CN215091817U

CN215091817U - Rubber head discharging mechanism

Info

Publication number: CN215091817U
Application number: CN202121193156.8U
Authority: CN
Inventors: 李鑫辉; 尹啟华; 李成宗
Original assignee: Guangzhou Jinhu Automation Equipment Co ltd
Current assignee: Guangzhou Jinhu Automation Equipment Co ltd
Priority date: 2021-05-31
Filing date: 2021-05-31
Publication date: 2021-12-10
Anticipated expiration: 2031-05-31

Abstract

The utility model discloses a glue head discharge mechanism, including pay-off piece, material pushing member, silo and branch material piece, the pay-off piece will glue the head and carry to pushing member on, material pushing member will glue the head and singly send into in the silo, glue the head quilt through the silo divide material piece dislocation to hold and connect, material pushing member is including the foot stool and locate material receiving piece, ejector pin cylinder, blowpipe cylinder on the foot stool, material receiving piece locates the top most of foot stool, in the ejector pin was located to the blowpipe, and locate material receiving piece below jointly, ejector pin cylinder drive ejector pin longitudinal motion, blowpipe cylinder drive blowpipe longitudinal motion to send into the silo with glue the head.

Description

Rubber head discharging mechanism

Technical Field

The utility model belongs to nonstandard automatic mechanical equipment field especially relates to a glue first discharge mechanism.

Background

Essence bottle in the skin care products adopts the bottle of dripping mostly, and wherein the drip tube lid is including 3 parts, including gluing head, lid and glass pipe, extrudeing and gluing the head and producing suction, bear liquid through the glass pipe, press again and glue the head and produce thrust, the liquid is emitted to the glass pipe, the lid closes the bottleneck.

Referring to fig. 1-2, the cover S1, the rubber stopper S2 and the glass tube S3 are shown in an assembled state and in an disassembled state.

The existing drip tube cover is produced independently, needs to be assembled manually by workers, consumes a large amount of labor and has low production efficiency.

Meanwhile, the problem of automatic feeding of the soft rubber head is difficult to solve.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a glue first discharge mechanism.

The technical scheme of the utility model lies in:

the utility model provides a glue head discharge mechanism, is including pay-off piece, push away material spare, silo and branch material spare, the pay-off piece will glue the head and carry to pushing away on the material spare, push away the material spare and will glue the head and singly send into in the silo, glue the head through the silo by divide material spare dislocation to bear and connect.

Further, the pushing piece comprises a foot base, a material receiving block, an ejector rod air cylinder, a blowing pipe and a blowing pipe air cylinder, wherein the material receiving block, the ejector rod air cylinder, the blowing pipe and the blowing pipe air cylinder are arranged on the foot base, the material receiving block is arranged at the topmost end of the foot base, the blowing pipe is arranged in the ejector rod and is jointly arranged below the material receiving block, the ejector rod air cylinder drives the ejector rod to move longitudinally, and the blowing pipe air cylinder drives the blowing pipe to move longitudinally, so that the rubber head is fed into the material groove.

Further, divide the material piece including slide rail base, slide rail cylinder, flourishing gluey first tool and moving cylinder, slide rail base connects the slide rail cylinder, flourishing gluey first tool is located on the slide rail base, moving cylinder connects flourishing gluey first tool, slide rail cylinder drive flourishing gluey first tool moves to or shifts out under the silo, moving cylinder drive flourishing gluey first tool's removal.

Further, the pay-off piece is including feed bin and vibration dish, will glue the head and put in the feed bin, glue the head and pass through the feed bin and get into the vibration dish, the vibration dish will glue head orderliness and arrange the entering and push away the material piece.

Furthermore, a plurality of grooves are formed in the material receiving block, the rubber heads fall into the grooves, and the ejector rods and the blowing pipes are opposite to the grooves.

Further, the feed bin is including feed inlet, discharge gate and straight vibrator, the top of feed bin is located to the feed inlet, the feed bin lateral part is located to the discharge gate, the junction of feed inlet and discharge gate is located to the straight vibrator, glues the head and pours the feed bin into from the feed inlet, straight vibrator produces exciting force and makes and glue the head and take place the vibration to the head is glued in the vibration flows from the discharge gate.

Further, the vibration dish is equipped with inductor and discharging channel, in the vibration dish was located to the inductor, whether lack the material in the vibration dish through the inductor response, the vibration that the vibration dish produced will glue the head and follow in an orderly manner discharging channel gets into on pushing away the material piece.

Further, the trough comprises an inlet, an outlet and a plurality of channels, wherein the inlet is aligned with the material receiving block, the outlet is aligned with the material distributing piece, and the channels define a conveying path of the glue head.

Further, flourishing first tool of gluing is including first trench, second trench, third trench and fourth trench, and under the drive of slide rail cylinder and traveling cylinder, the silo passageway is just to first trench and third trench, and the silo passageway is just to second trench and fourth trench.

Further, the trough is U-shaped, and each channel only passes through one rubber head each time.

The beneficial effects of the utility model reside in that, pour soft gluey head into the feed bin, get into the vibration dish through the straight vibration ware, will glue the head through the vibration dish and sort in order, vibration dish export, pushing material spare and silo entry are the triangle relation, glue the head and export from the vibration dish, pushing material spare will glue the head and push into the silo, glue the head and fall into through the silo and divide the material spare, divide the gluey head that the material spare will fall into to hold to realize soft gluey first automatic feeding.

Drawings

FIG. 1 is a schematic view of a dropper according to the background art of the present invention;

FIG. 2 is a schematic view of an exploded structure of a dropper according to the background art of the present invention;

fig. 3 is a schematic view of the overall structure of a rubber head discharging mechanism of the present invention;

fig. 4 is a schematic structural view of a material pushing member of the rubber head discharging mechanism of the present invention;

fig. 5 is a schematic view of a dynamic structure of a pushing member of the rubber head discharging mechanism of the present invention;

fig. 6 is a schematic structural view of a distributing member of the rubber head discharging mechanism of the present invention;

fig. 7 is an exploded schematic view of the material distributing member of the rubber head discharging mechanism of the present invention.

In the figure, S1 is a cover, S2 is a rubber head, S3 is a glass tube, a is a joint of a blowpipe, 1 is a feeding member, 11 is a bin, 111 is a feeding hole, 112 is a discharging hole, 113 is a straight vibrator, 12 is a vibrating tray, 121 is an inductor, 122 is an outlet, 2 is a pushing member, 21 is a foot seat, 22 is a mandril, 23 is a mandril cylinder, 24 is a blowpipe cylinder, 25 is a blowpipe, 3 is a trough, 31 is a channel, 32 is an inlet, 33 is an outlet, 4 is a distributing member, 41 is a slide rail base, 42 is a slide rail cylinder, 43 is a rubber head holding jig, 431 is a first trough, 432 is a second trough, 433 is a third trough, 434 is a fourth trough, and 44 is a moving cylinder.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings of the present invention.

Please refer to fig. 3-7, the utility model relates to a glue first discharge mechanism, including pay-off 1, pushing away material 2, silo 3 and divide material 4, push away material 2 and locate the exit of pay-off 1, the one end of silo 3 is located and is pushed away material 2 tops, divide material 4 to locate the below of the 3 other ends of silo, pay-off 1 will glue the head and carry to pushing away on the material 2, it will glue the head and singly send into to push away material 2 in the silo 3, glue the head quilt through silo 3 divide material 4 dislocation to hold and connect.

The material pushing part 2 comprises a foot seat 21, a material receiving block 22, an ejector rod 23, an ejector rod air cylinder 24, a blow pipe 25 and a blow pipe air cylinder 26, wherein the material receiving block 22 is arranged at the topmost end of the foot seat 1, the blow pipe 25 is arranged in the ejector rod 23 and is jointly arranged below the material receiving block 22, the ejector rod air cylinder 24 drives the ejector rod 23 to move longitudinally, and the blow pipe air cylinder 26 drives the blow pipe 25 to move longitudinally, so that the rubber head is fed into the material groove 3.

The material receiving block 22 is provided with 2 grooves 221, the rubber heads fall into the grooves 221, and the push rod 23 and the blow pipe 25 are opposite to the grooves 221.

When the ejector rod 23 is upward, the rubber head is jacked up; the push rod cylinder 24 drives the push rod 23 to move longitudinally, the blow pipe cylinder 26 is arranged on the opposite side of the push rod cylinder 24, the blow pipe cylinder 26 drives the blow pipe 25 to move longitudinally, and in the figure, a gas receiving pipe is arranged below the position C to introduce gas into the blow pipe 25 and from the material groove 3 to the material separating piece 4. Blow pipe principle: the blow pipe 25 and the ejector rod 23 are upward synchronously to ensure that the rubber head is not sunk; drilling in the blow pipe 25, and blowing the rubber head S2 to a deeper part of the material groove 3 through positive pressure; the working sequence of the pushing piece is as follows: (1) the ejector rod 23 is pushed upwards (2), then the blow pipe 25 is pushed upwards (3), and finally air blowing is carried out.

The material distribution part 4 comprises a slide rail base 41, a slide rail air cylinder 42, a glue containing head jig 43 and a movable air cylinder 44, the slide rail base 41 is connected with the slide rail air cylinder 42, the glue containing head jig 43 is arranged on the slide rail base 41, the movable air cylinder 44 is connected with the glue containing head jig 43, the slide rail air cylinder 42 drives the glue containing head jig 43 to move to or out of the position under the trough 3, and the movable air cylinder 44 drives the glue containing head jig 43 to move. The material distributing part can also be understood as a material distributing part which is used for distributing the glue heads at intervals.

The feeding part 1 comprises a bin 11 and a vibration disc 12, the glue heads are placed in the bin 11, the glue heads enter the vibration disc 12 through the bin 11, and the vibration disc 12 arranges the glue heads in order to enter the material pushing part 2.

Feed bin 11 is including feed inlet 111, discharge gate 112 and straight vibrator 113, the top of feed bin 11 is located to feed inlet 111, the feed bin 11 lateral part is located to discharge gate 112, straight vibrator 113 is located the junction of feed inlet 111 and discharge gate 112, glues the head and pours feed bin 3 into from feed inlet 111, straight vibrator 113 produces the exciting force and makes and glue the head and take place the vibration to the head is glued in the vibration flows from discharge gate 112.

Vibration dish 12 is equipped with inductor 121 and discharging channel 122, in vibration dish 12 was located to inductor 121, whether lack the material in the vibration dish 12 through inductor 121 response, the vibration that vibration dish 12 produced will glue the head and follow in an orderly manner discharging channel 122 gets into on pushing away material piece 2.

The stock bin 11 and the vibration disc 12 are barrel-shaped and can contain a certain amount of rubber heads.

Vibration dish 12 comprises hopper and chassis, in the picture, learns the utility model discloses a the hopper is the cylindric hopper, and its theory of operation is: the chassis is provided with a pulse electromagnet which can make the hopper vibrate in the vertical direction, and the inclined spring piece drives the hopper to do torsional vibration around the vertical axis of the hopper; the rubber head in the hopper rises along the spiral track due to the vibration; during the lifting process, the rubber head can automatically enter an assembling or processing position in a uniform state according to the assembling or processing requirement through the screening or posture change of a series of tracks; the working purpose is to automatically, orderly, directionally and neatly arrange the unordered glue heads and accurately convey the unordered glue heads to the next procedure through vibration.

The magazine 3 comprises an inlet 32, an

outlet

33 and 2 channels 31, the inlet 32 being aligned with the receiving block 22, the outlet 33 being aligned with the dispensing member 4, the channels 31 defining a transport path for the glue head.

The glue filling head jig 43 comprises a first groove 431, a second groove 432, a third groove 433 and a fourth groove 434, and under the driving of the sliding rail air cylinder 42 and the moving air cylinder 44, the channel of the trough 3 is over against the first groove 431 and the third groove 433, and the channel of the trough 3 is over against the second groove 432 and the fourth groove 434.

The trough 3 is U-shaped, and each channel 31 only passes through one rubber head at a time.

The above-mentioned embodiments only represent one embodiment of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. The utility model provides a glue head discharge mechanism, its characterized in that, including pay-off piece, push away material spare, silo and branch material spare, the pay-off piece will glue the head and carry to pushing away on the material spare, push away the material spare and will glue the head and singly send into in the silo, the head is glued through the silo by divide the material spare dislocation to hold.

2. The rubber plug discharging mechanism according to claim 1, wherein the material pushing member comprises a foot base, and a material receiving block, an ejector rod cylinder, a blowing pipe and a blowing pipe cylinder which are arranged on the foot base, the material receiving block is arranged at the topmost end of the foot base, the blowing pipe is arranged in the ejector rod and is jointly arranged below the material receiving block, the ejector rod cylinder drives the ejector rod to move longitudinally, and the blowing pipe cylinder drives the blowing pipe to move longitudinally, so that the rubber plug is fed into the material groove.

3. The glue head discharging mechanism according to claim 2, wherein the material separating member comprises a slide rail base, a slide rail cylinder, a glue head containing jig and a moving cylinder, the slide rail base is connected with the slide rail cylinder, the glue head containing jig is arranged on the slide rail base, the moving cylinder is connected with the glue head containing jig, the slide rail cylinder drives the glue head containing jig to move to or out of the position under the trough, and the moving cylinder drives the glue head containing jig to move.

4. The rubber head discharging mechanism according to claim 3, wherein the feeding member comprises a bin and a vibrating tray, the rubber heads are placed in the bin, the rubber heads enter the vibrating tray through the bin, and the vibrating tray arranges the rubber heads in order and enters the pushing member.

5. The rubber head discharging mechanism according to claim 2, wherein the receiving block is provided with a plurality of grooves, the rubber head falls into the grooves, and the ejector rod and the blowing pipe face the grooves.

6. The rubber head discharging mechanism according to claim 4, wherein the bin comprises a feeding port, a discharging port and a straight vibrator, the feeding port is disposed at the top of the bin, the discharging port is disposed at the side of the bin, the straight vibrator is disposed at the joint of the feeding port and the discharging port, the rubber head is poured into the bin from the feeding port, the straight vibrator generates an exciting force to vibrate the rubber head, and the vibrating rubber head flows out from the discharging port.

7. The rubber head discharging mechanism according to claim 4, wherein the vibrating tray is provided with a sensor and a discharging channel, the sensor is arranged in the vibrating tray, whether the vibrating tray is short of materials is sensed through the sensor, and the rubber head is orderly fed into the material pushing member through the discharging channel by vibration generated by the vibrating tray.

8. The topping of claim 7 wherein the chute comprises an inlet aligned with the take-up block, an outlet aligned with the dispensing member, and a plurality of channels defining a transport path for the topping.

9. The glue head discharging mechanism according to claim 3, wherein the glue head holding jig comprises a first slot position, a second slot position, a third slot position and a fourth slot position, and under the driving of the slide rail cylinder and the moving cylinder, the trough channel is over against the first slot position and the third slot position, and the trough channel is over against the second slot position and the fourth slot position.

10. The tap discharging mechanism according to claim 8, wherein the trough is U-shaped, and each channel passes through only one tap at a time.