CN211282684U

CN211282684U - Automatic feed divider of ball jacquard

Info

Publication number: CN211282684U
Application number: CN201922181144.2U
Authority: CN
Inventors: 郑锦; 陈乃彦
Original assignee: Shenzhen Hongheng Jewelry Co ltd
Current assignee: Shenzhen Hongheng Jewelry Co ltd
Priority date: 2019-12-06
Filing date: 2019-12-06
Publication date: 2020-08-18
Anticipated expiration: 2029-12-06

Abstract

The utility model relates to an automatic material distributing device of a ball jacquard, which comprises a conveying platform arranged on a base, wherein a sliding groove is horizontally arranged on the conveying platform, a sliding part is connected with the inside of the sliding groove in a horizontal sliding manner, a containing groove communicated with the two sides of the sliding part is horizontally arranged on the sliding part, and the containing groove can only completely contain a ball; the conveying table is provided with a pushing assembly; a feeding groove is horizontally formed in the conveying platform, and one port of the feeding groove is opposite to one port of the accommodating groove; a vibrating disc is arranged on the base, and the discharge end of the vibrating disc is connected to the port of the feeding groove far away from the sliding groove; two clamping teeth of the pneumatic clamping jaw are embedded into the accommodating groove and clamp the ball. The pneumatic vibration dish of staff, the vibration dish send the ball to the pay-off passageway one by one, and the ball rolls to the storage tank along pay-off passageway and chute feeder in, and only holds a ball in the storage tank completely. The pushing component pushes the sliding part to slide, so that the ball in the containing groove is separated from other balls.

Description

Automatic feed divider of ball jacquard

Technical Field

The utility model belongs to the technical field of feed divider's technique and specifically relates to an automatic feed divider of ball jacquard machine is related to.

Background

Jacquard machines, which are used primarily for the patterning of surfaces of some products. The jacquard comprises a base, wherein a main body for processing the round beads is arranged on the base, and a conveying mechanism for conveying the round beads to a main body processing position is arranged on the base.

Among the prior art, conveying mechanism includes the pneumatic clamping jaw that automatic sliding just is used for the centre gripping ball on the base and sets up in the storage tank of pneumatic clamping jaw downside, and the storage tank can only place a ball at every turn to pneumatic clamping jaw can be better the centre gripping ball. If the containing grooves are placed too much, the clamping of the clamping part of the pneumatic clamping jaw on the ball is easily influenced. Therefore, the pneumatic clamping jaw clamps one ball at a time, and a worker needs to manually place one ball into the accommodating groove so that the pneumatic clamping jaw can convey the next ball. However, the supply of the beads to the main body in this way is wasteful of the worker's work.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic feed divider of ball jacquard, its advantage lies in, separates the ball automatically, makes things convenient for the clamp of pneumatic clamping jaw to get.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

an automatic material distributing device of a ball jacquard comprises a conveying table arranged on a base, wherein a sliding groove is horizontally formed in the conveying table, a sliding part is horizontally and movably connected in the sliding groove, a containing groove communicated with two sides of the sliding part is horizontally formed in the sliding part, and only one ball can be completely contained in the containing groove; the conveying table is provided with a pushing assembly for pushing the sliding part to horizontally slide; a feeding groove communicated with the side wall of the sliding groove and the outer side wall of the conveying table is horizontally formed in the conveying table, and one port of the feeding groove is opposite to one port of the accommodating groove; a vibrating disc is arranged on the base, and the discharge end of the vibrating disc is connected to the port of the feeding groove far away from the sliding groove; two clamping teeth of the pneumatic clamping jaw are embedded into the accommodating groove and clamp the ball.

Through adopting above-mentioned scheme, the pneumatic vibration dish of staff, vibration dish send ball one next to one in the pay-off passageway, and the ball rolls to the storage tank along pay-off passageway and chute feeder in, and only holds a ball completely in the storage tank. At this moment, the staff promotes the horizontal slip of sliding part through pushing the subassembly, and a ball in the storage tank is taken away to the sliding part, and then the completion is with the part of this ball with other balls, and the one end that the chute feeder is located the sliding tray is plugged up to the lateral wall of sliding part this moment. When the ball is clamped by the pneumatic clamping jaw, the pushing assembly pushes the sliding part to move, and the port of the accommodating groove is aligned to the feeding groove again.

Preferably, the pushing assembly includes a cylinder fixed to the conveying table and pushing the sliding portion to slide.

Through adopting above-mentioned scheme, the staff carries out the promotion of sliding part through the cylinder, makes the stable horizontal slip of sliding part.

Preferably, the conveying table is vertically provided with positioning grooves on two sides of the sliding groove, the two positioning grooves are communicated with the inner wall of the sliding groove, and two ports of the accommodating groove are respectively arranged opposite to the openings of the positioning grooves.

Through adopting above-mentioned scheme, through the setting of constant head tank, make to carry and have enough big accommodation space on the bench, make pneumatic centre gripping carry out the centre gripping of ball.

Preferably, the positioning grooves are vertically and slidably connected with positioning blocks, an elastic piece for pushing the positioning blocks to move upwards is arranged between the positioning grooves and the positioning blocks, and the ball is positioned in the accommodating groove and between the two positioning blocks; when the pneumatic clamping jaw clamps the ball, the top of the positioning block is abutted against the pneumatic clamping jaw and is flush with the bottom of the accommodating groove.

Through adopting above-mentioned scheme, through the setting of locating piece, make the ball stably be located the storage tank and not slip into the positioning groove. When the pneumatic clamping jaw clamps the ball, the clamping teeth of the pneumatic clamping jaw stably push the positioning block downwards, so that the ball is clamped. After the ball clamping is completed, the positioning block slides upwards through the elastic piece to position the next ball.

Preferably, the elastic member is a spring.

Through adopting above-mentioned scheme, the elasticity of spring is better, and deformation range is great, stably upwards promotes the locating piece upwards to slide to fix a position the position of ball.

Preferably, the bottom of the positioning groove is vertically provided with a first circular positioning hole, the bottom of the positioning block is vertically provided with a second positioning hole opposite to the first positioning hole, the bottom of the spring is embedded in the first positioning hole, and the upper part of the spring is embedded in the second positioning hole

By adopting the scheme, the spring is stably and vertically abutted between the bottom of the positioning groove and the bottom of the positioning block through the arrangement of the first positioning hole and the second positioning hole. Meanwhile, the first positioning hole and the second positioning hole facilitate the installation of the spring.

Preferably, a first limit part and a second limit part are respectively fixed at two end parts of the sliding part; when the first limiting part abuts against the side wall outside the conveying table, the port of the feeding groove is opposite to the port of the accommodating groove; when the second limiting part is abutted against the side wall outside the conveying table, two ports of the accommodating groove are respectively arranged opposite to the openings of the two positioning grooves

By adopting the scheme, when the first limiting part is abutted against the side wall outside the conveying table, the port of the feeding groove is opposite to the port of the accommodating groove; when the second limiting part is abutted against the side wall outside the conveying table, two ports of the accommodating groove are respectively arranged opposite to the openings of the two positioning grooves. Therefore, the position of the sliding portion is positioned more favorably.

Preferably, a feeding channel is fixedly connected between the discharge end of the vibration disc and the conveying table, one port of the feeding channel is aligned with the discharge port of the vibration disc, and the other port of the feeding channel is aligned with one port of the feeding groove far away from the sliding groove.

Through adopting above-mentioned scheme, make the ball on the vibration dish along the stable conveying of pay-off passageway to the chute feeder in to carry to the storage tank.

To sum up, the utility model discloses a beneficial technological effect does: the pneumatic vibration dish of staff, the vibration dish send the ball to the pay-off passageway one by one, and the ball rolls to the storage tank along pay-off passageway and chute feeder in, and only holds a ball in the storage tank completely. At this moment, the staff promotes the horizontal slip of sliding part through pushing the subassembly, and a ball in the storage tank is taken away to the sliding part, and then the completion is with the part of this ball with other balls, and the one end that the chute feeder is located the sliding tray is plugged up to the lateral wall of sliding part this moment. When the ball is clamped by the pneumatic clamping jaw, the pushing assembly pushes the sliding part to move, and the port of the accommodating groove is aligned to the feeding groove again.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of a material dispensing assembly;

FIG. 3 is a schematic structural view of the positioning block, the positioning groove and the sliding part;

in the figure: 1. a base; 11. a body; 12. a pneumatic clamping jaw; 2. a conveying table; 21. a sliding groove; 22. a feed chute; 23. positioning a groove; 231. a first positioning hole; 24. positioning blocks; 241. a second positioning hole; 3. a sliding part; 31. a containing groove; 32. a first limiting part; 33. a second limiting part; 4. a pushing assembly; 41. a cylinder; 5. a vibrating pan; 51. a feed channel; 6. mounting a plate; 7. an elastic member.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1, the jacquard comprises a base 1 which is horizontally arranged, a body 11 for carving the surface of a ball is arranged on the base 1, and a pneumatic clamping jaw 12 for clamping the ball and conveying the ball to a main body processing position is horizontally connected on the base 1 in a sliding manner; meanwhile, a material separating device for separating the round beads is arranged on the lower side of the pneumatic clamping jaw 12 on the base 1, and the pneumatic clamping jaw 12 clamps and conveys the separated round beads (as the pneumatic clamping jaw 12 of the main body machine is the prior art, the scheme only analyzes the structure of the material separating device).

Referring to fig. 1 and 2, the material separating device includes a vertically arranged conveying platform 2, a U-shaped sliding groove 21 is horizontally arranged on the conveying platform 2, and two ends of the sliding groove 21 are respectively communicated with two vertical side walls of the conveying platform 2. The sliding part 3 is embedded in the sliding groove 21 in a sliding manner, the sliding part 3 is a vertically arranged plate-shaped body, the vertical side wall of the sliding part 3 is attached to the side wall of the sliding groove 21, the top of the sliding part 3 is flush with the upper surface of the conveying table 2, the horizontal two ends of the sliding part 3 respectively extend to the outer side of the sliding groove 21 in a horizontal manner, and the conveying table 2 is provided with a pushing assembly 4 for pushing the sliding part 3 to slide horizontally; meanwhile, the sliding portion 3 is horizontally provided with a U-shaped accommodating groove 31, two ends of the accommodating groove 31 are respectively communicated with two vertical side walls of the sliding portion 3 and horizontally face the vertical side wall of the sliding groove 21, and the size of the accommodating groove 31 can only completely accommodate one ball.

Further conveying the round beads into the accommodating groove 31, wherein a U-shaped feeding groove 22 is horizontally formed in the conveying table 2, one end of the feeding groove 22 is communicated with the outer side wall of the conveying table 2, the other end of the feeding groove 22 is communicated with the side wall of the sliding groove 21 and is arranged opposite to one port of the accommodating groove 31, and the width of the feeding groove 22 is equal to the diameter of the round beads; meanwhile, a vibration disc 5 is vertically fixed on the base 1, a feeding channel 51 is connected between the discharge end of the vibration disc 5 and the port of the feeding groove 22 of the conveying platform 2, one port of the feeding channel 51 is arranged opposite to the discharge port of the vibration disc 5, the other port of the feeding channel 51 is arranged opposite to the port of the feeding groove 22, and the ball in the vibration disc 5 rolls into the feeding groove 22 along the feeding channel 51 and rolls into the accommodating groove 31.

Specifically, the worker pneumatically vibrates the disc 5, the balls are fed into the feeding channel 51 by the vibrating disc 5 one by one, the balls roll into the accommodating groove 31 along the feeding channel 51 and the feeding groove 22, and only one ball is completely accommodated in the accommodating groove 31. At this moment, the staff pushes the sliding part 3 to horizontally slide through the pushing component 4, the sliding part 3 takes away one ball in the accommodating groove 31, the ball is separated from other balls, and at this moment, the side wall of the sliding part 3 plugs up one end of the feeding groove 22 in the sliding groove 21. When the pneumatic clamping jaws 12 clamp the ball, the pushing assembly 4 pushes the sliding part 3 to move, and the port of the accommodating groove 31 is aligned with the feeding groove 22 again.

Referring to fig. 2 and 3, the teeth of the pneumatic clamping jaw 12 are further facilitated to clamp the ball, two rectangular positioning grooves 23 are vertically and downwardly formed in the conveying table 2, the two positioning grooves 23 are symmetrically arranged with respect to the sliding groove 21 and are communicated with the inner wall of the sliding groove 21, and the depth of each positioning groove 23 is greater than twice the depth of the accommodating groove 31. When the accommodating groove 31 on the sliding part 3 slides to a position between the two positioning grooves 23, two ports of the accommodating groove 31 are respectively arranged opposite to the side openings of the positioning grooves 23; meanwhile, a positioning block 24 is vertically and slidably embedded in the positioning groove 23, the side wall of the positioning block 24 is attached to the side wall of the positioning groove 23, and the height of the positioning block 24 is equal to the depth of the accommodating groove 31. The elastic member 7 is vertically fixed at the bottom of the positioning slot 23, the bottom of the elastic member 7 abuts against the bottom of the positioning slot 23, the top of the elastic member 7 abuts against the top of the positioning block 24, and the ball is located in the accommodating slot 31 between the two positioning blocks 24. When the clamping teeth of the pneumatic clamping jaw 12 clamp the teeth balls, the clamping teeth of the pneumatic clamping jaw 12 push the positioning block 24 downwards to move downwards, the top of the positioning block 24 is flush with the bottom of the accommodating groove 31, and the clamping teeth of the pneumatic clamping jaw 12 clamp the balls.

The elastic member 7 is a vertically arranged spring, a first circular positioning hole 231 is vertically formed in the bottom of the positioning groove 23, a second positioning hole 241 which is opposite to the first positioning hole 231 is vertically formed in the bottom of the positioning block 24, the lower portion of the spring is embedded in the first positioning hole 231, the top of the spring is embedded in the second positioning hole 241, and the side wall of the spring is attached to the side walls of the second positioning hole 241 and the second positioning hole 241.

The position of the sliding part 3 is further positioned, a first limiting part 32 and a second limiting part 33 are respectively vertically welded at two horizontal end parts of the sliding part 3, and the first limiting part 32 and the second power grid part are both vertically arranged plate-shaped bodies. When the port of the containing groove 31 is opposite to the port of the feeding groove 22, the first limiting part 32 abuts against the outer side wall of the conveying table 2, and the second limiting part 33 is far away from the workbench; when the port of the accommodating groove 31 is disposed opposite to the side opening of the positioning groove 23, the second limiting portion 33 abuts against the outer sidewall of the conveying table 2, and the first limiting portion 32 abuts against the sidewall of the conveying table 2.

The pushing assembly 4 comprises a cylinder 41, one side of the workbench, which is far away from the feeding chute 22, is vertically fixed with a mounting plate 6 with an L-shaped horizontal cross section through a bolt, the mounting plate 6 is partially positioned on one side of the second limiting part 33, which is far away from the conveying table 2, the cylinder 41 is horizontally fixed on the part of the mounting plate 6, and a piston rod of the cylinder 41 is fixedly welded on the side wall of the second limiting part 33, which is far away from the conveying table 2.

The implementation principle of the embodiment is as follows: the vibration plate 5 conveys the ball into the receiving groove through the feeding channel 51 and the feeding groove 22, and the receiving groove only receives one ball. At this time, the piston rod of the cylinder 41 pushes the sliding part 3 to horizontally slide through the second limiting part 33, the second limiting part 33 abuts against the sidewall of the conveying table 2, and two ports of the accommodating groove 31 are aligned with the two positioning grooves 23. At this time, the clamping teeth of the pneumatic clamping jaw 12 push the positioning block 24 to move downward, the top of the positioning block 24 is flush with the bottom of the accommodating groove 31, the spring is hidden in the first positioning hole 231 and the second positioning hole 241, and the clamping teeth of the pneumatic clamping jaw 12 clamp the ball. When the ball is clamped, the sliding portion 3 slides to the original position, and the ball rolls into the receiving groove 31.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims

1. The utility model provides an automatic feed divider of ball jacquard which characterized in that: the conveying device comprises a conveying table (2) arranged on a base (1), wherein a sliding groove (21) is horizontally formed in the conveying table (2), a sliding part (3) is horizontally and movably connected in the sliding groove (21), an accommodating groove (31) communicated with two sides of the sliding part (3) is horizontally formed in the sliding part (3), and only one round bead can be completely accommodated in the accommodating groove (31); the conveying table (2) is provided with a pushing assembly (4) for pushing the sliding part (3) to horizontally slide; a feeding groove (22) communicated with the side wall of the sliding groove (21) and the outer side wall of the conveying table (2) is horizontally formed in the conveying table (2), and one port of the feeding groove (22) is opposite to one port of the accommodating groove (31); a vibrating disc (5) is arranged on the base (1), and the discharge end of the vibrating disc (5) is connected to the port of the feeding groove (22) far away from the sliding groove (21); two clamping teeth of the pneumatic clamping jaw (12) are embedded into the containing groove (31) and clamp the ball.

2. The automatic material distributing device of the ball jacquard machine according to claim 1, which is characterized in that: the pushing assembly (4) comprises a cylinder (41) which is fixed on the conveying table (2) and pushes the sliding part (3) to slide.

3. The automatic material distributing device of the ball jacquard machine according to claim 1, which is characterized in that: positioning grooves (23) are vertically formed in the two sides of the sliding groove (21) on the conveying table (2), the two positioning grooves (23) are communicated with the inner wall of the sliding groove (21), and two end openings of the accommodating groove (31) are respectively opposite to the openings of the positioning grooves (23).

4. The automatic material distributing device of the ball jacquard machine according to claim 3, characterized in that: positioning blocks (24) are vertically and slidably connected in the two positioning grooves (23), an elastic piece (7) for pushing the positioning blocks (24) to move upwards is arranged between the positioning grooves (23) and the positioning blocks (24), and the round beads are positioned in the accommodating groove (31) between the two positioning blocks (24); when the pneumatic clamping jaw (12) clamps the ball, the top of the positioning block (24) is abutted against the pneumatic clamping jaw (12) and is flush with the bottom of the accommodating groove (31).

5. The automatic material distributing device of the ball jacquard machine according to claim 4, characterized in that: the elastic piece (7) is a spring.

6. The automatic material distributing device of the ball jacquard machine according to claim 5, characterized in that: the bottom of the positioning groove (23) is vertically provided with a first circular positioning hole (231), the bottom of the positioning block (24) is vertically provided with a second positioning hole (241) opposite to the first positioning hole (231), the bottom of the spring is embedded in the first positioning hole (231), and the upper portion of the spring is embedded in the second positioning hole (241).

7. The automatic material distributing device of the ball jacquard machine according to claim 4, characterized in that: a first limiting part (32) and a second limiting part (33) are respectively fixed at two end parts of the sliding part (3); when the first limiting part (32) abuts against the side wall outside the conveying table (2), the port of the feeding groove (22) is opposite to the port of the accommodating groove (31); when the second limiting part (33) abuts against the side wall outside the conveying table (2), two ports of the accommodating groove (31) are respectively arranged opposite to the openings of the two positioning grooves (23).

8. The automatic material distributing device of the ball jacquard machine according to claim 1, which is characterized in that: a feeding channel (51) is fixedly connected between the discharge end of the vibrating disc (5) and the conveying table (2), one port of the feeding channel (51) is aligned with the discharge port of the vibrating disc (5), and the other port of the feeding channel (51) is aligned with one port of the feeding groove (22) far away from the sliding groove (21).