CN221621229U - Earpiece silk centre gripping feeding mechanism - Google Patents

Abstract

The utility model discloses an earpiece wire clamping and feeding mechanism, which comprises an electric welding platform, a clamping device and a vibration disc feeding device, wherein the vibration disc feeding device comprises a vibration disc charging barrel, a conveying belt and a feeding table, two groups of charging channels are arranged on the feeding table, each charging channel comprises a pushing channel and a feeding channel which are communicated, the feeding channels are connected with the conveying belt, the conveying belt conveys a hinge piece into the pushing channel, an opening of the pushing channel is arranged towards the direction of the clamping device, a pushing part is further arranged at the bottom of the pushing channel, the pushing part pushes the hinge piece onto the clamping device, the clamping device comprises a transverse driving part, a longitudinal driving part positioned on the transverse driving part and a cylinder mechanical clamping jaw positioned on the longitudinal driving part, the transverse driving part drives the cylinder mechanical clamping jaw to move back and forth between the openings of the two charging channels, and the longitudinal driving part drives the cylinder mechanical clamping jaw to move up and down towards the electric welding platform. The utility model has the advantages of automatic feeding, high working efficiency and high safety performance.

Description

Earpiece silk centre gripping feeding mechanism

Technical Field

The utility model relates to the technical field of earpiece wire welding, in particular to an earpiece wire clamping and feeding mechanism.

Background

The glasses include picture frame and earpiece silk, and earpiece silk still need welded hinge in order to assemble with the picture frame. When the earpiece silk welds with the connecting piece, need go on the material loading through artifical manual mode to the articulated elements, place the articulated elements on the earpiece silk that is located the welding bench earlier, carry out welding work to both by welding equipment afterwards. The mode of manual material loading is adopted to the articulated elements, has work efficiency low, and the easy problem that takes place that the welding station is inaccurate, the defective rate is high, can also have very big potential safety hazard simultaneously. Based on the problems, the application provides the earpiece wire clamping and feeding mechanism with higher working efficiency, which is used for automatically feeding the hinging piece.

Disclosure of utility model

Aiming at the defects existing in the prior art, the utility model aims to provide the pin wire clamping and feeding mechanism with high working efficiency and high safety performance.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides an earpiece silk centre gripping feeding mechanism, includes electric welding platform, is located the clamping device of electric welding platform top to and be located the vibration dish material feeding unit of clamping device both sides, vibration dish material feeding unit includes vibration dish feed cylinder, conveyer belt, and is located the pay-off platform of clamping device below, be equipped with two sets of material passageways on the pay-off platform, the material passageway is including pushing away material passageway and the feeding passageway that is linked together, and wherein the feeding passageway is connected with the conveyer belt, and the conveyer belt carries the hinge piece to pushing away in the material passageway, and the opening of pushing away the material passageway sets up towards the clamping device direction, still is equipped with the pushing away material portion in the bottom of pushing away the material passageway, pushing away the material portion with hinge piece propelling movement to clamping device on, clamping device includes horizontal drive portion, be located vertical drive portion on the vertical drive portion cylinder mechanical clamping jaw, horizontal drive portion drives cylinder machinery left and right round trip movement between the opening of two material passageways, vertical drive portion drives the vertical drive portion cylinder mechanical clamping jaw and upwards and downwards moves towards electric welding platform direction.

The utility model is further provided with: the cylinder mechanical clamping jaw comprises two jaw heads, a supporting block is arranged between the two jaw heads, and a limiting groove matched with the hinge piece is formed in the tail end of the supporting block.

The utility model is further provided with: the transverse driving part comprises a first cylinder and a transverse sliding seat, the longitudinal driving part is buckled on the transverse sliding seat in a sliding fit manner, the tail end of the longitudinal driving part is connected with an output shaft of the first cylinder, the longitudinal driving part comprises a second cylinder and a longitudinal sliding seat, a buckle plate is arranged on the back surface of a mechanical clamping jaw of the cylinder, the buckle plate is buckled on the longitudinal sliding seat in a sliding fit manner, and the tail end of the buckle plate is connected with the output shaft of the second cylinder.

The utility model is further provided with: the pushing part comprises a pushing cylinder and a pushing rod, and the pushing rod is located in the pushing channel and is in sliding fit with the pushing channel.

The utility model is further provided with: the electric welding platform comprises a platform surface and a cylinder III which drives the platform surface to transversely slide and match, and an output shaft of the cylinder III is connected with the tail end of the platform surface.

Through adopting above-mentioned technical scheme, the articulated elements can carry out the welding procedure on the earpiece silk of autoloading to electric welding platform, and the degree of automation of lifting means saves artifical labour more, has the advantage that improves work efficiency. Meanwhile, the cylinder mechanical clamping jaw is used for feeding, so that the feeding station accuracy is improved, and the finished product defective rate is reduced.

Drawings

FIG. 1 is a schematic view of a partial structure of the present utility model;

FIG. 2 is an exploded view of the structure of the present utility model;

FIG. 3 is a schematic diagram of a block structure;

fig. 4 is a schematic view of the temple wire and hinge structure.

1. An electric welding platform; 10. a third cylinder; 11. a flat table top; 2. a clamping device; 20. a lateral driving section; 200. a first cylinder; 201. a transverse slide; 21. a longitudinal driving part; 210. a second cylinder; 211. a longitudinal slide; 212. a buckle plate; 22. a cylinder mechanical clamping jaw; 220. a claw head; 221. abutting blocks; 222. a limit groove; 3. a vibration disk feeding device; 30. a vibrating tray charging barrel; 31. a conveyor belt; 32. a feeding table; 320. a pushing channel; 321. a feed channel; 322. a pushing part; 323. a pushing cylinder; 324. a pushing rod; 4. a hinge; 5. earpiece filaments.

Detailed Description

Embodiments of the present utility model will be further described with reference to fig. 1 to 4.

The utility model provides an earpiece silk centre gripping feeding mechanism, includes electric welding platform 1, is located the clamping device 2 of electric welding platform 1 top to and be located the vibration dish material feeding unit 3 of clamping device 2 both sides, vibration dish material feeding unit 3 includes vibration dish feed cylinder 30, conveyer belt 31, and is located the pay-off platform 32 of clamping device 2 below, be equipped with two sets of material ways on the pay-off platform 32, the material way includes the push away material passageway 320 and the feed channel 321 that are linked together, and wherein feed channel 321 is connected with conveyer belt 31, and conveyer belt 31 carries the hinge piece to in the push away material passageway 320, and the opening of push away material passageway 320 sets up towards clamping device 2 direction, still is equipped with pushing away material portion 322 in the bottom of push away material passageway 320, pushing away material portion 322 is with the hinge piece propelling movement to clamping device 2 on, clamping device 2 includes horizontal drive portion 20, is located vertical drive portion 21 on the horizontal drive portion 21, is located the cylinder machinery clamping jaw 22 of vertical drive portion 21, horizontal drive portion 20 drives the horizontal motion of cylinder machinery 22 between the opening of two material ways, vertical drive portion 21 makes a round trip to move towards the mechanical jaw 22 upwards towards clamping jaw 1 direction. The cylinder mechanical clamping jaw 22 comprises two claw heads 220, an abutting block 221 is arranged between the two claw heads 220, and a limiting groove 222 matched with the hinge piece is arranged at the tail end of the abutting block 221. The transverse driving part 20 comprises a first cylinder 200 and a transverse sliding seat 201, the longitudinal driving part 21 is buckled on the transverse sliding seat 201 in a sliding fit manner, the tail end of the longitudinal driving part is connected with an output shaft of the first cylinder 200, the longitudinal driving part 21 comprises a second cylinder 210 and a longitudinal sliding seat 211, a buckle plate 212 is arranged on the back surface of the mechanical clamping jaw 22 of the cylinder, the buckle plate 212 is buckled on the longitudinal sliding seat 211 in a sliding fit manner, and the tail end of the buckle plate 212 is connected with the output shaft of the second cylinder 210. The pushing part 322 comprises a pushing cylinder 323 and a pushing rod 324, and the pushing rod 324 is located in the pushing channel 320 and is in sliding fit. The electric welding platform 1 comprises a platform surface 11 and a third cylinder 10 which drives the platform surface 11 to transversely slide and match, and an output shaft of the third cylinder 10 is connected with the tail end of the platform surface 11.

Working principle: the vibration dish feed cylinder 30 conveys the articulated member into the pushing channel 320 through the conveyer belt 31, the pushing cylinder 323 on the pushing part 322 drives the pushing rod 324 to move towards the opening of the pushing channel 320, the effect of pushing the articulated member to the opening of the pushing channel 320 is achieved, meanwhile, the cylinder mechanical clamping jaw 22 moves the articulated member to the corresponding opening of the channel through the transverse driving part 20, the articulated member is clamped, the two claw heads 220 on the cylinder mechanical clamping jaw 22 clamp the articulated member at two sides, the front end of the articulated member just abuts against the limiting groove 222 of the abutting block 221, the effect of fixing and clamping the articulated member is achieved, the earpiece wire is placed on the platform plate, the articulated member cylinder mechanical clamping jaw 22 is driven by the longitudinal driving part 21 to move towards the electric welding platform 1, the articulated member is placed on the earpiece wire, and then the articulated member and the earpiece wire are welded, and the finished product is achieved. The above structural improvement has promoted the degree of automation of equipment, reduces manual operation, does benefit to improvement work efficiency.

The above description is only a preferred embodiment of the present utility model, and the protection scope of the present utility model is not limited to the above examples, and all technical solutions belonging to the concept of the present utility model belong to the protection scope of the present utility model. It should be noted that modifications and adaptations to the present utility model may occur to one skilled in the art without departing from the principles of the present utility model and are intended to be within the scope of the present utility model.

Claims (5)

1. An earpiece silk centre gripping feeding mechanism, its characterized in that: including electric welding platform, be located the clamping device of electric welding platform top to and be located the vibration dish material feeding unit of clamping device both sides, vibration dish material feeding unit includes vibration dish feed cylinder, conveyer belt, and is located the pay-off platform of clamping device below, be equipped with two sets of material ways on the pay-off platform, the material way is including pushing away material passageway and the feed channel that is linked together, wherein the feed channel is connected with the conveyer belt, in the conveyer belt carries the hinge piece to pushing away the material passageway, the opening of pushing away the material passageway sets up towards the clamping device direction, still is equipped with the pushing away material portion in the bottom of pushing away the material passageway, the pushing away material portion with the hinge piece propelling movement to clamping device on, clamping device includes horizontal drive portion, is located vertical drive portion on the horizontal drive portion, is located the cylinder mechanical clamping jaw, horizontal drive portion drives cylinder mechanical clamping jaw left and right round trip movement between the opening of two material ways, vertical drive portion drives cylinder mechanical clamping jaw upward and downward movement towards the electric welding platform direction.

2. The temple wire clamping and feeding mechanism of claim 1, wherein: the cylinder mechanical clamping jaw comprises two jaw heads, a supporting block is arranged between the two jaw heads, and a limiting groove matched with the hinge piece is formed in the tail end of the supporting block.

3. The temple wire clamping and feeding mechanism of claim 2, wherein: the transverse driving part comprises a first cylinder and a transverse sliding seat, the longitudinal driving part is buckled on the transverse sliding seat in a sliding fit manner, the tail end of the longitudinal driving part is connected with an output shaft of the first cylinder, the longitudinal driving part comprises a second cylinder and a longitudinal sliding seat, a buckle plate is arranged on the back surface of a mechanical clamping jaw of the cylinder, the buckle plate is buckled on the longitudinal sliding seat in a sliding fit manner, and the tail end of the buckle plate is connected with the output shaft of the second cylinder.

4. The temple wire clamping and feeding mechanism of claim 1, wherein: the pushing part comprises a pushing cylinder and a pushing rod, and the pushing rod is located in the pushing channel and is in sliding fit with the pushing channel.

5. The temple wire clamping and feeding mechanism of claim 1, wherein: the electric welding platform comprises a platform surface and a cylinder III which drives the platform surface to transversely slide and match, and an output shaft of the cylinder III is connected with the tail end of the platform surface.