CN216992880U

CN216992880U - Automobile sensor shell processing equipment

Info

Publication number: CN216992880U
Application number: CN202220588801.4U
Authority: CN
Inventors: 常彬; 施映元; 马宏斌
Original assignee: Anhui Botai Microelectronics Co ltd
Current assignee: Anhui Botai Microelectronics Co ltd
Priority date: 2022-03-17
Filing date: 2022-03-17
Publication date: 2022-07-19
Anticipated expiration: 2032-03-17

Abstract

The utility model relates to automobile sensor shell processing equipment, which comprises a working platform, wherein the middle part of the upper surface of the working platform is provided with a plurality of lower die blocks in parallel, the two sides of the upper surface of the working platform, which are close to the lower die blocks, are respectively provided with a telescopic cylinder, the telescopic end of each telescopic cylinder is provided with a supporting cross rod, the middle part of each supporting cross rod is provided with a plurality of injection molding machines in parallel, the output end of each injection molding machine is provided with an upper die block, the inner die blocks and the lower die blocks are respectively embedded with an inner die box for shaping a shell, the inner die box is internally provided with a first pushing frame, the inner side of the first pushing frame is provided with a plurality of second pushing frames, the inner sides of the second pushing frames are provided with third pushing frames, the third pushing frames are firstly separated from the sensor shell, then the second pushing frames from inside to outside are sequentially separated from the sensor shell, and finally the first pushing frames push out the inner die box of the sensor shell, thereby make things convenient for the staff to take off the good sensor housing of design.

Description

Automobile sensor shell processing equipment

Technical Field

The utility model relates to the technical field of plastic shell processing, in particular to automobile sensor shell processing equipment.

Background

The shell of the automobile sensor is formed by injection molding, and the shell is formed by stirring a completely molten plastic material through a screw at a certain temperature, injecting the plastic material into a mold cavity by high pressure, and cooling and solidifying the plastic material to obtain a formed product.

The patent document with publication number CN112721251A discloses an automobile sensor shell processing equipment, include the board, locate hot melt device on the board and locate the material device under the hot melt device, the board includes down the board, locates on the board cushion pad and install in last board on the cushion pad down, the beneficial effect of this patent is: the mode of adopting integration hot melt processing, the design of portable hot melt platform can be processed the sensor housing on whole board surface through removing, and machining efficiency improves greatly, and equipment is small, and area is little.

The above apparatus has the following problems: the existing equipment often causes that a product cannot be quickly separated from a mold when demolding due to the fact that the surfaces of the mold and the product are mutually bonded, the product is often damaged due to the fact that a bonding position is too tight, production efficiency is low, the existing equipment cannot adjust the number of injection molding machines and the number of the mold according to actual requirements, different products cannot be produced in the same batch at one time, and the mold is difficult to adjust.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems and the defects, and provides the automobile sensor shell processing equipment, so that the overall working efficiency is improved.

The technical problem solved by the utility model is as follows:

(1) in the existing equipment, the surfaces of the die and the product are mutually adhered, so that the product cannot be quickly separated from the die during demoulding, and the product is damaged due to over-tight adhesion at the adhesion part, and the production efficiency is low;

(2) the existing equipment can not adjust the quantity of injection molding machines and molds according to actual requirements, can not produce different products in the same batch at one time, and is difficult to adjust the molds.

The purpose of the utility model can be realized by the following technical scheme: the utility model provides an automobile sensor shell processing equipment, including work platform, a plurality of bed die piece is installed side by side at work platform's upper surface middle part, telescopic cylinder is all installed near the both sides of bed die piece to work platform's upper surface, telescopic cylinder's flexible end is installed and is supported the horizontal pole, the middle part of supporting the horizontal pole is installed a plurality of injection molding machine side by side, the mould piece is installed to the output of injection molding machine, it all inlays with the inside of bed die piece and is equipped with the centre form box that is used for finalizing the design to the shell to go up the mould piece, the internally mounted of interior mould box has first top to push away the frame, the inboard that first top pushed away the frame is provided with a plurality of second top and pushes away the frame, the inboard that the frame was pushed away to the second is provided with the third and pushes away the frame.

Preferably, the first pushing frame, the plurality of second pushing frames and the third pushing frame are arranged in a step shape from outside to inside of the inner mold box successively, each pushing frame in the lower mold block is lowered from outside to inside successively, each pushing frame in the upper mold block is raised from outside to inside successively, and the first pushing frame, the second pushing frame and the third pushing frame are coaxial.

Preferably, the cross section of the second pushing frame is stepped, grooves for limiting and abutting are formed in the inner ring and the outer ring of the second pushing frame, the inner ring of the first pushing frame and the outer ring of the third pushing frame, the first pushing frame, the second pushing frame and the third pushing frame are connected with each other through the grooves, and the upper surfaces and the lower surfaces of the first pushing frame, the second pushing frame and the third pushing frame are flush when the first pushing frame, the second pushing frame and the third pushing frame are connected with each other.

Preferably, a plurality of first installation section of thick bamboo that is equal angle evenly distributed has all been buried underground to one side that the inside of bed die piece and last mould piece is close to centre form box side edge, and a plurality of second installation section of thick bamboo that is ring array evenly distributed has all been buried underground to one side that the inside of bed die piece and last mould piece is close to centre form box side middle part, and reset spring is all installed to the inside of a first installation section of thick bamboo and second installation section of thick bamboo.

Preferably, the heights of the second mounting tubes of the circles from outside to inside are gradually reduced, and the second mounting tube adjacent to the first mounting tube is lower than the first mounting tube.

Preferably, one side of a first installation cylinder close to the inner die box is provided with a butt joint rod, the butt joint rod penetrates through and extends out of the lower die block and the upper die block respectively, the butt joint rod is connected with the lower die block and the upper die block in a sliding mode respectively, the end portion of the butt joint rod is fixedly connected with a reset spring in the first installation cylinder, the butt joint rods of the lower die block and the upper die block correspond to each other, and the butt joint rods abut against each other during shell forming.

Preferably, the butt joint rod is close to reset spring's one end side fixedly connected with connecting rod, and the connecting rod setting is in first installation section of thick bamboo, and the butt joint rod is connected with first ejector pin through the connecting rod, and first ejector pin runs through first installation section of thick bamboo and interior diaphragm capsule in proper order and stretches into the inside of interior diaphragm capsule, the tip and the first top of first ejector pin push frame fixed connection.

Preferably, the second top pushing frame and the third top pushing frame are fixedly connected with a plurality of second top pushing rods which are uniformly distributed at equal angles on one side close to the inner mold box, the second top pushing rods correspond to the second mounting cylinder one to one, the second top pushing rods sequentially penetrate through the end portions of the inner mold box and the second mounting cylinder and extend into the second mounting cylinder, and the second top pushing rods are fixedly connected with the reset springs in the second mounting cylinder.

Preferably, in the lower die block, the middle part of the third pushing frame is of a solid structure, and the middle part of the third pushing frame in the upper die block is provided with a material injection pipe.

The utility model has the beneficial effects that:

(1) when the upper die block is butted with the lower die block, the butt rod in the upper die block is butted with the butt rod in the lower die block and mutually pushes, the butt rod pushes the connecting rod, the connecting rod pushes the first pushing rod, the first pushing rod pulls the first pushing frame towards the interior of the inner die box, the first pushing frame drives the second pushing frame close to the first pushing frame to move towards the interior of the inner die box through the groove, all the second pushing frames are sequentially driven to move towards the interior of the inner die box through the groove from outside to inside, finally, the second pushing frame positioned at the inner side drives the third pushing frame to move towards the interior of the inner die box, so that the first pushing frame, the second pushing frame and the third pushing frame are all moved to the inner side of the inner die box and are abutted against the inner surface of the inner die box, a shaped cavity is formed in the inner die box to shape the sensor shell, and after the shaping, the upper die block is separated from the lower die block, under reset spring's effect, the third pushes away the frame and separates with sensor housing at first, and the second that from inside to outside subsequently pushes away the frame and separates with sensor housing one by one, and last first pushes away the frame and releases interior moulding box with sensor housing to make things convenient for the staff to take off the good sensor housing of design.

(2) Determining the quantity of the injection molding machine and the lower mold block according to the requirement, then moving the supporting cross rod through a telescopic cylinder to enable the injection molding machine to move in a reciprocating manner, when the injection molding machine moves downwards, the upper mold block and the lower mold block are correspondingly butted, the openings of the inner mold boxes in the upper mold block and the lower mold block are butted with each other, in addition, the first pushing frame, the second pushing frame and the third pushing frame in the two inner mold boxes are all moved to the box bottom of the inner mold box during the butting, so that the outer surfaces of the first pushing frame, the second pushing frame and the third pushing frame are kept to be flush in the injection molding process, then the injection molding machine injects rapidly solidified molten plastics into the inner mold boxes, after the molten plastics are molded, the telescopic cylinder pushes the supporting cross rod, the supporting cross rod pushes the injection molding machine to rise, the upper mold block and the lower mold block are separated, the third pushing frame, the second pushing frame and the first pushing frame sequentially push the molded shell and are separated from the shell, the user takes off the good shell of shaping afterwards to accomplish the processing of car sensor shell, improved work efficiency.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is a front view of the overall structure of the present invention;

FIG. 2 is a schematic view of the internal structure of the lower mold block of the present invention;

FIG. 3 is a schematic view of the internal structure of the upper mold block of the present invention;

in the figure: 1. a working platform; 2. a lower mold block; 3. a support rail; 4. an injection molding machine; 5. an upper die block; 6. a telescopic cylinder; 7. an inner mold box; 8. a first mounting cylinder; 9. a second mounting cylinder; 10. a return spring; 11. a docking rod; 12. a connecting rod; 13. a first ejector pin; 14. a first pushing frame; 15. a second ejector pin; 16. a second pushing frame; 17. a third pushing frame; 18. injecting a material pipe; 19. a material injection port; 20. and (6) fastening the bolt.

Detailed Description

To further illustrate the technical means and effects of the present invention adopted to achieve the predetermined purpose of the present invention, the following detailed description of the embodiments, structures, features and effects according to the present invention will be made with reference to the accompanying drawings and preferred embodiments.

Please refer to fig. 1-3: an automobile sensor shell processing device comprises a working platform 1, wherein a plurality of lower die blocks 2 are arranged in parallel in the middle of the upper surface of the working platform 1, telescopic cylinders 6 are arranged on two sides of the upper surface of the working platform 1 close to the lower die blocks 2, supporting cross rods 3 are arranged at telescopic ends of the telescopic cylinders 6, a plurality of injection molding machines 4 are arranged in parallel in the middle of the supporting cross rods 3, the injection molding machines 4 are vertically downward, upper die blocks 5 are arranged at output ends of the injection molding machines 4, the upper die blocks 5 correspond to the lower die blocks 2 one by one, the upper die blocks 5 are positioned right above the lower die blocks 2, inner die boxes 7 used for shaping a shell are embedded in the upper die blocks 5 and the lower die blocks 2, openings of the inner die boxes 7 of the upper die blocks 5 are vertically downward and are flush with the lower surfaces of the upper die blocks 5, openings of the inner die boxes 7 of the lower die blocks 2 are vertically upward and flush with the upper surfaces of the lower die blocks 2, a first pushing frame 14 is installed inside the inner mold box 7, a plurality of second pushing frames 16 are arranged on the inner side of the first pushing frame 14, a third pushing frame 17 is arranged on the inner side of the second pushing frame 16, the first pushing frame 14, the plurality of second pushing frames 16 and the third pushing frame 17 are arranged in a step shape from outside to inside of the inner mold box 7 in a successive mode, all the pushing frames in the lower mold block 2 are lowered from outside to inside in a successive mode, all the pushing frames in the upper mold block 5 are raised from outside to inside in a successive mode, and the first pushing frame 14, the second pushing frame 16 and the third pushing frame 17 are kept coaxial.

The section of the second pushing frame 16 is stepped, grooves for limiting and abutting are formed in the inner ring and the outer ring of the second pushing frame 16, the inner ring of the first pushing frame 14 and the outer ring of the third pushing frame 17, the first pushing frame 14, the second pushing frame 16 and the third pushing frame 17 are connected with each other through the grooves, and the upper surfaces and the lower surfaces of the first pushing frame 14, the second pushing frame 16 and the third pushing frame 17 are kept flush when the first pushing frame 14, the second pushing frame 16 and the third pushing frame 17 are connected;

when the injection molding machine 4 is used, the number of the injection molding machine 4 and the number of the lower mold blocks 2 are determined according to requirements, then the supporting cross rod 3 is moved through the telescopic cylinder 6, so that the injection molding machine 4 moves in a reciprocating manner, when the injection molding machine 4 moves downwards, the upper mold block 5 is correspondingly butted with the lower mold block 2, the openings of the inner mold boxes 7 in the upper mold block 5 and the lower mold block 2 are butted with each other, in addition, the first pushing frame 14, the second pushing frame 16 and the third pushing frame 17 in the two inner mold boxes 7 are all moved to the box bottom of the inner mold box 7 during the butting, so that the outer surfaces of the first pushing frame 14, the second pushing frame 16 and the third pushing frame 17 are kept flush in the injection molding process, then the injection molding machine 4 injects fast-solidified molten plastics into the inner mold boxes 7, after the molten plastics are molded, the telescopic cylinder 6 pushes the supporting cross rod 3, the supporting cross rod 3 pushes the injection molding machine 4 to rise, the upper mold block 5 is separated from the lower mold block 2, the third pushing frame 17, the second pushing frame 16 and the first pushing frame 14 sequentially push the formed shell and separate from the shell, and then the user takes down the formed shell, thereby completing the processing of the shell of the automobile sensor.

A plurality of first mounting cylinders 8 which are uniformly distributed in an equal angle are embedded in one side of the interiors of the lower die block 2 and the upper die block 5 close to the side edge of the inner die box 7, a plurality of second mounting cylinders 9 which are uniformly distributed in an annular array are embedded in one side of the interiors of the lower die block 2 and the upper die block 5 close to the middle of the side surface of the inner die box 7, the heights of the second mounting cylinders 9 of all circles from outside to inside are gradually reduced, the height of the second mounting cylinder 9 close to the first mounting cylinder 8 is lower than that of the first mounting cylinder 8, return springs 10 are installed in the interiors of the first mounting cylinder 8 and the second mounting cylinder 9, a butt joint rod 11 is installed on one side of the first mounting cylinder 8 close to the inner die box 7, the butt joint rod 11 penetrates through and extends out of the lower die block 2 and the upper die block 5 respectively, the butt joint rod 11 is connected with the lower die block 2 and the upper die block 5 in a sliding manner respectively, the end part of the butt joint rod 11 is fixedly connected with the return springs 10 in the first mounting cylinder 8, the butt-joint rods 11 of the lower die block 2 and the upper die block 5 correspond to each other and are abutted with each other when the shell is formed;

a connecting rod 12 is fixedly connected to the side face of one end, close to the reset spring 10, of the butt joint rod 11, the connecting rod 12 is arranged in the first mounting cylinder 8, the butt joint rod 11 is connected with a first push rod 13 through the connecting rod 12, the first push rod 13 sequentially penetrates through the first mounting cylinder 8 and the inner die box 7 and extends into the inner die box 7, the end portion of the first push rod 13 is fixedly connected with a first push frame 14, one side, close to the inner die box 7, of each of a second push frame 16 and a third push frame 17 is fixedly connected with a plurality of second push rods 15 which are uniformly distributed at equal angles, the second push rods 15 correspond to the second mounting cylinders 9 one by one, the second push rods 15 sequentially penetrate through the end portions of the inner die box 7 and the second mounting cylinder 9 and extend into the second mounting cylinder 9, and the second push rods 15 are fixedly connected with the reset spring 10 in the second mounting cylinder 9;

when the device is used, when the upper die block 5 is butted with the lower die block 2, the butt joint rod 11 in the upper die block 5 is butted with the butt joint rod 11 in the lower die block 2 and is pushed against each other, the butt joint rod 11 pushes the connecting rod 12, the connecting rod 12 pushes the first push rod 13, the first push rod 13 pulls the first push frame 14 towards the inner die box 7, the first push frame 14 drives the second push frame 16 close to the first push frame 14 to move towards the inner die box 7 through the groove and sequentially drives all the second push frames 16 to move towards the inner die box 7 from outside to inside through the groove, finally the second push frame 16 positioned at the inner side drives the third push frame 17 to move towards the inner die box 7, so that the first push frame 14, the second push frame 16 and the third push frame 17 all move to the inner side of the inner die box 7 and are butted against the inner surface of the inner die box 7, and a shaped cavity is formed in the inner die box 7 to shape the sensor shell, after the sizing is finished, the upper die block 5 is separated from the lower die block 2, under the action of the reset spring 10, the third pushing frame 17 is firstly separated from the sensor shell, then the second pushing frame 16 from inside to outside is separated from the sensor shell one by one, and finally the first pushing frame 14 pushes the sensor shell out of the inner die box 7, so that a worker can take down the sized sensor shell conveniently.

In the lower die block 2, the middle part of the third pushing frame 17 is of a solid structure, the middle part of the third pushing frame 17 in the upper die block 5 is provided with a material injection pipe 18, the middle part of the material injection pipe 18 sequentially penetrates through the inner die box 7 and the upper die block 5 from bottom to top, the lower end of the material injection pipe 18 extends into the inner die box 7, the lower end port of the material injection pipe 18 is flush with the lower surface of the third pushing frame 17, the discharge end of the injection molding machine 4 is provided with a material injection port 19, the top of the material injection pipe 18 is in butt joint with the material injection port 19, a plurality of fastening bolts 20 which are uniformly distributed at equal angles are embedded around the material injection port 19, the fastening bolts 20 are in threaded connection with the side wall of the material injection port 19, and the fastening bolts 20 are in butt joint with the side surface of the top of the material injection pipe 18.

When the injection molding machine is used, a worker determines the number of the injection molding machine 4 and the lower mold block 2 according to the requirement, then the support cross rod 3 is moved through the telescopic cylinder 6, so that the injection molding machine 4 moves in a reciprocating manner, when the injection molding machine 4 moves downwards, the upper mold block 5 is correspondingly butted with the lower mold block 2, the openings of the inner mold boxes 7 in the upper mold block 5 and the lower mold block 2 are butted with each other, in addition, the first pushing frame 14, the second pushing frame 16 and the third pushing frame 17 in the two inner mold boxes 7 are moved to the box bottom of the inner mold box 7 during the butting, so that the outer surfaces of the first pushing frame 14, the second pushing frame 16 and the third pushing frame 17 are kept flush in the injection molding process, then the injection molding machine 4 injects the rapidly solidified molten plastics into the inner mold boxes 7, after the molten plastics are molded, the telescopic cylinder 6 pushes the support cross rod 3, and the support cross rod 3 pushes the injection molding machine 4 to rise, the upper die block 5 and the lower die block 2 are separated, the third pushing frame 17, the second pushing frame 16 and the first pushing frame 14 sequentially push the formed shell and are separated from the shell, and then a user takes down the formed shell, so that the shell of the automobile sensor is processed;

when the upper mold block 5 is butted with the lower mold block 2, the butt joint rod 11 in the upper mold block 5 is butted with the butt joint rod 11 in the lower mold block 2 and mutually pushed, the butt joint rod 11 pushes the connecting rod 12, the connecting rod 12 pushes the first push rod 13, the first push rod 13 pulls the first push frame 14 towards the interior of the inner mold box 7, the first push frame 14 drives the second push frame 16 close to the first push frame 14 to move towards the interior of the inner mold box 7 through the groove and drives all the second push frames 16 to move towards the interior of the inner mold box 7 through the groove from outside to inside in sequence, finally the second push frame 16 positioned at the inner side drives the third push frame 17 to move towards the interior of the inner mold box 7, so that the first push frame 14, the second push frame 16 and the third push frame 17 all move to the inner side of the inner mold box 7 and are butted with the inner surface of the inner mold box 7, and a shaped cavity is formed in the inner mold box 7 to shape the sensor shell, after the shaping is finished, the upper die block 5 is separated from the lower die block 2, under the action of the return spring 10, the third pushing frame 17 is firstly separated from the sensor shell, then the second pushing frame 16 from inside to outside is separated from the sensor shell one by one, and finally the first pushing frame 14 pushes the sensor shell out of the inner die box 7.

Although the present invention has been described with reference to the preferred embodiments, it should be understood that various changes, substitutions and alterations can be made herein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims

1. Automobile sensor shell processing equipment, its characterized in that includes work platform (1), a plurality of bed die piece (2) is installed side by side to the upper surface middle part of work platform (1), telescopic cylinder (6) are all installed to the both sides that the upper surface of work platform (1) is close to bed die piece (2), support horizontal pole (3) are installed to the flexible end of telescopic cylinder (6), a plurality of injection molding machine (4) are installed side by side to the middle part of support horizontal pole (3), last mould piece (5) are installed to the output of injection molding machine (4), it all inlays to be equipped with interior diaphragm capsule (7) that are used for finalizing the design to the shell to go up mould piece (5) and the inside of bed die piece (2), the internally mounted of interior diaphragm capsule (7) has first top to push away frame (14), the inboard that first top pushed away frame (14) is provided with a plurality of second top and pushes away frame (16), the inner side of the second pushing frame (16) is provided with a third pushing frame (17).

2. The automobile sensor housing processing equipment according to claim 1, wherein the first pushing frame (14), the plurality of second pushing frames (16) and the third pushing frame (17) are arranged in a stepped manner from the outside to the inside of the inner mold box (7) in sequence.

3. The automobile sensor housing processing equipment according to claim 2, wherein the section of the second pushing frame (16) is stepped, and grooves for limiting and abutting are formed in an inner ring and an outer ring of the second pushing frame (16), an inner ring of the first pushing frame (14) and an outer ring of the third pushing frame (17).

4. The automobile sensor housing processing equipment according to claim 1, wherein a plurality of first mounting cylinders (8) which are uniformly distributed in an equal angle are embedded in one side, close to the side edge of the inner mold box (7), of the inner portions of the lower mold block (2) and the upper mold block (5), a plurality of second mounting cylinders (9) which are uniformly distributed in an annular array are embedded in one side, close to the middle of the side surface of the inner mold box (7), of the inner portions of the lower mold block (2) and the upper mold block (5), and the reset springs (10) are mounted in the first mounting cylinders (8) and the second mounting cylinders (9).

5. The automobile sensor housing processing equipment according to claim 4, wherein a butt joint rod (11) is installed on one side of the first mounting cylinder (8) close to the inner die box (7), the butt joint rod (11) penetrates through and extends out of the lower die block (2) and the upper die block (5) respectively, the butt joint rod (11) is connected with the lower die block (2) and the upper die block (5) in a sliding mode respectively, and the end portion of the butt joint rod (11) is fixedly connected with the reset spring (10) in the first mounting cylinder (8).

6. The automobile sensor housing processing equipment according to claim 5, wherein a connecting rod (12) is fixedly connected to one end side of the butt joint rod (11) close to the return spring (10), the connecting rod (12) is arranged in the first mounting cylinder (8), the butt joint rod (11) is connected with a first ejector rod (13) through the connecting rod (12), the first ejector rod (13) sequentially penetrates through the first mounting cylinder (8) and the inner die box (7) and extends into the inner die box (7), and the end of the first ejector rod (13) is fixedly connected with the first ejector frame (14).

7. The automobile sensor housing processing equipment according to claim 4, wherein a plurality of second ejector rods (15) which are uniformly distributed at equal angles are fixedly connected to one sides of the second ejection frame (16) and the third ejection frame (17) close to the inner die box (7), the second ejector rods (15) correspond to the second mounting cylinders (9) one to one, the second ejector rods (15) sequentially penetrate through the end portions of the inner die box (7) and the second mounting cylinders (9) and extend into the second mounting cylinders (9), and the second ejector rods (15) are fixedly connected with reset springs (10) in the second mounting cylinders (9).

8. The processing equipment for the shell of the automobile sensor as claimed in claim 4, wherein a material injection pipe (18) is arranged in the middle of a third pushing frame (17) in the upper die block (5).