CN220165747U - Electrical panel cabinet carrying forklift - Google Patents

Abstract

The utility model relates to the field of engineering vehicles, in particular to an electrical cabinet carrying forklift which comprises a forklift main body, a supporting plate, a telescopic mechanism, an inclination mechanism and a fork frame, wherein one end of the supporting plate is hinged to the tail of the forklift main body, the telescopic mechanism is arranged between the forklift main body and the supporting plate, the inclination mechanism is arranged on the supporting plate, and the fork frame is arranged on the forklift main body. The electrical panel cabinet carrying forklift provided by the utility model has the advantages that the labor intensity of manpower and the damage to carrying equipment are greatly reduced, the carrying efficiency and the product quality are improved, and the carrying cost is reduced.

Description

Electrical panel cabinet carrying forklift

[ field of technology ]

The utility model relates to the field of engineering vehicles, in particular to an electrical panel cabinet carrying forklift.

[ background Art ]

Fork trucks are widely used for loading and unloading, stacking and short distance transportation of goods, play a very important role in logistics systems of enterprises, and are the main force army in goods handling equipment.

With the rapid development of nuclear power, efficient overhaul and maintenance are very necessary for nuclear power equipment regularly, and because the electric panel cabinet and the storage battery in the nuclear power equipment are sequentially arranged next to each other, the bottom of the electric panel cabinet and the storage battery are in direct contact with the ground, and the space between the columns and the space at the top of the electric panel cabinet and the storage battery are very narrow, overhaul can not be performed through forking, hanging and clamping of a conventional forklift, so that during overhaul, manual transportation is mainly performed, a great deal of manpower and time cost consumption is generated, and potential problems of uncertain factors of personal safety are caused, such as long transportation time, high labor cost for multi-person resultant force transportation, personnel injury caused by unexpected slipping of equipment and the like. Therefore, the development of the efficient, reliable and safe multipurpose carrying forklift for the nuclear power equipment becomes an urgent requirement for the transportation link of the nuclear power overhaul equipment.

[ utility model ]

The utility model aims to provide an electrical panel cabinet carrying forklift which greatly reduces the labor intensity of manpower and the damage of carrying equipment, improves the carrying efficiency and the product quality and reduces the carrying cost.

The utility model is realized by the following technical scheme: the utility model provides an electrical panel cabinet transport fork truck, includes fork truck main part, one end articulated in fork truck main part afterbody's backup pad, install in fork truck main part with telescopic machanism between the backup pad, install in tilting mechanism in the backup pad and install in fork truck main part is last fork truck, tilting mechanism promotes electrical panel cabinet orientation to keep away from one side slope of backup pad to form a clearance in electrical panel cabinet bottom, the fork truck orientation is close to the backup pad removes and imbeds to electrical panel cabinet bottom, fork the electrical panel cabinet and lean on in the backup pad, telescopic machanism shrink with the drive the backup pad wind the backup pad with the articulated end of fork truck main part rotates, shifts electrical panel cabinet to an electrical panel cabinet transport fork truck on.

The electric disc cabinet carrying forklift is characterized in that the tilting mechanism comprises a traction device arranged at the top end of the supporting plate and a pushing device arranged at the middle section of the supporting plate, and when the traction device is connected with the electric disc cabinet, the pushing device pushes the upper end of the electric disc cabinet away towards the side far away from the forklift main body, so that the electric disc cabinet tilts, and a gap is formed at the bottom end of the electric disc cabinet.

The electric disk cabinet carrying forklift comprises the fixing piece arranged on the supporting plate and the traction piece connected with the fixing piece and the electric disk cabinet, wherein the fixing piece is provided with the first sliding groove for the traction piece to penetrate through and move in, and the limiting grooves for the traction piece to be embedded are distributed in the length direction of the first sliding groove.

The utility model provides an electrical panel cabinet transport fork truck, be equipped with the confession in the backup pad the through-hole that the thrusting device worn to establish, the thrusting device is including removing base, push pedal and connection remove the base with the flexible subassembly of push pedal, flexible subassembly is including alternately set up first connecting rod and second connecting rod, first connecting rod respectively with remove the base with the push pedal rotates to be connected, remove be equipped with first driving motor on the base, with first transfer line that first driving motor is connected, and wear to locate first slider on the first transfer line, the second connecting rod respectively with first slider with push pedal rotates to be connected, first transfer line with correspond between the first slider and be equipped with the helicitic texture, first driving motor is through driving first transfer line rotates, makes first slider relatively first transfer line removes, so that first connecting rod with the tip of second connecting rod is close to/is kept away from the realization and stretches out and draws back.

The electrical panel cabinet carrying forklift comprises the pushing device, the pushing device is further connected to the guide base on one side, away from the pushing plate, of the movable base, the guide base faces to the guide groove is formed in one side of the movable base, and the movable base is provided with the protruding blocks corresponding to the guide grooves so as to limit the movable base to move along the guide groove.

The electrical panel cabinet carrying forklift is characterized in that a connecting plate is arranged on one side of the pushing plate, which faces the telescopic component, of the pushing plate, a second sliding groove is formed in the connecting plate in a penetrating mode, a limiting rod is arranged on the first connecting rod corresponding to the second sliding groove, when the telescopic component pushes the pushing plate to be close to the electrical panel cabinet, the pushing plate rotates around the hinged end of the pushing plate and the second connecting rod along the track of the second sliding groove, so that the pushing plate keeps attached to the electrical panel cabinet in the process of pushing the electrical panel cabinet to incline.

The electric cabinet carrying forklift is characterized in that rollers are arranged on two sides of the fork frame, rolling grooves are formed in the forklift body corresponding to the rollers, a second air cylinder is arranged between the forklift body and the fork frame, the fork frame comprises a movable seat connected with the second air cylinder, a rotating shaft arranged on the movable seat, a connecting piece which penetrates through the rotating shaft and can rotate around the rotating shaft, and fork feet clamped on the connecting piece, and the second air cylinder pushes the fork feet to be tightly attached to the supporting plate, so that when the telescopic mechanism drives the supporting plate to rotate, the supporting plate drives the fork feet to synchronously overturn around the rotating shaft.

The electrical cabinet carrying forklift is characterized in that flanges are convexly arranged at two ends of the connecting piece, the fork feet face one side of the connecting piece, the containing grooves for embedding the connecting piece are formed in the two ends of the containing grooves and correspond to the flanges, clamping grooves are formed in the two ends of the containing grooves, the fork feet can move along the length direction of the flanges, a plurality of gaps are formed in the flanges in an arrangement mode, limiting pieces are arranged in the fork feet in a penetrating mode and correspond to the gaps, and the limiting pieces can move towards directions close to/far from the clamping grooves so as to be embedded into the gaps to achieve position adjustment of the fork feet.

According to the electrical cabinet carrying forklift, the connecting piece faces to one side of the supporting plate, the connecting post is arranged on the supporting plate and corresponds to the connecting post, the connecting hole is formed in the supporting plate, and when the fork frame moves towards the supporting plate, the connecting post penetrates through the connecting hole, so that the fork frame and the supporting plate are in conjoined fit.

The electrical cabinet carrying forklift comprises the controller, wherein the controller faces the inclined surface arranged on one side of the supporting plate, a plurality of supporting feet are arranged on one side of the supporting plate facing the forklift body, and the supporting feet are abutted to the inclined surface to be fixed when the supporting plate faces one side of the forklift body to rotate.

Compared with the prior art, the utility model has the following advantages:

the utility model relates to an electrical panel cabinet carrying forklift which comprises a forklift body, a supporting mechanism, a supporting plate, a telescopic mechanism, an inclined mechanism and a fork frame, wherein ropes are used for binding the top of the electrical panel cabinet (a hook is arranged at the top of a cabinet), the electrical panel cabinet is pushed to incline through the inclined mechanism, so that an included angle with a gap is formed between the bottom of the electrical panel cabinet and the ground, the fork frame is moved forward, the fork frame is inserted into the bottom of the electrical panel cabinet, when the fork frame is completely inserted into the bottom, the inclined mechanism is retracted, the bottom of the electrical panel cabinet is gradually and completely contacted with the fork frame, finally, the fork frame is connected with the supporting plate through a square opening, at the moment, the fork frame is integral with the supporting plate, the side surface of the electrical panel cabinet just leans against the supporting plate, the supporting plate is driven to overturn through the telescopic mechanism, the electrical panel cabinet is overturned, and finally, the cabinet is transported to a designated position, so that the labor intensity of manpower and the damage of carrying equipment are greatly reduced, the carrying efficiency and the product quality are improved, and the carrying cost is reduced.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings required for the description of the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments of the present utility model, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic structural diagram of a forklift truck according to an embodiment of the present utility model when deployed.

Fig. 2 is a schematic view of another angle of the fork truck according to the embodiment of the utility model when the fork truck is unfolded.

Fig. 3 is a schematic structural diagram of a carrying forklift according to an embodiment of the present utility model when the carrying forklift is contracted.

Fig. 4 is an exploded view of a handling forklift according to an embodiment of the present utility model.

Fig. 5 is a schematic structural view of a pushing device according to an embodiment of the present utility model.

Figure 6 is a side view of a pusher device according to an embodiment of the present utility model.

Fig. 7 is a cross-sectional view of a pusher device in accordance with an embodiment of the present utility model.

Fig. 8 is a schematic structural view of a fork according to an embodiment of the present utility model.

Fig. 9 is an exploded view of the fork of the embodiment of the present utility model.

Fig. 10 is a schematic structural view of a traction device according to an embodiment of the present utility model.

[ detailed description ] of the utility model

In order to make the technical problems, technical schemes and beneficial effects solved by the utility model more clear, the utility model is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

As shown in fig. 1-10, the embodiment of the utility model provides a forklift for transporting electrical cabinets, comprising a forklift main body 1, a supporting mechanism 2 arranged at the periphery of the forklift main body 1, a supporting plate 3 with one end hinged at the tail of the forklift main body 1, a telescopic mechanism 4 arranged between the forklift main body 1 and the supporting plate 3, a tilting mechanism 5 arranged on the supporting plate 3, and a fork frame 6 arranged on the forklift main body 1 and capable of moving towards and away from the supporting plate 3, wherein the tilting mechanism 5 pushes an electrical cabinet towards one side far away from the supporting plate 3, the fork frame 6 moves towards the side close to the supporting plate 3 and is embedded into the bottom of the electrical cabinet, the electrical cabinet is forked and leaned on the supporting plate 3, the telescopic mechanism 4 contracts to drive the supporting plate 3 to rotate around the supporting plate 3 and the hinged end of the forklift main body 1, the tilting mechanism 5 comprises a traction device 51 arranged at the top end of the supporting plate 3 and a fork 52 arranged at the middle section of the supporting plate 3, when the fork frame 6 moves towards the bottom of the supporting plate 3, the fork frame 6 is inserted into a gap between the fork frame 6 and the top of the electrical cabinet, and the top of the electrical cabinet is completely inserted into the fork frame 6 by using the push device, when the fork frame 6 is completely inserted into the top of the fork frame 6, and the fork frame is completely inserted into the bottom of the top of the electrical cabinet by the fork frame 6, the tilting mechanism 5 is retracted, the bottom of the electric disc cabinet is gradually and completely contacted with the fork frame 6, the fork frame 6 and the supporting plate 3 are connected through a square opening, the fork frame 6 and the supporting plate 3 are integrated at the moment, the side surface of the electric disc cabinet just leans against the supporting plate 3, the supporting plate 3 is driven to overturn through the telescopic mechanism 4, the electric disc cabinet follows the overturn, and finally, the cabinet is conveyed to a designated position, so that the labor intensity of workers and the damage of conveying equipment are greatly reduced, the conveying efficiency and the product quality are improved, and the conveying cost is reduced.

The traction device 51 includes a fixing member 511 mounted on the support plate 3, and a traction member 512 connected to the fixing member 511 and the electrical panel cabinet, wherein the traction member 512 is a rope, the fixing member 511 is provided with a first chute 513 through which the traction member 512 passes, and a plurality of limiting grooves 514 for embedding the traction member 512 are arranged along the length direction of the first chute 513, so that the traction member 512 can be clamped in the required limiting grooves 514 according to specific size selection for various electrical panel cabinets or other cabinet cabinets, so as to achieve an optimal stress position, and improve the carrying efficiency.

The supporting plate 3 is provided with a through hole 31 through which the pushing device 52 passes, the pushing device 52 comprises a moving base 521, a pushing plate 522 and a telescopic component 523 connected with the moving base 521 and the pushing plate 522, the telescopic component 523 comprises a first connecting rod 524 and a second connecting rod 525 which are arranged in a crossed mode, the first connecting rod 524 is respectively in rotary connection with the moving base 521 and the pushing plate 522, the moving base 521 is provided with a first driving motor 526, a first driving rod 527 connected with the first driving motor 526 and a first sliding block 528 penetrating through the first driving rod 527, the second connecting rod 525 is respectively in rotary connection with the first sliding block 528 and the pushing plate 522, a threaded structure is correspondingly arranged between the first driving rod 527 and the first sliding block 528, the first driving motor 526 drives the first driving rod 527 to rotate, so that the first sliding block 528 moves relative to the first driving rod 527, the first connecting rod 524 and the second connecting rod 524 are close to each other, the first sliding block 528 is separated from the first driving rod 528, and the telescopic structure is easy to realize the movement of the first sliding rod 528, and the telescopic structure is easy to realize.

The pushing device 52 further comprises a guide base 529 connected to one side of the moving base 521, far away from the pushing plate 522, a guide groove 520 is formed in one side of the guide base 529, which faces the moving base 521, a protruding block 5291 is arranged corresponding to the guide groove 520 to limit the moving base 521 to move along the guide groove 520, wherein the guide base 529 comprises a base shell 5291, a second driving motor 5292 arranged on one end of the base shell 5291, a second transmission rod 5293 connected with the second driving motor 5292 and penetrating through the base shell 5291, and a second slider 5294 penetrating through the second transmission rod 5293 and connected with the moving base 521, a thread structure is correspondingly arranged between the second slider 5294 and the second transmission rod 5293, the second driving motor 5292 drives the second transmission rod 5293 to rotate, so that the second slider 5294 moves relative to the second transmission rod 5293, and the second transmission rod 5292 drives the second transmission rod 5294 to rotate to the optimal position of the electric box or the electric box according to the second transmission rod 5292, so that the weight of the electric box can be moved to the optimal position or the electric box, and the position of the electric box can be adjusted.

The mounting seat 32 is detachably arranged on the support plate 3 at a position corresponding to the through hole 31, and the guide base 529 is fixed on the mounting seat 32, so that the mounting and dismounting are convenient, and the later replacement and maintenance are convenient.

The push plate 522 is towards be equipped with the connecting plate 5221 on one side of telescopic subassembly 523, the connecting plate 5221 runs through and is equipped with the second spout 5222, correspond on the first connecting rod 524 the second spout 5222 is equipped with gag lever post 5241 when telescopic subassembly 523 promotes push plate 522 is close to the electrical panel cabinet, push plate 522 around its with the articulated end of second connecting rod 525, follow the orbit of second spout 5222 takes place to rotate, so that push plate 522 laminating is on the electrical panel cabinet, and it can be better laminating in the surface of electrical panel cabinet or cabinet, and furthest lifts the cabinet, and the atress is more even.

The other side of the push plate 522 opposite to the telescopic component 523 is provided with a plurality of roller groups 5223 in an arrangement manner, and the roller groups 5223 are adopted to be in contact with an electrical panel cabinet or a box cabinet to convert the surface contact of the two into line contact, so that the contact area of the two is greatly reduced, and the friction is reduced.

The telescopic mechanism 4 comprises first cylinders with two ends respectively hinged to the forklift body 1 and the supporting plate 3, and the forklift body 1 is provided with a supporting frame 11 for supporting the first cylinders, so that stability is higher.

The two sides of the fork frame 6 are provided with rollers 61, the fork truck main body 1 is provided with rolling grooves 12 corresponding to the rollers 61, a second air cylinder 13 is arranged between the fork truck main body 1 and the fork frame 6 to push the fork frame 6 to move along the rolling grooves 12, the fork frame 6 comprises a moving seat 62 connected with the second air cylinder 13, a rotating shaft 63 arranged on the moving seat 62, a connecting piece 64 penetrating through the rotating shaft 63 and capable of rotating around the rotating shaft 63, and a fork foot 65 clamped on the connecting piece 64, the second air cylinder 13 pushes the fork foot 65 to be tightly attached to the support plate 3, so that when the telescopic mechanism 4 drives the support plate 3 to rotate, the support plate 3 drives the fork foot 65 to synchronously overturn around the rotating shaft 63, and when the support plate 3 rotates, the two support plates are contacted in a plane, the fork foot 65 is driven to synchronously overturn, and an electric cabinet or a better cabinet is supported; wherein the connecting piece 64 is directed towards be equipped with the spliced pole 643 on the one side of backup pad 3, correspond on the backup pad 3 spliced pole 643 is equipped with connecting hole 33 when fork truck 6 is directed towards backup pad 3 removes, spliced pole 643 wears to locate in the connecting hole 33, so that fork truck 6 with backup pad 3 conjoined cooperation, its connection of two is more firm, avoids the uneven damage that leads to electrical dish cabinet or cabinet of atress.

Flanges 641 are convexly arranged at two ends of the connecting piece 64, the fork feet 65 face to one side of the connecting piece 64, a containing groove 651 for embedding the connecting piece 64 is formed in the side, clamping grooves 652 are formed in two ends of the containing groove 651 corresponding to the flanges 641, so that the fork feet 65 are fixed with the connecting plate 64, a plurality of notches 642 are formed in the flanges 641, limiting pieces 653 are arranged on the fork feet 65 in a penetrating mode corresponding to the notches 642, the limiting pieces 653 can move towards directions close to/far away from the clamping grooves 652, the position of the fork feet 65 can be adjusted by being embedded into the notches 642, assembly is simple and convenient, adjustment can be performed according to the size of a carried cabinet, and practicability is higher.

The buffer member 66 is arranged at the joint of the connecting member 64 and the rotating shaft 63 in a penetrating manner, and the buffer member 66 is a bearing, so that the rotating smoothness is ensured, meanwhile, the physical vibration is reduced, and the service life of the forklift is greatly prolonged.

The end of the fork leg 65 is provided with an inclined surface 654, and the fork leg 65 is provided with a plurality of roller groups 655, when the fork leg 65 is deep into the bottom of the electrical panel cabinet or the box cabinet, the inclined surface 654 is favorable to deep into the small gap, and the roller groups 655 can reduce friction between the fork leg 65 and the bottom of the electrical panel cabinet or the box cabinet.

The movable seat 62 is provided with a reinforcing member 621, and two sides of the reinforcing member 621 adjacent to the movable seat 62 form a triangle structure, so that the stability is stronger.

The forklift body 1 comprises a controller 14, an inclined surface 15 is arranged on one side of the controller 14 facing the supporting plate 3, a plurality of supporting feet 34 are arranged on one side of the supporting plate 3 facing the forklift body 1, and when the supporting plate 3 rotates towards the forklift body 1, the supporting feet 34 are abutted against the inclined surface 15 to realize fixation, so that the supporting plate 3 is convenient to place and support; the supporting plate 3 is provided with a connecting rib 35 for fixing the supporting leg 34, so that the supporting leg 34 penetrates through the supporting plate 3 to damage the electrical panel cabinet or the box cabinet while the electrical panel cabinet or the box cabinet which is carried is prevented from being overweight while the connecting rib plays a role in connection.

The two sides of the supporting plate 3, which face the forklift body 1, are provided with a plurality of fixing rings 36 for the ropes to pass through to fix the electrical panel cabinet, and when the electrical panel cabinet needs to be further fixed, the ropes can be passed through the fixing rings 36 to fix the electrical panel cabinet.

The other side of the supporting plate 3 opposite to the forklift body 1 is provided with a plurality of cushion pads 37, when the electrical panel cabinet or the box cabinet contacts with the supporting plate 3, the cushion pads 37 can avoid rigid collision of the two, and the cushion pads 37 can provide a certain anti-slip effect, and can better support the electrical panel cabinet or the box cabinet.

The supporting mechanism 2 comprises a connecting seat 21 connected to the forklift body 1, a supporting bar 22 hinged to the connecting seat 21, and a telescopic leg 23 fixed to the other end of the supporting bar 22, wherein the telescopic leg 23 can be adjusted in height according to actual use conditions, the gravity center of the forklift is lowered, and the carrying process is stable and reliable.

In summary, the present utility model has the following beneficial effects, but is not limited to:

the utility model relates to an electrical panel cabinet carrying forklift which comprises a forklift body 1, a supporting mechanism 2 arranged on the peripheral side of the forklift body 1, a supporting plate 3 with one end hinged to the tail of the forklift body 1, a telescopic mechanism 4 arranged between the forklift body 1 and the supporting plate 3, an inclination mechanism 5 arranged on the supporting plate 3 and a fork frame 6 arranged on the forklift body 1 and capable of moving towards and away from the supporting plate 3, wherein the inclination mechanism 5 pushes an electrical panel cabinet to incline towards one side away from the supporting plate 3, the fork frame 6 moves towards and is embedded into the bottom of the electrical panel cabinet, the electrical panel cabinet is forked up and leaned against the supporting plate 3, the telescopic mechanism 4 contracts to drive the supporting plate 3 to rotate around the hinged ends of the supporting plate 3 and the forklift body 1, realizing the transfer of the electrical panel cabinet, wherein the tilting mechanism 5 comprises a traction device 51 arranged at the top end of the supporting plate 3 and a pushing device 52 arranged at the middle section of the supporting plate 3, when the traction device 51 is connected with the electrical panel cabinet, the pushing device 52 pushes the electrical panel cabinet away from one side of the supporting plate 3 to enable the electrical panel cabinet to tilt to form a gap, the electrical panel cabinet top (the top of the cabinet is provided with a hook) is bound by ropes, the electrical panel cabinet is pushed to tilt by the tilting mechanism 5, the bottom of the electrical panel cabinet forms an included angle with the ground to form a gap, thereby moving the fork frame 6 forward, the fork frame 6 is inserted into the bottom of the electrical panel cabinet, the supporting plate 3 is arranged on the frame, when the fork frame 6 is completely inserted into the bottom, the tilting mechanism 5 is retracted, the bottom of the electrical panel cabinet is gradually and fully contacted with the fork frame 6, finally, the fork frame 6 is connected with the supporting plate 3 through the square opening, at the moment, the fork frame 6 and the supporting plate 3 are integrated, the side face of the electric disk cabinet just leans against the supporting plate 3, the supporting plate 3 is driven to overturn through the telescopic mechanism 4, the electric disk cabinet is overturned in a following mode, and finally, the cabinet is conveyed to a designated position, so that the labor intensity of workers and the damage of conveying equipment are greatly reduced, the conveying efficiency and the product quality are improved, and the conveying cost is reduced.

It should be understood that the terms "first," "second," and the like are used herein to describe various information, but such information should not be limited to these terms, which are used merely to distinguish one type of information from another. For example, a "first" message may also be referred to as a "second" message, and similarly, a "second" message may also be referred to as a "first" message, without departing from the scope of the utility model. Furthermore, references to orientations or positional relationships of the terms "center," "upper," "lower," "left," "right," "vertical," "horizontal," "inner," "outer," etc. are based on the orientation or positional relationships shown in the drawings, are merely for convenience in describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be configured and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

The foregoing description of one or more embodiments provided in connection with the specific disclosure is not intended to limit the practice of the utility model to such description. The method, structure, and the like similar to or identical to those of the present utility model, or a plurality of technical deductions or substitutions are made on the premise of the conception of the present utility model, and are considered to be the protection scope of the present utility model.

Claims (10)

1. The utility model provides an electrical cabinet transport fork truck, its characterized in that, including fork truck main part (1), one end articulated in backup pad (3) of fork truck main part (1) afterbody, install in fork truck main part (1) with telescopic machanism (4) between backup pad (3), install in tilting mechanism (5) on backup pad (3), and install in on fork truck main part (1) and can be close to/keep away from fork truck (6) that backup pad (3) removed, tilting mechanism (5) promote electrical cabinet towards keeping away from one side slope of backup pad (3), fork truck (6) orientation is close to backup pad (3) remove and imbed to electrical cabinet bottom, fork electrical cabinet fork and lean on in backup pad (3), telescopic machanism (4) shrink in order to drive backup pad (3) wind backup pad (3) with the articulated end of fork truck main part (1) rotates, realizes the transfer of electrical cabinet.

2. The electrical panel cabinet handling forklift according to claim 1, wherein the tilting mechanism (5) comprises a traction device (51) arranged at the top end of the supporting plate (3) and a pushing device (52) arranged at the middle section of the supporting plate (3), and when the traction device (51) is connected with the electrical panel cabinet, the pushing device (52) pushes the electrical panel cabinet away from the side far away from the supporting plate (3) so as to enable the electrical panel cabinet to tilt to form a gap.

3. The electrical panel cabinet handling forklift as claimed in claim 2, wherein the traction device (51) comprises a fixing member (511) arranged on the supporting plate (3), and a traction member (512) connecting the fixing member (511) and the electrical panel cabinet, the fixing member (511) is provided with a first sliding groove (513) for the traction member (512) to penetrate through, and a plurality of limiting grooves (514) for the traction member (512) to be embedded are distributed along the length direction of the first sliding groove (513).

4. The electrical cabinet handling forklift as claimed in claim 2, wherein the supporting plate (3) is provided with a through hole (31) through which the pushing device (52) passes, the pushing device (52) comprises a moving base (521), a pushing plate (522) and a telescopic component (523) connecting the moving base (521) and the pushing plate (522), the telescopic component (523) comprises a first connecting rod (524) and a second connecting rod (525) which are arranged in a crossed manner, the first connecting rod (524) is respectively and rotatably connected with the moving base (521) and the pushing plate (522), the moving base (521) is provided with a first driving motor (526), a first driving rod (527) connected with the first driving motor (526) and a first sliding block (528) passing through the first driving rod (527), the second connecting rod (525) is respectively and rotatably connected with the first sliding block (528) and the pushing plate (522), the first driving rod (527) is provided with a first driving structure for driving the first sliding block (528) to rotate relative to the first driving rod (527), so that the ends of the first connecting rod (524) and the second connecting rod (525) are close to/far away from each other to realize expansion and contraction.

5. The electrical panel cabinet handling forklift according to claim 4, wherein the pushing device (52) further comprises a guide base (529) connected to a side of the moving base (521) remote from the pushing plate (522), a guide groove (520) is provided on a side of the guide base (529) facing the moving base (521), and a projection (5211) is provided on the moving base (521) corresponding to the guide groove (520) to restrict the moving base (521) from moving along the guide groove (520).

6. The electrical panel cabinet handling forklift as claimed in claim 5, wherein a connection board (5221) is disposed on a side of the push board (522) facing the telescopic assembly (523), a second chute (5222) is disposed through the connection board (5221), a limit rod (5241) is disposed on the first connecting rod (524) corresponding to the second chute (5222), and when the telescopic assembly (523) pushes the push board (522) to approach the electrical panel cabinet, the push board (522) rotates around the hinge end of the push board and the second connecting rod (525) along the track of the second chute (5222) so that the push board (522) is attached to the electrical panel cabinet.

7. The electrical cabinet carrying forklift as claimed in claim 1, wherein rollers (61) are arranged on two sides of the fork frame (6), rolling grooves (12) are formed in the forklift body (1) corresponding to the rollers (61), a second air cylinder (13) is arranged between the forklift body (1) and the fork frame (6), the fork frame (6) comprises a movable seat (62) connected with the second air cylinder (13), a rotating shaft (63) arranged on the movable seat (62), a connecting piece (64) penetrating through the rotating shaft (63) and capable of rotating around the rotating shaft (63), and a fork foot (65) clamped on the connecting piece (64), the second air cylinder (13) pushes the fork foot (65) to be tightly attached to the supporting plate (3), and when the telescopic mechanism (4) drives the supporting plate (3) to rotate, the supporting plate (3) drives the fork foot (65) to synchronously overturn around the rotating shaft (63).

8. The electrical panel cabinet carrying forklift as claimed in claim 7, wherein flanges (641) are protruding from two ends of the connecting piece (64), the fork leg (65) faces one side of the connecting piece (64) and is provided with a containing groove (651) for embedding the connecting piece (64), two ends of the containing groove (651) are provided with clamping grooves (652) corresponding to the flanges (641), a plurality of notches (642) are arranged on the flanges (641), limiting pieces (653) are arranged on the fork leg (65) in a penetrating manner corresponding to the notches (642), and the limiting pieces (653) can move towards a direction close to/far away from the clamping grooves (652) so as to be embedded into the notches (642) to realize position adjustment of the fork leg (65).

9. The electrical cabinet handling forklift as claimed in claim 7, wherein a connecting post (643) is provided on a side of the connecting piece (64) facing the supporting plate (3), a connecting hole (33) is provided on the supporting plate (3) corresponding to the connecting post (643), and when the fork frame (6) moves toward the supporting plate (3), the connecting post (643) is inserted into the connecting hole (33) so that the fork frame (6) and the supporting plate (3) are in conjoined fit.

10. An electrical panel cabinet handling forklift as claimed in claim 1, wherein the forklift body (1) comprises a controller (14), and the controller (14) is provided with an inclined surface (15) on the side facing the supporting plate (3), a plurality of supporting feet (34) are provided on the side facing the forklift body (1), and when the supporting plate (3) rotates towards the forklift body (1), the supporting feet (34) are abutted to the inclined surface (15) to achieve fixation.