CN112338483A

CN112338483A - Automatic assembling equipment for swing cover

Info

Publication number: CN112338483A
Application number: CN202011190744.6A
Authority: CN
Inventors: 韦运焕
Original assignee: Foshan Zhide Plastic Mould Co ltd
Current assignee: Foshan Zhide Plastic Mould Co ltd
Priority date: 2020-10-30
Filing date: 2020-10-30
Publication date: 2021-02-09
Anticipated expiration: 2040-10-30
Also published as: CN112338483B

Abstract

The invention relates to automatic assembling equipment for a swing cover, which comprises a first feeding mechanism, a second feeding mechanism and a plurality of cover bodies, wherein a first feeding guide rail is arranged on the first feeding mechanism; the second feeding mechanism is provided with a second feeding guide rail, and the top covers are conveyed along the second feeding guide rail; the first transfer mechanism is used for sequentially conveying the cover bodies from the first feeding guide rail to the material preparation station and the cover closing station; the second transfer mechanism is used for transferring the top cover in the second feeding guide rail to the cover body in the material preparation station; the cover closing mechanism is used for pressing the cover body and the top cover on the cover closing station together to synthesize a finished product of the swing cover; the first feeding mechanism is connected with the first transfer mechanism; the second transfer mechanism is positioned between the second feeding mechanism and the first transfer mechanism; the cover closing mechanism corresponds to the cover closing station. The automatic assembling equipment for the swing cover is reasonable in structure, working efficiency is effectively improved, full-automatic assembling is realized, labor intensity of workers is low, and equipment performance is reliable.

Description

Automatic assembling equipment for swing cover

Technical Field

The invention relates to bottle cap assembling equipment, in particular to automatic assembling equipment for a swing cap.

Background

The swing cap is a bottle cap convenient to use and generally formed by assembling a cap body A and a top cap B, wherein two outer side walls of the top cap B are respectively provided with a convex shaft B2, two inner side walls of the cap body A are respectively provided with a shaft hole A1, and the convex shaft B2 is in switching connection with the shaft hole A1, so that the top cap B can be turned over in a swing manner relative to the cap body A; the traditional method for assembling the swing cover is assembling by workers, so that the working efficiency is low, and the labor intensity of the workers is high, thereby being not beneficial to batch production; for this reason, a corresponding assembly device appears on the market, such as a qianqiu cover combination machine disclosed in chinese patent CN205703976U, specifically discloses: the cover body vibration arrangement disc and the upper cover vibration arrangement disc respectively correspond to different cover body positioning stations, the cover body vibration arrangement disc and the upper cover vibration arrangement disc transfer the arranged cover bodies to the cover body positioning stations through the falling cover body positioning device for positioning, the upper cover vibration arrangement disc combines the arranged upper cover bodies into a cover through the taking down upper cover body positioning device, and finally the cover is taken down and output through the indexing rotary disc to the cover taking and outputting device. The whole volume of this thousand years lid combination machine is great, and the spatial position that occupies is more, drives lid and last piece lid through the graduation carousel and moves and carry, and this kind moves and carries the mode stroke longer, leads to influencing work efficiency.

Therefore, further improvements are needed.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides the automatic assembling equipment for the swing cover, which has the advantages of reasonable structure, effective improvement of working efficiency, realization of full-automatic assembly, low labor intensity of workers and reliable equipment performance.

The purpose of the invention is realized as follows:

an automatic assemblage device of a swing cover comprises,

the cover body conveying device comprises a first feeding mechanism, a second feeding mechanism and a conveying mechanism, wherein a first feeding guide rail is arranged on the first feeding mechanism, and a plurality of cover bodies are conveyed along the first feeding guide rail;

the second feeding mechanism is provided with a second feeding guide rail, and the top covers are conveyed along the second feeding guide rail;

the first transfer mechanism is used for sequentially conveying the cover bodies from the first feeding guide rail to the material preparation station and the cover closing station;

the second transfer mechanism is used for transferring the top cover in the second feeding guide rail to the cover body in the material preparation station;

the cover closing mechanism is used for pressing the cover body and the top cover on the cover closing station together to synthesize a finished product of the swing cover;

the first feeding mechanism is connected with the first transfer mechanism; the second transfer mechanism is positioned between the second feeding mechanism and the first transfer mechanism; the cover closing mechanism corresponds to the cover closing station.

The first feeding mechanism comprises a first feeding groove, a first material pushing groove and a first material pushing assembly which are mutually communicated, the first feeding groove and the first material pushing groove jointly form the first feeding guide rail, and the cover body is conveyed in the first feeding groove and the first material pushing groove; the first material pushing assembly comprises a first material pushing cylinder and a first material pushing part, and the first material pushing cylinder drives the first material pushing part to move so as to drive the cover body in the first material pushing groove to move to the first transfer mechanism.

The second feeding mechanism comprises a second feeding groove, a second material pushing groove and a second material pushing assembly which are communicated with each other, the second feeding groove and the second material pushing groove jointly form a second feeding guide rail, and the top cover is conveyed in the second feeding groove and the second material pushing groove; the second pushes away the material subassembly and includes that the second pushes away material cylinder and second and pushes away the material part, and the second pushes away the material cylinder and drives the second and push away the material part activity to the top cap in the drive second pushes away the silo removes to second and pushes away silo tip.

The second feed mechanism comprises a stop assembly, the stop assembly comprises a stop cylinder and a stop block, and the stop cylinder drives the stop block to move so as to separate the top cover at the tail end of the second feeding guide rail.

A first avoidance groove for avoiding the convex block on the top cover is arranged on the second feeding groove; a second avoiding groove for avoiding the lug on the top cover is arranged on the second material pushing groove; the first avoidance groove is communicated with the second avoidance groove; and the supporting surface of the second feeding groove is higher than that of the second material pushing groove.

The first transfer mechanism comprises a third feeding groove and a first transfer movable plate; the first material pushing groove is communicated with the third feeding groove, the cover body from the first feeding mechanism enters the third feeding groove, and the third feeding groove passes through a material preparing station and/or a cover closing station; the first moving and carrying movable plate is provided with more than one moving and carrying traction part for driving the cover body to move to the material preparation station and/or the cover closing station along the third feeding groove; the first transferring mechanism further comprises a first transferring cylinder and a second transferring cylinder; the first shifting cylinder drives the first shifting movable plate to reciprocate so that the shifting traction part clamps or loosens the cover body; the second shifting cylinder drives the first shifting movable plate to reciprocate so that the shifting traction part continuously drives the cover bodies to move towards the material preparation station and/or the cover closing station.

The second transferring mechanism comprises a sucker for taking the top cover, a third transferring cylinder for driving the sucker to move up and down, and a fourth transferring cylinder for driving the sucker to move back and forth between the second feeding mechanism and the first transferring mechanism.

The cover closing mechanism comprises a cover closing part and a cover closing cylinder, the cover closing part is located above the cover closing station, and the cover closing cylinder drives the cover closing part to move up and down so as to combine the cover body and the top cover into the swing cover product.

The invention has the following beneficial effects:

the cover body is fed through the first feeding mechanism, the top cover is fed through the second feeding mechanism, the cover body and the top cover are conveyed in a linear conveying mode through the first transferring mechanism, the top cover is rapidly transferred to the cover body of the material preparation station through the second transferring mechanism, and the cover body and the top cover are combined into the thousand-autumn cover product through the cover closing mechanism; the working procedure of assembling the swing cover is completed under the cooperation of each mechanism, and the equipment has the advantages of high working efficiency, high automation degree, good assembling quality, low labor intensity, small equipment volume and small occupied space.

Drawings

Fig. 1 is a perspective view of an automatic cover assembling apparatus according to an embodiment of the present invention.

Fig. 2 is a partial top view of an automatic swing cover assembling apparatus according to an embodiment of the present invention.

Fig. 3 is a schematic structural diagram of the first feeding mechanism in an embodiment of the present invention.

Fig. 4 is a schematic structural diagram of a second feeding mechanism in an embodiment of the present invention.

Fig. 5 is a partial schematic view of a second feeding mechanism according to an embodiment of the invention.

Fig. 6 is a schematic structural diagram of a first transfer mechanism according to an embodiment of the present invention.

Fig. 7 is a schematic structural diagram of a second transfer mechanism according to an embodiment of the present invention.

Fig. 8 is a schematic view of a combination of the cover closing mechanism and the third feeding chute according to an embodiment of the present invention.

Fig. 9 is a schematic structural diagram of a cover body according to an embodiment of the invention.

Fig. 10 is a schematic structural diagram of a top cover according to an embodiment of the invention.

Detailed Description

The invention is further described with reference to the following figures and examples.

Referring to fig. 1-8, the present automatic swing cover assembling apparatus includes,

the automatic feeding device comprises a first feeding mechanism 1, wherein a first feeding guide rail is arranged on the first feeding mechanism 1, and a plurality of cover bodies A are conveyed along the first feeding guide rail;

the second feeding mechanism 2 is provided with a second feeding guide rail, and the plurality of top covers B are conveyed along the second feeding guide rail;

the first transfer mechanism 3 is used for sequentially conveying the cover body A from the first feeding guide rail to a material preparation station P1 and a cover closing station P2;

the second transfer mechanism 4 is used for transferring the top cover B in the second feeding guide rail to the cover body A in the preparation station P1, and preparing corresponding product raw materials for the cover closing process;

the cover closing mechanism 5 is used for pressing the cover body A and the top cover B on the cover closing station P2 together to synthesize a finished product of the swing cover;

the first feeding mechanism 1 is connected with the first transfer mechanism 3; the second transfer mechanism 4 is positioned between the second feeding mechanism 2 and the first transfer mechanism 3; the cover closing mechanism 5 corresponds to the cover closing station P2.

The automatic thousand-autumn cap assembling equipment is characterized in that a cap body A is fed through a first feeding mechanism 1, a top cap B is fed through a second feeding mechanism 2, the cap body A and the top cap B are conveyed in a linear conveying mode through a first transfer mechanism 3, the top cap B is quickly transferred to the cap body A of a material preparation station P1 through a second transfer mechanism 4, and the cap body A and the top cap B are combined into a thousand-autumn cap product through a cap closing mechanism 5; the working procedure of assembling the swing cover is completed under the cooperation of each mechanism, and the equipment has the advantages of high working efficiency, high automation degree, good assembling quality, low labor intensity, small equipment volume and small occupied space.

Further, referring to fig. 3, the first feeding mechanism 1 includes a first feeding chute 101, a first material pushing chute 102, and a first material pushing assembly, which are communicated with each other, the first feeding chute 101 and the first material pushing chute 102 together form an L-shaped first feeding guide rail, and the cover body a is conveyed in the first feeding chute 101 and the first material pushing chute 102; the feeding end of the first feeding chute 101 is communicated with a device for storing the cover body A, the discharging end of the first feeding chute 101 is communicated with the feeding end of the first material pushing chute 102, and the discharging end of the first material pushing chute 102 is connected with the first transfer mechanism 3; the first material pushing assembly comprises a first material pushing cylinder 103 and a first material pushing component 104, a cylinder body of the first material pushing cylinder 103 is fixed on the machine base 6 through a first fixing support 105, and a rod body of the first material pushing cylinder 103 is in transmission connection with the first material pushing component 104, so that the first material pushing cylinder 103 drives the first material pushing component 104 to move back and forth, and a cover body A entering the first material pushing groove 102 through the first material feeding groove 101 is driven to move to the first transfer mechanism 3 through the discharge end of the first material pushing groove 102.

Further, referring to fig. 4 and 5, the second feeding mechanism 2 includes a second feeding groove 201, a second material pushing groove 202, and a second material pushing assembly, which are communicated with each other, the second feeding groove 201 and the second material pushing groove 202 together form an L-shaped second feeding guide rail, and the top cover B is conveyed in the second feeding groove 201 and the second material pushing groove 202; the feeding end of the second feeding groove 201 is communicated with a device for storing the top cover B, the discharging end of the second feeding groove 201 is communicated with the feeding end of the second material pushing groove 202, and the discharging end of the second material pushing groove 202 is arranged in a closed manner; the second material pushing assembly comprises a second material pushing cylinder 203 and a second material pushing component 205, a cylinder body of the second material pushing cylinder 203 is fixed on the machine base 6 through a second fixing support 204, and a rod body of the second material pushing cylinder 203 is in transmission connection with the second material pushing component 205, so that the second material pushing cylinder 203 drives the second material pushing component 205 to move, and a top cover B entering the second material pushing groove 202 through the second material feeding groove 201 is driven to move to the end of the second material pushing groove 202.

Further, the second feeding mechanism 2 comprises a stopping assembly, the stopping assembly comprises a stopping cylinder 206 and a stop block 207, a cylinder body of the stopping cylinder 206 is fixed on the side portion of the second feeding groove 201, and a rod body of the stopping cylinder 206 is in transmission connection with the stop block 207, so that the stopping cylinder 206 drives the stop block 207 to move back and forth, and a top cover B at the tail end of the second feeding guide rail is separated, and therefore the next-step transferring work is facilitated.

Further, influenced by the structural design of the product, a bump B1 protrudes downwards from the bottom of the top cover B, in order to ensure stable conveying of the top cover B and the feed chute, a first avoidance groove 2011 for avoiding the bump B1 on the top cover B is arranged on the second feed chute 201, a second avoidance groove 2021 for avoiding the bump B1 on the top cover B is arranged on the second push chute 202, the bump B1 extends into the first avoidance groove 2011 when the top cover B is conveyed in the second feed chute 201, and the bump B1 extends into the second avoidance groove 2021 when the top cover B is conveyed in the second push chute 202; the tail end of the first avoidance groove 2011 is communicated with the start end of the second avoidance groove 2021; the supporting surface of the second hopper 201 is higher than the supporting surface of the second pusher chute 202.

Further, referring to fig. 6, the first transfer mechanism 3 includes a third feeding chute 301, a first transfer flap 303, and a second transfer flap 305; the tail end of the first material pushing groove 102 is communicated with the beginning end of the third feeding groove 301, the cover body A (specifically, driven by the first material pushing assembly) from the first feeding mechanism 1 enters the third feeding groove 301, and the third feeding groove 301 sequentially passes through a material preparing station P1 and a cover closing station P2 so as to guide the cover body A to pass through the material preparing and cover closing stations; the first movable transferring plate 303 is provided with more than one transferring traction part 302 for driving the cover body a to sequentially move to the material preparing station P1 and the cover closing station P2 along the third feeding chute 301, the transferring traction part 302 in the embodiment is of a bayonet structure, and the cover body a enters the transferring traction part 302 through an opening position; the first transfer mechanism 3 further includes a first transfer cylinder 304 and a second transfer cylinder 306; the cylinder body of the first transferring cylinder 304 is fixed on the second transferring movable plate 305, the rod body of the first transferring cylinder 304 is in transmission connection with the first transferring movable plate 303, so that the first transferring cylinder 304 drives the first transferring movable plate 303 to reciprocate relative to the second transferring movable plate 305 to enable the transferring traction part 302 to clamp or release the cover body a, and the first transferring cylinder 304 drives the first transferring movable plate 303 to reciprocate perpendicular to the set product conveying direction; the body of the second transferring cylinder 306 is fixed on the machine base 6, and the rod of the second transferring cylinder 306 is connected to the second transferring movable plate 305 in a driving manner, so that the second transferring cylinder 306 drives the first transferring movable plate 303 to reciprocate, so that the transferring traction part 302 continuously drives the cover bodies a to move to the material preparing station P1 and the cover closing station P2. Under the mutual cooperation of the first transferring cylinder 304 and the second transferring cylinder 306, the cover body A on the third feeding groove 301 can realize quick conveying, and the production efficiency is effectively improved.

Further, referring to fig. 7, the second transfer mechanism 4 includes a suction cup 401 for taking the top cover B, a third transfer cylinder 403 for driving the suction cup 401 to move up and down, and a fourth transfer cylinder 405 for driving the suction cup 401 to reciprocate between the second feeding mechanism 2 and the first transfer mechanism 3. The rod body of the third transfer cylinder 403 is connected with the suction cup 401 through the first transmission part 402 to drive the suction cup 401 to move up and down; the rod body of the fourth transferring cylinder 405 is connected to the cylinder body of the third transferring cylinder 403 through the second transmission member 404, and the rod body of the fourth transferring cylinder 405 is fixed on the machine base 6 through the third fixing bracket 406.

Further, the cover closing mechanism 5 comprises a cover closing part 501 and a cover closing cylinder 502, the cover closing part 501 is located above the cover closing station P2, a rod body of the cover closing cylinder 502 is in transmission connection with the cover closing part 501, a cylinder body of the cover closing cylinder 502 is fixed on the base 6 through a fourth fixing support 503, the cover closing cylinder 502 drives the cover closing part 501 to move up and down so as to combine the cover body a and the top cover B into a qianqiu cover product, and then the first transfer mechanism 3 completes blanking of the qianqiu cover product.

The foregoing is a preferred embodiment of the present invention, and the basic principles, principal features and advantages of the invention are shown and described. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, and the invention is intended to be protected by the following claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides a thousand years lid automatic assembly equipment which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the feeding device comprises a first feeding mechanism (1), wherein a first feeding guide rail is arranged on the first feeding mechanism (1), and a plurality of cover bodies (A) are conveyed along the first feeding guide rail;

the second feeding mechanism (2) is provided with a second feeding guide rail, and the plurality of top covers (B) are conveyed along the second feeding guide rail;

the first transfer mechanism (3) is used for sequentially conveying the cover body (A) from the first feeding guide rail to a material preparing station (P1) and a cover closing station (P2);

the second transfer mechanism (4) is used for transferring the top cover (B) in the second feeding guide rail to the cover body (A) in the preparation station (P1);

the cover closing mechanism (5) is used for pressing the cover body (A) and the top cover (B) on the cover closing station (P2) together to synthesize a finished product of the swing cover;

the first feeding mechanism (1) is connected with the first transfer mechanism (3); the second transfer mechanism (4) is positioned between the second feeding mechanism (2) and the first transfer mechanism (3); the cover closing mechanism (5) corresponds to a cover closing station (P2).

2. The automatic swing cover assembling device according to claim 1, characterized in that: the first feeding mechanism (1) comprises a first feeding groove (101), a first material pushing groove (102) and a first material pushing assembly which are communicated with each other, the first feeding groove (101) and the first material pushing groove (102) jointly form the first feeding guide rail, and the cover body (A) is conveyed in the first feeding groove (101) and the first material pushing groove (102); the first material pushing assembly comprises a first material pushing cylinder (103) and a first material pushing component (104), wherein the first material pushing cylinder (103) drives the first material pushing component (104) to move so as to drive the cover body (A) in the first material pushing groove (102) to move to the first transfer mechanism (3).

3. The automatic swing cover assembling device according to claim 1, characterized in that: the second feeding mechanism (2) comprises a second feeding groove (201), a second material pushing groove (202) and a second material pushing assembly which are communicated with each other, the second feeding groove (201) and the second material pushing groove (202) jointly form a second feeding guide rail, and the top cover (B) is conveyed in the second feeding groove (201) and the second material pushing groove (202); the second material pushing assembly comprises a second material pushing cylinder (203) and a second material pushing component (205), and the second material pushing cylinder (203) drives the second material pushing component (205) to move so as to drive a top cover (B) in the second material pushing groove (202) to move to the end of the second material pushing groove (202).

4. The automatic swing cover assembling device according to claim 3, characterized in that: the second feeding mechanism (2) comprises a stop assembly, the stop assembly comprises a stop cylinder (206) and a stop block (207), and the stop cylinder (206) drives the stop block (207) to move so as to separate a top cover (B) at the tail end of the second feeding guide rail.

5. The automatic swing cover assembling device according to claim 3, characterized in that: a first avoidance groove (2011) for avoiding the bump (B1) on the top cover (B) is arranged on the second feeding groove (201); a second avoiding groove (2021) for avoiding the bump (B1) on the top cover (B) is arranged on the second material pushing groove (202); the first avoidance groove (2011) and the second avoidance groove (2021) are communicated with each other; the supporting surface of the second feeding groove (201) is higher than that of the second material pushing groove (202).

6. The automatic swing cover assembling device according to claim 1, characterized in that: the first transfer mechanism (3) comprises a third feeding groove (301) and a first transfer movable plate (303); the first material pushing groove (102) is communicated with the third feeding groove (301), the cover body (A) from the first feeding mechanism (1) enters the third feeding groove (301), and the third feeding groove (301) passes through a material preparing station (P1) and/or a cover closing station (P2); the first shifting movable plate (303) is provided with more than one shifting traction part (302) for driving the cover body (A) to move to a material preparation station (P1) and/or a cover closing station (P2) along the third feeding groove (301); the first transfer mechanism (3) further comprises a first transfer cylinder (304) and a second transfer cylinder (306); the first transfer cylinder (304) drives the first transfer movable plate (303) to reciprocate so as to enable the transfer traction part (302) to clamp or release the cover body (A); the second shifting cylinder (306) drives the first shifting movable plate (303) to reciprocate, so that the shifting traction part (302) continuously drives the cover bodies (A) to move towards the material preparation station (P1) and/or the cover closing station (P2).

7. The automatic swing cover assembling device according to claim 1, characterized in that: the second transfer mechanism (4) comprises a sucker (401) used for taking the top cover (B), a third transfer cylinder (403) used for driving the sucker (401) to move up and down, and a fourth transfer cylinder (405) used for driving the sucker (401) to move between the second feeding mechanism (2) and the first transfer mechanism (3) in a reciprocating mode.

8. The automatic swing cover assembling device according to claim 1, characterized in that: the cover closing mechanism (5) comprises a cover closing part (501) and a cover closing cylinder (502), the cover closing part (501) is located above the cover closing station (P2), and the cover closing cylinder (502) drives the cover closing part (501) to move up and down so as to combine the cover body (A) and the top cover (B) into a thousand-autumn cover product.