(19)
(11)EP 0 102 123 A2

(12)EUROPEAN PATENT APPLICATION

(43)Date of publication:
07.03.1984 Bulletin 1984/10

(21)Application number: 83201213.2

(22)Date of filing:  18.08.1983
(51)International Patent Classification (IPC)3B66C 13/54, B66C 23/14
(84)Designated Contracting States:
AT BE CH DE FR GB IT LI LU NL SE

(30)Priority: 26.08.1982 NL 8203338

(71)Applicant: FRANS SWARTTOUW B.V.
NL-3008 JC Rotterdam (NL)

(72)Inventor:
  • Van Deijk, Jan Dirk Albert
    NL-2991 PJ Barendrecht (NL)

(74)Representative: van der Beek, George Frans, Ir. et al
Nederlandsch Octrooibureau P.O. Box 29720
2502 LS 's-Gravenhage
2502 LS 's-Gravenhage (NL)


(56)References cited: : 
  
      


    (54)Double link level luffing crane


    (57) To enable the crane driver of a double link level luffing crane to adapt the height of his cab above the ground to the size of the ship to be loaded or unloaded, the drivers cab (25) is mounted at the end of a separate cab link (26) having a hinge connection with a carriage (27) movable on the strut member (4) of the crane.




    Description


    [0001] The invention relates to a double link level luffing crane comprising a base, a jib including a strut member hinged to the base, a backstay member hinged to the base and a jib head member, drive means for luffing the crane in and out, a hoisting equipment, a drivers cab mounted on a cab link, and means for pivoting the cab link during luffing of the crane so that the drivers cab moves along a substantially horizontal path.

    [0002] Such a crane is known from German Auslegeschrift 1,161,669.

    [0003] In luffing a double link level luffing crane the pulley block at the free end of the jib head member will move along a substantially horizontal path. This means that also the load moves along a substantially horizontal path and the free length of the cable of the hoisting equipment remains equal. As a consequence the crane driver is relieved and higher turning and luffing speeds are possible. An important advantage of the double link level luffing crane is that the length of the cable underneath the pulley block is rather small, so that the positioning of the grab is easier and the grab is less liable to swinging.

    [0004] In addition the crane according to said German Auslegeschrift is advantageous as the crane drivers cab will move along a substantially horizontal path during the luffing movement and the driver will have a good position for observation of the loading and unloading. However, the height position of the cab is fixed. In the shown embodiment this position is rather low and as a consequence it is unsuitable for loading and unloading of a rather big ship. If the fixed height position of the cab would be chosen much higher, the crane driver in loading or unloading a rather small ship would be at such a big height that his sight on the ship and especially on the load in the hold would be poor.

    [0005] The object of the invention is to give the cab of a crane mentioned in the preamble such a position that the crane driver may have an optimal sight on the loading and unloading whereas the height of the cab can be chosen.

    [0006] Therefore according to the invention the crane mentioned in the preamble is characterized in that the cab link has a hinge connection with a carriage movable on the strut member.

    [0007] The cab will move along with the luffing movement of the strut member. The strut member is a strong stable construction, so that the crane driver is subject to rather small vibrations. It is important that the crane driver during the luffing in and the luffing out undergoes a rather small up and downwards movement as this movement could cause sickness and fatigue.

    [0008] The angular position of the cab link may be modified with respect to the carriage by hydraulic cylinders or screw spindles, control means being present to maintain the longitudinal direction of the cab link substantially parallel to the longitudinal direction of the jib head member during the luffing of the crane.

    [0009] When the pivoting movement is controlled by a hydraulic equipment it could be advantageous that the movement of the carriage along the strut member always takes place by hydraulic means. For instance use is made of hydraulic motors driving gears meshing into racks. Such a hydraulic equipment is heavy (for instance more than 6 tons) and may lead to vibrations having a frequence less than 1 Herz which are especially inconvenient for the crane driver.

    [0010] To avoid this disadvantage according to the invention the cab link is connected at one end to the cab, whereas the other end is hinged to at least one telescopic cab backstay member mounted between the backstay member and the strut member of the crane and the lower end of which being hinged to the base of the crane.

    [0011] In this system the cab link, the strip member and the cab backstay member form a mechanism substantially similar in form as the luffing system of the crane, whereby the strut member of the crane and the strut member of the cab coincide. To avoid heavy driving machines on the cab link or the carriage of the cab link, the carriage could be pulled upwards along the strut member by cables wound on a winch drum.

    [0012] Preferably said cab backstay member may te retracted and telescoped out by cables wound on a winch drum, the winch drums for the cables of the carriage and the winch drums for the cables of the telescopic cab backstay member being mounted on the same drive shaft.

    [0013] The telescoping of the cab backstay member can take place easier if in the entirely luffed in position of the crane the cab link is in contact with a stop member of the carriage and displacement of the carriage leads to retracting and telescoping out of the cab backstay member. In that case winches for operation of the cab backstay member are not necessary.

    [0014] To make it easier for the cab driver to get in or out his cab, it is preferred that the crane comprises a platform and in the lowest position of the cab carriage and in the entirely luffed in position of the crane the cab is immediately nearby the platform.

    [0015] The invention will now further be elucidated with the aid of the figures in which two embodiments are shown.

    Figures 1 and 2 show a side view of a first embodiment of a floating double link level luffing crane according to the invention in the luffed out and luffed in position respectively.

    Figures 3 and 4 show a side view of the second embodiment of a double link level luffing crane according to the invention in the luffed out and luffed in position respectively.

    Figure 5 shows a side view of the end of the strut member including the carriage of the embodiment according to figures 3 and 4.

    Figure 6 shows a plan view of the end of the strut member according to figure 5.



    [0016] The floating double link level luffing crane according to figures 1 and 2 includes a base 2 turnable mounted on a pontoon 1 and a crane jib 3 which may be luffed in and luffed out and which substantially consists of a strut member 4, a backstay member 5 and a jib head member 6. The lower end of the strut member and the backstay member are hinged to the base 2 at 7, 8 respectively, whereas the jib head member is hinged to the strut member and the backstay member at 9, 10 respectively. In comparising the luffed out position according to figure 1 and the luffed in position according to figure 2, it appears that the pulley block 12 at the free end of the jib head member 6 remains at substantially the same height during the luffing movement and as a consequence moves along a substantially horizontal path. This means that the length of the free cable of the hoisting equipment remains equal.

    [0017] The hoisting equipment includes a grab 13, winches 14 and cables 15 extending from the winches over some guide discs to the grab.

    [0018] The luffing in and luffing out takes place with the aid of a hydraulic luffing cylinder 16. For balancing use is made of a fixed counterweight 17 forming a part of the machine housing 18 and a movable counterweight 19. The latter is connected through levers 21 to the base 2 and through levers 22, 23 and 24 to the strut member 4.

    [0019] The crane drivers cab of usual constructions has a fixed position mostly right under hinge point 7. On the contrary the cab 25 of the shown constructions is mounted at the end of a cab link 26 which on its turn is hinged to a carriage 27 movable along the strut member 4 of the crane.

    [0020] In figures 1 and 2 the carriage may be driven by non shown hydraulic motors which drive gears meshing into toothed racks along the strut member 4.

    [0021] To take care that the crane driver during luffing movements of the crane moves along a substantially horizontal path, the angular position of the cab link 26 with respect to the carriage 27 should be modified by means of hydraulic cylinders 28. By a suitable control of these cylinders, the longitudinal direction of the cab link 26 remains substantially parallel to the longitudinal direction of the jib head member 6 of the crane. Compare figures 1 and 2.

    [0022] To allow the crane driver to reach his cab 25 easily, the cab, in the entirely luffed in position of the crane and the lowest position of the carriage 27, may be just above or next to a platform 29 secured to the base or another part of the crane.

    [0023] The most important advantage of the disclosed crane is that the drivers cab 25 may always be moved in such a favourable position that the crane driver has the best position for the observation of the loading and unloading. By luffing the crane in and out, the cab will move along a substantially horizontal path which is good for the comfort of the driver.

    [0024] The rather heavy hydraulic equipment on the carriage 27 is expensive and this equipment may also lead to vibrations of less than 1 Herz which are inconvient for the driver. Therefore the crane according to figures 3 - 6 will often be preferred.

    [0025] Corresponding parts in figures 1 and 2 on the one side and in figures 3 - 6 on the other side have got the same reference numbers.

    [0026] The most essential differences with the embodiment according to figures 1 and 2 are that the cab link 16 has a hinge connection with at least one telescopic cab backstay member 23 and the carriage 27 may be moved by a winch equipment rather than by hydraulic motors.

    [0027] It appears from figures 5 and 6 that the carraige 27 may be guided with respect to the strut member 4 by sets of wheels 33 and side guide wheels 34. Some of the wheels 33 and 34 are mounted on a pivot lever 35 which is pushed by a Belleville spring 36 towards the strut member 4 so that a certain clearance is removed. To block the carriage in the working position and to may brake the carriage at the end of a movement, use is made of brake discs 37 co-operating with brake rails 38.

    [0028] As mentioned above the carriage is displaced by a winch equipment. This equipment includes two cables 39 extending each from a winch drum 41 along the strut member 4 over a disc 42 at the end of the strip member, over a disc 43 on the carriage 27 to a fixed connection point 44 on the strut member. Two discs 42 are rotatably mounted with respect to a rocker piece 45 swingably mounted on the strut member 4.

    [0029] It will be clear that winding the cables 39 on their winch drum the carriage 27 is pulled upwards along the strut member 4, whereas by winding off the cables 39, the carriage may move downwards.

    [0030] As the cab link 26 is connected with the carriage 27 as well as with the upper end of the cab backstay members 32, these cab backstay members must be made shorter when the carriage 27 is displaced. Therefore use is made of two cables 51 extending from a winch drum 41 over guide rolls 52, 53 and over a guide roll 54 at the end of the cab backstay members to a fixed point 55 on the base. The winch drums 41 for the cables 51 and the winch drums 41 for the cables 39 are mounted next to each other on the same drive shaft; the first named drums are made smaller than the second named drums corresponding to the ratio of the length of the path covered by the carriage 27 and the adjusting path of the cab backstay members 32.

    [0031] The drums 41 are driven by hydraulic motors whereas on the outer circumference of the motors band brakes engages.

    [0032] When the carriage 27 is pulled upwards, the cables 39 are wound on their winch drums and the cables 51 are wound off from their winch drums. On the other hand the cables 39 will be wound off from their winch drums and the cables 51 will be wound on their winch drums when the carriage 27 moves downwards.

    [0033] In each operating position of the cab link 26 the length of the cab backstay members 32 is fixed by hydraulic clamping members. The most important aim of the backstay members 32 is to stabilize the lever quadrangle: strut member 4, cab link 26, base 2 and cab backstay member 32; in each working position the cab will move along an approximately horizontal path when the crane is luffed in or luffed out without hydraulic driving means.

    [0034] For compensation of different lengths of the cables 51 hydraulic tension cylinders are mounted at the position of the fixed points 55.

    [0035] Several modifications of the shown and disclosed constructions are possible within the scope of the claims.

    [0036] One of the alternatives is a construction which is rather similar to the construction of figures 3 - 6 and which differs therefrom by the fact that no separate winch equipment for the backstay members 32 of the cab are present. Instead one has taken care that the cab link in the entirely luffed in position of the crane engages a stop member of the cab with a big force (for instance about 30.000 N). As a consequence thereof the cab link can not pivot when the carriage 27 is moved along the strut member 4 by the cables 39, whereas the cab backstay members 32 will telescope in and telescope out. To move the cab of this alternative construction to another heigth position, the following actions must be carried out; the crane is completely luffed in; the backstay members 32 and the carriage 27 are unlocked; the carriage is brought to the desired height by the cables 39 and the winch equipment 41 whereby the backstay members 32 will automatically slide in and slide out; finally the cab carriage 27 and the backstay members 32 are locked.

    [0037] There are also other possibilities to prevent the pivoting movement between the cab link 26 and the carriage 27 temporary and to provide the possibility of retracting and telescoping out the backstay members 32 automatically when the carriage 27 is displaced.


    Claims

    1. Double link level luffing crane comprising a base, a jib which consists of a strut member hinged to the base, a backstay member hinged to the base and a jib head member, drive means for luffing the crane in and out, a hoisting equipment, a drivers cab mounted on a cab link, and means for pivoting the cab link during the luffing movement of the crane so that the drivers cab moves along a substantially horizontal path, characterized in, that the cab link (26) has a hinge connection with a carriage (27) movable on the strut member (4).
     
    2. Double link level luffing crane according to claim 1, characterized in, that the angular position of the cab link (26) with respect to the carriage (27) may be modified by hydraulic cylinders (28) or screw spindles, and that control means for controlling these cylinders or spindles are present to maintain the approximately parallel orientation of the longitudinal direction of the cab link (26) with respect to the longitudinal direction of the jib head member (6) during the luffing movements of the crane.
     
    3. Double link level luffing crane according to claim 1, characterized in, that the cab link (26) is connected at one end to the cab (25) and that the other end of the cab link has a hinge connection with at least one telescopic cab backstay member (32) mounted between the backstay member (5) and the strut member (4) of the crane, the lower end of the cab backstay member having a hinge connection with the base (2) of the crane.
     
    4. Double link level luffing crane according to claim 3, characterized in, that the carriage (27) may be pulled upwards along the strut member (4) by cables (39) wound on a winch drum (41).
     
    5. Double link level luffing crane according to claim 4, characterized in, that said cab backstay member (32) may be retracted and telescoped out by cables (51) wound on winch drums (41), the drums (41) for the cables (39) of the carriage (27) and the winch drums (41) for the cables (51) of the telescopic cab backstay member (32) being mounted on the same drive shaft.
     
    6. Double link level luffing crane according to claim 4, characterized in, that in the entirely luffed in position of the crane, the cab link (26) is in contact with a stop member of the carriage (27) so that a displacement of the carriage leads to a telescoping movement of the cab backstay member (32).
     
    7. Double link level luffing crane according to one of the preceding claims, characterized in, that in the lowest position of the cab and the entirely luffed in position of the crane, the cab (25) is immediately nearby said platform.
     




    Drawing