CN217577309U - Novel double-sliding-table feeding equipment - Google Patents

Abstract

The utility model relates to a novel two sliding stand feeder, comprising a base plate, the cylinder, drive assembly, first vacuum adsorption board and second vacuum adsorption board, the both sides of bottom plate are provided with second linear guide and are located the inboard first linear guide of second linear guide, the cylinder is fixed in the one end of bottom plate and is located between the first linear guide of both sides, drive assembly's both ends are fixed between first linear guide and second linear guide, one side and first linear guide sliding connection of drive assembly, opposite side and second linear guide sliding connection, first vacuum adsorption board is fixed in the top of cylinder and is fixed with drive assembly one side, second vacuum adsorption board is fixed with the drive assembly opposite side, distance between first vacuum adsorption board and the bottom plate is less than the distance between second vacuum adsorption board and the bottom plate. The utility model discloses a feeding equipment adopts first vacuum adsorption board, the alternately transmission material of second vacuum adsorption board alternately, has reduced the space volume, effectively improves the conveying efficiency.

Description

Novel double-sliding-table feeding equipment

Technical Field

The utility model relates to a novel two smooth platform feeder equipment.

Background

The relevant smart machine that is provided with the camera module at present adopts and pastes dress platform equipment and transport, but current subsides dress platform equipment adopts single slip table to transport usually, leads to the conveying efficiency low.

SUMMERY OF THE UTILITY MODEL

For overcoming the defect that conveying efficiency is low among the prior art, the utility model provides a neotype two smooth platform supply equipment is realized through following technical scheme.

The utility model provides a novel two sliding stand feeder equipment, includes bottom plate, cylinder, drive assembly, first vacuum adsorption board and second vacuum adsorption board, the both sides of bottom plate are provided with second linear guide and are located the inboard first linear guide of second linear guide, first linear guide and second linear guide parallel arrangement, the cylinder is fixed in the one end of bottom plate and is located between the first linear guide of both sides, drive assembly's both ends are fixed between first linear guide and second linear guide, one side and first linear guide sliding connection of drive assembly, drive assembly's opposite side and second linear guide sliding connection, first vacuum adsorption board is fixed in the top of cylinder and is fixed with drive assembly one side for the messenger the cylinder drives the drive assembly motion, the second vacuum adsorption board is fixed with the drive assembly opposite side, distance between first vacuum adsorption board and the bottom plate is less than the distance between second vacuum adsorption board and the bottom plate.

Further, drive assembly includes first sliding block, second sliding block and belt assembly, first vacuum adsorption board is fixed in the top of first sliding block, the top at the second sliding block is fixed to second vacuum adsorption board, belt assembly fixes between first linear guide and second linear guide, first sliding block and belt assembly's one side fixed connection and with first linear guide sliding connection, the second sliding block and belt assembly's opposite side fixed connection and with second linear guide sliding connection.

Furthermore, still be provided with a plurality of lift stoppers on the bottom plate, it is a plurality of the lift stopper is fixed between the first linear guide rail of both sides, and with first linear guide rail parallel arrangement, the lift stopper has the inclined plane.

The lifting follower is fixedly connected with the first vacuum adsorption plate, the lower portion of the lifting follower is fixedly connected with the first sliding block, a connecting portion which is in contact with the lifting limiting block is arranged at the bottom of the lifting follower, and the connecting portion slides on the lifting limiting block along the inclined plane and is used for lifting the first vacuum adsorption plate.

The utility model has the advantages that: compared with the prior art, the utility model discloses a feeding equipment adopts first vacuum adsorption board, the alternately transmission material of second vacuum adsorption board alternately, has not only reduced the space volume, effectively improves the conveying efficiency moreover.

Drawings

Fig. 1 is a schematic structural diagram of the present invention;

fig. 2 is a schematic structural diagram of the bottom plate of the present invention;

FIG. 3 is a schematic structural view of the transmission assembly of the present invention;

fig. 4 is a schematic structural view of the lifting follower of the present invention.

Detailed Description

The present invention will be further described with reference to the following examples, which are only part of the present invention, and these examples are only used to explain the present invention, and do not constitute any limitation to the scope of the present invention.

As shown in fig. 1-3, a novel double-sliding-table feeding device includes a bottom plate 1, a cylinder 2, a transmission assembly 3, a first vacuum adsorption plate 4 and a second vacuum adsorption plate 5, wherein two sides of the bottom plate 1 are provided with a second linear guide rail 12 and a first linear guide rail 11 located at the inner side of the second linear guide rail, the first linear guide rail 11 and the second linear guide rail 12 are arranged in parallel, the cylinder 2 is fixed at one end of the bottom plate 1 and located between the first linear guide rails 11 at the two sides, two ends of the transmission assembly 3 are fixed between the first linear guide rail 11 and the second linear guide rail 12, one side of the transmission assembly is slidably connected with the first linear guide rail 11, the other side of the transmission assembly is slidably connected with the second linear guide rail 12, the first vacuum adsorption plate 4 is fixed above the cylinder 2 and fixed with one side of the transmission assembly 3 for driving the cylinder to drive the transmission assembly to move, the second vacuum adsorption plate 5 is fixed with the other side of the transmission assembly 3, and the distance between the first vacuum adsorption plate 4 and the bottom plate 1 is smaller than the distance between the second vacuum adsorption plate 5 and the bottom plate 1.

Specifically, a second linear guide rail 12 and a first linear guide rail 11 located on the inner side of the second linear guide rail are arranged on two sides of the bottom plate, the cylinder 2 is installed and fixed at one end of the bottom plate 1, the first vacuum adsorption plate 4 is installed above the cylinder 2, the second vacuum adsorption plate 5 is located on the side face of the first vacuum adsorption plate 4 and is arranged in parallel with the first vacuum adsorption plate, the distance between the first vacuum adsorption plate and the bottom plate is smaller than the distance between the second vacuum adsorption plate and the bottom plate, when the first vacuum adsorption plate and the second vacuum adsorption plate are crossed and overlapped, the first vacuum adsorption plate passes through the lower portion of the second vacuum adsorption plate to realize cross motion, one side of the transmission assembly is connected with the first linear guide rail in a sliding mode, the other side of the transmission assembly is connected with the second linear guide rail in a sliding mode, and the transmission assembly slides on the first linear guide rail and the second linear guide rail. When the cylinder does piston motion, the cylinder drives the first vacuum adsorption plate to move synchronously, the first vacuum adsorption plate drives the transmission assembly to move synchronously, the transmission assembly drives the second vacuum adsorption plate to move, and the moving direction of the second vacuum adsorption plate is opposite to that of the first vacuum adsorption plate. Through being provided with first linear guide, second linear guide, make first vacuum adsorption board, second vacuum adsorption board slide on corresponding different guide rails respectively, and then make first vacuum adsorption board, second vacuum adsorption board realize cross motion, the utility model discloses a feeding equipment adopts first vacuum adsorption board, second vacuum adsorption board alternately transmission material, has not only reduced the space volume, effectively improves the conveying efficiency moreover.

Further, drive assembly 3 includes first sliding block 31, second sliding block 32 and belt assembly 33, first vacuum adsorption plate 4 is fixed in the top of first sliding block 31, second vacuum adsorption plate 5 is fixed in the top of second sliding block 32, belt assembly 33 is fixed between first linear guide 11 and second linear guide 12, one side fixed connection of first sliding block 31 and belt assembly 33 and with first linear guide 11 sliding connection, second sliding block 32 and belt assembly 33's opposite side fixed connection and with second linear guide 12 sliding connection.

Specifically, the both ends of belt subassembly are passed through the screw fixation and are passed through between first linear guide and the second linear guide, first sliding block and one side fixed connection of belt subassembly, the opposite side fixed connection of second sliding block and belt subassembly, first sliding block sliding connection on first linear guide, second sliding block sliding connection on second linear guide, when the cylinder motion, the cylinder drives first vacuum adsorption board motion, first vacuum adsorption board drives first sliding block and slides, first sliding block drives belt subassembly motion and then drives second sliding block reverse motion. Because the cylinder does the piston motion and drives the belt assembly and do the back and forth movement, make first vacuum adsorption board do the back and forth movement through first sliding block along first vacuum adsorption board, second vacuum adsorption board is through the back and forth movement of second sliding block.

Further, as shown in fig. 2, a plurality of lifting limit blocks 13 are further arranged on the bottom plate 1, the plurality of lifting limit blocks 13 are fixed between the first linear guide rails 11 on the two sides and are arranged in parallel with the first linear guide rails, and the lifting limit blocks are provided with inclined planes 131.

Preferably, the number of the lifting limiting blocks is eight, the two ends of the bottom plate are respectively provided with four lifting limiting blocks, and the four lifting limiting blocks at the two ends of the bottom plate are oppositely arranged. First vacuum adsorption board slides on the lift stopper along the inclined plane, and first vacuum adsorption board goes up and down through the lift stopper, makes first vacuum adsorption board and second vacuum adsorption board get the material position and be in same horizontal plane. The lifting limiting block has simple structure and high durability, and is favorable for saving the cost.

Further, as shown in fig. 4, the vacuum suction device further includes a lifting follower 6, an upper portion of the lifting follower 6 is fixedly connected to the first vacuum suction plate 5, a lower portion of the lifting follower 6 is fixedly connected to the first sliding block 31, a bottom portion of the lifting follower is provided with a connecting portion 61 contacting with the lifting stopper, and the connecting portion 61 slides on the lifting stopper 13 along the inclined surface 131 to lift the first vacuum suction plate 5. Preferably, the bottom of lift follower is provided with four connecting portion, and connecting portion slide at the lift stopper, are favorable to keeping balance.

Specifically, the cylinder is fixed in the one end of bottom plate, and first vacuum adsorption board sets up connecting portion through lift follower and first sliding block fixed connection on the lift follower, and connecting portion slide on the lift stopper along the inclined plane, make first vacuum adsorption board go up and down through the lift stopper. When the first vacuum adsorption plate is located above the lifting limiting block, the distance between the first vacuum adsorption plate 4 and the bottom plate 1 is the same as the distance between the second vacuum adsorption plate 5 and the bottom plate 1, so that the material taking positions of the first vacuum adsorption plate and the second vacuum adsorption plate are located on the same horizontal plane. When the connecting part of the lifting follower is contacted with the bottom of the lifting limiting block and the piston rod of the air cylinder retracts, the first vacuum adsorption plate moves towards the direction of the air cylinder, the connecting part of the lifting follower moves upwards to the top end along the inclined plane of the lifting limiting block at the end, at the moment, the air cylinder stops retracting, so that the lifting follower rises along the inclined plane and stops above the lifting limiting block, and the lifting limiting block plays a role in positioning; when the piston rod of cylinder stretches out, first vacuum adsorption board moves toward the opposite direction of cylinder, and the connecting portion of lift follower slides to the bottom along the inclined plane of the lift stopper of this end, makes first vacuum adsorption board descend to the bottom of the stopper slider of motion to the other end, makes connecting portion rise to the top of the other end along the inclined plane, and first vacuum adsorption board rises. The second vacuum adsorption plate is driven to reciprocate on the second linear guide rail through the movement of the air cylinder, the second vacuum adsorption plate drives the first vacuum adsorption plate to reciprocate on the first linear guide rail, so that the first vacuum adsorption plate reciprocates in the lifting limiting blocks at the two ends, and the first vacuum adsorption plate is lifted through the lifting limiting blocks and achieves the positioning effect.

The above description is only a preferred embodiment of the present invention, and the present invention is not limited to the above description, and although the present invention has been disclosed with the preferred embodiment, it is not limited to the present invention, and any person skilled in the art can make some modifications or modifications to the equivalent embodiment of the equivalent change without departing from the technical scope of the present invention, but all the simple modifications, equivalent changes and modifications made to the above embodiments according to the technical spirit of the present invention still belong to the technical scope of the present invention.

Claims (4)

1. The utility model provides a novel two sliding stand feeding equipment, its characterized in that, includes bottom plate, cylinder, drive assembly, first vacuum adsorption board and second vacuum adsorption board, the both sides of bottom plate are provided with second linear guide and are located the inboard first linear guide of second linear guide, first linear guide and second linear guide parallel arrangement, the cylinder is fixed in the one end of bottom plate and is located between the first linear guide of both sides, drive assembly's both ends are fixed between first linear guide and second linear guide, one side and first linear guide sliding connection of drive assembly, drive assembly's opposite side and second linear guide sliding connection, first vacuum adsorption board is fixed in the top of cylinder and is fixed with drive assembly one side for the cylinder drives the drive assembly motion, the second vacuum adsorption board is fixed with the drive assembly opposite side, the distance between first vacuum adsorption board and the bottom plate is less than the distance between second vacuum adsorption board and the bottom plate.

2. The novel double-sliding-table feeding device as claimed in claim 1, wherein the transmission assembly comprises a first sliding block, a second sliding block and a belt assembly, the first vacuum adsorption plate is fixed above the first sliding block, the second vacuum adsorption plate is fixed above the second sliding block, the belt assembly is fixed between the first linear guide rail and the second linear guide rail, the first sliding block is fixedly connected with one side of the belt assembly and is in sliding connection with the first linear guide rail, and the second sliding block is fixedly connected with the other side of the belt assembly and is in sliding connection with the second linear guide rail.

3. The novel double-sliding-table feeding device as claimed in claim 1, wherein a plurality of lifting limiting blocks are further arranged on the bottom plate, the lifting limiting blocks are fixed between the first linear guide rails on the two sides and arranged in parallel with the first linear guide rails, and each lifting limiting block is provided with an inclined surface.

4. A novel double-sliding-table feeding device as claimed in claim 3, further comprising a lifting follower, wherein the upper part of the lifting follower is fixedly connected with the first vacuum adsorption plate, the lower part of the lifting follower is fixedly connected with the first sliding block, the bottom of the lifting follower is provided with a connecting part which is in contact with the lifting limiting block, and the connecting part slides on the lifting limiting block along an inclined plane and is used for lifting the first vacuum adsorption plate.

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