CN219275010U - Automatic assembly device for sliding rail buffer parts - Google Patents

Abstract

The utility model discloses an automatic assembly device for a sliding rail buffer piece, which comprises a workbench; the positioning rail I is movably connected to the table top of the workbench; the first positioning rail is provided with a first station, a second station and a third station for accommodating the sliding rail; a material ejection module is arranged beside the first station; a stamping module is arranged beside the second station, and a stamping head which moves up and down is arranged on the stamping module; the utility model has the advantages that the buffer parts are quickly and automatically assembled on the sliding rail, the assembly time of the single buffer part is short, the assembly efficiency of the buffer parts is improved, and the labor intensity of workers is greatly reduced.

Description

Automatic assembly device for sliding rail buffer parts

Technical Field

The utility model relates to the field of slide rail assembly equipment, in particular to an automatic assembly device for a slide rail buffer piece.

Background

The sliding rail is formed by assembling various parts, and a transmission connecting part required by the relative sliding of two objects is realized. The sliding rail is widely used, and is suitable for drawer parts connection of cabinets, furniture, briefcases, bathroom cabinets, refrigerators and the like.

The structure of the existing slide rail with a certain model is shown in fig. 1, and one end of the slide rail is provided with a bending part which is tilted upwards. Currently, a buffer piece is shown in fig. 2, the buffer piece is made of rubber, an inner hole matched with the shape of the bending part is formed in the center of the buffer piece, and the buffer piece is inserted into the bending part through the inner hole.

At present, the assembly process of the sliding rail and the buffer piece comprises the following steps: the staff holds the slide rail, sends into the press with the one end of slide rail, extrudes the portion of bending at the tip of slide rail, later in holding the bolster, presses the bolster in the portion of bending, accomplishes the assembly of a bolster. But has the following problems: the staff needs to carry out long-time repetitive motion, and staff's intensity of labour is tired easily, leads to single bolster assembly time long, influences bolster assembly efficiency.

Disclosure of Invention

In view of the above-mentioned drawbacks of the prior art, the present utility model is directed to an automatic assembly device for a sliding rail buffer member, which has the advantages of fast and automatic assembly of the buffer member on the sliding rail, and short assembly time of a single buffer member, so as to improve assembly efficiency of the buffer member and greatly reduce labor intensity of staff.

The technical aim of the utility model is realized by the following technical scheme:

automatic assembly device for sliding rail buffer parts:

comprises a workbench;

the positioning rail I is movably connected to the table top of the workbench;

the first positioning rail is provided with a first station, a second station and a third station for accommodating the sliding rail;

a material ejection module is arranged beside the first station;

a stamping module is arranged beside the second station, and a stamping head which moves up and down is arranged on the stamping module;

the third station is provided with a storage module and a feeding device beside, the storage module is internally provided with a storage tank for accommodating a buffer part, the feeding device comprises a support and a picking head, the support is arranged beside the storage module, a sliding block is slidably connected in the support, the sliding block is connected with the picking head in a lifting manner, and the picking head is positioned above the storage module.

Further, a first cylinder is mounted on the top of the stamping module, a piston rod of the first cylinder is directed downwards, and the end part of the piston rod of the first cylinder is fixed with the stamping head.

Further, a feeding channel which is obliquely arranged is arranged on one side of the storage module, the feeding channel is communicated with the storage groove, and the width of the feeding channel is the same as that of the storage groove.

Further, a vibration material tray is arranged on the workbench, and a discharging channel for outputting a buffer piece to the feeding channel is arranged on the vibration material tray.

Further, at least two sliding rods which are horizontally arranged are arranged in the support, the sliding rods are uniformly arranged along the height direction, and the sliding blocks are connected to the sliding rods in a sliding mode.

Further, a second cylinder which is horizontally arranged is arranged on the support, and a piston rod of the second cylinder is fixed with the sliding block.

Further, a third air cylinder is arranged on the sliding block in a vertical mode, a piston rod of the third air cylinder is directed downwards, and the piston rod of the third air cylinder is fixed with the picking head.

Further, a second positioning rail is arranged on the table top of the workbench, the second positioning rail and the first positioning rail are arranged in parallel, and grooves corresponding to the first station, the second station and the third station are formed in the second positioning rail.

Further, a feeding track is movably arranged on the table top of the workbench, and the feeding track and the positioning track I are parallel to each other.

Further, a feeding belt is arranged beside the workbench, a tabletop of the workbench is provided with a pre-positioning block, the pre-positioning block is positioned at an outlet of the feeding belt, and a pre-positioning station is arranged at the top of the pre-positioning block.

In summary, the utility model has the following beneficial effects:

1. in first station, slide rail tip offsets with the liftout module, guarantee that the slide rail is in the exact position, later the slide rail is sent into in the second station, cylinder one drives the punching press head down motion, extrude the portion of bending at the tip of slide rail, last the slide rail is sent into in the third station, simultaneously the bolster is from vibrations charging tray input to the storage silo of storage module, cylinder three drive take the head take out the bolster from the storage silo, the slider motion is to the portion top of bending of slide rail, take the head down motion and insert the bolster in the portion of bending, accomplish the automatic assembly of bolster, shorten bolster assembly time, improve bolster assembly efficiency, greatly reduced staff's intensity of labour.

2. Through arranging at least two slide bars that the level was arranged, restrict the direction of motion of slider, make the slider move in the horizontal direction, and then take the head and do horizontal motion equally, guarantee to take the head and can move on the route of design, place the bolster correctly on the piece of bending of slide rail.

3. The discharging channel and the feeding channel of the vibration material tray are connected, and the buffer piece enters the material storage groove along the inclined feeding channel, so that uninterrupted feeding is realized.

Drawings

Fig. 1 is a schematic bottom view of a slide rail.

Fig. 2 is a schematic structural view of the cushioning member.

Fig. 3 is a schematic structural view of an automatic assembly device for a sliding rail buffer.

Fig. 4 is a partially enlarged schematic view of the structure at a in fig. 3.

In the figure, 1, a sliding rail; 11. a bending part; 12. a buffer member; 2. a feed belt; 3. a work table; 4. positioning a first rail; 41. a first station; 411. a material ejection module; 42. a second station; 421. a stamping module; 422. a first cylinder; 423. punching heads; 43. a third station; 431. a storage module; 432. a storage tank; 433. a feed channel; 44. a bracket; 441. a slide bar; 442. a slide block; 443. a second cylinder; 444. a third cylinder; 445. a pick-up head; 5. positioning a second track; 6. a feeding rail; 7. a pre-positioning block; 71. a pre-positioning station; 8. vibrating the material tray; 81. and a discharging channel.

Detailed Description

In order to make the objects, technical solutions and advantages of the present utility model more apparent, the following more detailed description of the device according to the present utility model is given with reference to the accompanying drawings and the detailed description. The advantages and features of the present utility model will become more apparent from the following description. It should be noted that the drawings are in a very simplified form and are all to a non-precise scale, merely for the purpose of facilitating and clearly aiding in the description of embodiments of the utility model. For a better understanding of the utility model with objects, features and advantages, refer to the drawings. It should be understood that the structures, proportions, sizes, etc. shown in the drawings are for illustration purposes only and should not be construed as limiting the utility model to the extent that any modifications, changes in the proportions, or adjustments of the sizes of structures, proportions, or otherwise, used in the practice of the utility model, are included in the spirit and scope of the utility model which is otherwise, without departing from the spirit or essential characteristics thereof.

Examples:

the utility model provides a slide rail 1 bolster 12 automatic assembly device, as shown in fig. 3, includes workstation 3 and feeding belt 2, and feeding belt 2 arranges by workstation 3, and workstation 3 is used for bearing the platform of other installation component, and feeding belt 2 is in being used for sending into the workstation 3 with slide rail 1 on the production line in accomplish the assembly work of slide rail 1 and bolster 12.

Specifically, as shown in fig. 3, a pre-positioning block 7 is arranged on the table surface of the workbench 3, the pre-positioning block 7 is positioned at the outlet of the feeding belt 2, and a pre-positioning station 71 is arranged at the top of the pre-positioning block 7. The slide 1 is fed into from the feed belt 2, after which the slide 1 falls into the pre-positioning station 71 of the pre-positioning block 7.

Specifically, as shown in fig. 3, the vibration tray 8 is mounted on the workbench 3, the buffer member 12 is placed in the vibration tray 8, the discharge channel 81 is provided on the vibration tray 8, and the buffer member 12 is sent out through the discharge channel 81.

Specifically, as shown in fig. 3, the positioning rail 1 comprises a positioning rail first 4, the positioning rail first 4 is movably connected to the surface of the workbench 3, a first station 41, a second station 42 and a third station 43 for accommodating the slide rail 1 are arranged on the positioning rail first 4, and the first station 41, the second station 42 and the third station 43 are grooves matched with the slide rail 1 in size. The first station 41, the second station 42 and the third station 43 are uniformly arranged along the length direction of the positioning rail one 4.

Specifically, as shown in fig. 3, a second positioning rail 5 is disposed on the surface of the workbench 3, the second positioning rail 5 and the first positioning rail 4 are disposed in parallel, and grooves corresponding to the first station 41, the second station 42 and the third station 43 are formed in the second positioning rail 5. The slide rail 1 is placed in the grooves of the positioning rail two and the positioning rail one 4 at the same time, so that the slide rail 1 is ensured to be positioned at the correct position.

Specifically, as shown in fig. 3, a feeding rail 6 is movably arranged on the surface of the workbench 3, the feeding rail 6, the first positioning rail 4 and the second positioning rail 5 are parallel to each other, and the feeding rail 6 is positioned between the first positioning rail 4 and the second positioning rail 5. And the feeding track 6 and the positioning track one 4 synchronously move for feeding the parts to the next station. The feeding track 6 is provided with a groove for accommodating the slide rail 1. During operation, the feeding track 6 moves upwards in the vertical direction to lift the sliding rail 1, then the feeding track 6 moves to the position above the next station, then the feeding track 6 falls below the top surfaces of the first positioning track 4 and the second positioning track 5, the sliding rail 1 is placed on the next station, and finally the feeding track 6 resets to complete the forward transportation process of the sliding rail 1, and meanwhile the first positioning track 4 moves synchronously.

Specifically, as shown in fig. 3, a material ejection module 411 fixed on the table surface of the workbench 3 is arranged beside the first station 41, and a groove for accommodating the slide rail 1 is formed in the top of the material ejection module 411. During operation, after the sliding rail 1 passes through the feeding belt 2, the sliding rail 1 falls into the pre-positioning station 71, and then the sliding rail 1 is transported into the first station 41 through the feeding rail 6, and one end of the sliding rail 1 is abutted against the ejection module 411, so that the sliding rail 1 is ensured to be positioned on a well-set movement path of the production line.

Specifically, as shown in fig. 3, a punching module 421 is disposed beside the second station 42, the punching module 421 is fixed on a table surface of a work, a punching head 423 for lifting is disposed on the punching module 421, a first cylinder 422 is mounted on the top of the punching module 421, a piston rod of the first cylinder 422 is directed downward, and a piston rod end of the first cylinder 422 is fixed with the punching head 423. When the slide rail 1 is fed into the second station 42, the first cylinder 422 starts the punching head 423 to press down, and the bending part 11 is rolled out at the end of the slide rail 1.

Specifically, as shown in fig. 3 and fig. 4, a storage module 431 and a feeding device are arranged beside the third station 43, a storage groove 432 for accommodating the buffer member 12 is formed in the storage module 431, a feeding channel 433 which is obliquely arranged is arranged on one side of the storage module 431, the feeding channel 433 is communicated with the storage groove 432, and the widths of the feeding channel 433 and the storage groove 432 are the same. Before the start of the work, the worker connects the feed channel 433 and the discharge channel 81. In operation, cushioning element 12 slides into storage slot 432 through feed channel 433.

Specifically, as shown in fig. 3 and fig. 4, the feeding device includes a bracket 44 and a pick-up head 445, the bracket 44 is disposed beside the storage module 431, a sliding block 442 is slidably connected in the bracket 44, at least two sliding bars 441 horizontally arranged are disposed in the bracket 44, the sliding bars 441 are uniformly arranged along the height direction, the sliding block 442 is slidably connected on the sliding bars 441, a second cylinder 443 horizontally arranged is mounted on the bracket 44, a piston rod of the second cylinder 443 is fixed with the sliding block 442, and the second cylinder 443 drives the sliding block 442 to reciprocate along the sliding bars 441. The sliding block 442 is provided with a third vertically arranged air cylinder 444, a piston rod of the third air cylinder 444 is directed downwards, the piston rod of the third air cylinder 444 is fixed with the picking head 445, and the picking head 445 is positioned above the storage module 431. The third air cylinder 444 drives the pick-up head 445 to move up and down. In operation, the third cylinder 444 starts the picking head 445 to move downwards to pick up the buffer 12, the picking head 445 is lifted and reset, the second cylinder 443 starts to push the sliding block 442 to the position above the bending part 11 of the sliding rail 1, finally the third cylinder 444 drives the picking head 445 to move downwards, the bending part 11 is inserted into the inner hole of the buffer 12, the assembly process is completed, and finally the reset and repeat actions are performed, after the assembly of the buffer 12 is completed, the sliding rail 1 continues to move on the production line to complete the assembly work of other parts.

The technical features of the above-described embodiments may be arbitrarily combined, and all possible combinations of the technical features in the above-described 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 above 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. An automatic assembly device for a sliding rail buffer piece is characterized in that:

comprises a workbench;

the positioning rail I is movably connected to the table top of the workbench;

the first positioning rail is provided with a first station, a second station and a third station for accommodating the sliding rail;

a material ejection module is arranged beside the first station;

a stamping module is arranged beside the second station, and a stamping head which moves up and down is arranged on the stamping module;

the third station is provided with a storage module and a feeding device beside, the storage module is internally provided with a storage tank for accommodating a buffer part, the feeding device comprises a support and a picking head, the support is arranged beside the storage module, a sliding block is slidably connected in the support, the sliding block is connected with the picking head in a lifting manner, and the picking head is positioned above the storage module.

2. The automatic assembly device for slide rail buffers according to claim 1, wherein: the top of the stamping module is provided with a first cylinder, a piston rod of the first cylinder is directed downwards, and the end part of the piston rod of the first cylinder is fixed with the stamping head.

3. The automatic assembly device for slide rail buffers according to claim 1, wherein: the feeding channel is arranged obliquely and is communicated with the storage tank, and the width of the feeding channel is the same as that of the storage tank.

4. A slide rail buffer automatic assembly device according to claim 3, wherein: the workbench is provided with a vibration material tray, and the vibration material tray is provided with a discharging channel for outputting a buffer piece to the feeding channel.

5. The automatic assembly device for slide rail buffers according to claim 1, wherein: at least two sliding rods which are horizontally arranged are arranged in the support, the sliding rods are uniformly arranged along the height direction, and the sliding blocks are connected to the sliding rods in a sliding manner.

6. The automatic assembly device for slide rail buffers according to claim 5, wherein: and a second cylinder which is horizontally arranged is arranged on the support, and a piston rod of the second cylinder is fixed with the sliding block.

7. The automatic assembly device for slide rail buffers according to claim 6, wherein: the sliding block is provided with a third air cylinder which is vertically arranged, a piston rod of the third air cylinder is directed downwards, and the piston rod of the third air cylinder is fixed with the picking head.

8. The automatic assembly device for slide rail buffers according to claim 1, wherein: the table top of the workbench is provided with a second positioning rail, the second positioning rail and the first positioning rail are arranged in parallel, and the second positioning rail is provided with grooves corresponding to the first station, the second station and the third station respectively.

9. The automatic assembly device for slide rail buffers according to claim 1, wherein: the table top of the workbench is movably provided with a feeding track, and the feeding track and the positioning track I are parallel to each other.

10. The automatic assembly device for slide rail buffers according to claim 1, wherein: the feeding belt is arranged beside the workbench, a pre-positioning block is arranged on the table top of the workbench and is positioned at the outlet of the feeding belt, and a pre-positioning station is arranged at the top of the pre-positioning block.

Images