CN210476308U - Gasket material feeding unit of bottle lid kludge - Google Patents

Abstract

The utility model discloses a gasket feeding device of a bottle cap assembling machine, which relates to the technical field of bottle cap assembling, aiming at solving the technical problems that the gasket horizontally placed needs to depend on an additional conveying mechanism to drive the gasket to move close to a rotary worktable, which causes the large power consumption and high cost of the whole equipment, the technical scheme is characterized in that a base is arranged on an operation table, a slide rod is arranged on the base, one end of the slide rod, which is far away from the direction of the base, is provided with a top plate, a blanking mechanism and a suction and release mechanism are arranged on the slide rod, the blanking mechanism comprises a blanking supporting block, a blanking ring and a limiting rod, and the gasket is arranged between the limiting rods; the sucking and releasing mechanism comprises a sucking and releasing support block, a rotating shaft lever, a gear, a sleeve, a sucking and releasing pipe and a driving piece; one end of the suction and discharge pipe is provided with a suction and discharge head, a meshing rod is arranged between the base and the top plate, the meshing rod is sleeved with a meshing pipe, and the meshing pipe is provided with insections; the effect of the condition that the whole power consumption of the equipment is large and the cost is high due to the fact that the gasket which is horizontally arranged needs to be additionally attached to the conveying mechanism to move is reduced.

Description

Gasket material feeding unit of bottle lid kludge

Technical Field

The utility model relates to a bottle lid equipment technical field, more specifically say, it relates to a gasket material feeding unit of bottle lid kludge.

Background

The bottle cap assembling machine is a full-automatic device for realizing the bottle cap assembling.

The prior Chinese patent with the publication number of CN106369027B provides a bottle cap gasket assembling device, which comprises a frame with an operating platform, wherein the operating platform is provided with a rotary worktable, and a bottle cap input mechanism, a bottle cap positioning mechanism, a bottle cap clamping and releasing mechanism, a bottle cap glue dispensing mechanism, a gasket input mechanism, a gasket positioning mechanism, a gasket sucking and releasing mechanism, a pressing mechanism and a finished product collecting mechanism are sequentially arranged around the rotary worktable; the gasket input mechanism comprises a gasket feeding support arranged on the operating table and a gasket feeding groove arranged on the gasket feeding support; the gasket positioning mechanism comprises a gasket positioning support positioned on the operating platform and a gasket positioning groove arranged on the gasket positioning support; the gasket positioning mechanism is positioned at the tail end of the stroke of the gasket input mechanism, the gasket positioning grooves are communicated with the gasket feeding grooves on the same horizontal plane, and the gaskets fed by the gasket feeding grooves can directly enter the gasket positioning grooves.

However, the gasket input mechanism on the bottle cap assembling machine is set to be horizontal, a single gasket is uniformly laid on the conveying track to be operated by the gasket sucking and releasing mechanism, but the gasket placed horizontally needs to be attached to an additional conveying mechanism to drive the gasket to move towards the position close to the rotary workbench, so that the overall power consumption of the equipment is large, the cost is high, and the improvement is needed.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims to provide a gasket material feeding unit of bottle lid kludge, it has alleviateed because the gasket that the level set up need additionally depend on conveying mechanism to remove and lead to the advantage of the big, with high costs condition of the whole consumption of equipment.

In order to achieve the above purpose, the utility model provides a following technical scheme:

a gasket feeding device of a bottle cap assembling machine comprises a rack and an operating platform arranged on the rack, wherein a rotary workbench is rotatably arranged on the operating platform, a base is arranged on the operating platform, a plurality of sliding rods and supporting rods are arranged on the base, a top plate is arranged at one end, away from the direction of the base, of each sliding rod, and a blanking mechanism and a sucking and releasing mechanism are arranged on each sliding rod;

the blanking mechanism comprises a blanking supporting block arranged on the sliding rod, a blanking ring positioned at one end of the blanking supporting block close to the direction of the rotary workbench and a plurality of limiting rods positioned on the top wall of the blanking ring, stacked gaskets are placed among the limiting rods, and a plurality of limiting bulges are arranged at one end of the inner side wall of the blanking ring close to the direction of the rotary workbench;

the sucking and releasing mechanism comprises a sucking and releasing support block arranged on the sliding rod in a sliding manner, a rotating shaft rod rotatably connected with the sliding rod and penetrating through the sucking and releasing support block, a gear positioned at one end of the rotating shaft rod far away from the direction of the rotary workbench, a sleeve sleeved at one end of the rotating shaft rod close to the direction of the rotary workbench, a sucking and releasing pipe penetrating through the sleeve and a driving piece controlling the sucking and releasing support block to vertically reciprocate;

the end wall of the sleeve is provided with a propping hole for threaded connection of a bolt, one end of the suction and discharge pipe is provided with a suction and discharge head matched with the size of the gasket, a driving rod of the driving piece is connected with the bottom wall of the suction and discharge supporting block, a driving supporting plate is arranged on the sliding rod and between the suction and discharge supporting block and the base, the driving piece is arranged on the bottom wall of the driving supporting plate, and the driving rod of the driving piece penetrates through the driving supporting plate;

a meshing rod is arranged between the base and the top plate, a meshing pipe is sleeved on the meshing rod, spring seats are sleeved at two ends of the meshing pipe on the meshing rod, the end parts of the spring seats are respectively fixed on the meshing pipe, the base and the top plate, and insections meshed with the gear are arranged on the meshing pipe;

the rotation axostylus axostyle is located the gear and inhales and puts the spacer and is equipped with the locating part, the locating part rigid coupling is on rotating the axostylus axostyle, it is provided with the stopper on being close to the lateral wall of gear to inhale to put the spacer, run through on the stopper and be provided with two spacing bolts, two spacing bolt is in same vertical line, the locating part can offset with one of them spacing bolt earlier, rotate the axostylus axostyle and drive the locating part and rotate 180 back and offset with another spacing bolt.

By adopting the technical scheme, the horizontally arranged gasket feeding mechanism needs to additionally depend on the conveying mechanism to move; when the outer cover with the inner cover rotates to the gasket feeding mechanism through the rotary workbench, the driving piece drives the suction and release support block to move upwards, the gear starts to rotate under the action of the insections on the meshing pipe at the moment, the gear drives the rotary shaft rod to drive the limiting part to rotate at the moment, when the limiting part abuts against the limiting bolt, the suction and release head aligns to the blanking ring, the rotary shaft rod stops rotating under the limiting action of the limiting bolt, the gear drives the meshing pipe to move upwards under the action of the insections, the spring seat close to the top plate is compressed at the moment, the spring seat close to the base is pulled, and when the suction and release head reaches a specified position, the suction and release head adsorbs the gasket closest to the limiting bulge to the end wall of the suction and release head through a negative pressure pump connected with the suction and release pipe;

when the gasket is adsorbed on the end wall of the suction and discharge head, the driving piece drives the suction and discharge supporting block to move downwards, the spring seat recovers the original position after losing pressure, when the spring seat recovers the original position, the gear drives the meshing pipe to slightly slide downwards through the insection, the suction and discharge supporting block continues to move downwards, after the friction force between the gear and the insection is smaller than the elastic force of the spring seat, the gear starts to rotate on the meshing pipe through the insection, and at the moment, the gear drives the rotating shaft rod to drive the suction and discharge head to rotate;

when the suction and discharge head is over against the rotary worktable, the limiting part is positioned by the limiting bolt, the rotating shaft rod stops rotating at the moment, the gear drives the meshing pipe to slide downwards under the action of stopping rotating at the moment, the spring seat close to the base is compressed at the moment, the spring seat close to the top plate is pulled, the suction and discharge head is smoothly inserted to the inner cover at the moment, the suction and discharge supporting block stops sliding downwards at the moment, the negative pressure pump stops sucking air, and the gasket loses suction force and falls into the inner cover smoothly under the action of gravity;

when the gasket falls into the inner cover smoothly, the driving piece drives the absorbing and releasing support block to slide upwards, the spring seat restores to the original position after losing pressure, the gear drives the meshing pipe to slightly slide upwards through the insection after the spring seat restores to the original position, the absorbing and releasing support block continues to move upwards, and the gear starts to rotate on the meshing pipe through the insection after the friction force between the gear and the insection is smaller than the elastic force of the spring seat; repeating all the steps to complete the fully automatic gasket blanking step;

through the stacked gasket blanking mechanism, the gasket can slide downwards under the action of gravity until reaching the limiting bulge to wait for the adsorption of the adsorption and desorption head; the situation that the whole power consumption of the equipment is large and the cost is high due to the fact that the horizontally arranged gasket needs to be additionally attached to the conveying mechanism to move is reduced.

Further, the base is provided with the protective housing with the lateral wall department of roof, the protective housing is close to the one end of swivel work head direction and has been seted up the preformed hole.

Through adopting above-mentioned technical scheme, the dust in the reducible air of protective housing adheres to and influences the normal operation of inhaling the mechanism on slide bar and the meshing pole, has improved gasket feeding mechanism's leakproofness.

Furthermore, the inner side wall of the meshing pipe, the inner side wall of the sucking and releasing support block, which is attached to the sliding rod, is provided with an anti-abrasion pad.

Through adopting above-mentioned technical scheme, the abrasionproof pad can alleviate meshing pipe and inhale when putting the kickstand and slide on the pole that slides with the pole direct contact that slides and take place the wearing and tearing that slide friction and lead to the material.

Furthermore, the end portion of the blanking supporting block close to the direction of the rotary workbench is fixedly connected with a replacing ring, the blanking ring is inserted into the replacing ring in a matching mode, a supporting ring is arranged at one end, close to the direction of the limiting rod, of the outer edge side wall of the blanking ring, and the supporting ring is attached to the top wall of the replacing ring.

Through adopting above-mentioned technical scheme, operating personnel can stop swivel work head's rotation, take out the unloading circle from changing the intra-annular, place the gasket that stacks between the gag lever post, through detachable unloading circle, the operating personnel of being convenient for places the gasket.

Furthermore, the limiting rod is sleeved with a plurality of stabilizing rings, and the stabilizing rings are uniformly distributed on the limiting rod.

By adopting the technical scheme, as the limiting rods are longer, a plurality of limiting rods are easy to bend towards different directions, so that the gaps between the limiting rods are increased, and the gasket is easy to separate from the limiting rods; the gap distance between the limiting rods is fixed through the stabilizing ring, and the stability of the gasket between the limiting rods is guaranteed.

Furthermore, the lateral wall of unloading spacer and the lateral wall of drive backup pad all are provided with the regulation breach, all be provided with on the both ends lateral wall of unloading spacer and the both ends lateral wall of drive backup pad and adjust the communicating regulation hole of breach, can insert in the regulation hole and establish the bolt.

Through adopting above-mentioned technical scheme, through unscrewing the bolt and the nut in the adjusting hole for adjust the breach and resume to the original state, unloading kickoff and drive support plate can carry out height-adjusting according to actual conditions this moment, and it makes unloading kickoff and drive support plate support tightly again on the slide bar to screw up bolt and nut after the regulation is finished.

Furthermore, a friction ring is arranged on the suction pipe and abuts against the inner side wall of the sleeve.

By adopting the technical scheme, the friction ring can improve the friction force between the suction and discharge pipe and the sleeve and between the suction and discharge pipe and the bolt, so that the position of the suction and discharge pipe in the sleeve is more stable; meanwhile, the friction ring can avoid the direct contact of the bolt and the suction and discharge pipe, and reduce the depression of the suction and discharge pipe caused by the fact that the bolt abuts against the suction and discharge pipe.

Furthermore, a limit ring for limiting the movement of the friction ring is arranged on the suction pipe.

Through adopting above-mentioned technical scheme, the slip of friction circle on inhaling putting the pipe can be avoided to spacing ring, has further improved and has inhaled the stability of putting the pipe in the sleeve pipe.

To sum up, the utility model discloses following beneficial effect has:

1. the stacking type gasket blanking mechanism is adopted, the gasket can slide downwards under the action of gravity until reaching the limiting bulge to wait for the adsorption of the adsorption and desorption head; the situations of large overall power consumption and high cost of equipment caused by the fact that the horizontally arranged gasket needs to be additionally attached to the conveying mechanism to move are reduced;

2. the outer side walls of the base and the top plate are provided with the protective shell, and one end of the protective shell close to the direction of the rotary workbench is provided with a preformed hole; the protective shell can reduce dust in the air attached to the sliding rod and the meshing rod to influence the normal operation of the sucking and releasing mechanism, and improves the sealing performance of the gasket feeding mechanism.

Drawings

FIG. 1 is a schematic structural diagram of the present embodiment;

FIG. 2 is a partial enlarged view illustrating the positional relationship between the sleeve and the fastening hole in the embodiment;

FIG. 3 is a schematic diagram of an embodiment of a hidden protective case for embodying an internal structure of a gasket feeding mechanism;

FIG. 4 is a partially enlarged view showing the positional relationship between the blanking ring and the stopper protrusion in the embodiment;

FIG. 5 is a schematic structural diagram for showing the positional relationship between the suction pipe and the friction ring in the embodiment;

fig. 6 is a schematic structural diagram illustrating a hidden gear for embodying a connection relationship between a limiting member and a rotating shaft according to an embodiment.

In the figure: 1. a frame; 11. an operation table; 12. rotating the working table; 13. an outer cover feeding mechanism; 14. an inner cover feeding mechanism; 15. a gasket feeding mechanism; 16. a pressing mechanism; 17. a discharging mechanism; 2. a base; 21. a slide bar; 22. a support bar; 23. a top plate; 24. an engagement lever; 241. an engaging tube; 2411. insection; 242. a spring seat; 25. a protective shell; 251. reserving a hole; 3. a blanking mechanism; 31. blanking and supporting blocks; 311. replacing the ring; 312. adjusting the gap; 313. an adjustment hole; 32. a blanking ring; 321. a limiting bulge; 322. a support ring; 33. a limiting rod; 331. a stabilizing ring; 4. a suction mechanism; 41. absorbing and releasing the supporting block; 411. a limiting block; 412. a limit bolt; 413. an anti-wear pad; 42. rotating the shaft lever; 421. a limiting member; 422. a gear; 43. a sleeve; 431. abutting the hole; 44. a suction pipe; 441. a suction head; 442. a friction ring; 443. a limit ring; 45. a drive member; 451. the support plate is driven.

Detailed Description

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

Example (b):

a gasket feeding device of a bottle cap assembling machine refers to fig. 1 and comprises a frame 1 and an operating platform 11 arranged on the frame 1, wherein a rotating workbench 12 is rotatably arranged on the operating platform 11 through a rotating shaft, the rotating workbench 12 is driven by a motor (not shown in the figure), and an outer cover feeding mechanism 13, an inner cover feeding mechanism 14, a gasket feeding mechanism 15, a pressing mechanism 16 and a discharging mechanism 17 are sequentially arranged on the rotating workbench 12 along the anticlockwise direction; the outer cap slides to the rotary worktable 12 through the outer cap feeding mechanism 13, the rotary worktable 12 drives the outer cap to the inner cap feeding mechanism 14 and puts the inner cap in the outer cap, the rotary worktable 12 rotates the outer cap with the inner cap to the gasket feeding mechanism 15 and puts the gasket in the inner cap, and finally the assembled bottle cap is taken out by the discharging mechanism 17.

Referring to fig. 1, 2 and 3, a base 2 is fixed on an operating table 11 through bolts, a plurality of sliding rods 21 and supporting rods 22 are welded on the base 2, a top plate 23 is welded at one end of each sliding rod 21 far away from the base 2, and a blanking mechanism 3 and a sucking and releasing mechanism 4 are arranged on each sliding rod 21; the gasket is conveyed to a designated position through the blanking mechanism 3, and then is placed into the inner cover through the sucking and placing mechanism 4; the base 2 and the outer side wall of the top plate 23 are welded with the protective shell 25, one end of the protective shell 25 close to the direction of the rotary workbench 12 is provided with a preformed hole 251, and the sealing performance of the gasket feeding mechanism 15 is improved.

Referring to fig. 3 and 4, the blanking mechanism 3 includes a blanking supporting block 31 disposed on the sliding rod 21, a blanking ring 32 located at one end of the blanking supporting block 31 close to the direction of the rotary table 12, and a plurality of limiting rods 33 located on the top wall of the blanking ring 32, and stacked spacers are placed between the limiting rods 33; a plurality of limiting bulges 321 are integrally formed at one end of the inner side wall of the blanking ring 32 close to the direction of the rotary workbench 12, a replacement ring 311 is welded at the end part of the blanking supporting block 31 close to the direction of the rotary workbench 12, the blanking ring 32 is inserted into the replacement ring 311 in a matching way, a supporting ring 322 is welded at one end of the outer edge side wall of the blanking ring 32 close to the direction of the limiting rod 33, the supporting ring 322 is attached to the top wall of the replacement ring 311, a plurality of stabilizing rings 331 are welded on the limiting rod 33, and the plurality of stabilizing rings 331 are uniformly distributed on the limiting rod 33; the stacked spacers sequentially slide downward under the gravity and are located at the end of the blanking ring 32 and are limited by the limiting protrusions 321.

Referring to fig. 3, the absorbing and releasing mechanism 4 includes an absorbing and releasing support block 41 slidably disposed on the sliding rod 21, a rotating shaft rod 42 rotatably connected through a bearing and penetrating through the absorbing and releasing support block 41, a gear 422 welded on the rotating shaft rod 42 and located at one end of the rotating shaft rod in the direction far from the rotary worktable 12, a sleeve 43 sleeved on one end of the rotating shaft rod 42 in the direction near the rotary worktable 12, an absorbing and releasing pipe 44 penetrating through the sleeve 43, and a driving member 45 controlling the absorbing and releasing support block 41 to reciprocate vertically;

referring to fig. 3 and 5, the end wall of the sleeve 43 is provided with a tightening hole 431 for the bolt to be screwed, and the bolt is inserted into the tightening hole 431 and tightened against the outer sidewall of the suction and discharge pipe 44, so that the suction and discharge pipe 44 is compressed and positioned between the bolt and the rotating shaft 42; the suction and discharge pipe 44 is sleeved with a friction ring 442, the friction ring 442 is preferably made of rubber, the friction ring 442 abuts against the inner side wall of the sleeve 43, the friction force between the suction and discharge pipe 44 and the inner side wall of the sleeve 43 is improved, a limit ring 443 for limiting the movement of the friction ring 442 is welded on the suction and discharge pipe 44, and the limit ring 443 is positioned on two sides of the friction ring 442; one end of the suction and discharge pipe 44 is adhered with a suction and discharge head 441 which is matched with the size of the gasket, and the other end is connected with a negative pressure pump (not shown in the figure) through a pipeline; the suction and discharge of the gasket by the suction and discharge head 441 is realized by the negative pressure action of the negative pressure pump.

Referring to fig. 4, the driving rod of the driving member 45 is welded on the bottom wall of the suction and release supporting block 41, the driving supporting plate 451 is detachably arranged on the sliding rod 21 and between the suction and release supporting block 41 and the base 2, the driving member 45 is fixed on the bottom wall of the driving supporting plate 451 through a bolt, and the driving rod of the driving member 45 penetrates through the driving supporting plate 451; the side walls of the blanking supporting block 31 and the side wall of the driving supporting plate 451 are provided with adjusting notches 312, the side walls of the two ends of the blanking supporting block 31 and the side walls of the two ends of the driving supporting plate 451 are provided with adjusting holes 313 communicated with the adjusting notches 312, and bolts can be inserted into the adjusting holes 313 to tightly support the blanking supporting block 31 and the driving supporting plate 451 on the sliding rod 21 so as to limit the sliding of the sliding rod.

Referring to fig. 3 and 6, a meshing rod 24 is welded between the base 2 and the top plate 23, a meshing pipe 241 is sleeved on the meshing rod 24, spring seats 242 are sleeved on the meshing rod 24 and located at two ends of the meshing pipe 241, the end portions of the spring seats 242 are respectively welded on the meshing pipe 241, the base 2 and the top plate 23, the meshing pipe 241 is controlled at a specified position through the spring seats 242 at two ends of the meshing pipe 241, toothed patterns 2411 meshed with the gear 422 are arranged on the meshing pipe 241, anti-wear pads 413 are respectively adhered to the inner side walls of the meshing pipe 241, which are adhered to the suction and release supporting block 41 and the sliding rod 21, and the anti-wear pads 413 are preferably; when the driving member 45 drives the absorbing and releasing support block 41 to move from bottom to top.

Referring to fig. 3 and 6, a limiting member 421 is welded between the gear 422 and the absorbing and releasing support block 41 by the rotating shaft 42, a limiting member 411 is welded on the side wall of the absorbing and releasing support block 41 close to the gear 422, two limiting bolts 412 are connected to the limiting member 411 through threads, the limiting bolts 412 are located on the same vertical line, the limiting member 421 can abut against one of the limiting bolts 412, and the rotating shaft 42 drives the limiting member 421 to rotate 180 degrees and then abut against the other limiting bolt 412; the limit of the limit piece 421 by the limit bolt 412 ensures that the suction head 441 can accurately suck the gasket and place the gasket in the inner cover after rotating 180 degrees.

The working principle is as follows:

when the outer cover with the inner cover rotates to the gasket feeding mechanism 15 through the rotary workbench 12, the driving element 45 drives the suction and release support block 41 to move upwards, at the same time, the gear 422 starts to rotate under the action of the tooth 2411 on the meshing pipe 241, at the same time, the gear 422 drives the rotating shaft rod 42 to drive the limiting piece 421 to rotate, when the limiting piece 421 abuts against the limiting bolt 412, the suction and release head 441 aligns with the blanking ring 32, under the limiting action of the limiting bolt 412, the rotating shaft rod 42 stops rotating, the gear 422 drives the meshing pipe 241 to move upwards under the action of the tooth 2411, at the moment, the spring seat 242 close to the top plate 23 is compressed, the spring seat 242 close to the base 2 is pulled, and when the suction and release head 441 reaches a specified position, the suction and release head 441 sucks the gasket closest to the limiting protrusion 321 to the end wall of the suction and release head 441 through a negative pressure pump connected with the suction;

after the gasket is adsorbed on the end wall of the suction and release head 441, the driving piece 45 drives the suction and release support block 41 to move downwards, the spring seat 242 recovers the original position after losing pressure, after the spring seat 242 recovers the original position, the gear 422 drives the meshing pipe 241 to slightly slide downwards through the insections 2411, at the moment, the suction and release support block 41 continues to move downwards, after the friction force between the gear 422 and the insections 2411 is smaller than the elastic force of the spring seat 242, the gear 422 starts to rotate on the meshing pipe 241 through the insections 2411, and at the moment, the gear 422 drives the rotating shaft rod 42 to drive the suction and release head 441 to rotate;

when the suction and discharge head 441 is over against the rotary worktable 12, the limiting piece 421 is positioned by the limiting bolt 412, at this time, the rotary shaft rod 42 stops rotating, at this time, the gear 422 drives the meshing pipe 241 to slide downwards under the action of stopping rotating, at this time, the spring seat 242 close to the base 2 is compressed, the spring seat 242 close to the top plate 23 is pulled, at this time, the suction and discharge head 441 is smoothly inserted to the inner cover, at this time, the suction and discharge support block 41 stops sliding downwards, the negative pressure pump stops sucking air, and the gasket loses suction force and smoothly falls into the inner cover under the action of gravity;

after the gasket falls into the inner cover smoothly, the driving element 45 drives the absorbing and releasing support block 41 to slide upwards, the spring seat 242 recovers the original position after losing pressure, after the spring seat 242 recovers the original position, the gear 422 drives the meshing pipe 241 to slightly slide upwards through the insections 2411, at the moment, the absorbing and releasing support block 41 continues to move upwards, and after the friction force between the gear 422 and the insections 2411 is smaller than the elastic force of the spring seat 242, the gear 422 starts to rotate on the meshing pipe 241 through the insections 2411; repeating all the steps to complete the fully automatic gasket blanking step;

through the stacked gasket blanking mechanism 3, the gasket can slide downwards under the action of gravity until reaching the limiting bulge 321 to wait for the adsorption of the adsorption and release head 441; the situation that the whole power consumption of the equipment is large and the cost is high due to the fact that the horizontally arranged gasket needs to be additionally attached to the conveying mechanism to move is reduced.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides a gasket material feeding unit of bottle lid kludge, includes frame (1) and locates operation panel (11) on frame (1), it is equipped with swivel work head (12), its characterized in that to rotate on operation panel (11): a base (2) is arranged on the operating platform (11), a plurality of sliding rods (21) and supporting rods (22) are arranged on the base (2), a top plate (23) is arranged at one end of each sliding rod (21) far away from the base (2), and a blanking mechanism (3) and a suction and release mechanism (4) are arranged on each sliding rod (21);

the blanking mechanism (3) comprises a blanking supporting block (31) arranged on the sliding rod (21), a blanking ring (32) positioned at one end, close to the direction of the rotary workbench (12), of the blanking supporting block (31) and a plurality of limiting rods (33) positioned on the top wall of the blanking ring (32), stacked gaskets are placed between the limiting rods (33), and a plurality of limiting bulges (321) are arranged at one end, close to the direction of the rotary workbench (12), of the inner side wall of the blanking ring (32);

the sucking and releasing mechanism (4) comprises a sucking and releasing support block (41) arranged on the sliding rod (21) in a sliding manner, a rotating shaft rod (42) rotatably connected with and penetrating through the sucking and releasing support block (41), a gear (422) positioned at one end of the rotating shaft rod (42) far away from the direction of the rotary workbench (12), a sleeve (43) sleeved at one end of the rotating shaft rod (42) close to the direction of the rotary workbench (12), a sucking and releasing pipe (44) penetrating through the sleeve (43) and a driving piece (45) controlling the sucking and releasing support block (41) to vertically reciprocate;

a tight abutting hole (431) for threaded connection of a bolt is formed in the end wall of the sleeve (43), a suction head (441) matched with the size of the gasket is arranged at one end of the suction pipe (44), a driving rod of the driving piece (45) is connected with the bottom wall of the suction supporting block (41), a driving supporting plate (451) is arranged on the sliding rod (21) and between the suction supporting block (41) and the base (2), the driving piece (45) is arranged on the bottom wall of the driving supporting plate (451), and the driving rod of the driving piece (45) penetrates through the driving supporting plate (451);

a meshing rod (24) is arranged between the base (2) and the top plate (23), a meshing pipe (241) is sleeved on the meshing rod (24), spring seats (242) are sleeved at two ends, located on the meshing pipe (241), of the meshing rod (24), the end portions of the spring seats (242) are respectively fixed on the meshing pipe (241), the base (2) and the top plate (23), and insections (2411) meshed with the gears (422) are arranged on the meshing pipe (241);

the utility model discloses a gear, including rotation axostylus axostyle (42), gear and suction and release bracer (41), rotation axostylus axostyle (42) are located the gear and are equipped with locating part (421) with the cover between suction and release bracer (41), locating part (421) rigid coupling is on rotation axostylus axostyle (42), suction and release bracer (41) are provided with on being close to the lateral wall of gear (422) stopper (411), run through on stopper (411) and be provided with two stop bolt (412), two stop bolt (412) are in on the same vertical line, locating part (421) can offset with one of them stop bolt (412) earlier, rotation axostylus axostyle (42) drive locating part (.

2. The gasket feeding device of the bottle cap assembling machine according to claim 1, wherein: the outer side walls of the base (2) and the top plate (23) are provided with a protective shell (25), and one end, close to the direction of the rotary workbench (12), of the protective shell (25) is provided with a preformed hole (251).

3. The gasket feeding device of the bottle cap assembling machine according to claim 1, wherein: and the inner side wall of the meshing pipe (241) is provided with an anti-abrasion pad (413) on the inner side wall which is attached to the suction support block (41) and the sliding rod (21).

4. The gasket feeding device of the bottle cap assembling machine according to claim 1, wherein: unloading kickoff (31) are close to the tip rigid coupling of swivel work head (12) direction and have change ring (311), what down expect ring (32) adaptation inserts and establishes in change ring (311), the outer fringe lateral wall of unloading circle (32) is close to the one end of gag lever post (33) direction and is provided with support ring (322), support ring (322) are pasted mutually with the roof of changing ring (311).

5. The gasket feeding device of the bottle cap assembling machine according to claim 1, wherein: the limiting rod (33) is sleeved with a plurality of stabilizing rings (331), and the stabilizing rings (331) are uniformly distributed on the limiting rod (33).

6. The gasket feeding device of the bottle cap assembling machine according to claim 1, wherein: the lateral wall of unloading kickstand (31) and the lateral wall of drive backup pad (451) all are provided with adjusts breach (312), all be provided with on the both ends lateral wall of unloading kickstand (31) and drive backup pad (451) and adjust communicating regulation hole (313) of breach (312), can insert in regulation hole (313) and establish the bolt.

7. The gasket feeding device of the bottle cap assembling machine according to claim 1, wherein: the suction and discharge pipe (44) is provided with a friction ring (442), and the friction ring (442) is abutted against the inner side wall of the sleeve (43).

8. The gasket feeding device of the bottle cap assembling machine according to claim 7, wherein: the suction and discharge pipe (44) is provided with a limit ring (443) for limiting the movement of the friction ring (442).

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