CN209956919U

CN209956919U - Alternative feeding type polaroid storage and derivation device

Info

Publication number: CN209956919U
Application number: CN201920440250.5U
Authority: CN
Inventors: 高军鹏
Original assignee: Shenzhen Etmade Automatic Equipment Co Ltd
Current assignee: Shenzhen Etmade Automatic Equipment Co Ltd
Priority date: 2019-04-03
Filing date: 2019-04-03
Publication date: 2020-01-17
Anticipated expiration: 2029-04-03

Abstract

The utility model discloses an alternative feeding type polaroid storage and derivation device, which comprises a second slide rail, a first feeding part, a second feeding part, a conversion cylinder, a connecting block and a connecting plate, wherein the second slide rail comprises two slide rails, and the two slide rails are arranged on a machine table of a chip mounter in parallel at intervals; the first feeding part and the second feeding part are respectively provided with a film feeding assembly; the film feeding assembly is connected to the two second sliding rails in a sliding manner; the connecting plate is horizontally arranged below the film feeding assemblies, and two ends of the connecting plate are respectively and fixedly connected to the two film feeding assemblies, so that the two film feeding assemblies synchronously slide linearly; the conversion cylinder is arranged on the side part of the second slide rail; the connecting block is connected on conversion cylinder and membrane material loading subassembly to drive membrane material loading subassembly linear motion to membrane material loading manipulator below. The utility model discloses independent storage to the mode that slides is moved to whole linkage straight line, realizes pay-off in turn, and the process is waited the material time when effectively having reduced the polaroid material loading, has promoted polaroid material loading degree of automation and material loading efficiency.

Description

Alternative feeding type polaroid storage and derivation device

Technical Field

The utility model relates to an automated manufacturing field indicates a guide-out device is stored to material loading formula polaroid in turn very much.

Background

In the production and manufacturing process of LCD screens and OLCD planes, a polaroid attaching process is involved, in the actual manufacturing process, polaroids are often attached to two sides of a glass sheet, and a release film adhered to one side of the polaroid is required to be torn off before the polaroid is attached; with the continuous demand of the market on intelligent terminal equipment such as mobile phones and the like, the downstream screen manufacturing industry is greatly developed, the competition of the screen manufacturing industry in China is increasingly severe, and most screen manufacturers break through the production capacity while ensuring the production quality. Aiming at the double-sided lamination process of the polaroid, the domestic technology has the following problems to be solved at present: in the existing single chip mounter, in the actual working process, when a glass sheet or a polaroid is carried out in each working procedure, other work stations are in a material waiting state, so that the whole line chip mounting consumes long time, and becomes an important factor for restricting the improvement of the chip mounting capacity; for example, in the polarizer feeding process, after polarizer feeding in the polarizer feeding mechanism is completed, equipment needs to be suspended, and the equipment is restarted after the polarizer is reloaded, so that the chip mounting efficiency is influenced, and the polarizer feeding mechanism becomes an important factor for restricting the improvement of the whole-line productivity.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is not enough to above-mentioned prior art, provide one kind and adopt first material loading part and the independent storage of second material loading part to whole linkage straight line slides, realizes pay-off in turn, and process is waited to expect the time when having effectively reduced the polaroid material loading, has promoted the material loading automation degree of polaroid material loading and material loading efficiency's material loading formula polaroid in turn and has stored eduction gear.

The utility model adopts the following technical scheme: an alternative feeding type polaroid storage and lead-out device comprises two second slide rails, a first feeding part, a second feeding part, a conversion cylinder, a connecting block and a connecting plate, wherein the two second slide rails are arranged on a machine table of a chip mounter in parallel at intervals; the first feeding part and the second feeding part are respectively provided with a film feeding assembly; the film feeding assembly is slidably connected to the two second slide rails; the connecting plate is horizontally arranged below the film feeding assemblies, and two ends of the connecting plate are respectively and fixedly connected to the two film feeding assemblies, so that the two film feeding assemblies synchronously slide linearly; the conversion cylinder is arranged on the side part of the second slide rail; the connecting blocks are connected to the conversion air cylinder and the membrane feeding assembly, so that the membrane feeding assembly is driven to move linearly to the position below the membrane feeding mechanical arm, and the polaroids are supplied to the membrane feeding mechanical arm alternately.

Preferably, the membrane feeding assembly comprises a membrane base, a membrane jacking component, a membrane support and a limiting guide component, wherein the membrane base is horizontally arranged above the second slide rail and is slidably connected with the second slide rail; the connecting block is fixedly connected with the membrane base, and the conversion cylinder drives the membrane base to move linearly through the connecting block; the membrane support is horizontally arranged above the membrane base at intervals; the top film part is arranged below the film base and extends upwards through the film base and the film support; the limiting guide part is arranged in a gap between the film base and the film support, penetrates through the film support to extend upwards, a polaroid placing space is formed above the film support, and the polaroids which are overlapped up and down are horizontally placed in the polaroid placing space and are driven by the top film part to ascend.

Preferably, the top film component comprises a film support plate, a top film cylinder and a top film plate, wherein the film support plate is vertically connected to the bottom of the film base; the membrane-jacking cylinder is connected to the side wall of the membrane support plate, and the output end of the membrane-jacking cylinder is arranged upwards; the top film plate is connected to the output end of the top film cylinder and vertically extends upwards to the position above the film support; and the top film cylinder drives the top film plate to ascend so as to jack up the polaroid placed on the film support upwards along the limiting guide part.

Preferably, the limiting guide part comprises a first limiting plate, a second limiting plate, a first limiting motor, a second limiting motor, a first transmission belt, a first transmission wheel, a transfer transmission belt, a second transmission belt, a transfer transmission shaft, a second transmission wheel and a clamping block, wherein the first limiting plate and the second limiting plate comprise two blocks; the two first limiting plates are arranged on two sides of the membrane base in parallel at intervals, can be respectively embedded on the guide rails on the membrane base in a sliding manner, and upwards penetrate through the membrane support; the two second limiting plates are arranged on the other two sides of the membrane base in parallel at intervals, are respectively embedded on the guide rails on the membrane base in a sliding manner, and upwards penetrate through the membrane support; a polarizer placing space is formed between the two first limiting plates and the second limiting plate.

Preferably, the first limit motor and the second limit motor are arranged on the film base, and the output shaft is arranged downwards; the first transmission wheel and the transfer transmission shaft are respectively arranged at one side of the first limit motor and one side of the second limit motor at intervals; the first transmission belt is sleeved on the output shaft of the first limiting motor and the first transmission wheel, and the first limiting motor drives the first transmission belt to do circular linear motion; the transfer transmission belt is sleeved on an output shaft of the second limiting motor and the transfer transmission shaft, and the second limiting motor drives the transfer transmission shaft to rotate through the transfer transmission belt; the second driving wheels are arranged at the side part of the transfer transmission shaft at intervals; the second transmission belt is sleeved on the second transmission wheel and the transfer transmission shaft and is perpendicular to the first transmission belt, and the transfer transmission shaft drives the second transmission belt to do circular linear motion.

Preferably, the clamp link the piece and include four, the lower part of two first limiting plates is connected through the clamp link the piece respectively and is fixed in the both sides of first drive belt, two first limiting plates of first drive belt drive slide along opposite direction to adjust the width of space in one side direction is placed to the polaroid, the lower part of two second limiting plates is connected through the clamp link the piece respectively and is fixed in the both sides of second drive belt, during second drive belt circulation linear motion, drive two second limiting plates and slide along opposite direction, so that adjust the width of space in opposite side direction is placed to the polaroid.

The beneficial effects of the utility model reside in that:

the utility model discloses defect and not enough independent research and development to prior art existence have designed one kind and have adopted first material loading part and the independent storage of second material loading part to whole linkage straight line slides, realizes pay-off in turn, and the process is waited to expect the time when having effectively reduced polaroid material loading, has promoted polaroid material loading degree of automation and material loading efficiency's material loading formula polaroid in turn and has stored the eduction gear.

The utility model discloses a to the unable effective utilization of waiting material time when current chip mounter polaroid material loading, lead to the lower condition of paster efficiency, independently research and development, the utility model discloses a first material loading part and second material loading part, the membrane material loading subassembly of first material loading part and second material loading part is connected by the connecting plate and is formed overall structure, and inlays to establish on the second slide rail slidably to through switching cylinder drive and along the rectilinear sliding of rectilinear direction, so that move to membrane material loading manipulator below, be convenient for membrane material loading manipulator to absorb the polaroid from membrane material loading mechanism; when the polaroid in one film feeding assembly is sucked, the empty film feeding assembly is moved out, and meanwhile, the fully loaded film feeding assembly is moved into the position below the film feeding mechanical arm so as to ensure continuous feeding, and the polarizer can be reloaded by the moved film feeding assembly; through this kind of structural function design, it is consuming time to have eliminated the polaroid effectively and loaded, has guaranteed that the polaroid lasts the material loading, has effectively promoted polaroid material loading efficiency. Meanwhile, the utility model is designed with a guiding component which is arranged on the membrane base in a sliding way and passes through two first limiting plates and two second limiting plates which extend upwards from the membrane support to form a polaroid placing space above the membrane support so as to limit the polaroids from four sides, and when the polaroids which are overlapped up and down are driven by the top membrane cylinder to rise, the limiting polaroids are guided in the vertical direction through the first limiting plates and the second limiting plates so as to be taken out by the membrane taking manipulator; the first limiting plate or the second limiting plate which are symmetrically arranged originally utilizes the first transmission belt and the second transmission belt as driving parts, and utilizes the installation mode that the two first limiting plates are respectively arranged at the two symmetrical sides of the first transmission belt, when the first transmission belt circularly and linearly moves, the two first limiting plates are simultaneously obtained to move along opposite directions, so that the real-time adjustment of the limiting width is realized, the polaroids with different sizes can be stored, and the equipment universality is improved; similarly, the two second limiting plates also realize width adjustment through the same installation mode.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a second schematic perspective view of the membrane of the present invention.

Fig. 3 is a third schematic view of a three-dimensional structure of the present invention.

Fig. 4 is a schematic perspective view of the film feeding assembly of the present invention.

Fig. 5 is a second schematic perspective view of the film feeding assembly of the present invention.

Fig. 6 is a third schematic perspective view of the film feeding assembly of the present invention.

Detailed Description

The invention will be further described with reference to the accompanying drawings:

as shown in fig. 1 to 6, the technical solution adopted by the present invention is as follows: an alternative feeding type polarizer storage and leading-out device comprises a second slide rail 61, a first feeding part C, a second feeding part D, a conversion cylinder 62, a connecting block 63 and a connecting plate 65, wherein the second slide rail 61 comprises two slide rails, and the two slide rails 61 are arranged on a machine table of a chip mounter in parallel at intervals; the first feeding part C and the second feeding part D are both provided with a film feeding assembly; the film feeding assembly is slidably connected to the two second slide rails 61; the connecting plate 65 is horizontally arranged below the film feeding assemblies, and two ends of the connecting plate 65 are respectively and fixedly connected to the two film feeding assemblies, so that the two film feeding assemblies synchronously slide linearly; the switching cylinder 62 is arranged at the side part of the second slide rail 61; the connecting block 63 is connected to the converting cylinder 62 and the film feeding assembly so as to drive the film feeding assembly to move linearly to the lower part of the film feeding manipulator and supply the polaroids to the film feeding manipulator alternatively.

The membrane feeding assembly comprises a membrane base 64, a membrane jacking component, a membrane support 69 and a limiting guide component, wherein the membrane base 64 is horizontally arranged above the second slide rail 61 and is slidably connected with the second slide rail 61; the connecting block 63 is fixedly connected with the membrane base 64, and the conversion cylinder 62 drives the membrane base 64 to move linearly through the connecting block 63; the membrane holders 69 are horizontally spaced above the membrane base 64; the top film part is arranged below the film base 64 and extends upwards through the film base 64 and the film support 69; the above-mentioned limit guide member is disposed in the gap between the film base 64 and the film support 69, and passes through the film support 69 to extend upward, and a polarizer placing space is formed above the film support 69, and the vertically-stacked polarizers are horizontally placed in the polarizer placing space and driven by the top film member to rise.

The top membrane component comprises a membrane support plate 66, a top membrane cylinder 67 and a top membrane plate 68, wherein the membrane support plate 66 is vertically connected to the bottom of the membrane base 64; the membrane-jacking cylinder 67 is connected to the side wall of the membrane support plate 66, and the output end of the membrane-jacking cylinder faces upwards; the top film plate 68 is connected to the output end of the top film cylinder 67 and extends vertically upward to above the film support 69; the top film air cylinder 67 drives the top film plate 68 to ascend so as to lift up the polarizer placed on the film support 69 upward along the position restricting guide member.

The limiting guide component comprises a first limiting plate 610, a second limiting plate 611, a first limiting motor 612, a second limiting motor 613, a first transmission belt 614, a first transmission wheel 615, a transfer transmission belt 617, a second transmission belt 618, a transfer transmission shaft 619, a second transmission wheel and a clamping block, wherein the first limiting plate 610 and the second limiting plate 611 comprise two blocks; the two first limiting plates 610 are arranged on two sides of the membrane base 64 in parallel at intervals, are respectively embedded on the guide rails on the membrane base 64 in a sliding manner, and penetrate through the membrane support 69 upwards; the two second limiting plates 611 are arranged on the other two sides of the film base 64 at intervals in parallel, and are respectively slidably embedded on the guide rails on the film base 64 and upwardly penetrate through the film support 69; a polarizer placing space is formed between the first limiting plate 610 and the second limiting plate 611.

The first limit motor 612 and the second limit motor 613 are arranged on the film base 64, and the output shafts are arranged downward; the first driving wheel 615 and the transferring shaft 619 are disposed at one side of the first limit motor 612 and the second limit motor 613 respectively at intervals; the first transmission belt 614 is sleeved on the output shaft of the first limit motor 612 and the first transmission wheel 615, and the first limit motor 612 drives the first transmission belt 614 to circularly and linearly move; the transit transmission belt 617 is sleeved on an output shaft of the second limit motor 613 and a transit transmission shaft 619, and the second limit motor 613 drives the transit transmission shaft 619 to rotate through the transit transmission belt 617; the second driving wheels are arranged at the side part of the transfer transmission shaft 619 at intervals; the second transmission belt 618 is sleeved on the second transmission wheel and the transfer transmission shaft 619, and is perpendicular to the first transmission belt 614, and the transfer transmission shaft 619 drives the second transmission belt 618 to circularly and linearly move.

The clamping blocks comprise four blocks, the lower portions of the two first limiting plates 610 are respectively connected and fixed on two sides of the first transmission belt 614 through the clamping blocks, the first transmission belt 614 drives the two first limiting plates 610 to slide along opposite directions so as to adjust the width of the polarizer placing space in one side direction, the lower portions of the two second limiting plates 611 are respectively connected and fixed on two sides of the second transmission belt 618 through the clamping blocks, and when the second transmission belt 618 circularly and linearly moves, the two second limiting plates 611 are driven to slide along opposite directions so as to adjust the width of the polarizer placing space in the other side direction.

Further, the utility model discloses an adopt independent storage of first material loading subtotal second material loading part to whole linkage straight line slides, realizes pay-off in turn, and the process is waited the material time when having effectively reduced the polaroid material loading, has promoted the material loading degree of automation and the material loading efficiency's of polaroid material loading formula polaroid in turn and has stored eduction gear. The utility model discloses a to the unable effective utilization of waiting material time when current chip mounter polaroid material loading, lead to the lower condition of paster efficiency, independently research and development, the utility model discloses a first material loading part and second material loading part, the membrane material loading subassembly of first material loading part and second material loading part is connected by the connecting plate and is formed overall structure, and inlays to establish on the second slide rail slidably to through switching cylinder drive and along the rectilinear sliding of rectilinear direction, so that move to membrane material loading manipulator below, be convenient for membrane material loading manipulator to absorb the polaroid from membrane material loading mechanism; when the polaroid in one film feeding assembly is sucked, the empty film feeding assembly is moved out, and meanwhile, the fully loaded film feeding assembly is moved into the position below the film feeding mechanical arm so as to ensure continuous feeding, and the polarizer can be reloaded by the moved film feeding assembly; through this kind of structural function design, it is consuming time to have eliminated the polaroid effectively and loaded, has guaranteed that the polaroid lasts the material loading, has effectively promoted polaroid material loading efficiency. Meanwhile, the utility model is designed with a guiding component which is arranged on the membrane base in a sliding way and passes through two first limiting plates and two second limiting plates which extend upwards from the membrane support to form a polaroid placing space above the membrane support so as to limit the polaroids from four sides, and when the polaroids which are overlapped up and down are driven by the top membrane cylinder to rise, the limiting polaroids are guided in the vertical direction through the first limiting plates and the second limiting plates so as to be taken out by the membrane taking manipulator; the first limiting plate or the second limiting plate which are symmetrically arranged originally utilizes the first transmission belt and the second transmission belt as driving parts, and utilizes the installation mode that the two first limiting plates are respectively arranged at the two symmetrical sides of the first transmission belt, when the first transmission belt circularly and linearly moves, the two first limiting plates are simultaneously obtained to move along opposite directions, so that the real-time adjustment of the limiting width is realized, the polaroids with different sizes can be stored, and the equipment universality is improved; similarly, the two second limiting plates also realize width adjustment through the same installation mode.

The embodiments of the present invention are only for describing the specific implementation thereof, and are not limited to the scope of protection thereof. The present invention is not limited to the above embodiments, but can be modified in various ways without departing from the scope of the present invention.

Claims

1. The utility model provides a guide-out device is stored to material loading formula polaroid in turn which characterized in that: the chip mounter comprises a second slide rail (61), a first feeding part (C), a second feeding part (D), a conversion cylinder (62), a connecting block (63) and a connecting plate (65), wherein the second slide rail (61) comprises two, and the two second slide rails (61) are arranged on a machine table of the chip mounter in parallel at intervals; the first feeding part (C) and the second feeding part (D) are respectively provided with a film feeding assembly; the film feeding assembly is slidably connected to the two second slide rails (61); the connecting plate (65) is horizontally arranged below the film feeding assemblies, and two ends of the connecting plate (65) are respectively and fixedly connected to the two film feeding assemblies, so that the two film feeding assemblies synchronously and linearly slide; the conversion cylinder (62) is arranged on the side part of the second slide rail (61); the connecting block (63) is connected to the conversion cylinder (62) and the film feeding assembly so as to drive the film feeding assembly to move linearly to the lower part of the film feeding manipulator and supply the polaroids to the film feeding manipulator alternatively.

2. The storage and retrieval apparatus for an alternate loading polarizer of claim 1, wherein: the membrane feeding assembly comprises a membrane base (64), a membrane jacking component, a membrane support (69) and a limiting guide component, wherein the membrane base (64) is horizontally arranged above the second slide rail (61) and is connected with the second slide rail (61) in a sliding manner; the connecting block (63) is fixedly connected with the membrane base (64), and the conversion cylinder (62) drives the membrane base (64) to move linearly through the connecting block (63); the membrane support (69) is horizontally arranged above the membrane base (64) at intervals; the top film part is arranged below the film base (64) and extends upwards through the film base (64) and the film support (69); the limiting guide part is arranged in a gap between the film base (64) and the film support (69), penetrates through the film support (69) to extend upwards, a polaroid placing space is formed above the film support (69), and the polaroids which are overlapped up and down are horizontally placed in the polaroid placing space and are driven by the top film part to ascend.

3. The storage and retrieval apparatus for an alternate loading polarizer of claim 2, wherein: the top membrane component comprises a membrane support plate (66), a top membrane cylinder (67) and a top membrane plate (68), wherein the membrane support plate (66) is vertically connected to the bottom of the membrane base (64); the membrane-jacking cylinder (67) is connected to the side wall of the membrane support plate (66), and the output end of the membrane-jacking cylinder is arranged upwards; the top film plate (68) is connected to the output end of the top film cylinder (67) and vertically extends upwards to the position above the film support (69); the top film air cylinder (67) drives the top film plate (68) to ascend so as to jack up the polaroid placed on the film support (69) upwards along the limiting guide part.

4. The storage and retrieval device for alternate loading polarizers according to claim 3, wherein: the limiting guide component comprises a first limiting plate (610), a second limiting plate (611), a first limiting motor (612), a second limiting motor (613), a first transmission belt (614), a first transmission wheel (615), a transfer transmission belt (617), a second transmission belt (618), a transfer transmission shaft (619), a second transmission wheel and a clamping connection block, wherein the first limiting plate (610) and the second limiting plate (611) comprise two blocks; the two first limiting plates (610) are arranged on two sides of the membrane base (64) in parallel at intervals, can be respectively embedded on a guide rail on the membrane base (64) in a sliding manner, and upwards penetrate through the membrane support (69); the two second limiting plates (611) are arranged on the other two sides of the membrane base (64) in parallel at intervals, can be respectively embedded on the guide rails on the membrane base (64) in a sliding manner, and upwards penetrate through the membrane support (69); a polarizer placing space is formed between the two first limiting plates (610) and the second limiting plate (611).

5. The storage and retrieval device for alternate loading polarizers according to claim 4, wherein: the first limiting motor (612) and the second limiting motor (613) are arranged on the film base (64), and the output shaft is arranged downwards; the first transmission wheel (615) and the transfer transmission shaft (619) are respectively arranged at one side of the first limit motor (612) and one side of the second limit motor (613) at intervals; the first transmission belt (614) is sleeved on an output shaft of the first limiting motor (612) and the first transmission wheel (615), and the first limiting motor (612) drives the first transmission belt (614) to do circular linear motion; the output shaft of the second limit motor (613) and the transfer transmission shaft (619) are sleeved with the transfer transmission belt (617), and the transfer transmission shaft (619) is driven by the second limit motor (613) to rotate through the transfer transmission belt (617); the second driving wheels are arranged at the side part of the transfer transmission shaft (619) at intervals; the second transmission belt (618) is sleeved on the second transmission wheel and the transfer transmission shaft (619) and is vertical to the first transmission belt (614), and the transfer transmission shaft (619) drives the second transmission belt (618) to do circular linear motion.

6. The storage and retrieval device for alternate loading polarizers according to claim 5, wherein: the clamping block comprises four blocks, the lower parts of two first limiting plates (610) are respectively connected and fixed on two sides of a first transmission belt (614) through the clamping block, the first transmission belt (614) drives the two first limiting plates (610) to slide along the opposite direction so as to adjust the width of the polarizer placing space in one side direction, the lower parts of two second limiting plates (611) are respectively connected and fixed on two sides of a second transmission belt (618) through the clamping block, and when the second transmission belt (618) moves circularly and linearly, the two second limiting plates (611) are driven to slide along the opposite direction so as to adjust the width of the polarizer placing space in the other side direction.