CN112407386A

CN112407386A - A change machine of pasting for notebook computer gasket of moulding plastics

Info

Publication number: CN112407386A
Application number: CN202011241859.3A
Authority: CN
Inventors: 王洪涛
Original assignee: Suzhou Yichangtai Plastic Co ltd
Current assignee: Suzhou Yichangtai Plastic Co ltd
Priority date: 2020-11-09
Filing date: 2020-11-09
Publication date: 2021-02-26

Abstract

The invention relates to a transfer machine for an injection molding gasket of a notebook computer, which comprises a frame body, a feeding mechanism and a transfer mechanism. A frame body; the feeding mechanism is arranged on the frame body, the direct vibration track is connected with a discharge port of the vibration disc, and the other end of the direct vibration track is connected with the positioning assembly; it cooperatees with feed mechanism to change pastes the mechanism, goes up the base stock subassembly and includes the material area, and the material area includes base stock I and covers base stock II on base stock I, and the package assembly is including peeling off board and bearing board and transportation unit, and the material area sets up peel off on the board, the waste material subassembly sets up peel off under the board, base stock II convolutes on the waste material subassembly, and the bearing board sets up on peeling off the board, and base stock II sets up on the bearing board, transports the unit setting in one side of bearing board, receives the material subassembly setting and keeps away from on the bearing board one side of transporting the unit. The problem that the prior art is difficult to satisfy that the die-cutting piece product is large in quantity and high in quality requirement is solved by the arrangement of a specific structure.

Description

A change machine of pasting for notebook computer gasket of moulding plastics

Technical Field

The invention relates to the field of collection of injection molding sheet materials, in particular to a transfer machine for an injection molding gasket of a notebook computer.

Background

In the production of electronic products, incoming materials comprise a large number of injection molding gaskets of sheet materials, the injection molding gaskets need to be pasted on an adhesive film, and the sheet materials need to be pasted into coils. The traditional manual assembly mode has low efficiency and poor assembly precision, the transfer process is complex and the quality is unreliable, and the requirement of modern batch production is difficult to meet. The quantity of electronic products is large, the quality requirement is high, and the requirements are difficult to meet.

Disclosure of Invention

The invention aims to provide a transfer machine for an injection molding gasket of a notebook computer, which solves the problems that the prior art is difficult to meet the requirements of large quantity and high quality of injection molding products.

In order to achieve the above object, the present invention provides a transfer machine for injection molding of a gasket for a notebook computer, comprising:

a frame body;

the feeding mechanism is arranged on the frame body and comprises a vibrating disc, a direct vibration track and a positioning assembly, the direct vibration track is connected with a discharge port of the vibrating disc, and the other end of the direct vibration track is connected with the positioning assembly;

transfer the mechanism, transfer the mechanism with feed mechanism cooperatees, transfer the mechanism and include the base stock subassembly, transfer the subassembly, the waste material subassembly and receive the material subassembly, it includes the material area to go up the base stock subassembly, the material area includes base stock I and covers base stock II on the base stock I, the package assembly is including peeling off board and bearing board and transportation unit, the material area sets up peel off on the board, the waste material subassembly sets up peel off under the board, base stock II convolutes on the waste material subassembly, the bearing board sets up peel off on the board, base stock II sets up on the bearing board, the transportation unit sets up one side of bearing board, it sets up to receive the material subassembly keep away from on the bearing board one side of transportation unit.

Further, the locating component comprises a moving unit and a locating unit, wherein a conveying groove and a locating groove are formed in the locating unit, the moving unit is slidably arranged on one side of the locating unit, a guide groove is formed in the moving unit and matched with the conveying groove, and the guide groove is matched with the locating groove.

Further, the positioning assembly further comprises a pushing member which is slidably arranged in the guide groove.

Furthermore, an adhesive surface is arranged on the base paper I, and the adhesive surface is positioned between the base papers II on the base paper I.

Further, the bottom paper feeding assembly comprises a feeding roller, and the material belt is wound on the feeding roller.

Furthermore, an inclined surface is arranged at one end of the stripping plate, which is far away from the upper base paper assembly.

Further, the waste material assembly comprises a waste material roller, and the base paper II is wound on the waste material roller.

Further, change and paste the subassembly and still include the deflector roll, the deflector roll sets up one side of stripper plate.

Further, the transfer unit is slidably arranged on the frame body and comprises a power piece I and a clamping portion, and the clamping portion is connected with the driving end of the power piece I.

Further, it still includes the suppression subassembly to change pastes the mechanism, the suppression subassembly includes support frame, suppression unit I and suppression unit II, suppression unit I includes live-rollers I, live-rollers I sets up on the bearing board, suppression unit II sets up one side of bearing board, suppression unit II includes live-rollers and pinch roller II, the pinch roller sets up on the live-rollers II and with the live-rollers II cooperatees.

Due to the application of the technical scheme, compared with the prior art, the invention has the following advantages:

the straight vibration track is matched with the positioning assembly to transfer and position the product, so that the positioning precision and the operation speed are improved. The inclined plane setting of stripper plate one end is convenient for take the backing paper I that pastes together and separate with backing paper II on the material. The transfer unit is arranged on one side of the bearing plate and is arranged at the same height with the bearing plate, so that products on the positioning assembly can be conveniently placed on the bearing plate, the products can be conveniently pasted on the base paper I, and meanwhile, the operation efficiency is improved; the arrangement of the supporting plate operation platform is convenient for pasting the product on the base paper I.

Drawings

FIG. 1 is a schematic view of the overall structure of the transfer machine for injection molding of a gasket for a notebook computer according to the present invention;

FIG. 2 is a schematic view of the overall structure of the loading mechanism of FIG. 1;

FIG. 3 is a schematic view of the overall construction of the positioning assembly of FIG. 2;

FIG. 4 is a schematic view of the overall construction of the positioning unit of the positioning assembly of FIG. 3;

FIG. 5 is a schematic view of the overall construction of the transfer mechanism of FIG. 1;

FIG. 6 is a schematic view of the overall construction of the transfer assembly of FIG. 5;

FIG. 7 is a schematic view of the overall structure of the transfer unit of FIG. 5;

fig. 8 is a schematic view of the overall structure of the press assembly of fig. 5.

Wherein the reference numerals are as follows:

1. a frame body;

2. a feeding mechanism; 21. a vibrating pan; 22. a direct vibration track; 23. a positioning assembly; 231. a mobile unit; 2311. a guide groove; 232. a positioning unit; 2321. a conveying trough; 2322. positioning a groove; 233. a pusher member; 234. a fixing plate; 235. a power part II; 236. a power part III;

3. a transfer mechanism; 31. an upper base paper assembly; 311. a material belt; 3111. base paper I; 3112. base paper II; 312. a feeding roller; 32. a transfer component; 321. stripping the plate; 322. a support plate; 323. a transfer unit; 3231. a power part I; 3232. a clamping portion; 324. a guide roller; 33. a scrap assembly; 331. a scrap roll; 34. a material receiving assembly; 341. a material receiving roller; 35. pressing the assembly; 351. a support frame; 352. pressing a unit I; 3521. rotating the roller I; 353. a pressing unit II; 3531. a rotating roller; 3532. a rotating roller II; 354. a connecting member; 355. a locking member; 356. a buffer.

Detailed Description

The following detailed description of preferred embodiments of the invention is provided:

as shown in fig. 1, the transfer machine for injection molding of a gasket for a notebook computer includes a frame body 1, a feeding mechanism 2 and a transfer structure 3. The feeding mechanism 2 and the transfer mechanism 3 are arranged on the frame body 1.

The feeding mechanism 2 comprises a vibrating disk 21, a straight vibrating track 22 and a positioning assembly 23. The feeding mechanism 2 is slidably arranged on the frame body 1, so that the alignment between the feeding mechanism and the rotary pasting mechanism 3 is facilitated.

As shown in fig. 2, the discharge port of the vibration plate 21 is connected to one end of the straight vibration rail 22, the other end of the straight vibration rail 22 is connected to a tangent line of the vibration plate 21, and the product is fed into the straight vibration rail 22 along the tangent line along with the rotation of the vibration plate 21, and an internal cavity (not shown in the figure) of the straight vibration rail 22 is T-shaped and is consistent with the shape of the product. The shape of the internal cavity of the straight vibration rail 22 needs to be set according to the shape of the product on the one hand, and needs to be set according to the placing angle of the product on the other hand, and meanwhile, the placing angle of the product needs to be consistent with the positioning cavity of the positioning assembly.

As shown in fig. 3 and 4, the positioning assembly 23 includes a moving unit 231, a positioning unit 232, a pushing member 233, a fixing plate 234, a power member ii 235 and a power member iii 236. The moving unit 231 is provided with a guide groove 2311. The positioning unit 232 is provided with a conveying groove 2321 and a positioning groove 2322. The positioning assembly 23 is fixed on a lifting frame (not shown in the figure), the fixing unit 232 is arranged on one side close to the straight vibration rail 22, the straight vibration rail 22 corresponds to the conveying groove 2321, and the cross-sectional shape of the conveying groove 2321 is consistent with that of the straight vibration rail 22, so that the product can be conveyed to the fixing unit 232 in a roughly positioning mode. The driving member iii 236 is mounted on the raising frame, and drives the moving unit 231 to slide along one side of the positioning unit 232, so that the guide groove 2311 can correspond to the conveying groove 2321 and the positioning groove 2322.

The product is fed into the conveying chute 2321 by the straight vibrating rail 22, and at this time, the conveying chute 2321 is arranged corresponding to the guide chute 2311. Under the pushing action of the product chain, the products pass through the conveying groove 2321 and enter the moving unit 231, and the moving unit 231 slides along the fixed unit 232 under the action of the power member III 236, so that the guide groove 2311 corresponds to the positioning groove 2322.

The fixing plate 234 is arranged on the power piece III 236 and is connected with the driving end of the power piece III 236. The power element II 235 is arranged on the fixing plate 234, the moving direction of the driving end of the power element II 235 is consistent with the direction of the positioning groove 2322, and the propelling element 233 is connected with the driving end of the power element II 235. The pushing piece 233 is arranged in the guide groove 2311, and the driving end of the power piece II 235 drives the pushing piece 233 to push the product from the guide groove 2311 into the positioning groove 2322 to position the product.

As shown in fig. 5, the transfer mechanism 3 is disposed on the frame body 1 and located at one side of the feeding mechanism 2, and the transfer mechanism 3 includes an upper base paper assembly 31, a transfer assembly 32, a waste assembly 33, a receiving assembly 34, a pressing assembly 35, and a vertical plate 36. The vertical plate 36 is arranged at one side of the feeding mechanism 2, and the upper base paper assembly 31 is arranged on the vertical plate 36 to provide a material belt for packing the injection molding gasket.

The upper base paper assembly 31 includes a material tape 311 and a feeding roller 312. The feeding roller 312 is disposed on the vertical plate 36 and perpendicular to the vertical plate 36. The material belt 311 is sleeved on the feeding roller 312, and the feeding roller 312 is connected to a driving end of a power member (not shown in the figure) to drive the material belt 311 sleeved on the feeding roller 312 to rotate so as to release the material belt. The tape 311 comprises a base paper I3111 and a base paper II 3112. The base paper I3111 is provided with an adhesive surface, and the base paper II 3112 covers the adhesive surface to protect the adhesive surface from being damaged.

As shown in fig. 6, the transfer assembly 32 is disposed on the vertical plate 36 and located between the upper base paper assembly 31 and the feeding assembly 2, and the transfer assembly 32 includes a peeling plate 321, a supporting plate 322, a transfer unit 323, and a guide roller 324. The stripping plate 321 is used for receiving the material belt 311, the material belt 311 is placed on the stripping plate 321, and one end of the stripping plate 321 is provided with an inclined surface for separating the base paper I3111 and the base paper II 3112. The base paper II 3112 is wound around the reject assembly 33 along the inclined surface of the peeling plate 321, and the reject assembly 33 includes a reject roller 331. The base paper II 3112 is wound around the waste roll 331, and the collection and arrangement of the base paper II 3112 are completed.

The guide roller 324 is attached to the peeling plate 32 on the side close to the feed mechanism 2, and the base paper I3111 is wound around the guide roller 324 so that the base paper I3111 is guided on the one hand and the side of the base paper I3111 on which the adhesive surface is provided faces upward. The base paper I3111 was conveyed to the support plate 322 with the side of the base paper I3111 provided with the adhesive side facing upward.

As shown in fig. 7, the transfer unit 323 is provided at one side of the support plate 322 to transfer the products fixed to the positioning unit 232 to the base paper i 3111 on the support plate 322, and the transfer unit 323 includes a power member i 3231 and a clamping portion 3232. The gripping portion 3232 is coupled to the drive end of the power member i 3231 for gripping a product.

As shown in fig. 8, a pressing unit 35 is provided on the support plate 322 at an end remote from the transfer unit 323, and presses the product adhered to the base paper i 3111. The pressing assembly 35 comprises a supporting frame 351, a pressing unit I352 and a pressing unit II 353. The press unit I352 includes a rotating roller I3521. The press unit ii 353 includes a rotating roller 3531 and a rotating roller ii 3532.

The transfer mechanism 3 further includes a connector 354, a locking portion 355, and a bumper 356. Support frame 351 is fixed on riser 36, and pressing unit I352 is installed in the side of mount 351 and is located supporting plate 322, and pressing unit I352 includes live-rollers I3521, and live-rollers I3521 is to being provided with the base stock I3111 of product and suppresses. The press unit ii 353 includes a pinch roller 3531 and a rotary roller ii 3532. The rotating roller II 3532 is rotatably arranged on the support frame 351, and the pressing roller 3531 is arranged corresponding to the rotating roller II 3532.

The connecting piece 354 is arranged on the supporting frame 351 in a liftable mode, one end of the connecting piece 354 is connected with the pressing roller 3531, the other end of the connecting piece 354 is connected with the locking piece 355, the locking piece 355 is arranged on the supporting frame 351, the pressing roller 3531 is arranged inside the supporting frame 351 and located on the rotating roller II 3532, the connecting portion 354 is sleeved on the supporting frame 351 in a liftable mode, and a product is further pressed and fixed through the pressing roller 3531 and the rotating roller II 3532.

The buffer 356 is sleeved on the outer periphery of the connecting member 354 and located between the supporting frame 351 and the pressing roller 3531. Due to the fact that the thickness of the product on the material belt is different, the pressing roller 3531 can be lifted through guiding of the connecting piece 354, and due to the effect of the buffer piece 356, the pushing force generated by the thickness of the product is balanced to press the product. The locking piece 355 is arranged at the other end of the connecting piece 354 and is positioned on the supporting frame 351, the locking piece 355 is in a cam shape, when no product passes through between the pressing roller 3531 and the rotating roller II 3532, the locking piece 355 rotates to lift the connecting piece 354 upwards, and meanwhile, the self is locked due to the structural characteristics of the cam.

The receiving assembly 34 is disposed on a side of the pressing assembly 35 and away from the transfer assembly 32. The material receiving assembly 34 comprises a material receiving roller 341 for collecting and arranging the completely pressed base paper II 3112.

The power parts I3231, II 235 and III 236 are generally commercially available components such as motors and air cylinders for providing power. The buffer 356 may be a component having a buffer function, such as a spring or rubber.

The above embodiments are merely illustrative of the technical concept and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the content of the present invention and implement the invention, and not to limit the scope of the invention, and all equivalent changes or modifications made according to the spirit of the present invention should be covered by the scope of the present invention.

Claims

1. The utility model provides a change machine of pasting that is used for notebook computer gasket of moulding plastics which characterized in that, it includes:

a frame body (1);

the feeding mechanism (2) is arranged on the frame body (1), the feeding mechanism (2) comprises a vibrating disc (21), a direct vibrating track (22) and a positioning assembly (23), the direct vibrating track (22) is connected with a discharge hole of the vibrating disc (21), and the other end of the direct vibrating track (22) is connected with the positioning assembly (23);

transfer mechanism (3), transfer mechanism (3) with feed mechanism (2) cooperate, transfer mechanism (3) including end paper subassembly (31), transfer subassembly (32), waste material subassembly (33) and receive material subassembly (34), it includes material area (311) to go up end paper subassembly (31), material area (311) includes end paper I (3111) and covers end paper II (3112) on end paper I (3111), packaging subassembly (32) are including stripper plate (321) and bearing board (322) and transfer unit (323), material area (311) sets up on stripper plate (321), waste material subassembly (33) set up stripper plate (321) one side, end paper II (3112) convolute on waste material subassembly (33), bearing board (322) set up on stripper plate (321), end paper II (3112) set up on bearing board (322), the transfer unit (323) is arranged on one side of the bearing plate (322), and the receiving assembly (34) is arranged on one side, far away from the transfer unit (323), of the bearing plate (322).

2. The transfer machine for injection-molded gaskets of a notebook computer according to claim 1, wherein the positioning assembly (23) comprises a moving unit (231) and a positioning unit (232), the positioning unit (232) is provided with a conveying groove (2321) and a positioning groove (2322), the moving unit (231) is slidably arranged on one side of the positioning unit (232), the moving unit (231) is provided with a guide groove (2311), the guide groove (2311) is matched with the conveying groove (2321), and the guide groove (2311) is matched with the positioning groove (2322).

3. A transfer machine for injection molded gaskets for notebook computers according to claim 1 or 2, characterized in that the positioning assembly (23) further comprises a pusher (233), the pusher (233) being slidably arranged in the guide groove (2311).

4. A transfer machine for injection-molded gaskets of notebook computers according to claim 1, characterized in that the base paper I (3111) is provided with an adhesive surface, and the adhesive surface is positioned between the base paper I (3111) and the base paper II (3112).

5. A transfer machine for injection molded gaskets for notebook computers according to claim 1, characterized in that the upper backing paper assembly (31) comprises a feeding roller (312), the strip of material (311) being wound on the feeding roller (312).

6. The transfer machine for injection-molded gaskets of notebook computers according to claim 1, characterized in that the end of the stripping plate (321) away from the upper base paper assembly (31) is provided with a bevel.

7. A transfer machine for injection molded gaskets for notebook computers according to claim 6, characterized in that said scrap assembly (33) comprises a scrap roll (331), said base paper II (3112) being wound on said scrap roll (331).

8. The transfer machine for injection molded gaskets of notebook computers according to claim 7, characterized in that the transfer assembly (32) further comprises a guide roller (324), the guide roller (324) is disposed at one side of the peeling plate (321).

9. The transfer machine for injection molding gaskets of notebook computers according to claim 1, characterized in that the transfer unit (323) is slidably disposed on the frame body (1), the transfer unit (323) comprises a power member I (3231) and a clamping portion (3232), and the clamping portion (3232) is connected with a driving end of the power member I (3231).

10. The transfer machine for injection-molded gaskets of a notebook computer according to claim 1 or 9, wherein the transfer mechanism (3) further comprises a pressing assembly (35), the pressing assembly (35) comprises a support frame (351), a pressing unit I (352) and a pressing unit II (353), the pressing unit I (352) comprises a rotating roller I (2521), the rotating roller I (2521) is arranged on the bearing plate (322), the pressing unit II (353) is arranged on one side of the bearing plate (322), the pressing unit II (353) comprises a rotating roller (3531) and a pressing roller II (2532), and the pressing roller (3532) is arranged on the rotating roller II (2531) and is matched with the rotating roller II (2532).