CN111152468A - Automatic gluing and pressing pad device for bottle cap production - Google Patents

Abstract

The invention discloses an automatic gluing and pad pressing device for bottle cap production, relates to the technical field of bottle cap production, and solves the problems that the existing bottle cap pad stamping equipment is troublesome to operate in use and low in production efficiency, and certain potential safety hazards exist in the process of placing a pad and a bottle cap at the same time; the rear end face of the main body is fixedly connected with a group of motors; the top of the sliding supporting plate is hinged with a group of connecting rods; the top of the connecting rod is hinged with the flywheel; the inner side in front of the main body is axially connected with a group of middle transmission shafts of the push pads; the inner side in front of the main body is provided with a group of push pad reciprocating mechanisms. The device has realized simultaneously through the rotation of motor that a plurality of actions such as automatic intermittent type feeding, the automation of gasket are placed, the automatic rubber coating of bottle lid to the bottle lid, the automation of gasket is impressed, and the manual operation that has significantly reduced has improved the efficiency of putting on production, has improved workman's labor safety nature simultaneously greatly.

Description

Automatic gluing and pressing pad device for bottle cap production

Technical Field

The invention relates to the technical field of bottle cap production, in particular to an automatic gluing and pressing pad device for bottle cap production.

Background

In order to ensure good sealing performance of the bottle cap during use, a gasket is generally placed in the bottle cap to increase the sealing effect of the bottle cap, the gasket is generally adhered to the inside of the bottle cap by glue on the inside of the bottle cap in the production process for preventing the gasket from falling off, and glue is generally coated on the bottle cap or the gasket and then the gasket is compacted in the bottle cap by a stamping machine in the process of adhering the gasket to the bottle cap.

For example, application No.: the invention discloses a packaging bottle cap gasket automatic punching machine which comprises a motor, a balance weight wheel, a clutch, a crankshaft, a punch, a die and a rack, wherein the motor is connected with one end of the crankshaft through the balance weight wheel arranged on the rack, the crankshaft is connected with the clutch, a pedal plate connected with the clutch is arranged on the rack, the punch is connected with the crankshaft through a support, the die is arranged below the punch correspondingly, a retainer plate is arranged on the die, a through hole with the same size as the punch is arranged on the retainer plate, the packaging bottle cap gasket automatic punching machine also comprises a gasket conveying device arranged on the rack, the gasket conveying device comprises a transmission rod, a synchronous gear, a pair of automatic roller groups and a chain, the pair of automatic roller groups are symmetrically arranged on the rack by taking the punch as the center, the transmission rod is arranged on the side surface of one automatic roller group, one end of the transmission rod is connected with the support for, the movable pin is matched with a synchronous gear arranged on the side surface of the automatic rolling shaft group, and the pair of automatic rolling shaft groups are mutually connected through a chain. The punching machine reduces the labor intensity of workers, improves the working efficiency and shortens the production period.

Based on the above, the existing bottle cap gasket stamping equipment needs manual gluing when in use, manually places the gasket and the bottle cap, is troublesome to operate and low in production efficiency, and meanwhile, a stamping device in the process of placing the gasket and the bottle cap is easy to press the hands of workers and has certain potential safety hazards, so that the existing requirements are not met, and the automatic gluing and pad pressing device for bottle cap production is provided.

Disclosure of Invention

The invention aims to provide an automatic gluing and pad pressing device for bottle cap production, and aims to solve the problems that the existing bottle cap gasket stamping equipment in the background art needs manual gluing during use, gaskets and bottle caps are manually placed, the operation is troublesome, the production efficiency is low, and meanwhile, a stamping device is easy to press the hands of workers in the process of placing the gaskets and the bottle caps, and certain potential safety hazards exist.

In order to achieve the purpose, the invention provides the following technical scheme: an automatic gluing pressure pad device for bottle cap production comprises a main body; the rear end face of the main body is fixedly connected with a group of motors; the lower part of the main body is provided with a group of conveyor belt mechanisms; a group of feeding middle transmission shafts is axially connected to the inner side of the rear part of the main body; the top of the main body is axially connected with a group of flywheels; the front end face of the upper part of the main body is connected with a group of sliding supporting plates in a sliding manner; the top of the sliding supporting plate is hinged with a group of connecting rods; the top of the connecting rod is hinged with the flywheel; the inner side in front of the main body is axially connected with a group of middle transmission shafts of the push pads; the inner side in front of the main body is provided with a group of push pad reciprocating mechanisms.

Preferably, the main body further comprises the guide rail sliding block pair, two groups of guide rail sliding block pairs are arranged on the front end face of the upper portion of the main body in a colored mode, and the sliding support plate is connected with the main body in a sliding mode through the guide rail sliding block pairs.

Preferably, the motor further comprises the driving pulleys, two groups of driving pulleys are coaxially and fixedly connected to a rotating shaft of the motor, and the feeding intermediate transmission shaft and the flywheel are in transmission connection with the driving pulleys through synchronous transmission belt transmission mechanisms respectively.

Preferably, the feeding intermediate transmission shaft is further provided with the feeding driving gear, the feeding intermediate transmission shaft is provided with a set of front end face coaxial and fixedly connected with the feeding driving gear, the feeding driving gear is an incomplete gear, the conveying belt mechanism is further provided with the feeding driven gear, the conveying belt mechanism is provided with a set of driving shaft rear end face coaxial and fixedly connected with the feeding driven gear, and the feeding driven gear is meshed with the feeding driving gear to jointly form an incomplete gear transmission mechanism.

Preferably, a plurality of groups of bottle cap positioning blocks with C-shaped structures are uniformly distributed on the outer side of the conveyor belt mechanism, the bottle cap positioning blocks are arranged in pairs, and the distance between every two bottle cap positioning blocks is equal to the intermittent rotation distance of the conveyor belt mechanism.

Preferably, the connecting rod is eccentrically hinged to the flywheel, and the flywheel, the sliding support plate, the connecting rod and the main body form a crank-slider mechanism together.

Preferably, the sliding support plate further comprises a rubber bottle, a rubber coating head and a punching head, wherein the right side of the front end face of the sliding support plate is provided with a group of rubber bottles, the bottom of each rubber bottle is provided with a group of rubber coating heads, each rubber coating head is of a push type emulsion pump structure, the left side of the front end face of the sliding support plate is provided with a group of punching heads, and the distance between the punching heads and the rubber bottles is the same as the intermittent rotation distance of the conveying belt mechanism.

Preferably, the motor is still including push away and fill up the driving gear, coaxial fixedly connected with is a set of in the pivot of motor push away and fill up the driving gear, push away and fill up the incomplete gear of driving gear for only half tooth, push away and fill up intermediate drive axle still including push away and fill up driven gear, push away and fill up the coaxial fixedly connected with of rear end face of intermediate drive axle and be a set of push away and fill up driven gear, push away and fill up driven gear with push away and fill up the driving gear meshing and constitute incomplete gear drive mechanism jointly, push away and fill up the tooth on the driving gear and can drive push away and fill up intermediate drive axle just in time rotatory a week.

Preferably, the pad pushing reciprocating mechanism further comprises a sliding block, a reciprocating driving gear and a driven bevel gear, the main body of the pad pushing reciprocating mechanism is the sliding block, the middle part of the sliding block is provided with two sets of racks which are oppositely arranged, the middle part of the pad pushing reciprocating mechanism is provided with a set of reciprocating driving gear, the reciprocating driving gear is an incomplete gear with only one half of teeth, the right end face of the reciprocating driving gear is coaxially and fixedly connected with a set of driven bevel gear, and the reciprocating driving gear is meshed with the pad pushing middle transmission shaft through the driven bevel gear to jointly form a bevel gear transmission mechanism.

Preferably, push away and fill up reciprocating mechanism still including push away the backing plate, the left end face of sliding block is provided with a set of C shape push away the backing plate, the preceding terminal surface of main part is provided with a set of store up the storehouse, the rear end face that stores up the storehouse is provided with a set of go out the pad hole, go out pad hole position with the position of punching press head is just right mutually.

Compared with the prior art, the invention has the beneficial effects that:

the device realizes through slider-crank mechanism that the slip layer board slides from top to bottom, realizes the rubber coating of bottle lid and impressing of gasket through gluing bottle and punching press head, drives conveyer belt mechanism intermittent type nature through incomplete gear drive mechanism simultaneously and rotates, realizes the intermittent type nature feeding to the bottle lid, and the motor promotes the gasket that fills up in the storehouse in will storing up of intermittent type formula through incomplete gear drive mechanism and the effect that pushes away pad reciprocating mechanism simultaneously and goes out pad hole department, makes things convenient for the punching press of gasket.

The device has realized simultaneously through the rotation of motor that a plurality of actions such as automatic intermittent type feeding, the automation of gasket are placed, the automatic rubber coating of bottle lid to the bottle lid, the automation of gasket is impressed, and the manual operation that has significantly reduced has improved the efficiency of putting on production, has improved workman's labor safety nature simultaneously greatly.

Drawings

FIG. 1 is a schematic side view of the present invention;

FIG. 2 is a rear isometric view of the present invention;

FIG. 3 is a schematic side view of the transmission mechanism of the present invention;

FIG. 4 is a rear axial side view of the transmission mechanism of the present invention;

FIG. 5 is a schematic side view of the transmission shaft of the conveyor belt mechanism of the present invention;

FIG. 6 is a schematic side view of the sliding plate transmission shaft of the present invention;

FIG. 7 is a schematic structural view of a transmission shaft side of the reciprocating mechanism of the push pad of the present invention;

FIG. 8 is a schematic axial view of a reciprocating mechanism for a push pad according to the present invention;

FIG. 9 is a schematic side view of the pad storage compartment according to the present invention;

in the figure: 1. a main body; 101. a guide rail slider pair; 102. a cushion storage bin; 103. a pad outlet hole; 2. a motor; 201. a driving pulley; 202. a pad pushing driving gear; 3. a feeding intermediate transmission shaft; 301. a feed drive gear; 4. a conveyor belt mechanism; 401. a feed driven gear; 402. a bottle cap positioning block; 5. a flywheel; 6. a sliding support plate; 601. a glue bottle; 602. gluing heads; 603. punching a head; 7. a connecting rod; 8. a push pad intermediate transmission shaft; 801. a push pad driven gear; 9. a pad pushing reciprocating mechanism; 901. a slider; 902. a reciprocating drive gear; 903. a driven bevel gear; 904. and pushing the backing plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example 1

Referring to fig. 1 to 9, an embodiment of the present invention includes: an automatic gluing pressure pad device for bottle cap production comprises a main body 1; the main body 1 further comprises a guide rail sliding block pair 101, two groups of guide rail sliding block pairs 101 are mounted at the upper part of the front side of the main body 1, the sliding support plate 6 is connected with the main body 1 in a sliding mode through the guide rail sliding block pairs 101, and the guide rail sliding block pairs 101 play a role in guiding the sliding support plate 6; a group of motors 2 are arranged at the lower part of the rear side of the main body 1 through bolts; the motor 2 also comprises a driving belt wheel 201, two groups of driving belt wheels 201 are connected on an output shaft of the motor 2 through keys, the feeding intermediate transmission shaft 3 and the flywheel 5 are respectively in transmission connection with the driving belt wheels 201 through a synchronous transmission belt transmission mechanism, and the motor 2 simultaneously drives the feeding intermediate transmission shaft 3 and the flywheel 5 to rotate through the synchronous transmission belt transmission mechanism; the lower part of the main body 1 is provided with a group of conveyor belt mechanisms 4; a plurality of groups of bottle cap positioning blocks 402 are uniformly distributed on the outer side of the conveyor belt mechanism 4, the bottle cap positioning blocks 402 are C-shaped, the bottle cap positioning blocks 402 are arranged in pairs, the distance between each pair of bottle cap positioning blocks 402 is equal to the intermittent rotation distance of the conveyor belt mechanism 4, only the bottle cap positioning blocks 402 on the top surface are drawn in the figure, the bottle cap positioning blocks 402 on the other positions are not all drawn, and the bottle caps are positioned by the paired bottle cap positioning blocks 402 in use; the right part of the rear side of the main body 1 is axially connected with a group of feeding middle transmission shafts 3; the feeding intermediate transmission shaft 3 further comprises a feeding driving gear 301, the front side of the feeding intermediate transmission shaft 3 is coaxially connected with a group of feeding driving gears 301, the feeding driving gears 301 are incomplete gears, the conveyor belt mechanism 4 further comprises a feeding driven gear 401, the rear end of a driving shaft of the conveyor belt mechanism 4 is coaxially connected with a group of feeding driven gears 401, the feeding driven gears 401 and the feeding driving gears 301 are meshed to form an incomplete gear transmission mechanism together, and the feeding intermediate transmission shaft 3 drives the conveyor belt mechanism 4 to intermittently rotate through the incomplete gear transmission mechanism in use; the top of the main body 1 is axially connected with a group of flywheels 5; a group of sliding supporting plates 6 are arranged at the upper part of the front side of the main body 1 in a sliding way; the sliding support plate 6 further comprises a rubber bottle 601, a gluing head 602 and a stamping head 603, the right part of the front side of the sliding support plate 6 is connected with a group of rubber bottles 601, the bottom of the rubber bottle 601 is connected with a group of gluing heads 602, the gluing head 602 is of a press type emulsion pump structure, the left part of the front side of the sliding support plate 6 is connected with a group of stamping heads 603, the distance between the stamping heads 603 and the rubber bottles 601 is the same as the intermittent rotation distance of the conveyor belt mechanism 4, when in use, the sliding support plate 6 slides downwards, simultaneously glues the rubber on the bottle cap through the gluing head 602, and the gasket is pressed into the bottle cap through the stamping heads 603; the top of the sliding supporting plate 6 is hinged with a group of connecting rods 7; the connecting rod 7 is eccentrically hinged on the flywheel 5, the sliding support plate 6, the connecting rod 7 and the main body 1 form a crank block mechanism together, and the flywheel 5 drives the sliding support plate 6 to slide up and down through the crank block mechanism in use; the top of the connecting rod 7 is hinged with the flywheel 5; a group of push pad intermediate transmission shafts 8 are axially connected to the inner front side of the main body 1; the motor 2 further comprises a push pad driving gear 202, a group of push pad driving gears 202 is connected to an output shaft of the motor 2 through a key, the push pad driving gears 202 are incomplete gears with half teeth only, the push pad middle transmission shaft 8 further comprises a push pad driven gear 801, the rear end of the push pad middle transmission shaft 8 is coaxially connected with a group of push pad driven gears 801, the push pad driven gear 801 and the push pad driving gears 202 are meshed to form an incomplete gear transmission mechanism together, teeth on the push pad driving gears 202 can drive the push pad middle transmission shaft 8 to rotate exactly for one circle, and the motor 2 drives the push pad middle transmission shaft 8 to rotate intermittently for one circle through the incomplete gear transmission mechanism in use; a group of push pad reciprocating mechanisms 9 are arranged at the inner front side of the main body 1.

During the use, motor 2 passes through synchronous belt drive mechanism and drives flywheel 5 and feeding intermediate drive shaft 3 and rotate simultaneously, flywheel 5 passes through slider-crank mechanism and drives slip layer board 6 and slide from top to bottom, slip layer board 6 passes through glue bottle 601 and is the inside rubber coating of bottle lid, punching press head 603 impresses the gasket in the bottle lid, here feeding intermediate drive shaft 3 drives 4 intermittent type rotations of conveyer belt mechanism through incomplete gear drive mechanism, accomplish the intermittent type feeding to the bottle lid, motor 2 drives 8 intermittent type rotations a week of push pad intermediate drive shaft through incomplete gear drive mechanism simultaneously, push pad intermediate drive shaft 8 passes through the meshing of reciprocating drive gear 902 with two sets of racks, drive sliding block 901 horizontal slip will store up the gasket in the pad storehouse 102 and push out on the pad hole 103, wait for punching press head 603 to impress in the bottle lid.

Example 2

Referring to fig. 3 to 9, the pad reciprocating mechanism 9 further includes a sliding block 901, a reciprocating drive gear 902, and a driven bevel gear 903, the main body of the pad reciprocating mechanism 9 is the sliding block 901, an opening is formed in the middle of the sliding block 901, two sets of racks are oppositely disposed in the opening, a set of reciprocating drive gear 902 is rotatably mounted in the middle of the pad reciprocating mechanism 9, the reciprocating drive gear 902 is an incomplete gear having only one half of teeth, a set of driven bevel gear 903 is coaxially connected to the right end of the reciprocating drive gear 902, and the reciprocating drive gear 902 is engaged with the pad intermediate transmission shaft 8 through the driven bevel gear 903 to form a bevel gear transmission mechanism.

The pad pushing reciprocating mechanism 9 further comprises a pad pushing plate 904, the left side of the sliding block 901 is connected with a group of pad pushing plates 904, the pad pushing plates 904 are C-shaped, the front side of the main body 1 is connected with a group of pad storage bins 102, the lower portion of the rear side of each pad storage bin 102 is connected with a group of pad outlet holes 103, and the positions of the pad outlet holes 103 are opposite to the positions of the stamping heads 603.

When the cushion pushing middle transmission shaft 8 is used, the bevel gear transmission mechanism drives the reciprocating driving gear 902 to rotate for a circle, the reciprocating driving gear 902 is meshed with a group of gears at the bottom to drive the sliding block 901 to slide left in the process of rotating for a circle, after the reciprocating driving gear 902 rotates for one hundred eighty degrees, the reciprocating driving gear 902 is separated from racks at the bottom and meshed with racks at the top to drive the sliding block 901 to slide right, the sliding block 901 slides left and right once, the gasket in the cushion storage bin 102 is pushed to the upper side of the cushion outlet hole 103 backwards, and the gasket is pressed into the bottle cap at the bottom under the punching action of the punching head 603.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides an automatic rubber coating pressure pad device for bottle lid production which characterized in that: comprises a main body (1); the rear end face of the main body (1) is fixedly connected with a group of motors (2); the lower part of the main body (1) is provided with a group of conveyor belt mechanisms (4); the inner side of the rear part of the main body (1) is axially connected with a group of feeding middle transmission shafts (3); the top of the main body (1) is axially connected with a group of flywheels (5); the front end face of the upper part of the main body (1) is connected with a group of sliding supporting plates (6) in a sliding manner; the top of the sliding supporting plate (6) is hinged with a group of connecting rods (7); the top of the connecting rod (7) is hinged with the flywheel (5); the inner side in front of the main body (1) is axially connected with a group of push pad middle transmission shafts (8); the inner side in front of the main body (1) is provided with a group of push pad reciprocating mechanisms (9).

2. An automatic gluing and pressing device for bottle cap production according to claim 1, characterized in that: the main body (1) further comprises the guide rail sliding block pair (101), two groups of guide rail sliding block pairs (101) are arranged on the front end face of the upper portion of the main body (1), and the sliding support plate (6) is connected with the main body (1) in a sliding mode through the guide rail sliding block pairs (101).

3. An automatic gluing and pressing device for bottle cap production according to claim 1, characterized in that: the motor (2) further comprises the driving belt wheels (201), the rotating shaft of the motor (2) is coaxially and fixedly connected with two groups of driving belt wheels (201), and the feeding middle transmission shaft (3) and the flywheel (5) are in transmission connection with the driving belt wheels (201) through synchronous transmission belt transmission mechanisms respectively.

4. An automatic gluing and pressing device for bottle cap production according to claim 1, characterized in that: feeding intermediate drive axle (3) are still including feeding driving gear (301), the coaxial fixedly connected with of preceding terminal surface of feeding intermediate drive axle (3) is a set of feeding driving gear (301), feeding driving gear (301) are incomplete gear, conveyor belt mechanism (4) are still including feeding driven gear (401), the coaxial fixedly connected with of driving shaft rear end face of conveyor belt mechanism (4) is a set of feeding driven gear (401), feeding driven gear (401) with feeding driving gear (301) meshing constitutes incomplete gear drive jointly.

5. An automatic gluing and pressing device for bottle cap production according to claim 1, characterized in that: bottle lid locating piece (402) of multiunit C shape structure have evenly been arranged in the conveyer belt outside of conveyer belt mechanism (4), bottle lid locating piece (402) are arranged for pairing, and every is every to distance between bottle lid locating piece (402) equals the distance of conveyer belt mechanism (4) intermittent type nature rotation.

6. An automatic gluing and pressing device for bottle cap production according to claim 1, characterized in that: the connecting rod (7) is eccentrically hinged to the flywheel (5), and a crank-slider mechanism is formed among the flywheel (5), the sliding supporting plate (6), the connecting rod (7) and the main body (1).

7. An automatic gluing and pressing device for bottle cap production according to claim 1, characterized in that: slide plate (6) still including glue bottle (601) glue head (602) punching press head (603), the preceding terminal surface right side of slide plate (6) is provided with a set ofly glue bottle (601), the bottom of gluing bottle (601) is provided with a set ofly glue head (602), glue head (602) and be push type emulsion pump structure, the preceding terminal surface left side of slide plate (6) is provided with a set ofly punching press head (603), punching press head (603) with glue the distance between the bottle (601) with conveyer belt mechanism (4) intermittent type pivoted distance is the same.

8. An automatic gluing and pressing device for bottle cap production according to claim 1, characterized in that: motor (2) still including push away pad driving gear (202), coaxial fixedly connected with is a set of in the pivot of motor (2) push away pad driving gear (202), push away pad driving gear (202) for only half the incomplete gear of tooth, push away pad intermediate drive axle (8) still including push away pad driven gear (801), the coaxial fixedly connected with of rear end face that pushes away pad intermediate drive axle (8) is a set of push away pad driven gear (801), push away pad driven gear (801) with push away pad driving gear (202) meshing constitutes incomplete gear drive mechanism jointly, the tooth that pushes away on pad driving gear (202) can drive push away the just in time rotatory a week of pad intermediate drive axle (8).

9. An automatic gluing and pressing device for bottle cap production according to claim 1, characterized in that: the pad pushing reciprocating mechanism (9) further comprises a sliding block (901), a reciprocating driving gear (902) and a driven bevel gear (903), the main body of the pad pushing reciprocating mechanism (9) is the sliding block (901), the middle of the sliding block (901) is provided with two sets of racks which are arranged oppositely, the middle of the pad pushing reciprocating mechanism (9) is provided with a set of reciprocating driving gear (902), the reciprocating driving gear (902) is an incomplete gear with only one half of teeth, the right end face of the reciprocating driving gear (902) is coaxially and fixedly connected with a set of driven bevel gear (903), and the reciprocating driving gear (902) is meshed with the pad pushing middle transmission shaft (8) through the driven bevel gear (903) to form a bevel gear transmission mechanism.

10. An automatic gluing and pressing device for bottle cap production according to claim 9, characterized in that: the pad pushing reciprocating mechanism (9) is characterized in that the pad pushing plate (904) is further included, a group of C-shaped pad pushing plates (904) is arranged on the left end face of the sliding block (901), a group of pad storage bins (102) are arranged on the front end face of the main body (1), a group of pad outlet holes (103) are formed in the rear end face of the pad storage bins (102), and the positions of the pad outlet holes (103) and the positions of the stamping heads (603) are opposite.

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