CN213382630U - Mobile phone case back plate embedding equipment - Google Patents

Abstract

The utility model discloses a mobile phone cover back plate embedding device, which comprises a welding rack, a discharging component, a positioning component, an embedded part taking and placing jig, a manipulator and an embedded part; the discharging assembly is arranged on the welding rack; the positioning assembly is arranged on the welding rack and is positioned on one side of the discharging assembly; the embedded part taking and placing jig is arranged on the manipulator. The utility model arranges the embedded parts by arranging a plurality of groups of material discharging components, thereby facilitating the grabbing of the embedded parts by the manipulator and being beneficial to the accurate positioning of the embedded parts; by arranging the positioning assembly, the accurate positioning of the embedded part is ensured, the accurate grabbing of the manipulator is ensured, and favorable conditions are provided for the subsequent embedding of the embedded part; the embedded part taking and placing jig is arranged, and the automatic embedding of the embedded part and the taking out of a finished product are realized by matching with the accurate grabbing of the manipulator, so that the positioning is accurate, the efficiency is high, and the failure rate is low; through setting up standardized operation flow, degree of automation is high, and the commonality is good, has reduced the operating cost, has saved the space.

Description

Mobile phone case back plate embedding equipment

Technical Field

The utility model relates to a cell-phone accessory processing field especially relates to a cell-phone cover backplate buries equipment.

Background

With the improvement of the technology level and the living standard, the mobile phone is more and more important for the life of people at present, and the demand of people for the mobile phone is also higher and higher. The mobile phone back plate is used as an important component of the mobile phone and mainly used for protecting other parts in the mobile phone; as a representative of industrial automation, more and more manufacturers use manipulators to assist in processing, and perform automatic loading and unloading.

The traditional injection molding manufacturing of the mobile phone back plate has a plurality of problems. Firstly, the equipment occupies a large space, the production process is long, the machine structure is complex, the operation and the management of a plurality of people are often needed, and the cost is high; secondly, the operation flow is not standard, the manual operation has larger instability, and the universal product is not easy to be made and is not easy to be standardized; finally, the equipment is not accurately embedded and aligned, the embedded and taken failure rate is high, and the embedded part taking efficiency is low.

In order to solve the problem, the application provides a mobile phone case back plate embedding device.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

For the technical problem who exists among the solution background art, the utility model provides a cell-phone cover backplate buries equipment. The utility model arranges the mobile phone back plate by arranging the plurality of groups of material discharging components, so that the mechanical arm can conveniently grab the mobile phone back plate, and the mobile phone back plate can be accurately positioned; by arranging the positioning assembly, the positioning accuracy of the mobile phone back plate is ensured, the accurate grabbing of the manipulator is ensured, and favorable conditions are provided for the subsequent embedding of the mobile phone back plate; by arranging the embedded part taking and placing jig and matching with the accurate grabbing of the manipulator, the automatic embedding and taking out of the mobile phone back plate are realized, the positioning is accurate, the efficiency is high, and the failure rate is low; through setting up standardized operation flow, degree of automation is high, and the commonality is good, has reduced the operating cost, has saved the space.

(II) technical scheme

In order to solve the problems, the utility model provides a mobile phone cover back plate embedding device, which comprises a welding rack, a discharging component, a positioning component, an embedded piece taking and placing jig and an injection molding manipulator; the welding rack is arranged on one side of the injection molding manipulator; the discharging assembly is arranged on the welding rack; the positioning assembly is arranged on the welding rack and is positioned on one side of the discharging assembly; the embedded part taking and placing jig is arranged on the injection molding manipulator; the discharging component comprises a discharging bottom plate, a discharging positioning block, a first discharging positioning rod, a second discharging positioning rod, a detection sensor mounting part and a detection sensor; the discharge bottom plate is arranged on the welding rack and is provided with a plurality of groups of discharge positioning blocks; a first discharging positioning rod is vertically arranged on the discharging positioning block; the first discharging positioning rod is positioned at the periphery of the embedded part; the second discharging positioning rods are provided with a plurality of groups, are vertically arranged on the welding rack and are positioned on the periphery of the embedded part; the detection sensor mounting piece is arranged on the welding rack and is positioned on one side of the embedded piece; the detection sensor is arranged on the detection sensor mounting piece, and the working end of the detection sensor mounting piece faces the embedded piece; the positioning assembly comprises a bottom plate, a connecting column, a positioning mounting plate, a positioning block, an adjusting block, a sensor and a sensor mounting piece; the bottom plate is arranged on the welding rack, and a plurality of groups of connecting columns are vertically arranged on the bottom plate; the upper end of the connecting column is horizontally provided with a positioning mounting plate; a plurality of groups of positioning blocks and a plurality of groups of adjusting blocks are arranged on the positioning mounting plate, and both the positioning blocks and the adjusting blocks are positioned on the periphery of the embedded part; the sensor mounting piece is arranged on the welding rack and is positioned on one side of the embedded piece; the sensor is arranged on the sensor mounting piece, and the working end of the sensor mounting piece faces the embedded piece; the embedded part taking and placing jig comprises a main board, a connecting guide pillar, a first mounting plate, an ejector pin cylinder fixing block, an ejector pin cylinder, a sucker mounting block, a detection sucker, a material taking sensor, a material taking hook claw, a positioning pin, a connecting upright post, a second mounting plate, a material taking sucker, a material pressing cylinder, a material pressing block, a sensor mounting plate, a sensor mounting metal plate and a material sucking sensor; the main board is arranged on the mechanical arm; the connecting guide columns are vertically arranged below the mounting plates and are provided with a plurality of groups, one end of each group is connected with the main board, and the other end of each group is connected with the first mounting plate; a plurality of groups of thimble cylinder fixing blocks are arranged on the first mounting plate, a sucker mounting block is arranged in the middle of the first mounting plate and is positioned above the first mounting plate, and a first through hole is formed in the first mounting plate; the thimble cylinder is arranged on the thimble cylinder fixing block; the detection sucker passes through a first through hole formed in the first mounting plate and is arranged on the sucker mounting block, and the working end of the detection sucker is positioned below the first mounting plate; the material taking sensor is arranged on the first mounting plate, and the working end of the material taking sensor faces the embedded part; the material taking hook claws are provided with a plurality of groups and are rotationally connected with the thimble cylinder fixing block through positioning pins; the connecting upright columns are vertically arranged below the main board and positioned on one side of the connecting guide columns, the lower ends of the connecting upright columns are connected with the second mounting plate, and a plurality of groups of the connecting upright columns are arranged; the material taking sucker is arranged on the second mounting plate, and the working end of the material taking sucker is positioned below the second mounting plate; the material pressing air cylinders are provided with a plurality of groups, are positioned below the main board and are positioned outside the material taking suckers, the working ends of the material pressing air cylinders are connected with the material pressing blocks, and the other ends of the material pressing air cylinders are connected with the main board; the sensor mounting plate is arranged in the middle of the second mounting plate, is positioned below the second mounting plate and is provided with a sensor mounting metal plate; the material suction sensor is arranged on the sensor mounting metal plate, and the working end face of the material suction sensor faces the embedded part.

Preferably, the bottom of the welding rack is also provided with a plurality of groups of casters.

Preferably, the discharge assembly is provided with a plurality of sets.

Preferably, the heights of the multiple groups of first discharging positioning rods and the multiple groups of second discharging positioning rods are equal and are arranged in parallel.

Preferably, the plurality of connecting columns are arranged in parallel.

Preferably, the multiple groups of connecting guide pillars are arranged in parallel.

Preferably, the multiple groups of detection suckers are arranged in parallel, and the heights of the working ends of the detection suckers are equal.

Preferably, the multiple groups of material taking suckers are arranged in parallel, and the heights of the working ends of the material taking suckers are equal.

Preferably, the multiple groups of material pressing blocks are arranged in parallel, and the heights of the working ends of the material pressing blocks are equal.

The above technical scheme of the utility model has following profitable technological effect:

one, the utility model discloses a set up the multiunit and arrange the material subassembly, typeset earlier the cell-phone backplate, make things convenient for the manipulator to snatch the cell-phone backplate, be favorable to the accurate location of cell-phone backplate.

Two, the utility model discloses a setting is through setting up locating component, and it is accurate to have ensured the location of cell-phone backplate, has guaranteed the accurate of manipulator and has snatched, provides favorable condition for the embedding of follow-up cell-phone backplate.

Three, the utility model discloses a setting is buried a and is put tool, and the accurate of cooperation manipulator snatchs, has realized that the automation of cell-phone backplate imbeds and takes out, and the location is accurate, and is efficient, and the fault rate is little.

Fourthly, the utility model discloses a set up standardized operation flow, degree of automation is high, and the commonality is good, has reduced the operating cost, has saved the space.

Drawings

Fig. 1 is the utility model provides a structural schematic diagram of equipment is buried to cell-phone cover backplate.

Fig. 2 is the utility model provides an it gets the enlarger of putting the tool to bury in the equipment is buried to cell-phone cover backplate.

Fig. 3 is the utility model provides a row's of expecting subassembly enlargedly in cell-phone cover backplate imbeds equipment.

Fig. 4 is the utility model provides a positioning component's enlargements in equipment is buried to cell-phone cover backplate.

The attached drawings are marked as follows: 1. welding the frame; 2. a discharge assembly; 201. a discharge bottom plate; 202. a material discharging positioning block; 203. a first discharge positioning rod; 204. a second discharging positioning rod; 205. detecting a sensor mount; 206. a detection sensor; 3. a positioning assembly; 301. a base plate; 302. connecting columns; 303. positioning the mounting plate; 304. positioning blocks; 305. an adjusting block; 306. a sensor; 307. a sensor mount; 4. a buried part taking and placing jig; 401. a main board; 402. connecting the guide post; 403. a first mounting plate; 4031. a first through hole; 404. a thimble cylinder fixing block; 405. a thimble cylinder; 406. a suction cup mounting block; 407. detecting the sucker; 408. a material taking sensor; 409. taking a material and hooking the claw; 410. positioning a pin; 411. connecting the upright posts; 412. a second mounting plate; 413. a material taking sucker; 414. a material pressing cylinder; 415. pressing blocks; 416. a sensor mounting plate; 417. mounting a metal plate on the sensor; 418. a suction sensor; 5. a manipulator; 6. and (4) embedding the components.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

Referring to fig. 1-4, the mobile phone case back plate embedding device provided by the present invention comprises a welding frame 1, a material discharging assembly 2, a positioning assembly 3, an embedded part taking and placing jig 4 and an injection molding manipulator 5; the welding rack 1 is arranged on one side of the injection molding manipulator 5; the discharging assembly 2 is arranged on the welding rack 1; the positioning component 3 is arranged on the welding rack 1 and is positioned on one side of the discharging component 2; the embedded part taking and placing jig 4 is arranged on the injection molding manipulator 5; the discharging assembly 2 comprises a discharging bottom plate 201, a discharging positioning block 202, a first discharging positioning rod 203, a second discharging positioning rod 204, a detection sensor mounting piece 205 and a detection sensor 206; the discharge bottom plate 201 is arranged on the welding rack 1, and a plurality of groups of discharge positioning blocks 202 are arranged on the discharge bottom plate; a first discharging positioning rod 203 is vertically arranged on the discharging positioning block 202; the first discharging positioning rod 203 is positioned at the periphery of the embedded part 6; the second discharging and positioning rods 204 are provided with a plurality of groups and are vertically arranged on the welding rack 1 and are positioned at the periphery of the embedded part 6; the detection sensor mounting piece 205 is arranged on the welding rack 1 and is positioned on one side of the embedded piece 6; the detection sensor 206 is provided on the detection sensor mounting member 205 with its working end facing the insert 6; the positioning assembly 3 comprises a bottom plate 301, a connecting column 302, a positioning mounting plate 303, a positioning block 304, an adjusting block 305, a sensor 306 and a sensor mounting piece 307; the bottom plate 301 is arranged on the welding rack 1, and a plurality of groups of connecting columns 302 are vertically arranged on the bottom plate; the upper end of the connecting column 302 is horizontally provided with a positioning mounting plate 303; a plurality of groups of positioning blocks 304 and a plurality of groups of adjusting blocks 305 are arranged on the positioning mounting plate 303, and are positioned at the periphery of the embedded part 6; the sensor mounting part 307 is arranged on the welding frame 1 and is positioned on one side of the embedded part 6; the sensor 306 is arranged on a sensor mounting member 307, the working end of which faces the embedded part 6; the embedded part taking and placing jig 4 comprises a main board 401, a connecting guide pillar 402, a first mounting plate 403, an ejector pin cylinder fixing block 404, an ejector pin cylinder 405, a suction cup mounting block 406, a detection suction cup 407, a material taking sensor 408, a material taking hook 409, a positioning pin 410, a connecting upright column 411, a second mounting plate 412, a material taking suction cup 413, a material pressing cylinder 414, a material pressing block 415, a sensor mounting plate 416, a sensor mounting metal plate 417 and a material sucking sensor 418; the main board 401 is arranged on the manipulator 5; the connecting guide columns 402 are vertically arranged below the mounting plates 401, and are provided with a plurality of groups, one end of each group is connected with the main plate 401, and the other end of each group is connected with the first mounting plate 403; a plurality of groups of thimble cylinder fixing blocks 404 are arranged on the first mounting plate 403, a sucker mounting block 406 is arranged in the middle of the first mounting plate 403, the thimble cylinder fixing blocks and the sucker mounting block are both positioned above the first mounting plate 403, and a first through hole 4031 is formed in the first mounting plate 403; the thimble cylinder 405 is arranged on the thimble cylinder fixing block 404; the detection sucker 407 passes through a first through hole 4031 formed in the first mounting plate 403, and is arranged on the sucker mounting block 406, and the working end of the detection sucker is positioned below the first mounting plate 403; the material taking sensor 408 is arranged on the first mounting plate 403, and the working end of the material taking sensor faces the embedded part 6; the material taking hook 409 is provided with a plurality of groups and is rotationally connected with the thimble cylinder fixing block 404 through a positioning pin 410; the connecting upright columns 411 are vertically arranged below the main board 401 and located on one side of the connecting guide column 402, the lower ends of the connecting upright columns are connected with the second mounting plate 412, and a plurality of groups of connecting upright columns 411 are arranged; the material taking sucker 413 is arranged on the second mounting plate 412, and the working end of the material taking sucker is positioned below the second mounting plate 412; the material pressing cylinders 414 are provided with a plurality of groups, are positioned below the main board 401 and are positioned outside the material taking suckers 413, the working ends of the material pressing cylinders are connected with the material pressing blocks 415, and the other ends of the material pressing cylinders are connected with the main board 401; the sensor mounting plate 416 is arranged in the middle of the second mounting plate 412 and below the second mounting plate 412, and a sensor mounting metal plate 417 is arranged on the sensor mounting plate; the material suction sensor 418 is arranged on the sensor mounting metal plate 417, and the working end of the material suction sensor faces the embedded part 6.

In an alternative embodiment, the bottom of the welding machine frame 1 is further provided with a plurality of sets of casters 101.

In an alternative embodiment, the discharge assembly 2 is provided with a plurality of sets.

In an alternative embodiment, the plurality of sets of first discharging positioning rods 203 and the plurality of sets of second discharging positioning rods 204 are equal in height and are arranged in parallel.

In an alternative embodiment, multiple sets of connecting posts 302 are arranged in parallel.

In an alternative embodiment, the sets of connecting guide posts 402 are arranged in parallel.

In an alternative embodiment, the sets of inspection suction cups 407 are arranged in parallel and have their working ends at equal heights.

In an alternative embodiment, the multiple material pick-up chucks 413 are arranged in parallel and have equal heights at their working ends.

In an alternative embodiment, the multiple groups of material pressing blocks 415 are arranged in parallel, and the heights of the working ends are equal.

The utility model discloses at the during operation, will bury the piece and arrange the 2 stations of subassembly in, can be to burying the preliminary composing of piece 6. When preliminarily typesetting, the embedded part 6 can be preliminarily limited by the first material discharging positioning rod 203, the second material discharging positioning rod 204 and the material discharging positioning block 202 arranged so as to ensure the precision of the preliminary typesetting. Then the embedded part can be sucked up through a material taking sucker 413 arranged on the manipulator 5; the suction sensor 418 is used to detect whether the suction operation is successful; if the embedded part 6 is successfully sucked, the manipulator 5 places the embedded part on the positioning component 3, and secondary positioning is carried out through the arranged positioning block 304 and the adjusting block 305. The secondary positioning can ensure that the manipulator 5 accurately grabs the embedded part 6. After the positioning is completed, the robot 5 sucks the embedded parts 6 from the positioning assembly 3. When the injection molding machine opens the mold, the manipulator 5 extends into the injection molding machine, the embedded part 6 is pressed into the middle plate mold, the manipulator 5 further moves, and the detection sucker 407 and the material taking claw are used for sucking a product; the take-off sensor 408 may ensure that product is aspirated. And then the manipulator moves out of the injection molding machine, and the product is placed at a proper position to complete the whole operation flow. The manipulator continues to suck the embedded part 6 and starts the next round of operation.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims (9)

1. The mobile phone case back plate embedding equipment is characterized by comprising a welding rack (1), a material discharging assembly (2), a positioning assembly (3), an embedded part taking and placing jig (4) and an injection molding manipulator (5); the welding rack (1) is arranged on one side of the injection molding manipulator (5); the discharging assembly (2) is arranged on the welding rack (1); the positioning component (3) is arranged on the welding rack (1) and is positioned on one side of the discharging component (2); the embedded part taking and placing jig (4) is arranged on the injection molding manipulator (5);

the discharging assembly (2) comprises a discharging bottom plate (201), a discharging positioning block (202), a first discharging positioning rod (203), a second discharging positioning rod (204), a detection sensor mounting piece (205) and a detection sensor (206); the discharge bottom plate (201) is arranged on the welding rack (1), and a plurality of groups of discharge positioning blocks (202) are arranged on the discharge bottom plate; a first discharging positioning rod (203) is vertically arranged on the discharging positioning block (202); the first discharging positioning rod (203) is positioned at the periphery of the embedded part (6); a plurality of groups of second discharging and positioning rods (204) are vertically arranged on the welding rack (1) and are positioned at the periphery of the embedded part (6); the detection sensor mounting piece (205) is arranged on the welding rack (1) and is positioned on one side of the embedded piece (6); the detection sensor (206) is arranged on the detection sensor mounting piece (205), and the working end of the detection sensor mounting piece faces the embedded piece (6);

the positioning assembly (3) comprises a bottom plate (301), a connecting column (302), a positioning mounting plate (303), a positioning block (304), an adjusting block (305), a sensor (306) and a sensor mounting piece (307); the bottom plate (301) is arranged on the welding rack (1), and a plurality of groups of connecting columns (302) are vertically arranged on the bottom plate; the upper end of the connecting column (302) is horizontally provided with a positioning mounting plate (303); a plurality of groups of positioning blocks (304) and a plurality of groups of adjusting blocks (305) are arranged on the positioning mounting plate (303), and are both positioned on the periphery of the embedded part (6); the sensor mounting piece (307) is arranged on the welding rack (1) and is positioned on one side of the embedded piece (6); the sensor (306) is arranged on the sensor mounting piece (307), and the working end of the sensor mounting piece faces the embedded piece (6);

the embedded part taking and placing jig (4) comprises a main board (401), a connecting guide pillar (402), a first mounting plate (403), an ejector pin cylinder fixing block (404), an ejector pin cylinder (405), a sucker mounting block (406), a detection sucker (407), a material taking sensor (408), a material taking hook (409), a positioning pin (410), a connecting upright post (411), a second mounting plate (412), a material taking sucker (413), a material pressing cylinder (414), a material pressing block (415), a sensor mounting plate (416), a sensor mounting metal plate (417) and a material sucking sensor (418); the main board (401) is arranged on the mechanical arm (5); the connecting guide columns (402) are vertically arranged below the main board (401) and are provided with a plurality of groups, one end of each group is connected with the main board (401), and the other end of each group is connected with the first mounting plate (403); a plurality of groups of thimble cylinder fixing blocks (404) are arranged on the first mounting plate (403), a sucker mounting block (406) is arranged in the middle of the first mounting plate and is positioned above the first mounting plate (403), and a first through hole (4031) is formed in the first mounting plate (403); the thimble cylinder (405) is arranged on the thimble cylinder fixing block (404); the detection sucker (407) passes through a first through hole (4031) formed in the first mounting plate (403), is arranged on the sucker mounting block (406), and has a working end positioned below the first mounting plate (403); the material taking sensor (408) is arranged on the first mounting plate (403), and the working end of the material taking sensor faces the embedded part (6); the material taking hook (409) is provided with a plurality of groups and is rotationally connected with the thimble cylinder fixing block (404) through a positioning pin (410); the connecting upright columns (411) are vertically arranged below the main board (401) and positioned on one side of the connecting guide columns (402), the lower ends of the connecting upright columns are connected with the second mounting plate (412), and a plurality of groups of connecting upright columns (411) are arranged; the material taking sucker (413) is arranged on the second mounting plate (412), and the working end of the material taking sucker is positioned below the second mounting plate (412); the material pressing air cylinders (414) are provided with a plurality of groups, are positioned below the main board (401), are positioned on the outer side of the material taking sucker (413), and are connected with a material pressing block (415) at the working end and connected with the main board (401) at the other end; the sensor mounting plate (416) is arranged in the middle of the second mounting plate (412), is positioned below the second mounting plate (412), and is provided with a sensor mounting metal plate (417); the material suction sensor (418) is arranged on the sensor mounting metal plate (417), and the working end of the material suction sensor faces the embedded part (6).

2. The handset case back plate burying device according to claim 1, wherein a plurality of sets of casters (101) are further provided at the bottom of the welding chassis (1).

3. The mobile phone case back plate burying device according to claim 1, wherein the discharging assembly (2) is provided with a plurality of sets.

4. The handset case back plate burying device according to claim 1, wherein the plurality of sets of first discharging positioning rods (203) and the plurality of sets of second discharging positioning rods (204) are equal in height and arranged in parallel.

5. The handset case back plate burying device according to claim 1, wherein a plurality of sets of connection posts (302) are arranged in parallel.

6. The handset case back plate burying device according to claim 1, wherein a plurality of sets of connecting guide posts (402) are arranged in parallel.

7. The handset case back plate burying device according to claim 1, wherein a plurality of sets of detection suction cups (407) are arranged in parallel and have working ends of equal height.

8. The handset case back plate burying device according to claim 1, wherein a plurality of groups of material taking suction cups (413) are arranged in parallel and have working ends of equal height.

9. The handset case back plate embedding device according to claim 1, wherein the plurality of sets of material pressing blocks (415) are arranged in parallel and have working ends of equal height.

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