Apparatus for winding a wrapping sheet around a roll

Abstract

 A wrapping sheet (8) is disposed on a roll so that marginal portions of the wrapping sheet extend beyond the respective side faces of the roll (6). A wrapping sheet winding apparatus (10) for winding the wrapping sheet (8) around the roll (6) has a pair of chucks (21) which are drivingly engaged with a core (2) of the roll (6) and rotate the roll to wind therearound the wrapping sheet (8). Each of the chucks (21) is provided with suction holes (24) formed on the outer peripheral surface thereof.

Description

BACKGROUND OF THE INVENTION

Field of the Invention

[0001] This invention relates to an apparatus for winding a wrapping sheet around the outer peripheral surface of a roll.

Description of the Prior Art

[0002] In the majority of the conventional wrapping sheet winding apparatus, a wrapping sheet is wound around the outer peripheral surface of a roll by causing a pair of chucks to abut against respective end faces of the roll and rotating them as disclosed, for instance, in Japanese Unexamined Patent Publication No. 49(1974)-27390. Further, generally, the wrapping sheet is positioned relative to the roll so that marginal portion of the wrapping sheet extends beyond the side of the roll and then wound around the article in the manner described above in order to wrap also the end faces of the article.

[0003] However, in such conventional apparatuses, the wrapping sheet is apt to be displaced relative to the roll during the winding operation, and irregular folds or creases are frequently produced in the marginal portions of the wrapping sheet.

[0004] Especially when the diameter or the width of the roll change, production of such irregular folds or creases becomes more remarkable due to change in the winding condition.

SUMMARY OF THE INVENTION

[0005] In view of the foregoing observations and description, the primary object of the present invention is to provide a wrapping sheet winding apparatus in which the wrapping sheet can be prevented from being displaced relative to the roll during the winding operation and production of irregular folds and creases in the marginal portions of the wrapping sheet can be suppressed.

[0006] Another object of the present invention is to provide a wrapping sheet winding apparatus in which the wrapping sheet can be prevented from being displaced relative to the roll during the winding operation and production of irregular folds and creases in the marginal portions of the wrapping sheet can be suppressed even if the lengths and/or diameters of the articles fluctuate.

[0007] In accordance with the present invention, the chucks are provided with suction holes on their outer peripheral surfaces.

[0008] The marginal portions of the wrapping sheet extending beyond the sides of the roll are pulled against the outer peripheral surfaces of the chucks under suction force applied to the suction holes during winding operation, and accordingly the wrapping sheet can be prevented from being displaced relative to the roll during the winding operation and production of irregular folds and creases in the marginal portions of the wrapping sheet can be suppressed.

[0009] In a preferred embodiment of the present invention, each of the chucks comprises a chuck head portion which is engaged with the end face of the roll to drive it and a suction head portion which is provided with suction holes on its outer peripheral surface and is movable toward and away from the chuck head portion along the rotational axis of the chuck.

[0010] If slack is produced in the wrapping sheet due to fluctuation in the lengths and/or diameters of the articles when the marginal portions of the wrapping sheet extending beyond the sides of the roll are pulled against the outer peripheral surfaces of the chucks under suction force applied to the suction holes, the slack can be removed by pulling outward the wrapping sheet by moving outward the suction head portions of the chucks away from the chuck head portions.

[0011] Thus in accordance with the preferred embodiment, the wrapping sheet can be prevented from being displaced relative to the roll during the winding operation and production of irregular folds and creases in the marginal portions of the wrapping sheet can be suppressed even if the lengths and/or diameters of the rolls fluctuate. Such arrangement is especially effective for wrapping sheets which are relatively flexible.

BRIEF DESCRIPTION OF THE DRAWINGS

[0012] 

Figure 1 is a schematic perspective view showing a wrapping sheet winding apparatus in accordance with a first embodiment of the present invention,

Figures 2a to 2c are views as viewed in the direction of arrow II in Figure 1 for showing in detail the sheet winding system and for illustrating the operation of the same,

Figure 3 is a fragmentary front view as viewed in the direction of arrow III in Figure 1,

Figure 4a is a schematic perspective view showing a wrapping sheet winding apparatus in accordance with a second embodiment of the present invention,

Figure 4b is a fragmentary view as viewed in the direction of arrow IV in Figure 4a,

Figures 5a to 5e are views similar to Figure 4b but showing different stages of the operation of the sheet winding system, and

Figures 6a to 6c are side views for illustrating the operation of the wrapping sheet supply system.

DESCRIPTION OF THE PREFERRED EMBODIMENTS

[0013] In Figure 1, a wrapping sheet winding apparatus 10 in accordance with a first embodiment of the present invention winds a wrapping sheet 8 around a web roll 6 which comprises a tubular core 2 and a web 4 of a predetermined length wound around the core 2. The apparatus 10 comprises a wrapping sheet supply system 12 for supplying a wrapping sheet 8 of a predetermined size, a web roll supply system (not shown) for supplying the web roll 6 and a sheet winding system 14 for winding the wrapping sheet 8 around the web roll 6.

[0014] The wrapping sheet supply system 12 includes a cutter section 16 which cuts the wrapping sheet 8' in continuous length into a wrapping sheet 8 of a predetermined length longer than the width of the web 4 by a predetermined length, and a conveyor section 18 which clamps the wrapping sheet 8 and conveys it to the position shown in Figure 1 where one leading edge portion 8a of the wrapping sheet 8 rests on a pair of support rollers 20 of the sheet winding system 14. Reference numeral 18a denotes a clamp member which clamps the leading end of the wrapping sheet 8.

[0015] The web roll supply system places the web roll 6 on the leading edge portion 8a of the wrapping sheet 8 resting on the support rollers 20 go that the wrapping sheet 8 extends beyond each side face of the web roll 6.

[0016] The sheet winding system 14 has a pair of cylindrical chucks 22 which are adapted to be engaged with the core 2 of the web roll 6 to rotate the web roll 6. Each chuck 22 has an outer diameter smaller than the outer diameter of the web roll 6 (e,g., 1/2 to 11/12 of the outer diameter of the web roll 6), and a plurality of suction holes 24 are formed on the outer peripheral surface of the chuck 22.

[0017] As shown in Figures 2a to 2c, the chucks 22 are supported by a threaded rod 26 spaced from each other with their rotational axes in alignment With each other. The web roll 6 is placed on the wrapping sheet 8 in a position where the central axis of the web roll 6 is in alignment with the rotational axes of the chucks 22 as shown in Figure 2a. Each chuck 22 has a tapered head portion 22a and is supported by way of an air cylinder 22b to be driven toward and away from the web roll 6 by the cylinder 22b. After the web roll 6 is placed on the wrapping sheet 8 in the manner described above, the chucks 22 are driven toward the web roll 6 and the tapered head portions 22a thereof are brought into engagement with the ends of the core 2 as shown in Figure 2b. At this time the outer peripheral surfaces of the chucks 22 are opposed to the wrapping sheet 8 at a small distance therefrom.

[0018] The sheet winding system 14 further includes a blower 28 disposed near the support rollers 20 (Figure 3), and the blower 29 blows air to the leading edge portion 8a of the wrapping sheet 8 from below so that the leading portion 8a is pressed against the outer peripheral surface of the web roll 6 as shown in Figure 3. At the same time, suction force is fed to the suction holes 24 of the chucks 22 through suction pipes 30, whereby marginal portions 8b which extend beyond the sides of the web roll 6 are pulled against the outer peripheral surfaces of the chucks 22 under suction force. At this time, since the chucks 22 are smaller than the web roll 6 in diameter, the marginal portions 8b are pulled outward by the suction force, tightly fixing the leading portion 8a to the wrapping sheet itself.

[0019] Then the chucks 22 are driven by belts 32 as shown in Figure 2c, whereby the web roll 6 is rotated and the wrapping sheet 8 is wound around the web roll 6. Since the marginal portions 8b are held on the outer peripheral surface of the chucks 22 under the suction force, the wrapping sheet 8 cannot be displaced relative to the web roll 6 during the winding operation. Further, since the wrapping sheet 8 is kept under tension during the winding operation due to the suction force applied to the marginal portions 8b and leading portion 8a as described above, irregular folds or creases cannot be produced in the leading portion 8a or the marginal portions 8b.

[0020] In the case when the wrapping sheet 8 is hard, it is preferred that the chucks 22 are substantially equal to the web roll 6 in diameter in order to smoothly wind the wrapping sheet 8 around the web roll 6.

[0021] A second embodiment of the present invention will be described with reference to Figures 4 to 6, hereinbelow.

[0022] The wrapping sheet winding apparatus 11 in accordance with the second embodiment of the present invention comprises a wrapping sheet supply system 13 for supplying the wrapping sheet 8, a web roll supply system 17 for supplying the web roll 6 and a sheet winding system 15 for winding the wrapping sheet 8 around the web roll 6.

[0023] The wrapping sheet supply system 13 includes a cutter section (not shown) which cuts the wrapping sheet 8' in continuous length into a wrapping sheet 8 of a predetermined length longer than the width of the web 4 by a predetermined length, and a conveyor section 19 which conveys it to the position shown in Figure 4a.

[0024] That is, the conveyor section 19 comprises a pair of conveyor rollers 42 and a sheet drawing mechanism 40 which clamps the leading end of the wrapping sheet 8 conveyed by the conveyor rollers 42 and draws the wrapping sheet 8 to a winding position as shown in Figure 6a.

[0025] The sheet winding system 15 comprises a pair of cylindrical chucks 21 and a winding roller 38 which is longer than the web roll 6 and is movable toward and away from the web roll 6 held by the chucks 21 as will be described later. Each chuck 21 comprises a chuck head portion 25 which is adapted to be engaged with the core 2 of the web roll 6 and a suction head portion 23 provided with suction holes 24 on the outer peripheral surface thereof. Each chuck 21 is supported on an up-and-down frame member 36 by way of a cylinder member so that the central axes of the chucks are in alignment with each other. The chucks 21 are driven by the cylinder member 21a toward and away from the each other. The suction head portion 23 of each chuck 21 is smaller in diameter than the web roll 6. Further the suction head portion 23 of each chuck 21 is movable toward and away from the chuck head portion 25 along the central axis of the chuck 21.

[0026] The web roll supply system 17 comprises a bucket conveyor 32 which feeds the web rolls 6 one by one.

[0027] When a web roll 6 is fed by the bucket conveyor 32, the up-and-down frame member 36 moves downward to a position where the chucks 21 are aligned with the web roll 6, and the chucks 21 are driven toward the web roll 6 and brought into engagement with the core 2 of the web roll 6, thereby holding the web roll 6 therebetween. Thereafter, the up-and-down frame member 36 moves upward to bring the web roll 6 to the position shown in Figure 4a and Figure 6a, where the web roll 6 is positioned close to the wrapping sheet 8 hanging from the conveyor rollers 42.

[0028] Then the winding roller 38 moves toward the web roll 6 and presses the wrapping sheet 8 against the web roll 6 as shown in Figure 6b. Figure 5a shows the chucks 21, web roll 6 and the winding roller 38 in this state.

[0029] In this state, the chucks 21 are rotated in the direction reverse to the winding direction to bring the leading edge of the wrapping sheet 8 on the contact line of the roller 38 and the web roll 6 as shown in Figure 5b. At this time, the suction head portions 23 of the chucks 21 are opposed to marginal portions 8b of the leading edge portion 8a of the wrapping sheet 8 at a small distance therefrom.

[0030] Then suction force is applied to the suction head portion 23 and the marginal portions 8b are pulled against the outer peripheral surfaces of the chucks 22 under suction force. Thereafter the chucks 21 are rotated to wind the wrapping sheet 8 around the web roll 6 by 1/2 to 11/12 of the circumference as shown in Figure 6c and 5c. Depending on the length and/or the diameter of the web roll 6, slack (indicated at 8A in Figure 5c) can be produced in the wrapping sheet 8 between the ends of the web roll 6 as shown in Figure 5c. When such slack 8A is produced, the suction head portions 23 are moved outward relative to the chuck head portion 25 as shown in Figure 5d, whereby the wrapping sheet 8 are pulled in opposite directions and the slack 8A is removed. Thereafter the chucks 21 are further rotated to wind the wrapping sheet 8 completely around the web roll 6 as shown in Figure 5e.

[0031] As can be understood from the description above, by sliding the suction head portions 23 by an appropriate distance, production of slack in the wrapping sheet 8 can be prevented even if the length and/or the diameter of the web roll 6 to be wrapped changes, thereby preventing production of irregular folds or creases.

[0032] When the outer diameter of each chuck 21 is substantially equal to the outer diameter of the web roll 6 having a minimum diameter, all the web rolls 6 including wide range of outer diameters can be wrapped with the wrapping sheet 8 with a better appearance by sliding the suction head portions 23 by an appropriate distance.

[0033] Further, the wrapping sheet winding apparatus in accordance with the present invention is advantageous in that the wrapping sheet 8 is firmly held on the chucks and less air is trapped in the wrapping sheet and accordingly the wrapping sheet can be tightly wound around the web roll.

Claims

1. A wrapping sheet winding apparatus for winding a wrapping sheet around a roll comprising a pair of chuck members which are drivingly engaged with a core of the roll and rotate the roll to wind therearound the wrapping sheet which is disposed on the roll so that marginal portions of the wrapping sheet extend beyond the respective side faces of the roll, wherein the improvement comprises suction holes formed on the outer peripheral surface of each of the chuck members.

2. A wrapping sheet winding apparatus as defined in Claim 1 in which each of said chuck members comprises a chuck head portion which is engaged with the core of the roll and a suction head portion which is provided with said suction holes on its outer peripheral surface and is movable toward and away from the chuck head portion along the rotational axis of the chuck member.

Drawing