CN215556455U - Automatic lifting mechanism capable of facilitating transmission of tooling plate - Google Patents

Abstract

The utility model discloses an automatic lifting mechanism convenient for conveying tooling plates, which comprises: a body assembly including a base and a first support plate; a first supporting plate is welded on one side of the upper surface of the base; an adjusting assembly is arranged on one side of the main body assembly and comprises a second supporting plate, a first screw rod, a sleeve and a second fixing plate; the welding of the upper surface opposite side of base has the second backup pad, one side of second backup pad is provided with two first lead screws, two equal threaded connection of lateral wall of first lead screw has the sleeve pipe. According to the utility model, the plurality of push plates are driven by the driving belt to continuously slide in the second groove, the tooling plate moving to the upper surface of the second groove is lifted by the push plates, and continuous material is supplied to the lifting mechanism by the external transmission equipment, so that the tooling plate is continuously lifted, and the working efficiency and the lifting effect of the lifting mechanism are greatly improved.

Description

Automatic lifting mechanism capable of facilitating transmission of tooling plate

The technical field is as follows:

the utility model relates to the technical field of tooling plate lifting mechanisms, in particular to an automatic lifting mechanism capable of facilitating conveying of tooling plates.

Background art:

the assembly line frock board is the indispensable transport tool of automation line, the assembly line frock board is during assembly line production, not only play and improved production efficiency, simultaneously can also reduce staff intensity of labour, the frock board divide into the import plywood, the PVC reinforcing version, the one shot forming plastic slab, plywood and PVC composite board, in frock board transmission process, need promote the frock board through hoist mechanism, current hoist mechanism is at the during operation, adopt the epaxial conveying sprocket of cylinder drive jacking to reciprocate, the stroke distance has been enlarged around the chain on conveying sprocket, the chain drives the removal frame and goes up and down, thereby realize the promotion of frock board, however, still have following problem:

when the existing lifting mechanism lifts the tooling plate, the moving frame is driven to lift only through the air cylinder, and if the tooling plate needs to be lifted again, the moving frame needs to be lifted again after being lifted and adjusted, so that the working efficiency of the lifting mechanism is reduced;

secondly, when the tooling plate is lifted continuously by the existing lifting mechanism, the height of the tooling plate during feeding can not be adapted, the height of the lifting mechanism is controlled by a worker, the workload of the worker is increased, and the working efficiency of the lifting mechanism is reduced.

The utility model has the following contents:

the present invention is directed to an automatic lifting mechanism for facilitating the transportation of tooling plates, so as to solve the problems mentioned in the background art.

The utility model is implemented by the following technical scheme: an automatic lifting mechanism for facilitating transport of tooling plates, comprising:

a body assembly including a base and a first support plate;

a first supporting plate is welded on one side of the upper surface of the base;

an adjusting assembly is arranged on one side of the main body assembly and comprises a second supporting plate, a first screw rod, a sleeve and a second fixing plate;

a second supporting plate is welded on the other side of the upper surface of the base, two first screw rods are arranged on one side of the second supporting plate, sleeves are connected to the outer side walls of the two first screw rods in a threaded mode, and second fixing plates are welded on the outer side walls of the sleeves;

a lifting assembly is arranged on one side of the main body assembly and comprises a push plate and a transmission belt;

one side of first backup pad is provided with the drive belt, the even fixedly connected with push pedal of lateral wall of drive belt.

As further preferable in the present technical solution: a first fixing plate is welded on the upper surface of the first supporting plate, a first through groove is formed in the upper surface of the first fixing plate, a first rotating rod is uniformly and rotatably connected inside the first through groove, a first groove is formed in one side of the first fixing plate, and the push plate is slidably connected inside the first groove; first bull stick rotates the frock board after promoting in the inside in first logical groove and conveys, and first recess leads the push pedal.

As further preferable in the present technical solution: a top plate is welded on one side of the second supporting plate, two motors are symmetrically installed on the upper surface of the top plate, the output ends of the two motors penetrate through the upper surface of the top plate and are respectively welded on the tops of the two first screw rods, and first bearings are respectively welded at the bottoms of the two first screw rods; the motor provides power when rotating for the first lead screw.

As further preferable in the present technical solution: a sliding groove is formed in one side of the upper surface of the base, a sliding block is connected to the inside of the sliding groove in a sliding mode, the outer ring of the first bearing is welded to the upper surface of the sliding block, a second through groove is formed in one side of the second supporting plate, and the second fixing plate is connected to the inside of the second through groove in a sliding mode; the second leads to the groove and plays the guide effect to the second fixed plate.

As further preferable in the present technical solution: a threaded hole is formed in the inner side wall of the sliding groove, a second screw rod is connected to the inner side of the threaded hole in a threaded mode, a second bearing is welded to one end of the second screw rod, and the outer ring of the second bearing is welded to one side of the sliding block; the second lead screw rotates in the threaded hole, so that the sliding block is driven to slide in the sliding groove.

As further preferable in the present technical solution: one side of the sliding block is welded with a first spring, one end of the first spring is welded inside the sliding groove, the lower surface of the second fixing plate is symmetrically welded with two second springs, and the bottoms of the two second springs are welded on the inner bottom wall of the second through groove; the first spring has a buffering effect on the sliding block, and the second spring buffers the second fixing plate.

As further preferable in the present technical solution: two limiting rods are symmetrically welded to the top wall of the interior of the second through groove, the bottoms of the two limiting rods penetrate through the upper surface of the second fixing plate and are welded to the bottom wall of the interior of the second through groove, and a trapezoidal block is welded to one side of the upper surface of the second fixing plate; the limiting rod plays a guiding role in the second fixing plate, and the trapezoidal block can play a guiding role in the tool plate which is not lifted.

As further preferable in the present technical solution: two baffles are welded on one side of the first supporting plate, the driving belt is positioned on one side adjacent to the two baffles, a second groove is formed in one side of the second fixing plate, and the push plate is connected to the inside of the second groove in a sliding manner;

a third through groove is formed in the upper surface of the second fixing plate, a second rotating rod is uniformly and rotatably connected inside the third through groove, a third rotating rod is uniformly and rotatably connected to one side of each of the two baffles, and the third rotating rod is located on the inner side wall of the transmission belt; the second rotating rod in the third through groove can transmit the tooling plate.

The utility model has the advantages that:

1. according to the utility model, the plurality of push plates are driven by the driving belt to continuously slide in the second groove, the tooling plate moving to the upper surface of the second groove is lifted by the push plates, and continuous material is supplied to the lifting mechanism by the external transmission equipment, so that the tooling plate is continuously lifted, and the working efficiency and the lifting effect of the lifting mechanism are greatly improved.

2. According to the utility model, the first screw rod is driven to rotate by the motor, so that the sleeve drives the second fixing plate to slide, and the second spring is extruded by the second fixing plate, so that the second fixing plate is buffered, the second fixing plate is convenient to adjust, the workload of workers is reduced, and the working efficiency of the lifting mechanism is improved.

Description of the drawings:

in order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a side view of the second supporting plate of the present invention;

fig. 3 is a schematic top view of the second fixing plate according to the present invention.

In the figure: 10. a body assembly; 11. a base; 12. a first support plate; 13. a first fixing plate; 14. a first rotating lever; 15. a first through groove; 16. a first groove; 20. an adjustment assembly; 21. a motor; 22. a top plate; 23. a second support plate; 24. a first lead screw; 25. a limiting rod; 26. a sleeve; 27. a first bearing; 28. a chute; 29. a first spring; 291. a slider; 292. a threaded hole; 293. a second lead screw; 294. a second bearing; 295. a second spring; 296. a second fixing plate; 297. a trapezoidal block; 298. a second through groove; 30. a lifting assembly; 31. a baffle plate; 32. pushing the plate; 33. a second groove; 34. a third through groove; 35. a second rotating rod; 36. a third rotating rod; 37. a transmission belt.

The specific implementation mode is as follows:

the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

Referring to fig. 1-3, the present invention provides a technical solution: an automatic lifting mechanism for facilitating transport of tooling plates, comprising:

a body assembly 10, the body assembly 10 including a base 11 and a first support plate 12;

a first supporting plate 12 is welded on one side of the upper surface of the base 11;

an adjusting assembly 20 is installed at one side of the main body assembly 10, and the adjusting assembly 20 includes a second support plate 23, a first lead screw 24, a sleeve 26 and a second fixing plate 296;

a second support plate 23 is welded on the other side of the upper surface of the base 11, two first screw rods 24 are arranged on one side of the second support plate 23, sleeves 26 are in threaded connection with the outer side walls of the two first screw rods 24, and second fixing plates 296 are welded on the outer side walls of the sleeves 26;

a lifting assembly 30 is arranged on one side of the main body assembly 10, and the lifting assembly 30 comprises a push plate 32 and a transmission belt 37;

one side of the first supporting plate 12 is provided with a transmission belt 37, and the outer side wall of the transmission belt 37 is uniformly and fixedly connected with a push plate 32.

In this embodiment, specifically: a first fixing plate 13 is welded on the upper surface of the first supporting plate 12, a first through groove 15 is formed in the upper surface of the first fixing plate 13, a first rotating rod 14 is uniformly and rotatably connected inside the first through groove 15, a first groove 16 is formed in one side of the first fixing plate 13, and a push plate 32 is slidably connected inside the first groove 16; through the setting of first fixed plate 13 and first logical groove 15, first bull stick 14 rotates in the inside of first logical groove 15 to can convey the frock board after promoting, push pedal 32 slides in the inside of first recess 16, thereby leads to push pedal 32.

In this embodiment, specifically: a top plate 22 is welded on one side of the second supporting plate 23, two motors 21 are symmetrically installed on the upper surface of the top plate 22, the output ends of the two motors 21 penetrate through the upper surface of the top plate 22 and are respectively welded on the tops of the two first screw rods 24, and first bearings 27 are respectively welded at the bottoms of the two first screw rods 24; through the arrangement of the top plate 22 and the motor 21, the motor 21 drives the first lead screw 24 to rotate inside the first bearing 27, so that the sleeve 26 moves on the outer side wall of the first lead screw 24.

In this embodiment, specifically: a sliding groove 28 is formed in one side of the upper surface of the base 11, a sliding block 291 is connected inside the sliding groove 28 in a sliding manner, an outer ring of the first bearing 27 is welded to the upper surface of the sliding block 291, a second through groove 298 is formed in one side of the second supporting plate 23, and a second fixing plate 296 is connected inside the second through groove 298 in a sliding manner; by the arrangement of the slide groove 28 and the slide block 291, the slide block 291 slides inside the slide groove 28 to guide the slide block 291, and by the arrangement of the second through groove 298, the second fixing plate 296 slides inside the second through groove 298 to guide the second fixing plate 296.

In this embodiment, specifically: a threaded hole 292 is formed in the inner side wall of the sliding groove 28, a second screw rod 293 is connected to the inner thread of the threaded hole 292 in a threaded manner, a second bearing 294 is welded to one end of the second screw rod 293, and the outer ring of the second bearing 294 is welded to one side of the sliding block 291; through the arrangement of the threaded hole 292, the second screw 293 and the second bearing 294, the second screw 293 rotates inside the threaded hole 292, so as to drive the sliding block 291 to slide inside the sliding groove 28.

In this embodiment, specifically: a first spring 29 is welded on one side of the sliding block 291, one end of the first spring 29 is welded inside the sliding groove 28, two second springs 295 are symmetrically welded on the lower surface of the second fixing plate 296, and the bottoms of the two second springs 295 are welded on the inner bottom wall of the second through groove 298; through the arrangement of the first spring 29 and the second spring 295, when the slider 291 slides in the slide groove 28, the first spring 29 buffers the slider 291, and the second fixing plate 296 compresses the second spring 295 when sliding in the second through groove 298, thereby buffering the second fixing plate 296.

In this embodiment, specifically: two limiting rods 25 are symmetrically welded to the top wall of the interior of the second through groove 298, the bottoms of the two limiting rods 25 penetrate through the upper surface of the second fixing plate 296 and are welded to the bottom wall of the interior of the second through groove 298, and a trapezoidal block 297 is welded to one side of the upper surface of the second fixing plate 296; through the setting of gag lever post 25 and trapezoidal piece 297, two spacing holes are seted up to the upper surface of second fixed plate 296, and gag lever post 25 slides in the inside in spacing hole to play the guide effect to second fixed plate 296, trapezoidal piece 297 can play the guide effect to the frock board that does not promote simultaneously.

In this embodiment, specifically: two baffle plates 31 are welded on one side of the first supporting plate 12, the transmission belt 37 is positioned on one side adjacent to the two baffle plates 31, a second groove 33 is formed in one side of the second fixing plate 296, and the push plate 32 is connected inside the second groove 33 in a sliding manner;

a third through groove 34 is formed in the upper surface of the second fixing plate 296, a second rotating rod 35 is uniformly and rotatably connected inside the third through groove 34, a third rotating rod 36 is uniformly and rotatably connected to one side of each of the two baffles 31 adjacent to each other, and the third rotating rod 36 is positioned on the inner side wall of the transmission belt 37; the tool plate on the upper surface of the second fixing plate 296 is lifted by sliding the push plate 32 inside the second groove 33, and the tool plate is transferred by the second rotating rod 35 inside the third through-groove 34.

In this embodiment, a switch set for controlling the start and the stop of the motor 21 is installed on one side of the first support plate 12, and the switch set is connected to an external commercial power to supply power to the motor 21.

In this embodiment, the motor 21 is of the type TC-100L 1-4.

Working principle or structural principle, when in use, a worker presses a switch for controlling the starting of the motor 21, the output end of the motor 21 drives the first lead screw 24 to rotate in the first bearing 27, so that the sleeve 26 moves on the outer side wall of the first lead screw 24, the sleeve 26 drives the second fixing plate 296 to slide in the second through groove 298, so as to adjust the second fixing plate 296, at the moment, the second fixing plate 296 extrudes the second spring 295, the limiting rod 25 slides in a limiting hole formed in the upper surface of the second fixing plate 296, so as to guide the second fixing plate 296, the worker holds a rotating handle welded at one end of the second lead screw 293, the rotating handle rotates to drive the second lead screw 293 in the threaded hole 292, so that the sliding block 291 slides in the sliding groove 28 and extrudes the first spring 29, the sliding block 291 drives the second fixing plate 296 to be close to the transmission belt 37, thereby adjust the length that the push pedal 32 stretches into the inside of second recess 33, drive the transmission of drive belt 37 through third bull stick 36, make the push pedal 32 of drive belt 37 lateral wall slide in the inside of second recess 33, the frock board passes through the upper surface of external transmission equipment transmission to second fixed plate 296, the second bull stick 35 of the inside of third through-slot 34 this moment rotates, thereby move the frock board to the upper surface of second recess 33, push pedal 32 slides to the inside of second recess 33 this moment, thereby carry out the lifting with the frock board of second recess 33 upper surface, when the frock board moves the top of drive belt 37, the change that the push pedal 32 takes place the angle and drives the frock board and fall to the upper surface of first fixed plate 13 after overturning, first bull stick 14 in the inside of first logical groove 15 rotates, thereby continue the frock board to transmit, and the push pedal 32 along with the transmission of drive belt 37, can promote the frock board in succession, is convenient and practical.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (8)

1. An automatic lifting mechanism convenient for conveying tooling plates is characterized by comprising:

a body assembly (10), the body assembly (10) comprising a base (11) and a first support plate (12);

a first supporting plate (12) is welded on one side of the upper surface of the base (11);

an adjusting component (20) is installed on one side of the main body component (10), and the adjusting component (20) comprises a second supporting plate (23), a first screw rod (24), a sleeve (26) and a second fixing plate (296);

a second supporting plate (23) is welded to the other side of the upper surface of the base (11), two first screw rods (24) are arranged on one side of the second supporting plate (23), sleeves (26) are connected to the outer side walls of the two first screw rods (24) in a threaded mode, and second fixing plates (296) are welded to the outer side walls of the sleeves (26);

a lifting assembly (30) is installed on one side of the main body assembly (10), and the lifting assembly (30) comprises a push plate (32) and a transmission belt (37);

one side of first backup pad (12) is provided with drive belt (37), the even fixedly connected with push pedal (32) of lateral wall of drive belt (37).

2. The automatic lifting mechanism for facilitating the transfer of tooling plates of claim 1, wherein: the upper surface welding of first backup pad (12) has first fixed plate (13), first logical groove (15) have been seted up to the upper surface of first fixed plate (13), the inside even rotation that first leads to groove (15) is connected with first bull stick (14), first recess (16) have been seted up to one side of first fixed plate (13), push pedal (32) sliding connection in the inside of first recess (16).

3. The automatic lifting mechanism for facilitating the transfer of tooling plates of claim 1, wherein: one side welding of second backup pad (23) has roof (22), two motors (21) are installed to the upper surface symmetry of roof (22), two the output of motor (21) all runs through the upper surface of roof (22) and weld respectively in two the top of first lead screw (24), two first bearing (27) have been welded respectively to the bottom of first lead screw (24).

4. The automatic lifting mechanism for facilitating the transfer of tooling plates of claim 3 wherein: spout (28) have been seted up to upper surface one side of base (11), the inside sliding connection of spout (28) has slider (291), the outer lane of first bearing (27) weld in the upper surface of slider (291), second logical groove (298) have been seted up to one side of second backup pad (23), second fixed plate (296) sliding connection in the inside of second logical groove (298).

5. The automatic lifting mechanism for facilitating the transfer of tooling plates of claim 4 wherein: threaded hole (292) are seted up to the inside wall of spout (28), the inside threaded connection of threaded hole (292) has second lead screw (293), second bearing (294) have been welded to the one end of second lead screw (293), the outer lane of second bearing (294) weld in one side of slider (291).

6. The automatic lifting mechanism for facilitating the transfer of tooling plates of claim 5, wherein: one side of the sliding block (291) is welded with a first spring (29), one end of the first spring (29) is welded inside the sliding groove (28), the lower surface of the second fixing plate (296) is symmetrically welded with two second springs (295), and the bottoms of the two second springs (295) are welded on the inner bottom wall of the second through groove (298).

7. The automatic lifting mechanism for facilitating the transfer of tooling plates of claim 6, wherein: two limiting rods (25) are symmetrically welded to the inner top wall of the second through groove (298), the bottoms of the two limiting rods (25) penetrate through the upper surface of the second fixing plate (296) and are welded to the inner bottom wall of the second through groove (298), and a trapezoidal block (297) is welded to one side of the upper surface of the second fixing plate (296).

8. The automatic lifting mechanism for facilitating the transfer of tooling plates of claim 1, wherein: two baffle plates (31) are welded on one side of the first supporting plate (12), the driving belt (37) is positioned on one side of the two adjacent baffle plates (31), a second groove (33) is formed in one side of the second fixing plate (296), and the push plate (32) is connected to the inside of the second groove (33) in a sliding manner;

the upper surface of second fixed plate (296) has been seted up third and has been led to groove (34), the inside even rotation that leads to groove (34) of third is connected with second bull stick (35), two the adjacent one side of baffle (31) evenly rotates and is connected with third bull stick (36), third bull stick (36) are located the inside wall of drive belt (37).

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