CN209937575U - Vehicle-mounted lens shaping device - Google Patents

Abstract

A vehicle-mounted lens shaping device comprises a bottom plate, a lens shaping module and two rotary sleeves; the lens shaping module comprises a multi-station mechanical claw, a transfer sliding table, a bearing plate and a water gap cutter, wherein the bearing plate is arranged on the transfer sliding table, the transfer sliding table is used for driving the bearing plate to move back and forth between the multi-station mechanical claw and the water gap cutter, and the water gap cutter is used for cutting a lens injection molding piece; the water gap cutting device comprises two shearing knives, two rotary sleeves are respectively arranged at two ends of the bearing plate, each rotary sleeve is used for driving a lens injection molding piece to rotate, and a plurality of clamping fingers are arranged at one end, far away from the bearing plate, of each rotary sleeve. Two gyration sleeves all are used for driving the lens injection molding on the lens plastic module rotatory, make on-vehicle lens on the lens injection molding get into in proper order and cut the station, and the shearing station increase on the lens plastic module, can carry out shearing work to a plurality of lens injection moldings simultaneously, improve the plastic efficiency and the material loading efficiency of on-vehicle lens.

Description

Vehicle-mounted lens shaping device

Technical Field

The utility model relates to an automated processing field especially relates to an on-vehicle lens shaping device.

Background

Generally, the volume of on-vehicle lens is less, and in order to improve the output value, it is extravagant to reduce the material, can set up a plurality of lens molding cavities on the mould, and at the single in-process of moulding plastics, a plurality of on-vehicle lenses of injection moulding, a plurality of on-vehicle lenses pass through mouth of a river looks interconnect and form with whole, have improved the efficiency of moulding plastics of on-vehicle lens. When using on-vehicle lens, need carry out the plastic to on-vehicle lens, need peel off each on-vehicle lens from the mouth of a river portion of being connected with it promptly, because on-vehicle lens quantity on each injection molding is more, peel off on-vehicle lens from mouth of a river portion and need occupy more time, influence the adding efficiency of on-vehicle lens.

As shown in fig. 1, a lens injection molding part 20 includes a dendritic nozzle 21 and a plurality of vehicle-mounted lenses 22, in order to meet the assembly requirement, the plurality of vehicle-mounted lenses 22 need to be peeled off from the nozzle 21 and the vehicle-mounted lenses 22 need to be peeled off, however, since the number of the vehicle-mounted lenses 22 is large, the difficulty of directly peeling the plurality of vehicle-mounted lenses 22 off from the nozzle 21 is large, the shaping efficiency of the existing equipment is low, and the processing efficiency of the vehicle-mounted lenses is affected.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the weak point among the prior art, providing a vehicle-mounted lens plastic loading attachment, the station is tailor in the increase, tailors work to a plurality of lens injection moldings simultaneously behind the single material loading, improves the plastic efficiency and the material loading efficiency of vehicle-mounted lens.

The purpose of the utility model is realized through the following technical scheme:

an on-vehicle lens reshaping device includes: a bottom plate, a lens shaping module and two rotary sleeves;

the lens shaping module comprises a multi-station mechanical claw, a transfer sliding table, a bearing plate and a water gap cutter, wherein the multi-station mechanical claw, the transfer sliding table and the water gap cutter are sequentially arranged on the bottom plate, the bearing plate is arranged on the transfer sliding table, the transfer sliding table is used for driving the bearing plate to reciprocate between the multi-station mechanical claw and the water gap cutter, and the water gap cutter is used for cutting a lens injection molding piece;

the water gap cutting device comprises two shearing knives, and the two shearing knives are arranged towards two ends of the bearing plate respectively;

the two rotary sleeves are respectively arranged at two ends of the bearing plate, each rotary sleeve is used for driving a lens injection molding part to rotate, one end, far away from the bearing plate, of each rotary sleeve is provided with a plurality of clamping fingers, and the clamping fingers are distributed in a circumferential array mode by taking the axis of each rotary sleeve as the center.

In one embodiment, the width of each of the snap fingers increases from the end far away from the bearing plate to the end near the bearing plate.

In one embodiment, the rotating sleeve comprises a positioning sleeve and an angle adjusting motor, the angle adjusting motor is mounted on the bearing plate, the positioning sleeve is sleeved on an output shaft of the angle adjusting motor, and the angle adjusting motor is used for driving the positioning sleeve to rotate.

In one embodiment, the bottom plate is provided with a blanking hole.

In one embodiment, the multi-station gripper comprises a material taking frame and a clamping module, the material taking frame is arranged on the bottom plate, the clamping module is arranged on the material taking frame and used for clamping a lens injection molding piece, and the material taking frame is used for driving the clamping module to move towards a direction close to or far away from the transfer sliding table.

In one embodiment, the clamping module comprises a connecting plate, a feeding claw, a transfer claw and a nozzle blanking claw, the connecting plate is arranged on the material taking frame, and the feeding claw, the transfer claw and the nozzle blanking claw are sequentially arranged on the connecting plate.

In one embodiment, the material taking frame comprises a supporting foot frame, a translation cylinder and a lifting cylinder, the supporting foot frame is installed on the bottom plate, the translation cylinder is installed on the supporting foot frame, the lifting cylinder is arranged on the translation cylinder, the clamping module is installed on the lifting cylinder, the lifting cylinder is used for driving the clamping module to move towards a direction close to or away from the bottom plate, and the translation cylinder is used for driving the clamping module to horizontally and transversely move.

In one embodiment, the nozzle cutting device further comprises a cutting auxiliary air claw which is mounted on the bottom plate, and the cutting auxiliary air claw is provided with two clamping parts which are respectively arranged towards the two shearing knives.

In one embodiment, the automatic lens cutting machine further comprises a typesetting manipulator, and the typesetting manipulator is used for driving the vehicle-mounted lens to be far away from the water gap cutting device.

In one embodiment, the automatic lens injection molding machine further comprises a feeding mechanism, wherein the feeding mechanism is installed on the bottom plate and used for driving lens injection molding pieces to move towards the direction close to the multi-station mechanical claw one by one.

Compared with the prior art, the utility model discloses at least, following advantage has:

above-mentioned on-vehicle lens shaping device is through setting up the bottom plate, lens plastic module and two gyration sleeves, two gyration sleeves set up on lens plastic module for it is rotatory to drive the lens injection molding on the lens plastic module, make on-vehicle lens order on the lens injection molding get into the shearing station, and the shearing station on the lens plastic module increases, can carry out shearing work to a plurality of lens injection moldings simultaneously, improve the plastic efficiency and the material loading efficiency of on-vehicle lens.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a schematic view of a lens injection molded part;

fig. 2 is a schematic structural view of a vehicle-mounted lens shaping and feeding device in an embodiment of the present invention;

fig. 3 is a schematic structural view of a rotating sleeve of a lens shaping module according to an embodiment of the present invention.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 2, a vehicle lens reshaping device 10 for use with a plurality of vehicle lenses 22 on a release lens injection molded part 20 comprises: a base plate 100, a lens shaping module 200 and two rotary sleeves 300; two rotary sleeve 300 set up on lens plastic module 200, rotary sleeve 300 drives and peels off lens injection molding 20 rotatoryly during the plastic, make each on-vehicle lens 22 of peeling off on the lens injection molding 20 get into the shearing station of lens plastic module 200 in proper order, cut by lens plastic module 200, make each on-vehicle lens 22 and mouth of a river 21 separation, lens plastic module 200 can be simultaneously to two plastic operations of peeling off lens injection molding 20, the plastic efficiency and the material loading efficiency of on-vehicle lens 20 have been improved.

Referring to fig. 2, the vehicle-mounted lens shaping device 10 further includes a typesetting manipulator 400 and a feeding mechanism 500, wherein the typesetting manipulator 400 is used for driving the vehicle-mounted lens to be away from the nozzle cutting device 240. The feeding mechanism 500 is installed on the bottom plate 100, and the feeding mechanism 500 is used for driving the lens injection molding piece 20 to move one by one in a direction close to the multi-station gripper 210.

Referring to fig. 2 and 3, the lens reshaping module 200 includes a multi-station gripper 210, a transfer sliding table 220, a receiving plate 230 and a water gap cutter 240, wherein the multi-station gripper 210, the transfer sliding table 220 and the water gap cutter 240 are sequentially mounted on the base plate 100, when reshaping is performed, the multi-station gripper 210 places the lens injection molding 20 in the receiving plate 230 on the transfer sliding table 220, and the transfer sliding table 220 carries the lens injection molding 20 to the water gap cutter 240 for reshaping, that is, the water gap cutter 240 cuts the lens injection molding 20, so that the water gap 21 of the lens injection molding 20 is separated from the vehicle-mounted lens 22; the bearing plate 230 is installed on the transfer sliding table 220, the transfer sliding table 220 is used for driving the bearing plate 230 to move back and forth between the multi-station mechanical claw 210 and the nozzle cutter 240, the nozzle cutter 240 is used for cutting the lens injection molding part 20, the nozzle cutter 240 comprises two shearing knives 241, the two shearing knives 241 are respectively arranged towards two ends of the bearing plate 230, and during shaping, the shearing knives 241 cut the connecting position of the nozzle 21 and the vehicle-mounted lens 22, so that the nozzle 21 is separated from the vehicle-mounted lens 22.

Referring to fig. 2 and 3, two rotating sleeves 300 are respectively installed on two ends of the bearing plate 230, each rotating sleeve 300 is used for driving one lens injection molding member 20 to rotate, in one rotating sleeve 300, one end of the rotating sleeve 300 away from the bearing plate 230 is provided with a plurality of snap fingers 310, and the plurality of snap fingers 310 are distributed in a circumferential array with the axis of the rotating sleeve 300 as the center. The water gap 21 comprises a pouring part 21a and branches 21b connected with the vehicle-mounted lenses 22, when the multi-station manipulator 210 places the lens injection molding part 20 on the bearing plate 230, the branches 21b of the water gap 21 are clamped in an interval formed between two adjacent clamping fingers 310, so that when the rotary sleeve 300 rotates, the lens injection molding part 20 rotates along with the rotary sleeve 300, the rotary sleeve 300 drives the lens injection molding part 20 to rotate, and each vehicle-mounted lens 22 on the lens injection molding part 20 sequentially enters a shearing range of the shearing knife 241 to perform cutting operation, the rotary sleeve 300 is provided with two, and the shearing knives 241 are also provided with two, namely, the two lens injection molding parts 20 can be shaped by feeding at each time.

Referring to fig. 2 and 3, in particular, the width of each finger 310 increases from the end away from the bearing plate 230 to the end near the bearing plate 230. That is, the distance between every two adjacent fingers 310 decreases from the end far from the bearing plate 230 to the end near the bearing plate 230, so that the multi-station gripper 210 can place the lens injection molding part 20 into the rotating sleeve 300.

Referring to fig. 2 and 3, in an embodiment, the rotary sleeve includes a positioning sleeve 320 and an angle adjustment motor 330, the angle adjustment motor 330 is mounted on the bearing plate 230, the positioning sleeve 320 is sleeved on an output shaft of the angle adjustment motor 330, the angle adjustment motor 330 is used for driving the positioning sleeve 320 to rotate, the angle adjustment motor 330 is a servo motor, and a plurality of fingers 310 are disposed at an end of the positioning sleeve 320 away from the bearing plate 230.

Referring to fig. 2 and 3, in order to improve the cutting accuracy of the shearing knife 241, the nozzle cutter 240 further includes a cutting auxiliary air claw 242, the cutting auxiliary air claw 242 is mounted on the bottom plate 100, and the cutting auxiliary air claw 242 is provided with two clamping portions which are respectively disposed toward the two shearing knives 241.

The operation of the above-described on-vehicle lens shaping device 10 will be described below:

firstly, the multi-station gripper 210 carries the lens injection molding part 20 to the receiving plate 230, and when the lens injection molding parts 20 are placed in the two revolving sleeves 300 on the receiving plate 230, the revolving slide table 220 is started to drive the two lens injection molding parts 20 to move towards the direction close to the nozzle cutting device 240.

One of the vehicle-mounted lenses 22 on the two lens injection-molded parts 20 is moved to the cutting position of the two shearing knives 241 of the nozzle cutter 240, and is cut by the two shearing knives 241, and then the rotary sleeve 300 starts to rotate the next vehicle-mounted lens 22 on the lens injection-molded part 20 to the cutting range of the shearing knife 241, and the shearing knife 241 shears the next vehicle-mounted lens again, and the above actions are repeated until all the vehicle-mounted lenses 22 connected with the nozzle 21 are sheared.

Transfer slip table 220 restarts again, carry two mouths of a river 21 on two rotary sleeve 300 back to the double-layered within range of getting of multistation gripper 210, take off it from two rotary sleeve 300 by multistation gripper 210, and shift to special garbage collection position department, and place new lens injection molding 20 again and repeat above-mentioned flow constantly and carry out the plastic operation to on-vehicle lens 22 in two rotary sleeve 300, peel off lens injection molding 20 to two simultaneously and carry out the plastic operation, the plastic efficiency and the material loading efficiency of on-vehicle lens 20 have been improved.

Referring to fig. 2 and 3, in an embodiment, the bottom plate 100 has a material discharging hole, the multi-station gripper 210 includes a material taking frame 211 and a clamping module 212, the material taking frame 211 is disposed on the bottom plate 100, the clamping module 212 is mounted on the material taking frame 211, the clamping module 212 is used for clamping the lens injection molding 20, and the material taking frame 211 is used for driving the clamping module 212 to move toward or away from the transfer sliding table 220. The clamping module 212 includes a connecting plate 212a, a feeding claw 212b, a transferring claw 212c and a nozzle discharging claw 212d, the connecting plate 212a is disposed on the material taking frame 211, and the feeding claw 212b, the transferring claw 212c and the nozzle discharging claw 212d are sequentially mounted on the connecting plate 212 a. The material taking frame 211 comprises a supporting foot frame 211a, a translation cylinder 211b and a lifting cylinder 211c, the supporting foot frame 211a is installed on the bottom plate 100, the translation cylinder 211b is installed on the supporting foot frame 211a, the lifting cylinder 211c is arranged on the translation cylinder 211b, the clamping module 212 is installed on the lifting cylinder 211c, the lifting cylinder 211c is used for driving the clamping module 212 to move towards the direction close to or far away from the bottom plate 100, and the translation cylinder 211b is used for driving the clamping module 212 to horizontally and transversely move.

Compared with the prior art, the utility model discloses at least, following advantage has:

above-mentioned on-vehicle lens shaping device 10 is through setting up bottom plate 100, lens shaping module 200 and two rotary sleeve 300, two rotary sleeve 300 set up on lens shaping module 200, it is rotatory to be used for driving lens injection molding 20 on the lens shaping module 200, make on-vehicle lens on the lens injection molding 20 get into in proper order and cut the station, and the shearing station on the lens shaping module 200 increases, can carry out shearing work to a plurality of lens injection molding 20 simultaneously, the plastic efficiency and the material loading efficiency of improvement on-vehicle lens.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides an on-vehicle lens shaping device, with a plurality of on-vehicle lenses of peeling off on the lens injection molding, its characterized in that includes:

a bottom plate, a plurality of first connecting plates,

the lens shaping module comprises a multi-station mechanical claw, a transfer sliding table, a bearing plate and a water gap cutter, wherein the multi-station mechanical claw, the transfer sliding table and the water gap cutter are sequentially arranged on the bottom plate, the bearing plate is arranged on the transfer sliding table, the transfer sliding table is used for driving the bearing plate to reciprocate between the multi-station mechanical claw and the water gap cutter, and the water gap cutter is used for cutting a lens injection molding piece;

the water gap cutting device comprises two shearing knives, and the two shearing knives are arranged towards two ends of the bearing plate respectively;

the lens injection molding device comprises two rotary sleeves, wherein the two rotary sleeves are respectively arranged at two ends of a bearing plate, each rotary sleeve is used for driving a lens injection molding part to rotate, one end, far away from the bearing plate, of each rotary sleeve is provided with a plurality of clamping fingers, and the clamping fingers are distributed in a circumferential array by taking the axis of each rotary sleeve as the center.

2. The on-vehicle lens reshaping device according to claim 1, wherein the width of each of the snap fingers increases from an end away from the receiving plate to an end close to the receiving plate.

3. The vehicle-mounted lens shaping device according to claim 1, wherein the rotating sleeve includes a positioning sleeve and an angle adjusting motor, the angle adjusting motor is mounted on the receiving plate, the positioning sleeve is fitted over an output shaft of the angle adjusting motor, and the angle adjusting motor is configured to drive the positioning sleeve to rotate.

4. The vehicle lens shaping device according to claim 1, wherein the base plate is provided with a blanking hole.

5. The vehicle-mounted lens shaping device according to claim 1, wherein the multi-station gripper comprises a material taking frame and a clamping module, the material taking frame is arranged on the bottom plate, the clamping module is arranged on the material taking frame, the clamping module is used for clamping a lens injection molding piece, and the material taking frame is used for driving the clamping module to move towards a direction close to or away from the transfer sliding table.

6. The vehicle-mounted lens shaping device according to claim 5, wherein the clamping module comprises a connecting plate, a feeding claw, a transfer claw and a nozzle blanking claw, the connecting plate is arranged on the material taking frame, and the feeding claw, the transfer claw and the nozzle blanking claw are sequentially mounted on the connecting plate.

7. The vehicle-mounted lens shaping device according to claim 5, wherein the material taking frame comprises a supporting foot frame, a translation cylinder and a lifting cylinder, the supporting foot frame is mounted on the bottom plate, the translation cylinder is mounted on the supporting foot frame, the lifting cylinder is arranged on the translation cylinder, the clamping module is mounted on the lifting cylinder, the lifting cylinder is used for driving the clamping module to move towards or away from the bottom plate, and the translation cylinder is used for driving the clamping module to horizontally move.

8. The vehicle-mounted lens reshaping device according to claim 1, wherein the water gap cutting device further comprises a cutting auxiliary air gripper, the cutting auxiliary air gripper is mounted on the bottom plate, and the cutting auxiliary air gripper is provided with two clamping portions which are respectively arranged toward the two shearing knives.

9. The vehicle-mounted lens shaping device according to claim 1, further comprising a typesetting manipulator for driving the vehicle-mounted lens away from the nozzle cutter.

10. The vehicle-mounted lens shaping device according to claim 1, further comprising a feeding mechanism, wherein the feeding mechanism is mounted on the bottom plate and is used for driving the lens injection moldings to move one by one in a direction close to the multi-station gripper.

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