WO1990006280A1 - Device for moving load-supporting fork arms into an upwardly inclined supporting position - Google Patents

Abstract

In a device for moving fork arms (1) into an upwardly inclined supporting position on a lifting and transporting device (2), the fork arms (1) are mounted on a lifting frame (3) and are swivelled about a horizontal axis (4) into the inclined supporting position by a power-driven traction and swivelling device (5) which is actuated when the fork arms are loaded but before the lifting frame effects the lifting movement. The fork arms and their load are then raised in the same inclined position by the traction and swivelling device (5) with the lifting frame (3). The traction and swivelling device (5) is arranged in the lifting frame (3) and has a point of application (8) of the traction in the form of a pulley and a fork arm pivot in the form of at least one eccentric, wedge or hydraulic cylinder which acts on the fork arms (1). The traction and swivelling device (5) is spring loaded and the unloaded fork arms (1) lie in a horizontal initial position and move automatically against the spring with respect to the lifting frame (3) for a limited distance until the fork arms swivel.

Description

Device for setting load-bearing fork tines in an obliquely upward carrying position

The invention relates to a device for adjusting (tipping) load-bearing fork tines into an obliquely upward carrying position on or for a lifting and transport system, for example a gantry crane.

The load-bearing fork tines of a lifting and transport system extend in a known manner for the load pick-up and the load transport in a horizontal plane and this often causes the tines to tip or tilt downwards, which is disadvantageous for the load pick-up and the load transport affects, since then a safe load suspension is not possible. The object of the invention is therefore to provide a fork tipping device with which the fork tines are automatically brought into an obliquely upward carrying position after the load has been passed horizontally during the subsequent load pick-up, through which a safe load pick-up and a perfect load transport is achieved . In addition, this tipping device should be simple in construction, cost-saving to manufacture and functionally reliable, and be designed for use in various lifting and transport systems.

According to the invention, this object is achieved by the characterizing features of patent claim 1, the design features listed in the individual subclaims also representing advantageous developments of the task solution.

The object of the invention extends not only to the features of the individual claims, but also to their combination.

The fork tipping device according to the invention makes it possible, in a simple and safe manner, after the load on the fork tines has passed horizontally, when the load is subsequently taken up, to automatically tip the fork tines up into a slightly inclined sloping position, so that the load is then safely and securely lifted can be transported. This setting of the fork tines into the inclined carrying position takes place immediately when the fork tines are loaded and only then does the lifting movement of the fork tines occur with the load taken up.

When the load is delivered, the forks are automatically moved back into the horizontal position due to a spring preload.

The tilting device enables roughly a fork tine inclination setting of 5 to 10 °.

The tilting device is of simple construction, can be produced cost-effectively and is sturdy and can be integrated into the various lifting and transport systems and is designed in particular for a ^" overhead crane ^" .

The tilting device according to the invention automatically swivels the fork tines into the inclined carrying position and horizontal starting position without separate energy from the lifting and transport system down to the fork tines, such as electrical lines and electric drives, separate, separately operated devices or the like ., are necessary, but the lifting process converts this lifting movement into the swiveling movement. In the drawings, an embodiment of the invention is shown, which is explained in more detail below. It shows:

1 is a schematic representation of a gantry crane with a fork tipping device,

2 is a plan view of two fork tines that are adjustably spaced apart on a crossbar,

3 shows a rear view of the fork tipping device,

4 shows a longitudinal section through the fork tipping device in the horizontal starting position of the fork tines with an eccentric fork pivot point,

5 shows a longitudinal section through the fork tipping device in the obliquely upward tilted carrying position of the fork tines,

6 is a plan view in partial section of the crossbar of the fork tines pivotably mounted on a lifting frame,

7 shows a longitudinal section through the fork tipping device in a further embodiment in the horizontal starting position with a wedge-shaped fork pivot point, 8 shows a longitudinal section through the fork tipping device in a further embodiment in the horizontal starting position with pressure medium cylinders for pivoting the fork,

9 is a rear view of the fork tipping device according to FIG. 8.

The device for adjusting (tipping) load-bearing fork tines (1) into an obliquely upward carrying position on or for a lifting and transport system (2), such as overhead crane or the like, has a lifting frame (3) the two or more fork tines (1) about a horizontal axis (4) in dependence on a power-operated pulling and pivoting device (5) which takes effect before the lifting frame lifting movement takes effect in the inclined carrying position.

Then the fork tines (1) are lifted with the lifted load while maintaining their inclined position by the pulling and swiveling device (5) with the lifting frame (3).

For the actuation of the pulling and swiveling device (5) and the height movement of the lifting frame (3) with fork tines (1), a motorized cable winch (6) is provided, which is mounted on the crane (2) and its cable (7) to create a pulling force - Attack point (8) of the pulling and pivoting device (5) is guided. The pulling and pivoting device (5) is arranged in the lifting frame (3) and, as mentioned above, has the pulling force application point (8) and a fork tine pivoting point (9), the pulling force application point (8) from one at the upper end the pull and swivel device (5) rotatably mounted pulley (8) and the fork tine pivot point (9), according to the embodiment according to FIGS. 1 to 6, formed by an eccentric (9) rotatably mounted at the lower end in the lifting frame (3) is.

The pulling and swiveling device (5) is held under spring tension and holds the unloaded fork tines (1) in a horizontal starting position and can be moved against the spring tension relative to the lifting frame (3) to a limited stroke for pivoting the fork tines, whereby the rope pulley ( 8) and the eccentric (9) are rigidly connected to one another in the stroke direction.

The fork tines (1) are mounted on a crossmember (10) and are preferably kept adjustable in width spacing from one another. It is preferred to use the truss

(10) two fork tines (1) to be arranged. The crossbeam (10) is mounted so that it can be pivoted in height about a horizontal axis (4), which is arranged at a distance above the eccentric (9), from the horizontal starting position of the fork tines (1) into the oblique carrying position.

The pulling and swiveling device (5) has a pulling frame

(11) which rotatably receives the cable pulley (8) with its axis of rotation (8a) in the upper end region and receives two tie rods (13) with its lower end in pivot bearings (12) which are connected to two eccentrics (9).

The two eccentrics (9) sit on a common axle (14) mounted in the lifting frame (3) and the two drawbars (13) each have an articulated attack on an eccentric lever (15) with their lower end of the length and "cause the drawbar height to shift the rotation of the eccentrics (9) about their axis (14).

For each eccentric (9) system pieces (16) are provided on the traverse (10).

The pull frame (11) is with the axis of rotation (8a) of its pulley (8) in a vertical groove (17) ^"of an intermediate frame (18) against the spring force for the eccentric rotation relative to the intermediate frame (18) and the pull frame ( movable 11) and between the intermediate frame (18) and towing frame (11) a plurality of compression springs (19) are arranged below the cable pulley (8). ^• As can be seen in FIG. 3, the pull frame (11) consists of an upright central strut (11a), two oblique struts (11b) sloping downwards and outwards and a lower, horizontally extending cross strut (11c), the cross strut (11c) with the three struts (11a, 11b) is connected in the pivot axes (20) and axes of the cross strut. (11c) below the swiveling (20) for the ^'inclined struts (11b) of the pivot bearing (12) for the go off both tie rods (13). The rope pulley (8) is rotatably mounted at the upper end of the upright central strut (11a).

The intermediate frame (18) is defined between the lifting frame (3) and the towing frame (11) engages with its upper portion in this intermediate frame (18), said 'd intermediate frame ^(18)' in de ie upright groove (1 ^* 7) for the limited vertical movement of the pulley (8) with a pull frame (11) is provided.

Under the intermediate frame (18) and on the cross strut (11c) several bearing pots (21) are attached, in which the compression springs (19) are supported, which endeavor to pull the pull frame (11) down towards the intermediate frame (18) press and hold the cable pulley (8) with its axis of rotation (8a) against the lower groove base of the groove (17).

These two frames (11, 18) are held in a certain pretension by the springs (19), by means of which the eccentric (9) is turned into the position in which the fork tines (1) have the horizontal starting position. The intermediate frame (18) is formed from metal sheets and the struts (11a to 11c) of the pull frame (11) are formed from double struts or hollow profiles.

The lifting frame (3) is also formed by hollow profiles.

The lifting frame (3) has bearings (22) with which it can be moved vertically on a vertical guide (23), preferably a column, of the crane (2), namely its trolley (2a), and around this guide (23) is rotated by at least 180 °.

4, the fork tines (1) are in a horizontal position and the compression springs (19) have pressed the cable pulley (8) down against the groove base (17a) of the groove (17), the eccentric (9) has been turned into the initial position that does not pivot the forks.

For the load receiving the forks (1) to be driven beneath the load and then causes the winch (6) a pulling force on the cable pulley (8), so ate about their traction cable (7) ^'the rope (7) the pulley (8) the axis of rotation

(8a) with the pull frame (11) and the pull rods (13) against the force of the springs (19) up in the

Grooves (17) of the intermediate frame (18) travels and the eccentric (9) is rotated, acts on the crossbar (10) and swivels it vertically about its pivot axis (4), so that the fork tines (1) move upwards directed oblique carrying position (see. Fig. 5).

Is the rope pulley (8) with its axis of rotation (8a) at the top

Groove end (17b) of the groove (17) struck, then it is separate

Height shift of the pull frame (11) and thus the entire pull and swivel device (5) and also the 1 0

Fork pivoting is completed and then the lifting frame (3) with the fork tines (1) and the lifted load is moved with the further cable pull.

When the load is released, the rope (7) remains under a certain tensile force, but then the compression springs (19) become effective and push the tension frame (11) with rope pulley (8) downwards in the groove (17) and at the same time becomes the eccentric (9) pivoted back through the tie rods (13) in the opposite direction to the starting position, so that the fork tines () also rock back down to the horizontal position.

The preload of the compression springs (19) is greater than the normal tensile force of the rope (7) for holding the lifting frame (3) with the pulling and pivoting device (5) and fork tines (1) in the unloaded position and only when the rope is pulling more strongly (7) the bias of the spring (19) is overcome.

The goods to be lifted and transported can be of a wide variety of types, preferably the goods are stored on pallets that the fork tines (1) can pass underneath without any problems.

7 to 9 show two further versions of the device, which correspond in principle and in function to the device version according to FIGS. 1 to 6 and only show other fork pivoting designs, namely FIG. 7 wedge pivoting and FIG 8 and 9 hydraulic cylinder swivel 7, the pulling and swiveling device (5) is equipped with at least one wedge (24) which is vertically displaceably guided in the lifting frame (3) and is fastened to the pull rod (13) and for swiveling the fork tines about the axis (4) one on the fork tines (1), preferably their contact pieces (16), fixed run-up fingers (25), such as slider, pin, roller or the like.

The wedge (24) is suspended from the lower end of the pull rod (13) and its wedge surface (24a), which interacts with the overrun finger (25), runs obliquely upwards and away from the fork tines (1).

By lifting the pull rod (13) (as in FIGS. 4 and 5) the wedge (24) is moved upwards and its wedge surface (24a) presses the run-up finger (25) outwards, so that the fork tines (1) about the axis (4) swivel upwards into the inclined carrying position.

When the wedge (24) is moved downwards by the spring-loaded pull frame (11), the fork tines (1) swivel back into the horizontal starting position.

According to the further embodiment of FIG. 8 and 9, the tensile and pivot means (5) at least together one of the-draft frame lifting movement and ittelzylinder moved apart pressure ^'(27) as a control cylinder on which, via a pressure medium line (28) having a plurality pivotably mounted in the lifting frame (3) and with the fork tines (1), preferably its contact pieces (16) 1 2

articulated pressure medium cylinders (29) is connected as a pivot cylinder for pivoting the fork tines (1) about the axis (4).

The control cylinder (27) is mounted between the fixed intermediate frame (18) and the cross strut (11c), which can be moved as a function of the rope pulley (8). The pressure medium cylinders (29), which act transversely to the control cylinder (27), are pivotably mounted in the lifting frame (3) by means of joint pieces (30, 31) and are connected to the fork tines (1).

When the pull frame (11) is raised by the rope pulley (8), the control cylinder (27) is moved between the fixed intermediate frame (18) and the cross strut (11c) moving upwards and the pressure medium (hydraulic oil) from the control cylinder (27) pressed out over the pressure medium lines (28) into the swivel cylinders (29), which thereby extend and pivot the fork tines (1) about the axis (4) into the inclined carrying position.

If the pull frame (11) moves down again, supported by the spring forces (19), the control cylinder (27) can move apart again and the pressure medium flows out of the swivel cylinders (29) back to the control cylinder (27).

By changing the pressure medium from one to the other cylinders (27, 29) and vice versa, the fork tines (1) are automatically pivoted.

Claims

13 Patent claims Device for setting load-bearing fork tines in an obliquely upward carrying position on a lifting and transport system, characterized in that the fork tines (1) on a lifting frame (3) about a horizontal axis (4) as a function of a power-operated, when load is raised Before the lifting frame lifting movement takes effect, the pulling and swiveling device (5) that becomes effective can be pivoted into the inclined carrying position and can then be moved in height with the lifting frame while maintaining the inclined position by the pulling and swiveling device (5) with the lifting frame (3). Apparatus according to claim 1, characterized in that the pulling and pivoting device (5) is arranged in the lifting frame (3), has a pulling force application point (8) and a fork tine pivoting point (9), is held in it under spring tension and the holds unloaded fork tines (1) in a horizontal starting position and can be moved against the spring tension relative to the lifting frame (3) on a limited stroke for pivoting the fork tines. Device according to claims 1 and 2, characterized in that the pulling and swiveling device (5) acts as a tensile force application point at the upper end of a rope pulley (8) and as a fork prong pivot point at the lower end of an eccentric (9) rotatably mounted in the lifting frame (3) ) has, with pulley (8) and eccentric 11 (9) are rigidly connected to one another in the stroke direction. 4. Device according to claims 1 to 3, characterized in that on a cross member (10) at least two widthwise adjustable fork tines (1) are fixed and with this cross member (10) by a horizontal, at a distance above the eccentric ( 9) arranged axis (4) are pivotally mounted on the lifting frame (3). 5. Device according to claims 1 to 4, characterized in that a horizontal axis (14) is mounted in the lifting frame (3) in the lower end region, around the two spaced-apart eccentric (9) rotatably support. 6. Device according to claims 1 to 5, characterized in that the pulling and pivoting device (5) has a pulling frame (11) which rotatably receives the cable pulley (8) with its axis (8a) in the upper end region and at the lower one At the end of swivel bearings (12) two tie rods (13) are fixed with one length end, each of which engages with an eccentric lever (15) of an eccentric (9) with its other length end. 7. Device according to claims 1 to 6, characterized in that the pull frame (11) with the axis of rotation (8a) of the pulley (8) in a vertical direction, an upper and one lower stop (17a, 17b) forming groove (17) of an intermediate frame (18) against the spring force (19) for the eccentric rotation relative to the intermediate frame (18) and the lifting frame (3) and between the intermediate frame (18) and the pull frame (11) a plurality of compression springs (19) are arranged below the pulley (8). Device according to claims 1 to 7, characterized in that the intermediate frame (18) is formed by sheet metal plates fixed in the lifting frame (3) and the pull frame (11) is formed by an upright central strut (11a), two oblique struts which extend obliquely downwards and outwards (11b) and a lower cross strut (11c) is formed, the pulley (8) in the upper end of the upright. The center strut (11a) is supported and the upright tie rods (13) are held in the swivel bearings (12) on the cross strut (11c). Device according to claim 8, characterized in that the struts (11a to 11c) are formed by double struts or hollow profiles, the struts (11a, 11b) are connected to the cross strut (11c) in pivot bearings (20) and under the intermediate frame ( 18) and a plurality of bearing pots (21) are arranged on the cross strut (11c), between which pressure springs (19) are supported for the pretensioning of the pulling and pivoting device (5). % 10. Device according to claims 1 to 9, characterized in that the lifting frame (3) with bearings (22) on a vertical guide (23), preferably column, is vertically displaceable and about this guide (23) is rotatably supported by at least 180 ° . 11. The device according to claims 1 to 10, characterized in that the guide (23) on the trolley (2a) of a crane (2) is suspended and on the crane (2) a winch (6) is arranged, the rope (7th ) around the pulley (8) of the pulling and swiveling device (5) for the lifting movement. . 12. The apparatus of claim 1 and 2, characterized in that the pulling and pivoting device (5) has a pull frame (11) with pulley (8) as a tensile force attack and at least one in the Hubrahmeπ (3) vertically displaceably guided on a pull rod (13) of the pull frame (11) has a fixed wedge (24), which is attached to the fork tines (1 ⁾ - contact pieces (16) - fixed run-up fingers (25), such as a slide, roller or the like, for pivoting the fork tines ( 1) interacts around its axis (4) (Fig. 7). 13. The apparatus according to claim 12, characterized in that the wedge (24) fastened at the lower end of the pull rod (13) is mounted in a guide (26) of the lifting frame (3) so as to be vertically displaceable and its wedge surface cooperating with the run-up finger (25) ( 24a) runs diagonally upwards and away from the forks (1). , -. 14. The apparatus according to claim 1 and 2, characterized in that the pulling and pivoting device (5) has a pull frame (11) with a pulley (8) as a pulling force application point and with at least one of the pulling frame lifting movement which can be moved together and apart Pressure fluid cylinder (27) as a control cylinder, which has a pressure fluid line (28) with several, pivotally mounted in the lifting frame (3) and with the fork tines (1) - its contact pieces (16) - articulated pressure fluid cylinders (29) as a pivot cylinder for pivoting the Forks (1) are connected about their axis (4) (Fig. 8 and 9). 15. The apparatus according to claim 14, characterized in that the control cylinder (27) is mounted between a fixed intermediate frame (18) and a cross strut (11c) which is height-adjustable as a function of the cable pulley (8) and which is transverse to the control cylinder (27) Effective pressure medium cylinder (29) by means of joint pieces (30, 31) pivotally mounted in the lifting frame (3) and connected to the fork tines (1).