DE1199951B - Climbing winch - Google Patents

Description

Climbing winch The invention relates to a hydraulic climbing winch for lifting and lowering a either resting on the climbing winch or on one Climbing winch attached load, which two U-shaped, the smooth climbing pole to Gripping heads with clamping jaws encompassing two spaced-apart places which are moved by hydraulic cylinders, the jaws alternating Establish a connection between the gripping heads and the climbing pole, so that a gradual relative movement between the climbing pole and the climbing winch is achieved.

A known winch of this type has the climbing pole concentric enclosing rings and therefore cannot be attached to the rod from the side. Another known winch cannot climb in either direction on a pole and can only be attached to the side if the tabs and side pieces of a slide loosened or fasteners removed. But that is practical on the construction site not possible; the parts are too small and would be lost. Besides, the training is and storage of the gripper as well as the control very complicated, since the slide between the gripping heads and pistons are provided.

The invention avoids these disadvantages and creates a climbing winch, which can be attached to the bar from the side and climbs up and down. According to the invention, this is achieved essentially in that in a known per se Way wedge-shaped, spring loaded jaws with one side directed Tips are provided, which are located with their back surfaces on associated inclined surfaces of the gripping heads, with the inclined surfaces on the inside of the legs the U-shaped gripping heads are arranged, and that the clamping jaws have pins, on which mechanical switching elements attack for the inevitable intervention control. The arrangement allows direct actuation in addition to the lateral insertion of the rod and climbing up and down.

It is advantageous to use the U-shaped as switching elements at the ends of the legs Gripping heads running parallel to the horizontal bars of the gripping heads in the working position, Clamping jaw lifter directed against one another and displaceable in the horizontal direction provided, which have lugs provided with inclined sliding surfaces, along which the pins of the clamping jaws slide when the clamping jaw lifter is moved, the displacement of the jaw lifters is effected by an eccentric drive. On the other hand, can be used as switching elements parallel to the direction of movement of the winch Provide extending and longitudinally displaceable shift rods, which on the pins of the clamping jaws arranged in the one gripping head are articulated and enclose the pins of the jaws of the other locking mechanism by means of two stops, and that for locking the jaws in their engaged and open position two-armed rocker arms are pivotably mounted at the ends of the legs of the gripping heads, which are hinged to the pin with one arm and the other arm movably arranged on the legs, spring-loaded rollers rest.

Two embodiments of the invention are shown in the drawings. It shows F i g. 1 is a front view, partly in section, of a climbing winch according to FIG of the invention, FIG. 2 is a plan view of FIG. 1, Fig. 3 is a side view to F i g. 1, Fig. 4 a schematic perspective projection of details of the climbing winch, F i g. 5 one of the F i g. 1 corresponding front view of another embodiment the invention, in which the climbing takes place automatically, F i g. 6 a side view, partly in section, to F i g. 5, Fig. 7 climbing winches in use with a construction crane, F i g. 8 climbing winches in use for lifting floor slabs in a building frame, F. i g. 9 different ways in which the jaws of the climbing winch are different Profiles can grab and F i g. 10 how a climbing winch for particularly large ones Can be used lifting objects.

The movement ratio between the climbing winch and the climbing pole is relative in nature. Either the winch and the rod can be fixed be moved, or the rod can be fixed and the winch including climb up or down along the load. The in F i g. 1 to 3 shown Climbing winch works with hydraulic pressure medium. The climbing winch consists of two substantially U-shaped, rigid gripping heads 3 a, 3 b, each of which is a Pair of wedge-shaped gripping jaws 9 a, 9 b carries, which by means of compression springs 11 between the climbing pole 1 and the gripping heads are wedged. The gripping heads are inclined sliding surfaces inclined towards the rod. The surfaces resting against the climbing pole 1 the gripping jaws 9 have teeth or other friction-enhancing coverings in order to prevent the gripping jaws from slipping along the rod when it is firmly seated.

To control the gripper jaws 9, gripper jaw lifters 12 are provided, each of which by means of a running in an elongated hole in the jaw lifter Screw 13 is slidably attached to the gripping heads 3. Moving the Gripper jaw lifter is carried out by means of a in a transverse slot in the gripper jaw lifter running crank pin 4, which is mounted eccentrically on a shaft 14, the in turn rotatable with the aid of an operating lever 16 or by means of remote control is.

At the end facing the rod, the gripping jaw lifters 12 are provided with a nose 5 which has an inclined sliding surface 6. The gripping jaws 9, which, as already mentioned, are held in the wedged position by compression springs 11, have a pin 10 which, when the gripping jaw lifter is moved outward, slides upwards on the sliding surfaces 6 of the lifting lug 5, whereby the gripping jaws 9 are lifted and thereby the rod 1 free give.

Between the two gripping heads 3 there are two attached in parallel Lifting cylinder 8, the cylinder 8 b by means of screws 2 on the gripping head 3 b and their Pistons 8a are also attached to the gripping head 3 a by means of screws 2. The gripping heads 3 are also connected to each other by spring members 7, which the lifting cylinders counteract. The lifting cylinders can also be double-acting, in which case the spring members 7 are unnecessary.

When lifting the bar 1 with the load attached, the climbing winch works according to FIG. 1 to 3 as follows: The climbing winch is firmly mounted and the rod is inserted from the side between the gripping jaws 9. The gripping heads are held in the rest position by the springs 7 in the position in which they are closest to each other. Both pairs of gripping jaws 9 are guided into engagement with the rod, and then pressure medium is admitted into the cylinder 8b. As a result, the gripping heads 3 are removed from one another, ie, since the climbing winch is in a fixed arrangement with the gripping head 3 b carrying the cylinders 8 b, the upper gripping head 3 a is shifted upwards. Thanks to the design of the gripping jaws 9 with wedge-shaped contact surfaces against the gripping heads, the gripping jaws 9a are firmly wedged between the rod 1 and the gripping head 3 a, the rod 1 being lifted during the upward movement of the piston 8 a. During this upward movement of the rod 1, the lower gripping jaws 9b slide a little upwards on their sliding surfaces on the lower gripping head 3b and thereby come out of engagement with the rod 1, which can consequently slide freely between the jaws 9b.

When the pistons 8 a have reached their highest position, the Pressure in the cylinders eased somewhat, so that the upper gripping head 3 a easily drops, the lower gripping jaws 9 b engaging directly in the rod 1 and hold it so that it cannot sink any further. The rod 1 with her Load is now in secure engagement with the lower jaws 9 b, and the pressure in the cylinders can be completely released, so that the upper gripping head 3 a is caused by the compression spring members 7 to retract the piston 8 a in the cylinder 8 b to approach the lower gripping head 3 b. Then a new lifting process can be started.

When lowering rod 1 with the load attached, the process is as follows: While the rod rests firmly in the lower jaws 9 b, the upper jaws 9 a guided away from the rod with the aid of the gripper jaw lifter 12. Then will the upper gripping head 3 a raised to about 10 mm below its highest position, where the upper jaws 9a with the aid of the jaw lifter 12 again engage be demonstrated with the pole. Then the upper gripping head 3 a is the remaining Pressed 10 mm up to its highest position. During this last phase During the upward movement, the upper gripping jaws 9a grip the rod 1 and hold it fixed. Then the lower jaws 9 b out of engagement with the Rod loosened, the pressure in the lift cylinders released, and the pistons and with it the upper jaws 9a with the rod 1 lower down to about 10 mm above the lowest position. In this position, the lower jaws 9 b in Engaged with the rod, whereupon the rod drained the remaining 10 mm so that the lower jaws get a secure grip. The whole The process can now be repeated.

If the climbing winch itself can be moved instead of the rod 1 should, the entire unit must be turned over so that the gripper jaws in wedged in the opposite direction. The imaginary vertex of the inclined surfaces on the gripping heads point upwards. The work is done in the same way as it is when the rod is moved has been described.

F i g. 5 and 6 show another embodiment of the climbing winch according to the invention, wherein the climbing process is automatic even when lowering the load expires. A climbing winch according to this embodiment is particularly useful, when the climbing process and especially the downhill climbing extends over longer distances extends.

The climbing winch according to this embodiment is essentially in constructed in the same way as that described above except of that, that the compression springs 11 are missing on the gripping jaws and the gripping jaw lifter 12 one have more secondary function.

The jaws are controlled in place of the vertical by a pair of shift bars 26 into engagement and out of engagement with the climbing pole. 1 This shift rods are hinged b to the control pin 10 of the lower gripping jaws 9 and operate automatically alternately when lowering the climbing pole, the lower and the upper gripping jaws 9, which is approximately opposite the upper gripper jaw pin 10 mounted at the upper gripping jaws by means of the shift rails 26 tabs 27 and stops 28 are made which engage the pegs and guide the gripping jaws up or down to disengage from or engage the climbing pole. The gripping jaws can be locked in their respective end positions with the assistance of rocker arms 29 and eccentrically mounted rollers 30 in that the control pins 10 engage with a certain amount of play in holes in the roughly centrally pivoted tilting members 29 , the outer ends of which are pretensioned by torsion springs 31 Eccentric rollers 30 are held in an upwardly or downwardly pressed position.

When the winch is climbing up, the switching rods 26 are pivoted slightly outwards into the rest position so as not to engage the other gripping jaw pins 10 . When climbing down or lowering a climbing pole with a load, however, the shift rods must be in the working position, that is, they must be pivoted towards the winch in order to engage in the control pin 10 of the gripping jaws.

The gripping jaws work in the same way in this embodiment Way as described above, but with the control instead of manual takes place automatically.

The shift rods are held in the working position by means of a clamping bolt arrangement attached to the upper end of the rod, which consists of a U-shaped bracket 32, the leg ends of which are firmly connected to the outside of the shift rods, and a bolt that runs freely through the web 33 of the bracket in a fixed bushing 34, which is provided at its end facing the climbing pole 1 with a fixed contact plate 35 and at the opposite end with an axially secured stop member in the form of a disk 38. The bolt is by means of an adjusting nut 37 provided with a crank on the outside of the bracket web 33 between an inner position in which the contact plate 35 abuts against the climbing pole 1 and the stop disc 38 rests against the adjusting nut 37, and an outer position in which the contact plate 35 rests against a bushing 39 surrounding the bolt 34 , axially displaceable. In the inner end position of the bolt, the contact plate 35 is not pressed hard against the climbing rod 1, but only rests loosely against the rod and thus prevents the climbing rod from getting jammed between the contact plate 35 and the switching lugs 27 of the shift rods.

When lowering the climbing pole with a load, the climbing winch works as follows according to this embodiment: The starting position of the winch is shown in FIG. 5, that is, the upper jaws 9 a are free and the lower jaws 9 b are in engagement with the climbing pole 1. The winch is pulled together, ie the gripping heads 3a, 3b are closest to each other. When the cylinder is pressurized, the upper gripping head 3a is raised on the climbing rod 1 until the control pins 10 of the gripping jaws 9a hit the stops 28 of the shift rods, the outer ends of the rocker arms 29 pressing the eccentric rollers aside and moving into their upper positions snap in, ie held pressed up by the rollers 30. The inner ends of the rocker arms keep the pin 10 pressed down so that the gripping jaws 9 a engage in the climbing pole.

The upper gripping head 3a now continues its way up a little continued, the shift rods being lifted from the pins 10 of the upper gripping jaws while pulling the lower jaws 9 b upwards so that the outer ends the lower rocker arm snap into its lower position, while at the same time Conversion of the lower jaws 9 b in their upper, free from the climbing pole End position.

When the pressure in the lifting cylinders subsequently decreases, the springs 7 pull the gripping heads 3 a and 3 b towards each other again, the lower gripping jaws 9 b being guided freely upwards from the rod and pulling the shift rods 26 with them until their shift lugs 27 open hit the control pin 10 of the upper gripping jaws. The control pins are secured by the load hanging on the rod, so that the shift rods are pushed downward until the outer ends of the lower rocker arms 29 snap into their upper positions and are held up by the eccentric rollers 30. At the same time, the lower gripping jaws are brought into engagement with the climbing rod and locked, the lugs 27 of the shift rods pressing the control pins of the upper gripping jaws upwards with further upward movement, while the climbing rod rests in the lower gripping jaws. The upper gripper jaws loosen and the entire work cycle can be repeated.

If for any reason the upper gripping jaws should not be released from their engagement with the climbing rod during the latter phase, the lugs 27 of the shift rods slide due to their conical stop surface on the conical surface of the pin heads 10, the climbing rods 26 being pressed outwards, see above that the pins 10 and lugs 27 can pass each other. This is possible in that the clamping bolt 34 is pretensioned in the bracket 32 at the upper end of the shift rods by means of a compression spring 36 which can be compressed in such a way that the shift rods can pivot out of their working position. The spring device thus represents a safety measure which is taken to prevent damage to the climbing winch or one of its parts in the event that the above situation occurs.

When the winch climbs upwards, the shift rods 26 are locked in their outwardly pivoted, ineffective position by a cotter pin guided through holes 40 in the legs of the bracket 32.

F i g. 7 shows an example of the use of climbing winches according to the invention when lifting a stationary construction crane a few storeys. The construction crane is provided with climbing poles 1. In this case, the climbing winches are firmly mounted on an appropriate base 19 in the top floor plan. The climbing winches, which are hydraulic in this case, are connected to an oil pump 21 by means of lines 20. The construction crane is first lifted a little above the desired height and then lowered onto a specially arranged ceiling 22, whereupon the climbing winches can be removed from the side of their climbing poles and used for other purposes. This example clearly shows the great advantage of climbing winches according to the invention. The winches are easier to assemble, take up very little space, have a high lifting capacity and can be easily removed after use. They are also extremely safe from an accident prevention standpoint.

F i g. 8 shows another example of the applicability of the climbing winches according to the invention. In this case, it is the lifting of floor slabs to different floor heights in a building under construction. A building skeleton is erected to its full height using the sliding formwork method, and the top floor ceiling 23 is completely cast on the working deck of the sliding formwork. The remaining floors 24 of the building are already pre-cast one on top of the other and are stored on the ground. Climbing poles 1 are attached to the top floor ceiling, which has already been cast. The climbing winches 25 are attached to the poles 1 and attached to the floor slabs 24 , which are then lifted one by one to their respective height and cast there. This example also shows the value of the climbing winches according to the invention for the rationalization of the construction industry.

F i g. 9 shows various examples of profiles for climbing poles, which can be used in connection with climbing winches according to the invention.

F i g. 10 shows how different profiles can be achieved by welding or can be attached to particularly large objects in another way, using Climbing winches are to be raised or lowered according to the invention.

Examples of areas of application that can be mentioned are: Placement heavy parts, e.g. B. cast ceilings od. Like. In a building during its creation. Lifting composite construction units that are otherwise in smaller units transported to the application site at significantly higher costs and assembled there be e.g. B. roof structures, cranes or the like.

Successive lifting of prefabricated structural parts from below are to be connected, z. B. in containers.

Lifting sunken ships.

Lift fully or partially completed bridge decks onto theirs final place.

Claims (3)

Claims: 1. Hydraulic climbing winch for lifting and lowering a load either resting on the climbing winch or attached to a climbing pole, which has two U-shaped gripping heads with clamping jaws, which encompass the smooth climbing pole at two spaced-apart points and which are moved by hydraulic cylinders , whereby the clamping jaws alternately establish a connection between the gripping heads and the climbing pole, so that a gradual relative movement is achieved between the climbing pole and the climbing winch, characterized in that wedge-shaped, spring-loaded clamping jaws (9a, 9b ) are provided with tips directed to one side, which are supported with their back surfaces on associated inclined surfaces of the gripping heads, the inclined surfaces being arranged on the inner sides of the legs of the U-shaped gripping heads (3a, 3b) , and that the clamping jaws (9a, 9 b) pin (10) on which to Inevitable intervention control attack mechanical switching elements (12, 26). 2. Climbing winch according to claim 1, characterized in that as switching elements at the ends of the legs of the U-shaped gripping heads (3 a, 3 b) parallel to the horizontal bars in the working position of the gripping heads, mutually directed and horizontally displaceable clamping jaw lifters ( 12) are provided, which have lugs (5) provided with inclined sliding surfaces (6), along which the pins (10) of the clamping jaws (9a, 9b) slide when the clamping jaw lifters (12) are moved, the displacement of the clamping jaw lifters ( 12) is effected by eccentric drives. 3. Climbing winch according to claim 1, characterized in that as switching elements extending parallel to the direction of movement of the winch and displaceable in its longitudinal direction switching rods (26) are provided, which on the pin (10) of the one gripping head (3 b) arranged clamping jaws ( 9b) are hinged and enclose the pins (10) of the clamping jaws (9 a) of the other clamping mechanism by means of two stops (27, 28), and that to lock the clamping jaws (9a, 9b) in their engaged and open position on the Ends of the legs of the gripping heads (3 a, 3b) two-armed rocker arms (29) are pivotably mounted, which are articulated with their one arm on the pin (10) and with their other arm on spring-loaded rollers (30) movably arranged on the legs issue. Documents considered: Austrian Patent No. 214 607; British Patent No. 761118; U.S. Patent Nos. 1,117,516, 2,673,067, 2841961.