e., folded in zigzags). Cleaning fabric rolls with a round-formed roll core or a rod-formed roll core or without any roll core can also be used. The cleaning fabric can be made of ordinary fabric, an unwoven fabric, paper, a plastic film with or without processing, or other suitable materials. Processed cleaning fabrics include, for example, fabric previously impregnated with a detergent, fabric packaged in a vacuum pack, and fabric to which a detergent in a jellied form or a paste form has been applied.

[0032] Fig. 1 is a sectional view showing a construction of the cylinder cleaning device of the present invention. Fig. 2 shows the construction showing a cleaning unit from the back side with cleaning fabric being removed. In the present embodiment, here will be described the cylinder cleaning device which has a container holding a cleaning fabric roll 30 as a cleaning fabric supply element 3. The cylinder cleaning device is constructed as a cleaning unit 2 to be mounted to face a cylinder of a press. This cleaning unit 2 is constructed to include: a cleaning fabric supporting receiver 4 for receiving the container holding the cleaning fabric roll 30; cleaning fabric advancing means 7 for pull-out a cleaning fabric 3a from the cleaning fabric roll 30; and a cylinder pressing part 8 for pressing the cleaning fabric 3a, as tensioned between the cleaning fabric supporting receiver 4 and the cleaning fabric advancing means 7, onto the surface of the cylinder 1.

[0033] The cleaning fabric advancing means 7 is constructed to include a cleaning fabric take-up shaft 27 and the drive unit (not-shown) such as a motor or an air cylinder for rotating the shaft 27, so that it supplies the cleaning fabric 3a from the cleaning fabric roll 30 by taking up the used cleaning fabric on the cleaning fabric take-up shaft 27. A pressure pad 8a forming the cylinder pressing part 8 is supported by a supporting bar 10 which constructs a crossbeam member laid across side plates 9 arranged on both sides of the cleaning unit 2.

[0034] Here will be described concrete examples of each of the above-described parts. The cleaning fabric supporting receiver 4, as made of a container having a rigidity, is equipped with end plates 11 which are supported by the side frames 9. At the charging entrance of the cleaning fabric supplying element 3 of the container, there is hinged on a pin 13 a cover 12 which is opened to introduce the cleaning fabric roll 30 into the container. The cleaning fabric 3a is drawn out from a slit exit 15 which is formed between the free end of the cover 12 and the end portion of a stationary plate 14. The exit 15 is defined by an S wrap winding passage which is formed between the cover 12 and the stationary plate 14 by causing the end portions of the cover 12 and the stationary plate 14 to overlap each other. The cleaning fabric 3a is drawn out while meandering in the passage, as shown. At this time, the cleaning fabric 3a is braked and tensioned by the friction with the end portions of the two members.

[0035] In the present embodiment, in order to effect the braking action, the cover 12 is urged to move toward the stationary plate 14 by a spring 16. As a result, the cover is forced to abut against the cleaning fabric 3a, as drawn out by the take-up action of the cleaning fabric advancing means 7, to increase the friction with the cleaning fabric.

[0036] A bottom member 17 of the container is turnably attached at its one end side to the pin 13 shared with the cover 12 and is received at its other end side by a receiving bar 18 which is fixed on the side plate 9. The bottom member 17 may be any if it can mount the cleaning fabric supplying element 3 thereon. A forked member or a net member, for example, can be applied to the bottom member 17.

[0037] A supporting unit 6 for mounting the cleaning fabric supporting receiver 4 on the side plate 9 is equipped with an irrotational shaft such as a spindle 20 having a square section at one end plate 11 (as located at the right-hand end plate in Fig. 2). An engaging hole 21 is formed in the other end plate 11 (as located at the left-hand end plate in Fig. 2). A fitting hole 22 for fitting the spindle 20 is formed in one side plate 9. An engaging member 23 for engaging with the engaging hole 21 is so formed in the other side plate 9 as to rotate and move toward the end plate. In the engaging member 23, there is formed an annular groove 24 for positions to engage with the engaging hole 21 and not. In the side plate 9, there are arranged a ball 25 and a spring 26 for pushing the balls. The cleaning fabric supporting receiver 4 is positioned as the ball 25 comes into the annular groove 24 of the engaging member 23. Here, the annular groove 24, the ball 25 and the spring 26 of the engaging member construct a click mechanism.

[0038] The cleaning fabric advancing means 7 is composed of the cleaning fabric take-up shaft 27 and a drive unit 28 such as a motor for rotating the shaft 27. The cleaning fabric 3a is supplied from the cleaning fabric roll 30 by taking up the used cleaning fabric on the cleaning fabric take-up shaft 27.

[0039] In Fig. 1, the braking unit is disposed on the outer circumference of a rear end portion 10a of the supporting bar 10, which is extended apart from the pressure pad 8a, and at the exit 15 of the container. The cleaning fabric 3a, as drawn out from the container, is taken up by the cleaning fabric take-up shaft 27 by bringing it around the rear end portion 10a of the supporting bar 10 into contact with the outer surface of the same and by bringing it through the supporting bar to face the pressure pad 8a at its back side. When the cleaning fabric 3a, as supplied from the cleaning fabric roll 30, is advanced in contact with the outer circumference of the rear end portion 10a of the supporting bar by the rotation of the cleaning fabric take-up shaft 27, it is tensioned by the friction with the outer surface of the rear end portion 10a. By this tension, the cleaning fabric 3a is prevented from getting slack. At the exit 15 at the container side, too, the braking action is effected by the S wrap to further enhance the cleaning fabric slackness preventing effect.

[0040] The actions of the above-described embodiment will now be described. The engaging member 23 is moved leftward from the position of Fig. 2 and is disengaged from the engaging hole 21, and the container is taken out from the cleaning unit 2. The cover 12 of the container is opened to introduce the cleaning fabric supplying element 3 and is closed. The spindle 20 of the container is fitted in the fitting hole 22 of the side plate 9, and the engaging member 23 is forced into engagement with the engaging hole 21 and is positioned by the click mechanism to set the container in the cleaning unit 2. The cleaning fabric, as already drawn out from the container, is wrapped on the cleaning fabric take-up shaft, thus completing the preparations. When the motor 28 is energized to supply the cleaning fabric, the cleaning fabric 3a is drawn out from the container through the S wrap of the container.

[0041] As the used cleaning fabric is taken up on the cleaning fabric take-up shaft 27, the diameter of a cleaning fabric take-up roll 70 increases. When this cleaning fabric take-up roll 70 diametrically enlarged to contact or interfere with the bottom member 17 of the container, its outer surface raises the bottom member 17, as shown in Fig. 3. In other words, the bottom member 17 starts its turning motion in the direction of arrow on the pin 13 so that its end portion leaves the receiving bar 18. In this motion, the cavity space in the container is increased by the change in the remainder of the cleaning fabric supplying element 3. As a result, the bottom member 17 moves upward without any trouble, as shown. The change in the remainder of the cleaning fabric supplying element is exemplified by the reduction in the roll diameter in the case of the cleaning fabric roll 30 or by the reduction in the height in the case of the cleaning fabric in the folded pleated form.

[0042] By thus using the cleaning fabric roll in the container, it is possible to reduce the diameter of the roll core extremely or to use the cleaning fabric supplying element having no roll core. Moreover, the size of the cleaning fabric unit can also be reduced by arranging the cleaning fabric take-up shaft close to the container.

[0043] As another embodiment of the present invention, there is shown in Fig. 4 a structure in which the bottom member is made of a deformable soft material. Incidentally, the construction other than the bottom member is identical to that of the embodiment shown in Fig. 1, and its description will be omitted by designating it by the common reference numerals. A deformable bottom member 29 is held at its two ends with a suitable slackness on a mounting bars 31 which are fixed on the side plate 9. The bottom member 29 is made of a material such as a fabric, a synthetic resin sheet or soft net. When the cleaning fabric roll 30 is inserted into the container, it is stably placed by the hammock, as shown.

[0044] As the used cleaning fabric 3a is taken up on the cleaning fabric take-up shaft 27 to increase the diameter of the cleaning fabric take-up roll 70, this take-up roll 70 comes into the state to interfere with the bottom member 29. The outer surface of the cleaning fabric take-up roll 70 raises the bottom member 29, as shown in Fig. 5. At this time, the bottom member 29 is so deformed along the outer circumference of the cleaning fabric take-up roll 70 as to bulge into the container. The cleaning fabric roll 30 moves into either the right-hand or left-hand trough until it is stably held according to the change in the diameter.

[0045] Fig. 6 shows a structure in which the cleaning fabric supplying element is placed on an immovable bottom member. The present embodiment is applied to the structure in which the container is placed on the supporting bar 10, but the present invention should not be limited thereto but can be modified into a structure in which the container itself shown in Fig. 1 is held by the side plate 9. In Fig. 6, the container is placed on the supporting bar 10, and a movable member 40, as hinged on a pin 41, is arranged above the container. The movable member 40 is urged outward, as indicated by arrow, by a spring 42. A free end 44 of the movable member is positioned inside of the end portion 45 of a stationary bottom member 43. As a result, as the cleaning fabric 3a passes between the end portions, the elastic force of the spring 42 acts upon the S wrap to establish the braking action thereby to prevent the cleaning fabric from getting slack. The cleaning fabric take-up shaft 27 is arranged within a range in which it is so positioned above the movable member 40 as to face and interfere with the movable member 40 as the diameter of the cleaning fabric take-up roll 70 increases.

[0046] When the used cleaning fabric is taken up to increase the diameter of the cleaning fabric take-up roll 70, this take-up roll 70 comes into the state to interfere with the movable member 40. As shown in Fig. 7, the movable member 40 is pushed down by the outer surface of the cleaning fabric take-up roll 70. In short, the movable member 40 starts to turn in the direction of arrow on the pin 41. In this motion, a large cavity space is left in the container by the change in the remainder of the cleaning fabric supplying element. As a result, the movable member 40 can turn downward without any trouble, as shown.

[0047] In the present embodiment, the couplings between the cover 12 and the bottom member 17 and between the movable member 40 and the stationary container forming member 43 are effected through the pins. In a construction other than the pins, for example, a synthetic resin material may be used to form a hinge of a thinned portion.

[0048] Here will be described a specific example of cleaning fabric pull-back means for pull-back for reuse a portion of the used cleaning fabric, which has been supplied by the cleaning fabric advancing means, to the cleaning fabric supplying element. Incidentally, the basic construction of the container itself is similar to those of the foregoing individual embodiments. The present embodiment can be applied to any structure for mounting the cleaning fabric supplying element, such as the structure in which the same is mounted on the movable bottom member, as shown in Fig. 1, the structure in which the same is mounted on the deformable member, as shown in Fig. 4, or the structure in which the same is mounted on the stationary container constructing member, as shown in Fig. 6.

[0049] Fig. 8 is a back elevation showing the cleaning unit with the cleaning fabric being removed. For explanatory purposes, the parts, as located at the left-hand side of Fig. 8, are designated by "A", whereas the parts at the right-hand side are designated by "B". A container supporting receiver A is attached to the side plate (A)9. The container supporting receiver A is provided with a holding member (A)50 for holding one end of the container, and a spindle (A)51 disposed in the holding member (A)50. Further provided is a spring (A)(52) for turning the holding member (A)50 in the direction (i.e., the counter-pull-out direction) opposite to the pull-out direction of the cleaning fabric. In this embodiment, the spring (A)(52) is exemplified by a helical spring, as wound on the spindle (A)(51), as shown. Further provided first stop means for stopping the container, which is turned by the pull-back rotational force stored in the spring 52, in a predetermined position. This first stop means is constructed by forming a projection 53 on the holding member (A)50 and a protrusion 54 at the side frame (A)9 so that it may stop the turn of the container as the projection 53 abuts against the protrusion 54. The holding member 50 is provided with a fitted portion 56 to be fitted in a square recess 55 formed in the end plate 11 of the container. As the fitted portion 56 is fitted in the recess 55, as shown, the holding member 50 can turn integrally with the container.

[0050] To the side plate (B)9, there is attached the container supporting receiver 4. This container supporting receiver 4 is provided with a holding member (B)60 for holding the other end of the container, and a spindle (B)61 disposed in the holding member (B)60. There is provided a spring (B)62 for applying a turning force to turn the holding member (B)60 in the direction (i.e., the counter-pull-out direction) opposite to the pull-out direction of the cleaning fabric. Further provided second stop means for stopping the container, which is turned by the pull-back rotational force stored in the spring 62, in a predetermined position. This second stop means is constructed by forming a projection 63 on the holding member (B)60 and a protrusion 64 at the side plate (B)9 so that it may stop the turn of the container as the projection 63 abuts against the protrusion 64. For the turning stop of the container, the position of the projection or protrusion can be made variable to adjust the pull-back motion of the container by changing that position. Thanks to this construction, the pull-back of the used cleaning fabric can be adjusted for reuse in accordance with the degree of blot of the cleaning fabric at each cleaning operation.

[0051] The holding member 60 is provided with a fitted portion 66 to be fitted in a square recess 65 formed in the end plate 11 of the container. As the fitted portion 66 is fitted in the recess 65, as shown, the holding member 60 can turn integrally with the container. A retaining hole 67 is formed in such a face of the holding member 60 as to confront the side plate (B)9. The container is stopped in the position, as turned at the time of pull-out the cleaning fabric, by protruding and retaining a notch 69 in the retaining hole 67 by the retaining action of notch drive means 68.

[0052] If the friction to be established between the container and the cleaning fabric take-up shaft by a supporting bar or pressure pad is higher than that at the S wrap portion of the container exit 15 when a portion of the used cleaning fabric is drawn back, it is drawn out from the inside of the container when the container is turned in the direction, as shown in Fig. 9. In other words, the portion of the used cleaning fabric cannot be drawn back. As a counter-measure for this drawback, there is disposed cleaning fabric pull-out blocking means at the container side. This cleaning fabric pull-out blocking means can be operated at the time of pull-back the used cleaning fabric, to block the pull-out of the cleaning fabric from the container.

[0053] In the embodiment shown in Fig. 9, the cleaning fabric pull-out blocking means is disposed at each of the individual end portions of the cover 12 and the stationary plate 14, as forming the exit 15. At the end portion 71 of the cover 12, as shown in Fig. 10, a recess 73 is formed to extend in the longitudinal direction of the container. At the end portion 72 of the stationary plate 14, there are formed needle portions 74 which are so arranged at a predetermined interval in the longitudinal direction of the container as to pierce in the cleaning fabric 3a. Here will be described the relation between the recess 73 and the needle portions 74. At the time of pull-out the cleaning fabric, as shown at (1) in Fig. 10, the cover 12 is moved in the direction of arrow against the urging force of the spring 16 by the friction which is established by the S wrap formed between the two end portions 71 and 72, so that the needle portions 74 leave the cleaning fabric 3a being drawn out. In the pull-back action of the used cleaning fabric, the container turns in the direction of arrow of Fig. 9. As a result, there disappears the friction to be established by the S wrap between the end portions and the used cleaning fabric. As a result, the cover 12 is moved in the direction of arrow, as shown at (2) in Fig. 10, by the spring 16. When the end portion 71 of the cover 12 abuts against the end portion 72 of the stationary plate 14, the needle portions 74 pierce the cleaning fabric, as located between the two end portions, at the position of the recess 73 of the end portion 71 so that the cleaning fabric is bitten by the exit 15. If the container is turned in the arrow direction in this state, the used cleaning fabric is drawn back.

[0054] In the above-described embodiment, when the notch drive means 68 is released to release the notch 69 and the retaining hole 67, the projection 63 is held in the position to abut against the protrusion 64 (in the state shown in Fig. 11) by the force applied in advance to the spring 62, namely, by the force to turn the container in the direction opposite to the cleaning fabric pull-out direction. At the time of pull-out the cleaning fabric, the cleaning fabric take-up motor 28 is energized to take up the cleaning fabric 3a on the cleaning fabric take-up shaft 27. At this time, the container is turned in the direction (as indicated by the arrow in Fig. 12) to draw out the cleaning fabric by the friction at the instant when the cleaning fabric 3a passes through the S wrap of the container. As timed with this, the notch drive means 68 is actuated to protrude the notch 69. When the retaining hole 67 is brought to the position of the notch 69 by the turning motion of the container, the notch 69 comes into the retaining hole 67. The container is held in the (A) position. In this motion, the springs 52 and 62 store the pull-back force. When the retention of the notch drive means 68 is released at the timing of ending the cleaning operation, the retention between the notch 69 and the retaining hole 67 is released so that the holding member 60 turns in the counter-pull-out direction together with the container, as shown in Fig. 13. As a result of the turning motion of the container, the cleaning fabric pull-out blocking means, as arranged at the exit 15, acts to block the pull-out of the cleaning fabric from the cleaning fabric supplying element in the container. Simultaneously with this, a portion of the used cleaning fabric, e.g., about one half length of the used cleaning fabric is drawn back. At the next time of the cleaning operation, the used cleaning fabric having been drawn back is used at first so that the consumption of the cleaning fabric is reduced to utilize the resources effectively.

[0055] Fig. 14 shows another embodiment of the movable bottom member. In the present embodiment, a bottom member 80 for mounting the cleaning fabric supplying element 3 is vertically movably supported by two guide portions 81 and 82. These guide portions 81 and 82 are mounted between the two end plates 11. The bottom member 80 is placed in the lowermost position of the guide portions 81 and 82 till the outer circumference of the cleaning fabric take-up roll 70 comes into abutment. When this abutment occurs, the cleaning fabric take-up roll 70 raises the bottom member 80, as shown in Fig. 15, as its diameter increases.

[0056] Fig. 16 shows a construction of detecting the cleaning fabric end by using an optical sensor. This optical sensor 90 is arranged either inside of the stationary plate 14 or on the end plate 11. The optical sensor 90 optically detects a cleaning fabric end detecting mark on the cleaning fabric 3a, as is emanated from a hole formed in the stationary plate 14 through the exit 15. The detection signal is extracted from the end plate through the spindle 20 to the outside, as shown in Fig. 17, and is sent to the control unit of the not-shown cylinder cleaning device so that it is processed to monitor the end of the cleaning fabric.

[0057] The construction of another embodiment for detecting the cleaning fabric end is shown in Fig. 18. In this construction, a limit switch 91 for detecting the cleaning fabric end is arranged downstream of the exit 15. This limit switch 91 is arranged either on the end plate 11 or outside of the stationary plate 14. In order to monitor the end of the cleaning fabric 3a, there is formed a hole in the vicinity of the widthwise edge of the cleaning fabric. There is processed the switch signal which is produced when the sensing lever of the limit switch 91 responds to that hole.

[0058] The aforementioned embodiment has been described in connection with the structure in which the cleaning fabric supplying element is set in the container from a charging entrance formed in the outer circumferential portion, but the present invention may be embodied by a structure in which the same is introduced from the side end of the container. In this modification, there can be suitably selected the structure, in which the end plate can be freely removed, or the structure in which the charging entrance is formed in the stationary end plate so that a cap can be freely removed from the charging entrance. In the embodiment shown in Fig. 19, the cleaning fabric supplying element, preferably the cleaning fabric roll is introduced into a container body 100 from its side end opening. The means for closing this opening is constructed of a cover member 101 having an annular portion for covering the opening from the outside, as shown at (1) in Fig. 19, or a cover member 102 having an insert to be inserted into the opening, as shown at (2) in Fig. 19.

[0059] Moreover, the outer surface of the cleaning fabric take-up roll need not act directly upon the bottom member, the movable member or the deformable member but can act upon the bottom member, the movable member or the deformable member indirectly through a mechanical association mechanism.

[0060] Fig. 20 is a sectional view showing another embodiment. Fig. 21 is a back elevation showing a construction of the cleaning unit with the crossbeam members being removed. Fig. 22 is a front elevation showing the construction of the cleaning unit with the crossbeam members being removed.

[0061] The cleaning fabric supporting receiver 4 is equipped with semi-arcuate end members 140 which are arranged at the two sides. These end members 140 are equipped with journals 141 for supporting them on the side plates 9. A supporting plate 142 is fixed on the end members 140 which are positioned on the back side of the cleaning unit 2. A later-described cleaning fabric guide portion 143 is arranged at one end side of the supporting plate 142. At the other side, there is arranged a movable member 145 which is turnably supported by hinges 144. The movable member 145 of this embodiment constructs a cleaning fabric supporting receiver for receiving the outer surface of the cleaning fabric roll 30. At the other side of the movable member 145, there is arranged a stay 146 which is mounted on the end members 140. This stay 146 receives the other end of the movable member 145 to regulate its rotation toward the cleaning fabric advancing means 7.

[0062] The cleaning fabric take-up shaft 27 of the cleaning fabric advancing means 7 is arranged near the movable member 145. Specifically, the cleaning fabric 3a is taken up by the take-up shaft 27 of the cleaning fabric advancing means 7 so that the diameter of the cleaning fabric take-up roll 70 is increased. As a result, the outer surface of the cleaning fabric take-up roll 70 comes into interference with the movable member 145 to move the same in the direction, as indicated by broken lines. In other words, the cleaning fabric take-up roll 70 is diametrically enlarged whereas the cleaning fabric roll 30 at the side of the cleaning fabric supporting receiver is diametrically educed. Since this motion of the movable member 145 acts to push the diametrically reduced cleaning fabric roll 30 onto the inner face of the supporting plate 142, the cleaning fabric roll 30 is held stably and reliably in the cleaning fabric supporting receiver 4. Another method of moving the movable member may be exemplified by an indirect one in which the change in the diameter of the cleaning fabric take-up roll is detected to operate the actuating mechanism of the movable member on the basis of the detected result.

[0063] The cleaning fabric guide portion 143 is equipped with a pair of round guide members 147 and 148. Between these guide members, there is formed an S-shaped passage for the cleaning fabric 3a to pass there through. The guide member 147 is arranged at the side of the cleaning fabric roll 30 whereas the guide member 148 is arranged at the side of the supporting bar 10.

[0064] In the present embodiment, the guide member 147 is fixed at its two ends by the end members 140, and the other guide member 148 is supported at its two ends by supporting members 149 attached to the supporting plate 142. The supporting members 149 are made of an elastic material. The guide member, as supported by the supporting members, urges the cleaning fabric 3a passing through the S-shaped passage, in the direction to increase the friction with the other guide member.

[0065] The supporting bar 10 has the extension 10a extending to the vicinity of the cleaning fabric guide portion 143. The cleaning fabric 3a is made to abut against the leading end of the extension 10a, and the guide member 148 is arranged in a position to push the cleaning fabric 3a onto the leading ends of the guide member 147 and the extension 10a of the supporting bar.

[0066] The guide members should not be limited to the structure in which they are assembled as a portion of the cleaning fabric supporting receiver, but both or either of the guide members 147 and 148 may be mounted on the side plates 9. Likewise, the stay 146 may also be mounted on the cleaning fabric supporting receiver 4 or the side plates 9. Moreover, only one guide member 148 is urged, but the other guide member 147 may be urged in the direction opposite to that of the guide member 148 so that the cleaning fabric may be tensioned by the two guide members.

[0067] In one side plate 9, as shown in Figs. 21 and 22, there is disposed a bearing portion 150 for receiving the journal 141 of the end member 140. At the other side plate 9, there are disposed a pair of pins 151 for mounting and positioning the journal 141 of the end member 140 at the opposite side.

[0068] When the cleaning fabric is to be set, the cleaning fabric supporting receiver 4 is removed from the cleaning unit 2, and the cleaning fabric roll 30 is placed on and supported by the movable member 145. The cleaning fabric 3a is drawn out through the S-shaped passage defined by the guide members 147 and 148, and the cleaning fabric supporting receiver 4 is then mounted on the cleaning unit 2. The journal of one end member 140 constructing the cleaning fabric supporting receiver 4 is inserted into the receiving portion 150 of the side plate 9, and the journal of the other end member 140 is supported on the paired pins 151 of the side plate 9. After this, the leading end of the cleaning fabric at the outside of the guide member is pulled and wrapped on the cleaning fabric take-up shaft 27 through the pressure pad 8a so that it is ready for use.

[0069] When the used cleaning fabric is taken up on the cleaning fabric take-up shaft so that the cleaning fabric take-up roll is diametrically enlarged, the outer surface of the cleaning fabric take-up roll 70 comes into contact with the movable member 145, as shown in Fig. 20. As the take-up roll diameter further increases, the movable member 145 is raised and turned on the hinges 144, as indicated by broken lines. Since the movable member 145 is made thus turnable, the cleaning fabric take-up shaft 27 can be arranged in proximity of the cleaning fabric supporting receiver 4 thereby to reduce the size of the cleaning unit 2.

[0070] The construction of the cleaning unit according to another embodiment is shown in Fig. 23. The present embodiment is characterized in the cleaning fabric guide portion in which one guide member is mounted on a turnable arm to allow the cleaning fabric to easily pass between the guide members.

[0071] The end member 140 is equipped on its inner side with an arm mounting portion 153 which has a step 140a matching the turning range of an arm 152. From the arm mounting portion 153, there is projected an arm pin 154 for mounting the arm 152 turnably thereon. The guide member 147 is fixed on the leading end of the arm 152.

[0072] A modification of the present embodiment is shown in Fig. 25. In this modification, the guide member 148, as arranged at the side of the supporting bar, is mounted on the arm 152. This arm 152 is turnably hinged to a bracket 140A which is fixed on the end member 140. The arm 152 is so urged by the not-shown torsion spring into the position, as indicated by the solid lines, as to form the S-shaped passage between the guide member 147 and the guide member 148.

[0073] When the cleaning fabric roll is to be charged, the cleaning fabric supporting receiver 4 is removed from the cleaning unit 2. After this, as shown in Fig. 24 or 26, the arm 152 is turned in a direction b, and the cleaning fabric roll 30 is placed on and received by the movable member 145. The leading portion of the cleaning fabric 3a is drawn out upward from the stationary guide member, and the arm 152 is turned in a direction a to thread the cleaning fabric into the clearance between the guide members 147 and 148. In this state, the cleaning fabric supporting receiver 4 is mounted in the cleaning unit 2 by a procedure similar to the embodiment shown in Fig. 20.

[0074] Since one guide member is arranged in the turnable arm, the cleaning fabric 3a can be easily threaded through the cleaning fabric guide portion 143 so that the cleaning fabric roll 30 can be easily charged to improve the workability.

[0075] An embodiment shown in Fig. 27 is directed to a structure in which the cleaning fabric supporting receiver is fixed on the cleaning unit. Fig. 28 is a front elevation showing a construction of the cleaning fabric supporting receiver with the cover member being opened. In this cleaning fabric supporting receiver 4, a bottom plate 160 acting as a supporting member is attached to the end member 140 having a journal to be supported on the side plate 9. To the bottom plate 160, there is connected through the hinges 144 a cover member 162 for opening/closing an entrance to charge the cleaning fabric supporting receiver with the cleaning fabric roll 30. The cover member 162 is fastened in the closed state, as shown in Fig. 27, by a screw 163.

[0076] When the cleaning fabric roll 30 is to be charged, the screw 163 is loosened and removed, and the cover member 162 is turned, as shown in Fig. 29, to open the entrance 161. Then, the cleaning fabric roll 30 is introduced into the entrance 161. In this operation, the leading portion of the cleaning fabric 3a is let off and placed on the guide member 147. The cleaning fabric 3a is wrapped along the pressure pad 8a on the cleaning fabric take-up shaft 27. After this, the cover member 162 is closed and fastened by the screw 163. The guide member 128 comes into the position, as shown in Fig. 27, to form the S-shaped passage for allowing the cleaning fabric 3a to pass there through. Simultaneously with this, the cleaning fabric 3a is tensioned by the action of the elastic force of the supporting member 149.

[0077] Thanks to the adoption of the aforementioned construction, the cleaning fabric roll can be charged without removing the cleaning fabric supporting receiver from the cleaning unit so that the cleaning fabric roll can be efficiently exchanged.

[0078] An embodiment, as shown in Fig. 30, is directed to a structure in which the movable member side of the cleaning fabric supporting receiver can be widely opened at the time of charging the cleaning fabric roll. The cleaning fabric supporting receiver 4 is equipped with the movable member 145 and a cover member 162A. One side of this cover member 162A is connected to the movable member 145 by the hinge 144. The other side of the cover member 162A is connected to the support plate 142 through a hinge 144A. In an ordinary use, the cover member 162A is fixed on the end member 140 by the screw 163. With the cover member 162A being fixed, the stay 146 is arranged in the downward turning locus of the movable member 145 on the hinge 144 so that the other side of the movable member is in abutment against the stay, as shown in Fig. 30, to regulate the downward turn. As the cleaning fabric take-up roll is diametrically enlarged, the movable member 145 is turned by the hinge of the cover member 162A which is fixed as in the embodiment of Fig. 20 by the outer circumference of the enlarged diameter of the cleaning fabric take-up roll.

[0079] When the cleaning fabric roll is to be charged, the cleaning fabric take-up roll is removed at first from the cleaning fabric take-up shaft 27, and the screw 163 is then loosened. As shown in Fig. 31, the movable member 145 is turned on the hinge 144, and the cover member 162A is turned on the hinge 144A. As a result, a portion of the cleaning fabric supporting receiver 4 is widely opened. The cleaning fabric roll 30 is introduced into the opening. The movable member 145 is introduced into the cleaning fabric supporting receiver 4 while guiding its other side at this side of the stay 146, and the cover member 162A is fixed on the end member 140 by the screw 163. In the mechanism of Fig. 32, the cleaning fabric roll 30 is charged, and the cleaning fabric guide portion 143 is threaded into the cleaning fabric guide portion 143 thereby to set the cleaning fabric roll 30 by turning the arm 152 in the arrow direction.

[0080] In an embodiment shown in Fig. 33, the cleaning fabric supporting receiver is turnably mounted on the side plate so that it can be widely opened at the time of charging the cleaning fabric roll. The cleaning fabric supporting receiver 4 is so mounted as to turn on a stay 146A attached to the side plate 9. A stationary portion 180 is provided for holding the shown position. When the cleaning fabric roll 30 is to be charged, the cleaning fabric supporting receiver 4 can be turned over the arranged region of the cleaning fabric take-up shaft 27, as shown in Fig. 35, by removing the cleaning fabric take-up shaft 27. Reference numeral 153 designates a bearing portion which is formed in the side plate 9 and to which is connected the cleaning fabric take-up shaft 27.

[0081] The stationary portion 180 is constructed of a click mechanism 183, as shown in Fig. 34. The cleaning fabric supporting receiver 4 is fixed by inserting a fixing pin 181, as projected from the side plate 9, into a hole 140b formed in the end member 140. At the outer side of the side plate 9, there is disposed a knob 182 for operating the fixing pin 181. In a portion of the fixing pin 181, there are formed two annular grooves for the clicking action. In one of the annular grooves, there is fitted a ball which is urged by a spring. When the ball is fitted in either of the annular grooves, there is kept either the state, in which the fixing pin 181 is inserted to engage with the hole 140b, or the state in which the fixing pin 181 is extracted and disengaged from the hole 140b. Here, the click mechanism 183 is composed of the annular grooves formed in the fixing pin 181, the ball to engage with the annular grooves, and the spring for urging the ball toward the annular grooves.

[0082] To the cleaning fabric guide portion 143, there is applied either the structure in which one guide member 147 is fixed on the end member 140, as shown in Fig. 33, or the structure in which the same is fixed on the leading end of the turnable arm 152, as shown in Fig. 32 or 36.

[0083] In the case of charging the cleaning fabric roll, the cleaning fabric take-up shaft is removed together with the cleaning fabric take-up roll, and the fixing portion is operated to release the cleaning fabric supporting receiver. The cleaning fabric supporting receiver is turned on the stay, as shown in Fig. 35, so that it is widely opened at the side of the cleaning fabric guide portion 143. In this state, the cleaning fabric roll is inserted into the cleaning fabric supporting receiver. The leading portion of the cleaning fabric is threaded through the cleaning fabric guide portion, and the cleaning fabric supporting receiver is then turned toward the supporting bar. The fixing portion is operated to fix the cleaning fabric supporting receiver at the position, as shown in Fig. 33.

[0084] The cleaning fabric roll can be easily inserted by turning the cleaning fabric supporting receiver as a whole toward the cleaning fabric take-up shaft to open the cleaning fabric guide portion widely, and the cleaning unit can be small-sized by arranging the cleaning fabric take-up shaft in the proximity of the movable member.

[0085] In an embodiment shown in Fig. 37, the cleaning fabric guide portion is constructed one guide member and a portion of the supporting bar. In the cleaning fabric guide portion 143, the guide member 148 is supported at its two ends on the support member 149 which is attached to the support plate 142. The cleaning fabric 3a advances between the guide member 148 and the end face of the extension 10a of the supporting bar. The supporting member 149 is made of an elastic material to push the cleaning fabric 3a onto the supporting bar 10.

[0086] At a position far from the end of the extension 10a of the supporting bar, there is arranged a cleaning fabric guide portion 170 for the downstream side. This cleaning fabric guide portion 170 is formed at the leading end of a guide plate 171 which is fixed on the supporting bar 10 or the supporting plate 9. The cleaning fabric 3a, as located between the cleaning fabric supporting receiver 4 and the downstream cleaning fabric guide portion 170, is tensioned by pushing it onto the extension of the supporting bar by the guide member 148 of the cleaning fabric guide portion 143 thereby to establish a high friction between the guide portions.

[0087] An embodiment of Fig. 38 is directed to a structure in which a disengagement preventing mechanism for preventing the cleaning fabric roll or the roll core from disengaging out is added to the cleaning unit. There is shown the construction in the cleaning unit composed of the portion for pressing the cleaning fabric onto the cylinder and the cleaning fabric take-up shaft but for the cleaning fabric advancing means. Fig. 39 presents a front elevation. The guide member 148 composing the cleaning fabric guide portion 143 is given a length larger than the width of the cleaning fabric roll. A disengagement preventing member 172 (e.g., 172A and 172B) is disposed between the cleaning fabric guide portion 143 and the downstream cleaning fabric guide portion 170 and in the vicinity of the downstream cleaning fabric guide portion 170. The disengagement preventing members 172A and 172B are positioned outside of the two side portions of the cleaning fabric roll and arranged at a gap smaller than the length of the guide member 148.

[0088] When the cleaning fabric roll 30 is disengaged out from the cleaning fabric supporting receiver 4 by the intense pull of the cleaning fabric 3a, it comes at first into abutment against the guide member 148, as shown in Fig. 40, so that the guide member 148 moves in the direction of arrow while deforming the supporting member 149. This motion is stopped when the two ends of the guide member 148 come into abutment against the disengagement preventing members 172A and 172B. While the two ends of the guide member 148 are thus abutting against the disengagement preventing members 172A and 172B, the clearance between the guide member 148 and the lower face of the guide plate 171 of the downstream cleaning fabric guide portion 170 is narrowed to block the passage of the cleaning fabric roll 30 or a roll core 3b.

[0089] A modification of the disengagement preventing mechanism is shown in Fig. 41. There is used the cleaning fabric supply element in which the roll core 3b of the cleaning fabric roll 30 is made longer than the roll width and projected from the two sides. The disengagement preventing mechanism is disposed close to and downstream of the guide members which form the S-shaped passage for allowing the cleaning fabric to pass there through. The disengagement preventing members 172A and 172B are arranged on the disengagement orbit of the roll core 3b which is protruded from the two sides of the cleaning fabric roll. The roll core 3b and the diametrically reduced cleaning fabric roll 30 are hooked and stopped at the two ends of the roll core 3b, when they pass and disengagement off the cleaning fabric guide portion, by the disengagement preventing members 172A and 172B, as shown in Fig. 42. Unless the roll core 3b has insufficient bending strength, its central portion is deformed or bulged by the tension of the cleaning fabric. As the case may be, the roll core, as hooked by the dis-engagement preventing members, may come out to disengagement out of the cleaning unit. By giving the guide members the disengagement preventing mechanism, too, while considering the strength of the roll core, the reliability for preventing the disengagement-out of the roll core can be enhanced by the cooperation with the disengagement preventing members. The method of giving the guide members the disengagement preventing mechanism is executed by intensifying the urging force to the guide members such as by making the supporting member itself of a strong elastic material or by strengthening the spring of the arm carrying the guide members.

[0090] Incidentally, the present embodiment has been described to have the construction of one guide member 148. Despite of this description, however, the present invention can naturally be applied to the construction having the two guide members 147 and 148, as represented by the cleaning fabric guide portion shown in Fig. 20.

[0091] In an embodiment shown in Fig. 43, there is added a cleaning fabric tensioning mechanism for preventing the cleaning fabric from becoming slack. The cleaning fabric tensioning mechanism may be constructed either by using one or both of the guide members as a portion of the cleaning fabric supporting receiver or by the entirety of the cleaning fabric supporting receiver. A cleaning fabric tensioning mechanism 190 of Fig. 43 is constructed by using one guide member. One end 149a of the supporting member is turnably attached to the side of the cleaning fabric supporting receiver or the side plate. The supporting member 149 is urged in the direction of arrow by a spring 191. The cleaning fabric 3a is pushed and tensioned between the guide member 147 and the supporting bar 10 through the guide member 148 by the action of the spring 191.

[0092] In a cleaning fabric tensioning mechanism, as shown in Fig. 44, the cleaning fabric supporting receiver 4 is turnably mounted on the stay 146A. Between the cleaning fabric supporting receiver 4 and the side plate 9, there is arranged a spring 192 for urging the cleaning fabric supporting receiver 4 in the direction of arrow. The cleaning fabric 3a is pulled and tensioned in the direction of arrow through the cleaning fabric guide portion 143. Further embodiment of the present invention is shown in Fig. 45 to 50. Fig. 45 is section view showing further embodiment and Fig. 46 is a front elevation showing a cleaning unit. In this embodiment, a cleaning fabric passage is formed for applying brake force to the cleaning fabric by utilizing the end portion of an inner surface of the supporting bar 10 extending between the side frames 9. The cleaning fabric supporting receiver 4 includes a movably member 201 and a supporting plate 203 secured to arm member 202. The side frame are provided with shaft mounting blocks 200 on which shafts 200A are mounted. The movable member 201 and arm members 202 are rotatably supported on the shafts 202A. The movable member 201 is located in substantially horizontal position and the supporting plate 203 is located in substantially vertical position. The cleaning fabric roll 30 is accommodated in a space defined by the movable member 201, the supporting plate 203 and the supporting bar 10 and is placed on the movable member 201. The movable member 201 extends longitudinally of the cleaning fabric roll 30 and has a recess inclined toward the central portion thereof. End plates 204 are provided on two sides of the movable member 201 opposite to the side frames 9 to cover the lower portions of the cleaning fabric roll 30. End plates 204 limit the movement of the cleaning fabric roll 30 in longitudinal direction so that it can be held stably and reliably on the movable member 201. The movable member 201 is prevented from downward pivotal movement by stoppers 205 to be maintained in substantially horizontal position as shown.

[0093] The supporting plate 203 is located in substantially vertical position opposite to the outer circumference of the cleaning fabric roll 30. The top end of the supporting plate 203 is positioned in the vicinity of the end portion of an inner surface of the supporting bar 10. There is a mechanism for securing the end portion of the supporting plate to the side frames 9.

[0094] In Fig. 46, a supporting plate securing mechanism is shown in which the end portions of the supporting plate 203 are secured to the side frames 9. This securing mechanism comprises a tubular member 206 mounted near the end portion of the supporting plate and extending over the whole length in a longitudinal direction of the supporting plate, securing member 207 projecting from both ends of the tubular member 206 toward the side frame 9 and engaging holes 208 formed in the side frames 9. Guide slots 210 are formed in the tubular member 206 for operating knobs 209 secured to the securing members 207 (shown in Fig. 47 with a broken line). Fig. 47 is a plan view of the securing mechanism provided to one of the side frames 9 and shows the securing mechanism in set condition. When the knobs 209 are moved in the direction apart from the side frames 9 as shown by an arrow, the securing members 207 come out from the engaging holes 208 to release the securing mechanism from the set condition. Thereafter, the supporting plate 203 is turned about the shafts 200A together with the arm member 202 in anticlockwise direction to an opening. Fig. 49 shows a cleaning fabric supporting receiver in opened condition. The cleaning fabric roll 30 can be charged from the opening to put it on the movable member 201.

[0095] The top end of the supporting plate 203 is arranged to position inwards from the inner end of the supporting bar 10 (about 5 mm ) as shown in Fig. 48 to form a space 211 (about 1 mm ) between these portions, through which the cleaning fabric can passes. The top end of the supporting plate 203 and the supporting bar 10 define an S-shaped passage and an braking force is exerted on the cleaning fabric fed through the S-shaped passage.

[0096] The cleaning fabric take-up shaft 27 of the cleaning fabric advancing means 7 is disposed in the vicinity of the movable member 201. The cleaning fabric 3a is wound up by the take-up shaft 27 of the cleaning fabric advancing means 7 so that the diameter of the cleaning fabric take-up roll 70 increased. As a result, the outer circumference of the cleaning fabric take-up roll 70 comes into interference with the movable member 201 to move it in the direction by the arrow as shown in Fig. 50. Since this movement of the movable member 201 acts to push the diametrically reduced cleaning fabric roll 30 onto the inner face of the supporting plate 203, the cleaning fabric roll 30 is held stably and reliably in the cleaning fabric supporting receiver 4.

Claims

1. A cylinder cleaning device for cleaning an outer surface of a cylinder by pressing a cleaning fabric supplied from a cleaning fabric supply element against said outer surface of said cylinder, comprising:

a frame; and

a cleaning fabric supply element container supported on said frame; and

a cleaning fabric take-up shaft attached to said frame for taking up said cleaning fabric,
   wherein said cleaning fabric take-up shaft is arranged within a range to interfere with said container when a diameter of cleaning fabric take-up roll increases, and
   wherein said container includes a structure in which its shape is physically changed in a direction of increasing diameter of said cleaning fabric take-up roll.

2. A cylinder cleaning device according to Claim 1,
   wherein a movable member is disposed in such a portion of said container as is faced by said cleaning fabric take-up shaft, and is relatively moved according to the increase in the diameter of said cleaning fabric take-up roll.

3. A cylinder cleaning device according to Claim 2,
   wherein the outer surface of said cleaning fabric take-up roll is made to act directly upon the movable member of said container, as said cleaning fabric take-up roll is diametrically enlarged, thereby to move said movable member.

4. A cylinder cleaning device according to Claim 2,
   wherein said cleaning fabric take-up roll is made to act indirectly upon the movable member of said container, as the diameter of said cleaning fabric take-up roll is enlarged, thereby to move said movable member.

5. A cylinder cleaning device according to Claim 1,
   wherein a deformable member is disposed in such a portion of said container as is faced by said cleaning fabric take-up shaft, and is deformed by causing the outer circumference of said cleaning fabric take-up roll upon the deformable member of said container according to the increase in the diameter of said cleaning fabric take-up roll.

6. A cylinder cleaning device according to Claim 1,
   wherein said container includes a bottom member for receiving said cleaning fabric supply element, and
   wherein said bottom member faces said cleaning fabric take-up shaft and constructs a movable member which is moved by the interference of the cleaning fabric take-up roll taken up on said cleaning fabric take-up shaft.

7. A cylinder cleaning device according to Claim 1,
   wherein said container includes a bottom member for receiving said cleaning fabric supply element, and
   wherein said bottom member faces said cleaning fabric take-up shaft and constructs a deformable member which is deformed by the interference of the cleaning fabric take-up roll taken up on said cleaning fabric take-up shaft.

8. A cylinder cleaning device according to Claim 1,
   wherein said container includes brake means for applying a brake on the cleaning fabric.

9. A cylinder cleaning device according to Claim 1,
   wherein said container includes a cleaning fabric tensioning means for tensioning the cleaning fabric.

10. A cylinder cleaning device according to Claim 1,
   wherein said container is turnably supported, further comprising:

cleaning fabric pull-back means for pulling back a portion of the used cleaning fabric by turning said container in a direction opposite to that to pull out said cleaning fabric; and

cleaning fabric pull-out blocking means for blocking the pull-out of the cleaning fabric from said container when said cleaning fabric pull-back means is active.

11. A cylinder cleaning device according to Claim 1,
   wherein said container includes means for detecting the end of the cleaning fabric.

12. A cylinder cleaning device according to Claim 1,
   wherein said container has an opening formed in its longitudinal outer surface for introducing said cleaning fabric supply element thereinto.

13. A cylinder cleaning device according to Claim 1,
   wherein said container has an opening formed in at least one of its side ends for introducing said cleaning fabric supply element thereinto.

14. A cylinder cleaning device according to Claim 1,
   wherein said container has an exit for pulling out the cleaning fabric, and
   wherein there is disposed at said exit any of means including: brake means for applying a brake on the cleaning fabric when pulled out; cleaning fabric pull-back means for pulling back a portion of the used cleaning fabric by turning said container in a direction opposite to that to pull out said cleaning fabric; and cleaning fabric pull-out blocking means for blocking the pull-out of the cleaning fabric from said container when said cleaning fabric pull-back means is active.

15. A cylinder cleaning device for cleaning an outer surface of a cylinder by pressing a cleaning fabric supplied from a cleaning fabric supply element against said outer surface of said cylinder, comprising:

a frame; and

a receiving member attached to said frame for receiving the outer surface of said cleaning fabric supply element; and

a first guide member extending longitudinally of said receiving member; and

a second guide member extending longitudinally of said receiving member and pairing said first guide member,
   wherein said first guide member and said second guide member define an S-shaped passage in-between for allowing the cleaning fabric to pass there through.

16. A cylinder cleaning device according to Claim 15, further comprising:

a crossbeam member fixed on said frame and laid longitudinally of said receiving member,
   wherein said crossbeam member has an extension extending to the vicinity of at least one of said guide members and abutting against the cleaning fabric, and
   wherein one of said guide members forms a second S-shaped passage between the other guide member and the extension of said crossbeam member for allowing the cleaning fabric to pass there through.

17. A cylinder cleaning device for cleaning an outer surface of a cylinder by pressing a cleaning fabric supplied from a cleaning fabric supply element against said outer surface of said cylinder, comprising:

a frame; and

a receiving member attached to said frame for receiving the outer surface of said cleaning fabric supply element ; and

a first guide member extending longitudinally of said receiving member ; and

a second guide member extending longitudinally of said receiving member and pairing said first guide member ; and

an arm attached turnably for mounting either of said guide members; and

fixing means for fixing said arm in a position where an S-shaped passage is formed between said first guide member and said second guide member for allowing the cleaning fabric to pass there through.

18. A cylinder cleaning device according to Claim 17,
   wherein said arm is supported, when turned from its stationary position, by inserting the cleaning fabric supply element into such an open portion of said receiving member as is formed between said first guide member and said second guide member.

19. A cylinder cleaning device for cleaning an outer surface of a cylinder by pressing a cleaning fabric supplied from a cleaning fabric supply element against said outer surface of said cylinder, comprising:

a frame; and

a receiving member attached to said frame for receiving the outer surface of said cleaning fabric supply element ; and

a first guide member extending longitudinally of said receiving member ; and

a second guide member extending longitudinally of said receiving member and pairing said first guide member ; and

a hinge portion for hinging one longitudinal side of said receiving member turnably on said frame; and

a receiving member fixing portion for fixing said receiving member in a position where said receiving member is turned thereto with its longitudinal other side being directed upward for receiving said cleaning fabric supply element,
   wherein said first guide member and said second guide member define an S-shaped passage in-between for allowing the cleaning fabric to pass there through.

20. A cylinder cleaning device for cleaning an outer surface of a cylinder by pressing a cleaning fabric supplied from a cleaning fabric supply element against said outer surface of said cylinder, comprising:

a frame; and

a receiving member attached to said frame for receiving the outer surface of said cleaning fabric supply element ; and

a crossbeam member fixed on said frame and laid longitudinally of said receiving member; and

a guide member extending longitudinally of said receiving member,
   wherein said guide member and said crossbeam member define an S-shaped passage in-between for allowing the cleaning fabric to pass there through.

21. A cylinder cleaning device for cleaning an outer surface of a cylinder by pressing a cleaning fabric supplied from a cleaning fabric supply element against said outer surface of said cylinder, comprising:

a frame; and

a receiving member attached to said frame for receiving the outer surface of said cleaning fabric supply element ; and

a first guide member extending longitudinally of said receiving member ; and

a second guide member extending longitudinally of said receiving member and pairing said first guide member; and

urging means for urging one of said guide members toward the other guide member,
   wherein said first guide member and said second guide member define an S-shaped passage in-between for allowing the cleaning fabric to pass there through, so that the force of said urging means is caused to act through said first guide member upon the cleaning fabric passing through said passage.

22. A cylinder cleaning device according to Claim 21, further comprising:

a supporting member turnably hinged for mounting one of said guide members; and

a spring for exerting its force upon the turning motion of said supporting member,
   wherein said first guide member and said second guide member define an S-shaped passage in-between by the turning motion of said first guide member for allowing the cleaning fabric to pass there through, so that said spring force is caused to act through said first guide member upon the cleaning fabric passing through said passage.

23. A cylinder cleaning device according to Claim 21, further comprising:

a supporting member made from elastic material for mounting one of said guide members,
   wherein said supporting member is fixed on said frame or a member to be mounted on said frame,
   wherein said first guide member and said second guide member define an S-shaped passage in-between for allowing the cleaning fabric to pass there through, so that the elastic force owned by said supporting member is caused to act through said first guide member upon the cleaning fabric passing through said passage.

24. A cylinder cleaning device for cleaning an outer surface of a cylinder by pressing a cleaning fabric supplied from a cleaning fabric supply element against said outer surface of said cylinder, comprising:

a frame; and

a receiving member attached to said frame for receiving the outer surface of said cleaning fabric supply element ; and

a cover member forming part of said receiving member and adapted to be opened at the time of charging said cleaning fabric supply element ; and

a first guide member extending longitudinally of said receiving member; and

a second guide member extending longitudinally of said receiving member and pairing said first guide member,
   wherein said first guide member and said second guide member define an S-shaped passage in-between for allowing the cleaning fabric to pass there through.

25. A cylinder cleaning device for cleaning an outer surface of a cylinder by pressing a cleaning fabric supplied from a cleaning fabric supply element against said outer surface of said cylinder, comprising:

a frame; and

a receiving member attached to said frame for receiving the outer surface of said cleaning fabric supply element ; and

a movable member movably disposed at a portion of said receiving member for supporting said cleaning fabric supply element ; and

a cleaning fabric take-up shaft attached to said frame for taking up said cleaning fabric; and

a first guide member extending longitudinally of said receiving member; and

a second guide member extending longitudinally of said receiving member and pairing said first guide member,
   wherein said cleaning fabric take-up shaft is arranged within a range in which the cleaning fabric roll to be rolled on said cleaning fabric take-up shaft interferes with said movable member,
   wherein said first guide member and said second guide member define an S-shaped passage in-between for allowing the cleaning fabric to pass there through, and
   wherein said movable member is moved by causing the outer surface of said cleaning fabric supply element to act upon said movable member in accordance with the increase in the diameter of said cleaning fabric supply element.

26. A cylinder cleaning device according to Claim 25,
   wherein said movable member is constructed to form part of said receiving member below said guide members and is hinged to turn toward said guide members.

27. A cylinder cleaning device for cleaning an outer surface of a cylinder by pressing a cleaning fabric supplied from a cleaning fabric supply element against said outer surface of said cylinder, comprising:

a frame; and

a receiving member attached to said frame for receiving the outer surface of said cleaning fabric supply element, said receiving member being partially constructed to include a cover member to be used in a stationary state, and a movable member movably connected to said cover member for supporting said cleaning fabric supply element ; and

a cleaning fabric take-up shaft attached to said frame for taking up said cleaning fabric; and

a first guide member extending longitudinally of said receiving member; and

a second guide member extending longitudinally of said receiving member and pairing said first guide member,
   wherein said cleaning fabric take-up shaft is arranged within a range in which the cleaning fabric supply element to be rolled on a cleaning fabric take-up shaft interferes with said movable member,
   wherein said first guide member and said second guide member define an S-shaped passage in-between for allowing the cleaning fabric to pass there through,
   wherein said movable member is moved by causing the outer surface of said cleaning fabric supply element to act upon said movable member in accordance with the increase in the diameter of said cleaning fabric, and
   wherein at the time of charging said cleaning fabric supply element, said cover member is released from its stationary state to open a portion of said receiving member widely.

28. A cylinder cleaning device for cleaning an outer surface of a cylinder by pressing a cleaning fabric supplied from a cleaning fabric supply element against said outer surface of said cylinder, comprising:

a frame; and

a receiving member attached to said frame for receiving the outer surface of said cleaning fabric supply element ; and

a first guide member extending longitudinally of said receiving member ; and

a second guide member extending longitudinally of said receiving member and pairing said first guide member; and

disengagement preventing means for preventing said cleaning fabric supply element, as supported by said cleaning fabric supporting member, from disengaging,
   wherein said first guide member and said second guide member define an S-shaped passage in-between for allowing the cleaning fabric to pass there through.

29. A cylinder cleaning device according to Claim 28,
   wherein said guide members are supported by a movable supporting member or a deformable supporting member,
   wherein said guide members are protruded at their two ends longer than the supply element width of said cleaning fabric supply element, and
   wherein said disengagement preventing means is arranged in the proximity to the downstream side of said guide members forming the S-shaped passage for allowing the cleaning fabric to pass there through and is positioned on an orbit along which the two end portions of said guide members move in the direction for said cleaning fabric supply element to disengage.

30. A cylinder cleaning device according to Claim 29,
   wherein said cleaning fabric supply element includes a roll core protruded longer from the two sides than the supply element width,
   wherein said disengagement preventing means is arranged in the proximity of the downstream side of the guide members forming the S-shaped passage allowing the cleaning fabric to pass there through, and
   wherein the supply element core protruded from the two sides of said cleaning fabric supply element is positioned on the orbit for the disengaging cleaning fabric supply element to move along.

31. A cleaning fabric receiving device for receiving a cleaning fabric supply element and for being mounted to a cylinder cleaning device, comprising:

a mounting member including end plates and a spindle ; and

a receiving member coupled to said mounting member for receiving the outer surface of said cleaning fabric supply element ; and

a guide member extending longitudinally of said receiving member and define an S-shaped passage in-between for allowing the cleaning fabric to pass there through, and
   wherein the spindle of said mounting member is attached for use to the frame of said cylinder cleaning device.

32. A cleaning fabric receiving device for receiving a cleaning fabric supply element and for useing a cylinder cleaning device having an attaching portion that is attached directly in the core of cleaning fabric supply element or the spindle connected said core, comprising:

a mounting member including end plates and a spindle for attaching to said attaching portion ; and

a receiving member coupled to said mounting member for receiving the outer surface of said cleaning fabric supply element; and

a guide member extending longitudinally of said receiving member and define an S-shaped passage in-between for allowing the cleaning fabric to pass there through.

33. A cleaning fabric receiving device for receiving a cleaning fabric supply element and for useing a cylinder cleaning device having an attaching portion that is attached directly in the core of cleaning fabric supply element or the spindle connected said core, comprising:

a cleaning fabric supporting receiver including a container for holding to said cleaning fabric supply element and said container having a spindle attaching to said attaching portion; and

a guide member extending longitudinally of said container and define an S-shaped passage in-between for allowing the cleaning fabric to pass there through.

Drawing