CN221458823U - Material sliding device - Google Patents

Abstract

The utility model discloses a sliding device, which comprises a frame; the material receiving platform is arranged at the top of the frame, the lower surface of the material receiving platform is connected with the first rotating rod, and the first rotating rod is arranged along the length direction of the frame; the first adjusting mechanism comprises a first driving component and a first telescopic component, and the first telescopic component can drive the material receiving platform to reciprocate along the height direction of the frame under the driving of the first driving component; the second adjusting mechanism comprises a second driving assembly and a second telescopic assembly, and the second telescopic assembly can drive the material receiving platform to rotate around the first rotating rod under the driving of the second driving assembly so as to form a certain included angle between the material receiving platform and the horizontal plane. Can make things convenient for operating personnel to stand the operation, and can carry out altitude mixture control and angle modulation, better adaptation production line has improved work efficiency.

Description

Material sliding device

Technical Field

The utility model relates to the technical field of automatic equipment, in particular to a sliding device.

Background

The existing automatic blanking equipment needs to meet the normal blanking of plates with different specifications, but the project is unpacked into a whole bag, wherein the sizes of part of plates are smaller, the original stacker of the equipment cannot be used when products are stacked, so that manual stacking is needed, operators are in a long-time bending working state in the manual stacking process, ergonomics is not met, and the operators need to squat down to carry out manual material receiving in the plate conveying process, so that the working efficiency is reduced, and productivity is wasted.

Therefore, there is a need to provide a sliding device to solve the above problems.

Disclosure of utility model

The technical problem to be solved by the embodiment of the utility model is to provide the sliding device which can facilitate standing operation of operators, can adjust the height and the angle, is better suitable for production lines and improves the working efficiency.

In order to solve the technical problems, the present utility model provides a sliding device, comprising:

A frame;

The material receiving platform is arranged at the top of the frame, the lower surface of the material receiving platform is connected with the first rotating rod, and the first rotating rod is arranged along the length direction of the frame;

The first adjusting mechanism comprises a first driving component and a first telescopic component, the first driving component is arranged on the frame, the first telescopic component is connected with the first rotating rod and the frame, and the first telescopic component can drive the material receiving platform to reciprocate along the height direction of the frame under the driving of the first driving component;

the second adjusting mechanism comprises a second driving assembly and a second telescopic assembly, the second driving assembly is arranged on the frame, the second telescopic assembly is arranged between the frame and the material receiving platform, and the second telescopic assembly can drive the material receiving platform to rotate around the first rotating rod under the driving of the second driving assembly so as to form a certain included angle between the material receiving platform and the horizontal plane.

In one possible implementation manner, the material receiving platform is provided with a plurality of openings, and each opening is internally provided with a universal ball in a penetrating way.

In one possible implementation, the universal ball protrudes from the upper surface of the receiving platform.

In one possible implementation, the universal ball is made of an elastic material.

In one possible implementation, the first drive assembly and/or the second drive assembly is a manual hydraulic pump and the first telescoping assembly and/or the second telescoping assembly is a piston assembly.

In one possible implementation, the piston assembly includes a piston cylinder and a piston rod, the piston cylinder being connected to the frame, the piston rod being connected to the receiving platform.

In one possible implementation manner, the rack comprises a hollow base and a plurality of first upright posts connected with the hollow base, a first connecting plate is arranged on the first upright posts, and the material receiving platform is connected with the first connecting plate through a sliding mechanism.

In one possible implementation manner, the sliding mechanism comprises a sliding connecting piece, a sliding frame, a sliding rail and a pulley, wherein the sliding connecting piece is sleeved on the first rotating rod, the sliding frame is connected with the sliding connecting piece, the sliding rail is arranged on the sliding frame along the height direction of the frame, and the pulley is fixedly connected on the first connecting plate; the slide rail, the slide frame and the slide connector are capable of reciprocating in the height direction of the frame.

In a possible implementation manner, bearings are arranged on the first rotating rod at positions connected with the sliding connecting piece and the first telescopic assembly.

In one possible implementation, the included angle is between 0 ° and 60 °.

The implementation of the utility model has the following beneficial effects:

The film tearing device provided by the application comprises a frame; the material receiving platform is arranged at the top of the frame, the lower surface of the material receiving platform is connected with the first rotating rod, and the first rotating rod is arranged along the length direction of the frame; the first telescopic component can drive the material receiving platform to reciprocate along the height direction of the frame under the drive of the first driving component; the second adjusting mechanism comprises a second driving assembly and a second telescopic assembly, the second driving assembly is arranged on the frame, the second telescopic assembly is arranged between the frame and the receiving platform, and the second telescopic assembly can drive the receiving platform to rotate around the first rotating rod under the driving of the second driving assembly so that a certain included angle is formed between the receiving platform and the horizontal plane. Can make things convenient for operating personnel to stand the operation, and can carry out altitude mixture control and angle modulation, better adaptation production line has improved work efficiency.

Drawings

FIG. 1 is a schematic diagram of a sliding device according to an embodiment of the present utility model;

FIG. 2 is a schematic diagram of a sliding device according to an embodiment of the utility model;

fig. 3 is a schematic structural diagram of a sliding device according to an embodiment of the utility model.

Reference numerals in the drawings:

100-frames, 101-hollow bases, 102-first upright posts, 103-first connecting plates;

200-material receiving platform, 201-lower surface, 202-first rotating rod, 203-universal ball;

300-first adjustment mechanism, 301-first drive assembly, 302-first retraction assembly;

400-a second adjustment mechanism, 401-a second drive assembly, 402-a second retraction assembly;

500-slide mechanism, 501-slide connector, 502-slide frame, 503-slide rail, 504-pulley.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. The present utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, whereby the utility model is not limited to the specific embodiments disclosed below.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this utility model belongs. The terminology used herein in the description of the utility model is for the purpose of describing particular embodiments only and is not intended to be limiting of the utility model. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The sliding device in this embodiment can be used as a transition device that adopts in automatic conveying system when needs manual stacking, because in manual stacking in the past, operating personnel bend down for a long time and work, does not accord with ergonomics, and the sliding device in this embodiment then can be according to operating personnel's height adjustment to make operating personnel can stand work, when former manual stacking, conveying system can carry the lower position with panel, will make transfer time longer like this, and operating personnel need squat down and connect the material, also can reduce work efficiency like this, cause the waste of productivity.

In order to meet the ergonomics and improve the working efficiency, the present embodiment provides a slide device, as shown in fig. 1 and 2, comprising: a frame 100; the material receiving platform 200 is arranged at the top of the frame 100, the lower surface 201 of the material receiving platform 200 is connected with the first rotating rod 202, and the first rotating rod 202 is arranged along the length direction of the frame 100; the length direction of the material receiving platform 200 is parallel to the length direction of the frame 100, the first rotating rod 202 is arranged between the material receiving platform 200 and the frame 100, and the first rotating rod 202 can drive the material receiving platform 200 to rotate when rotating. The first rotating rod 202 is arranged along the length direction of the frame 100, that is, the first rotating rod 202 is arranged along the length direction of the material receiving platform 200, when the first rotating rod 202 rotates, the material receiving platform 200 is driven to rotate around the length direction of the material receiving platform 200, the width of the material receiving platform 200 is not larger than the width of the material receiving platform 200, the material receiving platform 200 is ensured not to collide with the frame 100, and in one possible implementation mode, the first rotating rod 202 is connected with the middle of the lower surface 201 of the material receiving platform 200, and the balance of the material receiving platform 200 during rotation is ensured.

The first adjusting mechanism 300 comprises a first driving component 301 and a first telescopic component 302, the first driving component 301 is arranged on the frame 100, the first telescopic component 302 is connected with the first rotating rod 202 and the frame 100, and the first telescopic component 302 can drive the receiving platform 200 to reciprocate along the height direction of the frame 100 under the driving of the first driving component 301; the second adjusting mechanism 400 comprises a second driving assembly 401 and a second telescopic assembly 402, the second driving assembly 401 is arranged on the frame 100, the second telescopic assembly 402 is arranged between the frame 100 and the material receiving platform 200, and the second telescopic assembly 402 can drive the material receiving platform 200 to rotate around the first rotating rod 202 under the driving of the second driving assembly 401 so as to form a certain included angle between the material receiving platform 200 and the horizontal plane. The first adjusting mechanism 300 can adjust the height of the receiving platform 200, because the frame 100 is fixed, two ends of the first telescopic component 302 are respectively connected with the first rotating rod 202 and the frame 100, when the first telescopic component 302 is in a tensile state, the first rotating rod 202 can be jacked up by the first telescopic component 302, so that the height of the receiving platform 200 is driven to increase, and when the first telescopic component 302 is in a compression state, the first rotating rod 202 can be dragged by the first telescopic component 302, so that the height of the receiving platform 200 is reduced. The second adjustment mechanism 400 can adjust the inclination of the material receiving platform 200, and when the material receiving platform 200 is at a certain height, the second telescopic assembly 402 can be driven to stretch out and draw back through the second driving assembly 401, so that the material receiving platform 200 is driven to rotate around the first rotating rod 202, and the material receiving platform 200 is inclined by a certain angle, so that the operator can receive materials conveniently.

In one possible implementation manner, as shown in fig. 3, a plurality of openings are formed on the material receiving platform 200, and a universal ball 203 is penetrated in each opening, so that the universal ball 203 has the flexible rolling performance, the movement and sliding of the plate on the material receiving platform 200 can be very flexible, and the labor intensity of operators is greatly reduced. In one possible implementation, the ball 203 protrudes out of the upper surface of the receiving platform 200, and the ball 203 is higher than the upper surface of the receiving platform 200, so that after the board is conveyed from the device before the sliding device to the sliding device, the board contacts the ball 203 instead of directly contacting the receiving platform 200, and thus the advantages of flexible rolling of the ball 203 and convenience in sliding of the board can be exerted.

In one possible implementation, ball 203 is made of an elastic material. The universal ball 203 made of elastic material can play a role in damping the plate on the material receiving platform 200, so that the plate cannot be scratched or deformed due to impact force, and the transportation yield of the plate is ensured.

In one possible implementation, as shown in fig. 1 and 2, the first drive assembly 301 and/or the second drive assembly 401 are manual hydraulic pumps and the first telescoping assembly 302 and/or the second telescoping assembly 402 are piston assemblies. In one possible implementation manner, two oil pipes are connected between the manual hydraulic pump and the piston assembly, and the two oil pipes are divided into a pressurizing oil pipe and a pressure relief oil pipe, the pressurizing handle of the manual hydraulic pump is pressed to transmit hydraulic pressure to the piston assembly through the pressurizing oil pipe so as to stretch the piston assembly, so that the material receiving platform 200 reaches a certain height, and when the material receiving platform 200 needs to be lowered, the pressure relief handle of the manual hydraulic pump can be pressed, so that the hydraulic pressure of the piston assembly is transmitted to the manual hydraulic pump through the pressure relief oil pipe.

In one possible implementation, the piston assembly includes a piston cylinder coupled to the frame 100 and a piston rod coupled to the receiving platform 200. The piston cylinder and the frame 100 keep relatively fixed static state, when the pressurization handle of the manual hydraulic pump is adopted for pressurization, the piston rod moves gradually in the direction away from the piston cylinder, the material receiving platform 200 also moves gradually away from the frame 100 under the pushing action of the piston rod, and when the pressure release handle of the manual hydraulic pump is adopted for pressure release, the piston rod moves gradually in the direction close to the piston cylinder, and the material receiving platform 200 also follows the piston rod to be gradually close to the frame 100.

In one possible implementation, as shown in fig. 2, the rack 100 includes a hollow base 101 and a plurality of first columns 102 connected to the hollow base 101, where a first connection plate 103 is disposed on the first columns 102, and the material receiving platform 200 is connected to the first connection plate 103 through a sliding mechanism 500. In one possible implementation, the rack 100 includes four columns, which are respectively distributed in four corners of the hollow base 101, and adjacent columns along the width direction of the rack 100 are connected by the first connecting plate 103, and it may also be considered that each column is provided with the first connecting plate 103, but the first connecting plates 103 on two columns connected along the width direction of the rack 100 are connected, and the effect of setting the first connecting plates 103 to be connected can make the structure of the rack 100 more stable. And in order to make the movement between the receiving platform 200 and the frame 100 smoother, a sliding mechanism 500 is provided.

In one possible implementation, as shown in fig. 2, the sliding mechanism 500 includes a sliding connection member 501, a sliding frame 502, a sliding rail 503 and a pulley 504, where the sliding connection member 501 is sleeved on the first rotating rod 202, the sliding frame 502 is connected with the sliding connection member 501, the sliding rail 503 is arranged on the sliding frame 502 along the height direction of the frame 100, and the pulley 504 is fixedly connected to the first connecting plate 103; the slide rail 503, the slide frame 502, and the slide connector 501 are capable of reciprocating in the height direction of the frame 100. The carriage 502 is located the inside that a plurality of first stands 102 enclose the structure that closes and form, be equipped with slide rail 503 on the carriage 502, carriage 502 and slide rail 503 can follow and connect material platform 200 along the direction of height of frame 100 upward reciprocating motion, pulley 504 then fixes on first connecting plate 103, when first drive assembly 301 drive first telescopic assembly 302 motion, first telescopic assembly 302 can drive and connect material platform 200 motion, connect material platform 200 drives carriage 502 and slide rail 503 relative pulley 504 motion simultaneously, set up slide mechanism 500 can increase the joint strength between material platform 200 and the frame 100, can make the motion of material platform 200 more smooth again.

In one possible implementation, bearings are provided on the first rotating lever 202 at the locations where the sliding connection 501 and the first telescopic assembly 302 are connected. In order to ensure the normal rotation of the first rotating rod 202, if the first rotating rod 202 is fixed, when the second driving component 401 drives the second telescopic component 402 to move, the first rotating rod 202 cannot rotate, the material receiving platform 200 cannot rotate to rotate an angle, and the first rotating rod 202 is provided with a bearing to ensure the rotation of the first rotating rod 202, so that the material receiving platform 200 is driven to rotate.

In one possible implementation, the included angle is between 0 ° and 60 °. The included angle refers to an included angle formed between the material receiving platform 200 and the horizontal plane, the second telescopic component 402 is connected with one side of the lower surface 201 of the material receiving platform 200, when the second driving component 401 drives the second telescopic component 402 to move, the material receiving platform 200 on one side connected with the second telescopic component 402 can rotate upwards or downwards due to stretching of the second telescopic component 402, the horizontal plane on which the middle part of the material receiving platform 200 is located is taken as a reference horizontal plane, the material receiving platform 200 on one side connected with the second telescopic component 402 can be higher than the reference horizontal plane or lower than the reference horizontal plane, here, the positive and negative angles are ignored, only the actual included angle between the material receiving platform 200 on one side connected with the second telescopic component 402 and the reference horizontal plane is considered to be between 0 and 60 degrees, and the included angle between the other side not connected with the second telescopic component 402 on the material receiving platform 200 and the reference horizontal plane is also between 0 and 60 degrees, so that the rotation range of the material receiving platform 200 is between 0 and 60 degrees.

The technical features of the above embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above embodiments are not described for brevity of description, however, as long as there is no contradiction between the combinations of the technical features, they should be considered as the scope of the description.

The foregoing examples illustrate only a few embodiments of the utility model, which are described in detail and are not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (10)

1. A slide device, comprising:

A frame (100);

The material receiving platform (200) is arranged at the top of the frame (100), the lower surface (201) of the material receiving platform (200) is connected with the first rotating rod (202), and the first rotating rod (202) is arranged along the length direction of the frame (100);

The first adjusting mechanism (300) comprises a first driving assembly (301) and a first telescopic assembly (302), the first driving assembly (301) is arranged on the frame (100), the first telescopic assembly (302) is connected with the first rotating rod (202) and the frame (100), and the first telescopic assembly (302) can drive the material receiving platform (200) to reciprocate along the height direction of the frame (100) under the driving of the first driving assembly (301);

The second adjusting mechanism (400) comprises a second driving assembly (401) and a second telescopic assembly (402), the second driving assembly (401) is arranged on the frame (100), the second telescopic assembly (402) is arranged between the frame (100) and the receiving platform (200), and the second telescopic assembly (402) can drive the receiving platform (200) to rotate around the first rotating rod (202) under the driving of the second driving assembly (401), so that a certain included angle is formed between the receiving platform (200) and the horizontal plane.

2. The material sliding device according to claim 1, wherein the material receiving platform (200) is provided with a plurality of openings, and a universal ball (203) is arranged in each opening in a penetrating way.

3. The skid device according to claim 2, characterized in that the universal ball (203) protrudes from the upper surface of the receiving platform (200).

4. A slide device according to claim 2, characterized in that the universal ball (203) is made of an elastic material.

5. The skid device according to claim 1, characterized in that the first drive assembly (301) and/or the second drive assembly (401) is a manual hydraulic pump and the first telescopic assembly (302) and/or the second telescopic assembly (402) is a piston assembly.

6. The skidder of claim 5, characterized in that the piston assembly comprises a piston cylinder and a piston rod, the piston cylinder being connected to the frame (100), the piston rod being connected to the receiving platform (200).

7. The material sliding device according to claim 1, wherein the frame (100) comprises a hollow base (101) and a plurality of first upright posts (102) connected with the hollow base (101), a first connecting plate (103) is arranged on the first upright posts (102), and the material receiving platform (200) is connected with the first connecting plate (103) through a sliding mechanism (500).

8. The material sliding device according to claim 7, wherein the sliding mechanism (500) comprises a sliding connecting piece (501), a sliding frame (502), a sliding rail (503) and a pulley (504), the sliding connecting piece (501) is sleeved on the first rotating rod (202), the sliding frame (502) is connected with the sliding connecting piece (501), the sliding rail (503) is arranged on the sliding frame (502) along the height direction of the frame (100), and the pulley (504) is fixedly connected on the first connecting plate (103); the slide rail (503), the slide frame (502) and the slide connector (501) are capable of reciprocating in the height direction of the frame (100).

9. The material sliding device according to claim 8, wherein bearings are arranged on the first rotating rod (202) at positions connected with the sliding connecting piece (501) and the first telescopic assembly (302).

10. The slide of claim 1, wherein the included angle is between 0 ° and 60 °.