FR2999166A1 - Handling structure for transportation of pallet truck by forklift truck during loading pallets to e.g. trailer of lorry, has plate tilted by weight of handling machine loaded up to rear end of plate in loaded position - Google Patents

Abstract

The structure has a metal plate (5) for forming storage surfaces for a handling machine. The plate is articulated relative to a frame (3) around an axis (A), where a center of gravity of the plate is shifted towards a front direction of the structure relative to the axis. The plate is movable between rest and loaded positions. The plate is tilted towards the front direction, and a front end (13) of the plate touches the ground in the rest position. The plate is lifted by a weight of the handling machine loaded up to a rear end of the plate in the loaded position.

Description

The present invention relates to a handling structure for transporting a first handling machine, for example a pallet truck, by means of a second handling machine, for example a forklift truck. . Forklift trucks and pallet trucks, such as pallet trucks and forklifts, make it possible to move heavy loads quickly and efficiently. When loading / unloading a transport such as a truck, train or semi-trailer, a difficulty arises due to the elevation of the storage space (trailer, wagon, etc.) relative to the ground level. Indeed, the usual forklift trucks can not access the interior of said transport space, and therefore must therefore be content to be able to raise and unload the goods on the edge near an opening of the storage space. It is known to place loading / unloading docks in the large logistics distribution centers, which platforms make it possible to bring the handling equipment to the floor of the storage space, and thus to cause them to circulate in said storage space. However, these platforms represent a significant investment and consume space, which makes them unsuitable for occasional deliveries or smaller volume. The ramps allow easy access and versatile use, but often limit the weight and dimensions of the machine that can pass over the ramp. It is also known to have elevators or tail lifts at the rear of trucks or at the place of unloading. These lifts and lifts are also expensive, and are specifically related to either a vehicle or a specific unloading point. The so-called on-board pallet trucks or stackers have support points located BRT0952 -2- on spars on the front of the fork which are retractable, which allows unloading from a truck or van without equipment the other by first placing the load on the edge of the truck, the pallet truck passing over said rim, then, by retracting the support points, down the pallet truck by means of the fork lift control. Once the pallet truck at ground level, the supports are redeployed, and the unloading is done in the usual way. These onboard stackers, however, have limited load capacity (often 500 to 1000kg) which limit their use to light loads.

To mitigate at least partially the aforementioned defects, the invention relates to a handling structure for the transport of a first handling machine, comprising: - a frame forming a ground support, comprising at least one input for forks d a second handling machine intended to lift the structure, a storage surface plate for the first handling machine, characterized in that the plate is articulated with respect to the chassis about an axis with respect to which the center of gravity of the tray is shifted to a forward direction of the structure, said tray being movable about the axis between a rest position in which the tray is inclined towards the forward direction, the front end of the tray touching the ground to form a ramp , and a loaded position in which the tray is lifted by the weight of the first handling machine loaded on the tray at the rear end of the this one. The structure may further include one or more of the following features, taken alone or in combination.

The plate carries guides for the insertion of forks of the second handling machine. Said guides may in particular comprise vertical longitudinal blades forming corridors for the fork of the second handling machine. BRT0952 -3- The structure further comprises a bottom stop located at the rear of the tray. The structure further includes side frames attached by their base to the sides of the frame. It comprises a stop bar, articulated to one of the lateral frames, movable between a release position in which the first handling machine can be freely loaded and unloaded, and a locking position, in which the stop bar limits the moving the first handling machine to a field of positions where the center of gravity of the first handling gear assembly and plateau is located at the rear of the axis.

The plate is made in the form of a metal plate, with lateral tabs folded and drilled for articulation to the frame. Said tongues can then be, at least on a portion located at the front of the plate, triangular tip oriented toward the front end of the plate. The structure further comprises blocking means in the loaded position of the plate. Other advantages and characteristics of the invention will appear on reading the following description of the figures in which: FIG. 1 is a schematic representation of a handling structure according to the invention, FIGS. 2 to 5 show the structure handling of Figure 1 during the loading of a handling machine. In all figures the same references refer to the same elements. FIG. 1 schematically shows a handling structure 1 for the transport of a rolling stock machine, in particular of a first handling machine of the electric pallet jack or stacker type, by means of a second handling machine, in particular a forklift. The structure 1 essentially comprises a frame 3, forming a ground support, and a tray 5, forming a storage surface and on which is intended to be loaded the handling machine to be transported. The frame 3 essentially comprises two longitudinal parallel bars, 5 hinged about an axis A perpendicular to the longitudinal parallel bars, located on either side of said hinge. The plate 5 is movable by inclination about the axis A between a loading position (shown in FIG. 1), in which a first handling machine can be loaded on the plate 5, and a loaded position (shown in FIG. 4). , adopted when the first handling vehicle is loaded on the plate 5. The loading of the handling equipment is done by a defined side as being the front of the structure 1. The frame 3 comprises two lateral frames 7 forming railings for the structure 1, connected by metal crosspieces 9a, 9b. The side frames 7 make it possible 15 to secure the load by avoiding a reversal by the side and / or by guiding the handling equipment during loading / unloading. The metal sleepers 9a, 9b are for one 9a at ground level, towards the front of the structure 1, and for the other 9b at the rear of the frame 3, with a wall forming a bottom stop of 1. This wall forming a bottom stop, as well as other walls placed in particular on the lower portion of the lateral frames 7 also prevents the jamming of the mechanism and the possible pinching of an external object or a part of the body of a user. The sleepers 9a, 9b are in particular arranged so as to allow a handling machine (pallet truck or forklift for example) to introduce its fork 25 under the plate 5 by the rear of the structure 1. The rear cross member 9b is disposed elevated above the ground level so as to leave an opening at ground level in which a fork of handling equipment can be inserted. This rear cross member 9b forms a rear stop, preventing the handling machine loaded out of the rear of the structure 1. In particular, the stop effect of the rear crossbar 9b ensures the machine loaded with BRT0952 -5- loaded position. The frame 3, the lateral frames 7 and the crosspieces 9a, 9b are advantageously made of welded metal sections. The frame 3, the lateral frames 7 and the crosspieces 9a, 9b may in particular be made of steel. Depending on the needs, the lateral frames 7 and the crosspieces 9a, 9b can be made of other preferably metallic materials, for example stainless steel (food-grade) or aluminum (ATEX zone). The plate 5 may comprise on its underside guides (not shown) for the insertion of a fork of a second handling machine. The plate 5, the frame 3 and the guides are advantageously dimensioned according to the known and standardized formats of the handling pallets (EUREPAL, American pallet, etc.) to adapt to the dimensions of the corresponding handling equipment, and to facilitate the transport and the storage of the structure 1 with the handling equipment on it. The guides may for example comprise vertical longitudinal blades 15 (not visible) delimiting one or more corridors to the dimensions of the forks, or hoops through which the forks are inserted. The hinge 11 about the axis A is placed behind the center of gravity G of the plate 5 alone. As a result, the tray 5, in the absence of a load, feeds forward until its forward end 13 touches the ground, thereby defining the loading position. The plate 5 here comprises lateral tongues 15, parallel to the longitudinal edges and perpendicular to them, directed downwards, forming a structural reinforcement preventing the flexion of the plate 5. At least the frontmost portion of the lateral edges 15 is triangular , points towards the front end 13 of the plate 5, with an angle corresponding to that made by the plate 5 with the ground when it is in the loading position, so that the edge of the lateral edges 15 bears against the ground and thus helps to distribute the weight of the load. In particular, the lateral tongues 15 may comprise holes through which a shaft materializing the axis A passes. The loaded position is reached by tilting towards the rear of the plate 5. The lateral tongues 5 are, on the rear portion of the plate 5, ie located behind the axis A, cut straight, at a height corresponding to the height of the axis A with respect to the ground, so that their free edge forms support to the ground when the tray 5 is approximately horizontal. The lateral tongues 15 thus form an abutment defining the loaded position of the plate 5. Other means of delimiting the loaded position are, however, conceivable, for example by ensuring that the rear end of the plate 5 engages a stop end of stroke (not shown), fixed either on the side frames 7, or on the rear metal crossbar 9b, forming the bottom of the structure 1.

The structure 1 also comprises locking means 17 of the plate 5 in the loaded position, said locking means 17 comprising an actuating lever 17a and a locking member 17b. The locking member 17b is here an articulated profile segment, which locks vertically against the plate 5 when it is in the loaded position, thus blocking the movement of said plate 5. The actuating lever 17a has a release finger which, when the lever 17a is actuated, pushes and releases the articulated profile segment 17b by tilting it around the articulation, which releases the plate 5. Other embodiments, for example with systems hooks are also possible. The structure 1 further comprises a stop bar 19 before, located between the side frames 7, articulated in particular to one of them. The stop bar 19 is movable between a release position in which the first handling vehicle can be freely loaded and unloaded, and a locking position, in which the stop bar 19 limits the movement of the first handling machine to a range of positions where the center of gravity of the first handling gear assembly and plate 5 is located at the rear of the axis A. The release position corresponds to a raised position of the stop bar 19. In this position the first handling machine can be brought to the bottom 30 of the structure 1 without hitting the stop bar 19. The blocking position corresponds to a lowered position of the stop bar 19, in which it s' extends approximately from the lateral frame 7 to which it is articulated to the other side frame 7. In this position, said stop bar 19 limits the movement of the loaded handling machine by forming a stop.

In particular, said stop bar 19 is advantageously placed at a distance from the bottom of the structure 1 such that the loaded handling vehicle does not reach the range of positions in which the plate 5 pours towards the front of the loaded position. at the loading position. The main steps of the loading and the transport of a handling machine 10 are shown in FIGS. 2 to 5. In FIG. 2, the plate 5 is in the loading position: its front end 13 is in contact with the ground, so that the plate 5 forms a loading ramp, and the stop bar 19 is in the release position, here raised. An electric pallet truck 21 is shown diagrammatically, ready to be loaded onto the structure 1. The pallet truck 21 is located at the front of the structure 1, its engine-battery unit 23, a solid element of the pallet truck 21, is oriented towards the rear of the structure 1, its fork 25, long but relatively light element, is oriented towards the front of the structure 1. The pallet truck 21 is then brought to the plate 5, as shown in Figure 3. In Figure 3, the pallet truck 21 has been moved so as to be loaded on the front portion of the plate 5. In particular, in Figure 3, the center of gravity of the plate assembly 5 and pallet truck 21 is still located at the front of the axis A. In this way, the tray 5 remains in the loading position, that is to say tilted forward. In FIG. 4, the pallet truck 21 has been brought to the rear bottom of the plate 5. The center of gravity of the plate 5 and pallet jack 21 assembly is now located at the rear of the axis A. Consequently, the plate 5 has risen under the action of the weight of the pallet truck 21 to reach the loaded position. When the tray 5 is tilted to the loaded position, the lever 17a returns to the locking position, preferably automatically, for example under the effect of gravity and / or an elastic member (spring) to engage the element. blocking 17b, and BRT0952 -8- thus actuate the locking means 17. This makes it possible to block the frame 3 and the plate 5 in relative position automatically loaded for greater security. The user can further bring then the stop bar 19 in the blocking position, here by lowering it, to secure further before loading. In particular, it is intended to make the stop bar 19 so that it can be translated in the longitudinal direction of the handling structure 1, in order to secure different types of loaded gear. For example, the stop bar may be placed on a longitudinal rail carried by one of the side frames 7 with adjustable fixing means (pawl, screw clamping, etc.). In FIG. 5, a second handling machine, here a forklift 27 raises the structure carrying the first handling machine, here the pallet truck 21. The forklift 27 will then for example bring the structure 1 and the machine 21 at a place of deposit, where the structure 1 is placed on the ground, and the gear 21 is then unloaded. In order to unload the first handling machine 21, the stop bar 19 is brought into the release position, and the plate 5 is released by actuating the locking means 17 to disengage the locking member 17b. The handling machine 21 is then brought towards the front of the plate 5, until it tilts in the loading position, in which it forms a ramp allowing the unloading of said machine 21. In particular, the Deposit location can be located in height, being initially inaccessible to handling equipment. For example, in the case of an electric pallet truck 21, the structure 1 and said pallet truck 21 can be brought inside a truck trailer or a train wagon. The pallet truck 21 can then be used to move pallets loaded inside the trailer or wagon, to bring them near a particular opening, where said pallets will be recovered by means of the forklift 27. The structure 1 of handling is therefore used to easily move the first handling machine 21 with the aid of the second 27. The structure 1 according to the invention thus allows a management and a more efficient deployment of a fleet of handling equipment 21, 27 30. that a single operator can move two handling equipment 21, 27. BRT0952 -9- In addition, as previously described, the structure 1 allows to bring a handling machine 21 of the pallet truck type into a loading space initially out achieved, in particular to work in conjunction with a second handling machine 27, forklift type.

A pallet truck 21 is more compact and only allows a horizontal translation of the pallets, while a forklift 27 requires more space to maneuver. The invention makes it possible in particular to use a forklift 27 to bring a pallet truck 21 into a trailer or a wagon. The pallet truck 21 is then used to bring the pallets near the opening of the trailer or wagon, and the forklift 27 down the pallets of the trailer or wagon by taking them to their place of deposit. BRT0952

Claims (10)

REVENDICATIONS1. Handling structure for the transport of a first handling machine (21), comprising: - a frame (3) forming a ground support, comprising at least one input for forks of a second handling machine (27) for lifting the structure, - a tray (5) forming a storage surface for the first handling machine (21), characterized in that the plate (5) is hinged relative to the frame (3) about an axis (A) with respect to which the center of gravity (G) of the plate (5) is shifted towards a forward direction of the structure (1), said plate (5) being movable about the axis (A) between a rest position in which the plate (5) is inclined towards the front direction, the front end (13) of the plate touching the ground to form a ramp, and a loaded position in which the plate (5) is raised by the weight of the first handling machine (21) loaded on the tray (5) at the rear end thereof. 2. Structure according to claim 1, characterized in that the plate carries guides for the insertion of forks of the second handling machine (27). 3. Structure according to claim 2, characterized in that the guides comprise vertical longitudinal blades forming corridors for the fork of the second handling machine (27). 4. Structure according to one of the preceding claims characterized in that it further comprises a bottom stop located at the rear of the tray. 5. Structure according to one of the preceding claims, characterized in that it further comprises side frames (7) attached by their base to the sides of the frame (3). BRT0952-11- 6. Structure according to claim 5, characterized in that it comprises a stop bar (19), articulated to one of the side frames (7), movable between a release position in which the first handling vehicle (21). ) can be freely loaded and unloaded, and a locking position, in which the stop bar (19) limits the movement of the first handling gear (21) to a range of positions where the center of gravity of the first gear set handling (21) and tray (5) is located at the rear of the axis (A). 7. Structure according to claim 6, characterized in that the stop bar (19) comprises adjustable fixing means configured to allow longitudinal translation of the stop bar (19). 8. Structure according to one of the preceding claims, characterized in that the plate (5) is formed as a metal plate, having lateral tabs (15) folded and drilled for articulation to the frame (3). 9. Structure according to claim 8, characterized in that the tongues are, at least on a portion located at the front of the plate (5), triangular tip oriented towards the front end (13) of the plate (5). 10. Structure according to one of the preceding claims, characterized in that it further comprises locking means (17) in the loaded position of the plate (5). BRT0952