CN114100975A

CN114100975A - Hollow light bar gluing device and gluing method

Info

Publication number: CN114100975A
Application number: CN202111463871.3A
Authority: CN
Inventors: 孙朝平; 王海燕; 何晓峰; 张有良
Original assignee: Zhongshan Guangda Optical Co ltd
Current assignee: Zhongshan Guangda Optical Co ltd
Priority date: 2021-12-02
Filing date: 2021-12-02
Publication date: 2022-03-01
Anticipated expiration: 2041-12-02
Also published as: CN114100975B

Abstract

The invention relates to an optical component, in particular to a hollow optical rod gluing device and a gluing method. In the gluing process of the hollow light bar, glue solution flows out of the joint seam, the glue solution overflows from the edge of the whole joint seam, and the glue solution overflows and accumulates at the joint seam position of the solidified hollow light bar. The technical scheme is as follows: a hollow optical rod gluing device comprises a mounting machine bottom plate and a first clamping butt joint system; the left side and the right side of the bottom plate of the mounting machine are respectively provided with a first clamping and butting system for clamping and fixing the rectangular lens with the first specification. The invention realizes the automatic clamping and combination of the four lenses of the hollow optical rod, ensures that the glue solution can not flow to the position outside the gluing area, avoids a large amount of overflow in the glue solution solidification process, removes the solidification overflow glue on the bottom end surface of the hollow optical rod after the hollow optical rod is glued and solidified, avoids the solidification glue in the joint seam from being dissolved, and has the effect of firmer gluing of the hollow optical rod.

Description

Hollow light bar gluing device and gluing method

Technical Field

The invention relates to an optical component, in particular to a hollow optical rod gluing device and a gluing method.

Background

The hollow optical rod is a key optical part used for laser engraving chip equipment, and due to the fact that research and development of the hollow optical rod in domestic same industry are less in investment, and due to the fact that processing difficulty is high, insufficient energy, glue overflow, intermittence, degumming, ridge breaking and poor size are prone to occurring.

At present, a hollow optical rod in the prior art is formed by gluing four rectangular lenses, in the gluing process, due to the fact that the surfaces of the lenses are smooth, glue liquid is easy to flow, the glue liquid cannot be limited in a gluing area of the lenses after gluing is conducted, the lenses are coated with the glue liquid, then adjacent lenses are glued together, the glue liquid flows out of a gluing seam under the double effects of pressure and gravity, the glue liquid overflows from the edge of the whole gluing seam, and the glue liquid at the gluing seam position of the solidified hollow optical rod overflows and accumulates under the condition, so that the normal use of the hollow optical rod is affected; under this condition, after the glue solution solidifies, need use chemical industry lotion to wash whole hollow light stick, can clear away the excessive glue on the hollow light stick, but when clear away excessive glue, the solidification glue in some laminating seam can be dissolved for laminating seam veneer is insecure, and the phenomenon of coming unstuck easily appears in the use of follow-up hollow light stick.

In order to solve the problems, a hollow light bar gluing device and a gluing method are provided.

Disclosure of Invention

In order to overcome the defects that glue solution flows out of a joint seam and overflows from the edge of the whole joint seam in the gluing process of a hollow light bar, and the glue solution at the joint seam position overflows and accumulates on the solidified hollow light bar under the condition, the invention provides a gluing device and a gluing method of the hollow light bar.

The technical scheme is as follows: a hollow optical rod gluing device comprises an installation machine bottom plate, a first clamping and butt-joint system, a second clamping and butt-joint system, a gluing system and an overflow glue removing system; the left side and the right side of the bottom plate of the mounting machine are respectively provided with a first clamping and butting system for clamping and fixing the rectangular lens with the first specification; a second clamping and butting system for clamping and fixing the rectangular lens with the second specification is respectively arranged on the front side and the rear side of the bottom plate of the mounting machine; a gluing system for gluing the lens is arranged on the upper side of the bottom plate of the mounting machine; and the middle part of the upper side of the mounting machine bottom plate is provided with an overflow glue removing system for removing the overflow glue at the bottom of the lens.

As a further preferable scheme, the first clamping and docking system comprises a first bearing mounting plate, a first mounting frame, an electric lifting telescopic column, a first mounting table, a first electric telescopic rod, a first mounting seat, a second electric telescopic rod, a first fixed upper hook plate, a first fixed lower hook plate, a first mounting shaft rod, a clamping block and a first torsion spring; the left side and the right side of the bottom plate of the mounting machine are respectively fixedly connected with a first bearing mounting plate; the upper surfaces of the two first bearing mounting plates are fixedly connected with a first mounting frame respectively; four electric lifting telescopic columns are respectively arranged on the two first mounting frames; the telescopic ends of the corresponding four electric lifting telescopic columns are fixedly connected with a first mounting table; the inner sides of the two first mounting tables are fixedly connected with a first electric telescopic rod respectively; the telescopic ends of the two first electric telescopic rods are fixedly connected with a first mounting seat respectively; two opposite sides of the two first mounting seats are fixedly connected with a second electric telescopic rod respectively; the telescopic ends of the two second electric telescopic rods are respectively fixedly connected with a first fixed upper hook plate; the lower parts of the opposite sides of the two second electric telescopic rods are respectively fixedly connected with a first fixed lower hook plate; the front side and the rear side of each second electric telescopic rod are respectively provided with a first mounting shaft rod; the four first mounting shaft levers are respectively connected with a clamping block in a rotating way; the outer surfaces of the four first mounting shaft levers are respectively sleeved with a first torsion spring; one end of each first torsion spring is fixedly connected with the first mounting shaft lever, and the other end of each first torsion spring is fixedly connected with the clamping block.

As a further preferred solution, each clamping block is provided with a round head and a clamping portion.

As a further preferable scheme, the second clamping and butting system comprises a second bearing mounting plate, a second mounting frame, a second mounting table, a third electric telescopic rod, a second mounting seat, a fixed groove plate, a side ejector rod, a fourth electric telescopic rod and a second fixed upper hook plate; a second bearing mounting plate is respectively arranged on the front side and the rear side of the mounting machine soleplate; the upper surfaces of the two second bearing mounting plates are fixedly connected with a second mounting frame respectively; a second mounting platform is respectively mounted on the upper sides of the two second mounting frames; a third electric telescopic rod is respectively arranged on the inner sides of the two second mounting platforms; the telescopic ends of the two third electric telescopic rods are respectively fixedly connected with a second mounting seat; the opposite sides of the two second mounting seats are fixedly connected with a fixed groove plate respectively; the opposite sides of the two fixed groove plates are respectively provided with a rectangular groove; the opposite sides of the two fixed groove plates are respectively provided with an accommodating groove for accommodating the rectangular lens with the second specification; the width of the accommodating groove is the same as that of the rectangular lens of the second specification; a side ejector rod is fixedly connected to the left side and the right side of each fixed slot plate; each fixed groove plate is provided with a fourth electric telescopic rod; the telescopic ends of the two fourth electric telescopic rods are respectively fixedly connected with a second fixed upper hook plate.

As a further preferable scheme, the inner sides of the first fixed upper hook plate, the first fixed lower hook plate, the accommodating groove and the second fixed upper hook plate are all provided with a protective pad.

As a further preferable scheme, the gluing system comprises a mounting vertical column, a mounting ring, a fifth electric telescopic rod, a third mounting seat, a first glue storage box, a second glue storage box, a first glue inlet pipe, a second glue inlet pipe, a slide rail frame, a bilateral sliding seat, a first sealing plate, a second sealing plate, a first glue absorption strip, a second glue absorption strip, a first glue coating film, a second glue coating film, a sixth electric telescopic rod, a collective mounting plate, a fork frame, a third glue absorption strip, a fourth glue absorption strip, a second mounting shaft rod, a second torsion spring, a connecting seat plate, a connecting plate and a glue absorption pad; four corners of the upper side of the bottom plate of the mounting machine are respectively fixedly connected with a mounting vertical column; the tops of the four mounting vertical columns are fixedly connected with mounting rings; the left side and the right side of the mounting ring are respectively provided with a fifth electric telescopic rod; the telescopic ends of the two fifth electric telescopic rods are fixedly connected with a third mounting seat respectively; each third mounting seat is provided with a first glue storage box and a second glue storage box; the top parts of the two first glue storage boxes are respectively provided with a first glue inlet pipe; the tops of the two second glue storage boxes are respectively provided with a second glue inlet pipe; a slide rail frame is fixedly connected between the corresponding first glue storage box and the second glue storage box; the middle of each of the two slide rail frames is connected with a bilateral slide seat in a sliding way; the front side and the rear side of each bilateral sliding seat are respectively provided with a first sealing plate and a second sealing plate, and the first sealing plate and the second sealing plate are respectively contacted with the second glue storage box and the first glue storage box; each first glue storage box is connected with two first glue absorbing strips; each second glue storage box is connected with two second glue absorbing strips; the two first glue storage boxes are respectively connected with a first glue coating film; the two second glue storage boxes are respectively connected with a second glue coating film; a sixth electric telescopic rod is arranged in the middle of the mounting ring; the telescopic end of the sixth electric telescopic rod is fixedly connected with a set mounting plate; four corners of the lower side of the integrated mounting plate are respectively provided with a glue sucking component.

As a further preferable scheme, the first rubber-coated membrane is provided with micropores for leaching the glue solution.

As a further preferable scheme, the glue absorbing component comprises a fork frame, a third glue absorbing strip, a fourth glue absorbing strip, a second mounting shaft rod, a second torsion spring, a connecting seat plate, a connecting joint plate and a glue absorbing pad; four corners at the lower side of the integrated mounting plate are fixedly connected with a fork frame respectively; each fork frame is provided with a third rubber suction strip; each fork frame is provided with a fourth rubber suction strip; a second mounting shaft lever is mounted at the lower part of each fork frame; a second torsion spring is sleeved on the outer surface of each second mounting shaft lever; each second mounting shaft lever is rotatably connected with a connecting seat plate; one end of each second torsion spring is fixedly connected with a second mounting shaft lever, and the other end of each second torsion spring is fixedly connected with a connecting seat plate; the lower part of each connecting seat plate is fixedly connected with a connecting plate; the upper surface of each connecting plate is provided with a rubber suction pad.

As a further preferable scheme, the flash removal system comprises a mounting rack, a storage box, a third mounting rack, a first round head plate, a fourth mounting rack and a second round head plate; the upper surface of the mounting machine bottom plate is fixedly connected with a mounting rack; the middle part of the upper surface of the mounting rack is provided with a storage box; the rear part of the upper side and the front part of the upper side of the storage box are respectively provided with a rectangular groove which is two soaking cabins, and the width of the rectangular groove is larger than the thickness of the lens with the second specification; a third mounting frame and a fourth mounting frame are fixedly connected to the left side of the upper surface and the right side of the upper surface of the mounting rack respectively; a first round head plate is fixedly connected to the front side of the top of the third mounting frame and the rear side of the top of the third mounting frame respectively; the front side of the top of the fourth mounting frame and the rear side of the top of the fourth mounting frame are respectively fixedly connected with a second round head plate.

As a further preferable scheme, the gluing method of the hollow light bar comprises the following steps:

the method comprises the following steps: adding materials, namely adding sufficient glue solution into a gluing system, and adding sufficient glue solution cleaning agent into an excessive glue removing system;

step two: clamping two rectangular lenses of a first specification on two first clamping and butting systems, and clamping two rectangular lenses of a second specification on two second clamping and butting systems;

step three: gluing, namely controlling the two second clamping and butting systems to drive the two rectangular lenses with the first specification to mutually approach to move to two sides of the gluing system, and then gluing the two rectangular lenses with the second specification by the gluing system;

step four: gluing, namely controlling the gluing system to move upwards to separate from the two rectangular lenses with the second specification after glue solution is coated, and then controlling the two first clamping and butting systems and the two second clamping and butting systems to drive the four rectangular lenses to approach and be butted together;

step five: absorbing glue, controlling a gluing system to move downwards to absorb overflowing glue solution at the joint of the lenses, waiting for the glue solution to solidify, connecting the lenses together, and obtaining a hollow light rod after the four lenses are bonded and combined;

step six: and washing glue, namely controlling the two second clamping and butting systems to be away from each other, controlling the two first clamping and butting systems to drive the combined hollow light bar to move downwards to the glue overflow removing system, and washing the overflowing solidified glue solution at the bottom of the joint of the hollow light bar to obtain the finished hollow light bar.

The invention has the following advantages: in order to solve the problems that in the prior art, glue solution flows out of a joint seam in the gluing process of a hollow light bar, the glue solution overflows from the edge of the whole joint seam, and the glue solution overflows and accumulates at the joint seam position of the solidified hollow light bar under the condition, so that the normal use of the hollow light bar is influenced; in this case, after the glue solution is solidified, a chemical detergent is needed to clean the whole hollow light bar, so that the glue overflow on the hollow light bar can be removed, but the glue overflow in the original joint seam can be cleaned off at the same time of removing, so that the joint seam is not firmly glued, and the subsequent hollow light bar is easy to be degummed in the use process;

the invention designs a first clamping butt joint system, a second clamping butt joint system, a gluing system and an overflow glue removing system, realizes automatic clamping and combination of four lenses of a hollow optical rod, ensures that glue solution can not flow to a position outside a gluing area in the gluing process, ensures that the glue solution is completely positioned in the gluing area at the edges of two sides of the lens, and carries out coating type gluing absorption and removal on the glue solution overflowing from a gluing seam after the lens is glued, thereby avoiding a large amount of overflow in the glue solution solidifying process, removing the solidified overflow glue on the bottom end surface of the hollow optical rod after the hollow optical rod is glued and solidified, avoiding the contact of chemical cleaning agents with the whole hollow optical rod, avoiding the solidification glue in the gluing seam from being dissolved, and ensuring the effect of firmer gluing of the hollow optical rod.

Drawings

FIG. 1 is a schematic diagram of a first three-dimensional structure of a hollow light bar gluing device according to the present invention;

FIG. 2 is a schematic diagram of a second three-dimensional structure of the gluing device for hollow light rods according to the present invention;

FIG. 3 is a first perspective view of the first clamping and docking system of the present invention;

FIG. 4 is a first partial perspective view of the first clamping and docking system of the present invention;

FIG. 5 is a schematic view of a second partial perspective view of the first clamping and docking system of the present invention;

FIG. 6 is a schematic view of a first perspective structure of a second clamping and docking system of the present invention;

FIG. 7 is a schematic perspective view of a second clamping and docking system according to the present invention;

FIG. 8 is a perspective view of the glue application system of the present invention;

FIG. 9 is a schematic view of a first partial perspective view of the glue application system of the present invention;

FIG. 10 is a schematic view of a second partial perspective view of the glue application system of the present invention;

FIG. 11 is a third partial perspective view of the glue application system of the present invention;

FIG. 12 is a schematic view of a fourth partial perspective view of the glue application system of the present invention;

FIG. 13 is a schematic perspective view of a fifth partial gluing system according to the present invention;

FIG. 14 is a schematic perspective view of a sixth partial structure of the glue application system of the present invention;

fig. 15 is a schematic perspective view of an overflow glue removing system according to the present invention.

Wherein: 1-an installation machine base plate, 2-a first clamping and docking system, 3-a second clamping and docking system, 4-a gluing system, 5-an overflow glue removal system, 201-a first bearing and mounting plate, 202-a first installation frame, 203-an electric lifting and telescoping column, 204-a first installation platform, 205-a first electric telescopic rod, 206-a first installation base, 207-a second electric telescopic rod, 208-a first fixed upper hook plate, 209-a first fixed lower hook plate, 2010-a first installation shaft rod, 2011-a clamping block, 2012-a first torsion spring, 201101-a round head, 201102-a clamping part, 301-a second bearing and mounting plate, 302-a second installation frame, 303-a second installation platform, 304-a third electric telescopic rod, 305-a second installation base, 306-a fixed groove plate, 307-a holding groove, 308-a side ejector rod, 309-a fourth electric telescopic rod, 3010-a second fixed upper hook plate, 401-a mounting upright post, 402-a mounting ring, 403-a fifth electric telescopic rod, 404-a third mounting seat, 405-a first glue storage box, 406-a second glue storage box, 407-a first glue inlet pipe, 408-a second glue inlet pipe, 409-a slide rail frame, 4010-a bilateral sliding seat, 4011-a first sealing plate, 4012-a second sealing plate, 4013-a first glue absorption strip, 4014-a second glue absorption strip, 4015-a first glue coating film, 4016-a second glue coating film, 4017-a sixth electric telescopic rod, 4018-a collective mounting plate, 4019-a fork frame 4020-a third glue absorption strip, 4021-a fourth glue absorption strip and 4022-a shaft rod, 4023-second torsion spring, 4024-connecting seat plate, 4025-connecting plate, 4026-suction rubber pad, 501-mounting rack, 502-storage box, 503-third mounting rack, 504-first round head plate, 505-fourth mounting rack, 506-second round head.

Detailed Description

The following further describes the technical solution with reference to specific embodiments, and it should be noted that: the words upper, lower, left, right, and the like used herein to indicate orientation are merely for the location of the illustrated structure in the corresponding figures. The serial numbers of the parts are themselves numbered herein, for example: first, second, etc. are used solely to distinguish one from another as to objects described herein, and do not have any sequential or technical meaning. The application states that: the connection and coupling, unless otherwise indicated, include both direct and indirect connections (couplings).

Example 1

A hollow optical rod gluing device is shown in figures 1-2 and comprises a mounting machine base plate 1, a first clamping and butt-joint system 2, a second clamping and butt-joint system 3, a gluing system 4 and an overflow glue removing system 5; the left side and the right side of the mounting machine bottom plate 1 are respectively provided with a first clamping butt joint system 2; the front side and the rear side of the mounting machine bottom plate 1 are respectively provided with a second clamping and butt-joint system 3; a gluing system 4 is arranged on the upper side of the mounting machine base plate 1; the middle part of the upper side of the mounting machine bottom plate 1 is provided with an overflow glue removing system 5.

When the hollow optical rod gluing device is used, the device is called as the device for short, firstly, enough glue solution is added into a gluing system 4, enough glue solution cleaning agent is added into an overflow glue removing system 5, then, two rectangular lenses with first specifications are clamped on two first clamping butt joint systems 2, two rectangular lenses with second specifications are clamped on two second clamping butt joint systems 3, then, the two second clamping butt joint systems 3 are controlled to drive the two rectangular lenses with the first specifications to mutually approach and move to two sides of the gluing system 4, then, the gluing system 4 glues the two rectangular lenses with the second specifications, namely, glue solution is coated on the edges of the left side and the right side of the opposite surfaces of the two lenses, after the glue solution is coated, the gluing system 4 is controlled to move upwards to be separated from the two rectangular lenses with the second specifications, and then, the two first clamping butt joint systems 2 and the two second clamping butt joint systems 3 are controlled to drive the four rectangular lenses to approach and butt joint to one rectangular lens And the sections of the two rectangular lenses with the first specification are in contact with the planes of the two rectangular lenses with the second specification, namely the two rectangular lenses with the second specification clamp the two rectangular lenses with the first specification in the middle and then stand, the gluing system 4 is controlled to move downwards to absorb overflowing glue solution at the joint of the lenses at the moment, then the glue solution is waited for solidification, the lenses are connected together, the hollow optical rod is obtained after the four lenses are bonded and combined, the two second clamping and butt-joint systems 3 are controlled to be mutually far away, the two first clamping and butt-joint systems 2 are controlled to drive the combined hollow optical rod to move downwards to the overflowing glue removing system 5, the overflowing solidified glue solution at the bottom of the joint of the hollow optical rod is washed away, and the finished hollow optical rod is obtained.

Example 2

Based on embodiment 1, a hollow light bar gluing device, as shown in fig. 1 and fig. 3 to 7, a first clamping and docking system 2 includes a first bearing and mounting plate 201, a first mounting frame 202, an electric lifting and retracting column 203, a first mounting table 204, a first electric telescopic rod 205, a first mounting seat 206, a second electric telescopic rod 207, a first fixed upper hook plate 208, a first fixed lower hook plate 209, a first mounting shaft 2010, a clamping block 2011, and a first torsion spring 2012; a first bearing mounting plate 201 is welded on the left side and the right side of the mounting machine bottom plate 1 respectively; the upper surfaces of the two first bearing mounting plates 201 are respectively welded with a first mounting frame 202; four electric lifting telescopic columns 203 are respectively arranged on the two first mounting racks 202; the telescopic ends of the four corresponding electric lifting telescopic columns 203 are fixedly connected with a first mounting table 204; the inner sides of the two first mounting platforms 204 are respectively connected with a first electric telescopic rod 205 through bolts; the telescopic ends of the two first electric telescopic rods 205 are respectively fixedly connected with a first mounting seat 206; two opposite sides of the two first mounting seats 206 are respectively fixedly connected with a second electric telescopic rod 207; the telescopic ends of the two second electric telescopic rods 207 are respectively fixedly connected with a first fixed upper hook plate 208; the lower parts of the two opposite sides of the two second electric telescopic rods 207 are respectively fixedly connected with a first fixed lower hook plate 209; a first mounting shaft 2010 is mounted on the front side and the rear side of each second electric telescopic rod 207; the four first mounting shaft levers 2010 are respectively connected with one clamping block 2011 in a rotating manner; a first torsion spring 2012 is respectively sleeved on the outer surfaces of the four first mounting shaft rods 2010; one end of each first torsion spring 2012 is fixedly connected with the first mounting shaft 2010, and the other end is fixedly connected with the clamping block 2011.

Each clamp block 2011 is provided with a round head 201101 and a clamping portion 201102.

The second clamping and docking system 3 comprises a second bearing mounting plate 301, a second mounting frame 302, a second mounting platform 303, a third electric telescopic rod 304, a second mounting seat 305, a fixed groove plate 306, a side ejector rod 308, a fourth electric telescopic rod 309 and a second fixed upper hook plate 3010; the front side and the rear side of the mounting machine bottom plate 1 are respectively provided with a second bearing mounting plate 301; the upper surfaces of the two second bearing mounting plates 301 are respectively welded with a second mounting frame 302; the upper sides of the two second mounting frames 302 are respectively provided with a second mounting platform 303; a third electric telescopic rod 304 is respectively arranged at the inner sides of the two second mounting platforms 303; the telescopic ends of the two third electric telescopic rods 304 are respectively fixedly connected with a second mounting seat 305; two fixed groove plates 306 are fixedly connected to the opposite sides of the two second mounting seats 305; the opposite sides of the two fixed groove plates 306 are respectively provided with a rectangular groove; two fixing groove plates 306 are respectively provided with a holding groove 307 for holding a rectangular lens of the second specification on the opposite sides; the width of the accommodation groove 307 is the same as that of the rectangular lens of the second specification; a side ejector rod 308 is welded on the left side and the right side of each fixed slot plate 306; each fixed slot plate 306 is provided with a fourth electric telescopic rod 309; the telescopic ends of the two fourth electric telescopic rods 309 are respectively and fixedly connected with a second fixed upper hook plate 3010.

The inner sides of the first fixed upper hook plate 208, the first fixed lower hook plate 209, the accommodating groove 307 and the second fixed upper hook plate 3010 are all provided with a protective pad.

When the lens holder is used, firstly, the two clamping blocks 2011 are opened towards two sides, then, a rectangular lens with a first specification is placed on the inner side of the first fixed lower hook plate 209, then, the two clamping blocks 2011 are loosened, the clamping blocks 2011 are subjected to the elastic force of the first torsion spring 2012, then, the elastic force drives the two clamping blocks 2011 to reset and rotate to clamp the rectangular lens with the first specification, the other rectangular lens with the first specification is subjected to the same operation, then, the two second electric telescopic rods 207 are controlled to contract to drive the two first fixed upper hook plates 208 to move downwards, further, the two first fixed upper hook plates 208 fix the upper parts of the two rectangular lenses, then, the two rectangular lenses with a second specification are inserted into the accommodating grooves 307 of the two fixed groove plates 306, then, the two fourth electric telescopic rods 309 are controlled to contract downwards, further, the two fourth electric telescopic rods 309 drive the two second fixed upper hook plates 3010 to move downwards, so that the two second fixing upper hook plates 3010 fix the upper portions of the two rectangular lenses of the second specification, thereby completing the fixing of the four lenses.

Example 3

On the basis of embodiment 2, a hollow optical rod gluing device, as shown in fig. 1 and fig. 8 to 15, a gluing system 4 includes an installation upright column 401, an installation ring 402, a fifth electric telescopic rod 403, a third installation base 404, a first glue storage box 405, a second glue storage box 406, a first glue inlet pipe 407, a second glue inlet pipe 408, a slide rail frame 409, a double-side sliding base 4010, a first seal plate 4011, a second seal plate 4012, a first glue absorption strip 4013, a second glue absorption strip 4014, a first glue coating membrane 4015, a second glue coating membrane 4016, a sixth electric telescopic rod 4017, a collective installation plate 8, a fork 4019, a third glue absorption strip 4020, a fourth glue absorption strip 4021, a second installation shaft lever 4022, a second torsion spring 4023, a connection seat plate 4024, a connection plate 4025 and a glue absorption pad 4026; four corners of the upper side of the mounting machine base plate 1 are respectively welded with a mounting vertical column 401; mounting rings 402 are welded at the tops of the four mounting vertical columns 401; the left side and the right side of the mounting ring 402 are respectively provided with a fifth electric telescopic rod 403; the telescopic ends of the two fifth electric telescopic rods 403 are respectively fixedly connected with a third mounting seat 404; each third mounting seat 404 is provided with a first glue storage box 405 and a second glue storage box 406; the top parts of the two first glue storage boxes 405 are respectively provided with a first glue inlet pipe 407; the tops of the two second glue storage boxes 406 are respectively provided with a second glue inlet pipe 408; a slide rail frame 409 is fixedly connected between the corresponding first glue storage box 405 and the second glue storage box 406; the middle of each of the two slide rail frames 409 is slidably connected with a bilateral slide seat 4010; a first sealing plate 4011 and a second sealing plate 4012 are respectively installed on the front side and the rear side of each double-side sliding seat 4010, and the first sealing plate 4011 and the second sealing plate 4012 are respectively contacted with the second glue storage box 406 and the first glue storage box 405; each first glue storage box 405 is connected with two first glue absorbing strips 4013; each second glue storage box 406 is connected with two second glue absorbing strips 4014; the two first glue storage boxes 405 are respectively connected with a first glue coating film 4015; the two second glue storage boxes 406 are respectively connected with a second glue coating film 4016; the middle part of the mounting ring 402 is provided with a sixth electric telescopic rod 4017; a telescopic end bolt of the sixth electric telescopic rod 4017 is connected with a set mounting plate 4018; four corners of the lower side of the assembly mounting plate 4018 are respectively provided with a glue suction assembly.

The first glue-coated membrane 4015 has micropores through which the glue solution is leached.

The glue sucking component comprises a fork 4019, a third glue sucking strip 4020, a fourth glue sucking strip 4021, a second mounting shaft rod 4022, a second torsion spring 4023, a connecting seat plate 4024, a connecting plate 4025 and a glue sucking pad 4026; four corners at the lower side of the assembly mounting plate 4018 are respectively connected with a fork frame 4019 through bolts; each fork 4019 is provided with a third rubber absorbing strip 4020; each fork 4019 is provided with a fourth rubber suction strip 4021; a second mounting shaft 4022 is mounted to the lower portion of each spider 4019; a second torsion spring 4023 is sleeved on the outer surface of each second mounting shaft 4022; each second mounting shaft 4022 is rotatably connected with a connecting seat plate 4024; one end of each second torsion spring 4023 is fixedly connected with a second mounting shaft lever 4022, and the other end of each second torsion spring 4023 is fixedly connected with a connecting seat plate 4024; the lower part of each connecting seat plate 4024 is welded with a connecting plate 4025; each connector tile 4025 has a suction pad 4026 mounted on an upper surface thereof.

The flash removal system 5 comprises a mounting rack 501, a storage box 502, a third mounting rack 503, a first round head plate 504, a fourth mounting rack 505 and a second round head plate 506; the upper surface of the mounting machine bottom plate 1 is connected with a mounting rack 501 through bolts; the middle part of the upper surface of the mounting rack 501 is provided with a storage box 502; the upper rear part and the upper front part of the storage box 502 are respectively provided with a rectangular groove which is two soaking chambers, and the width of the rectangular groove is larger than the thickness of the lens with the second specification; a third mounting frame 503 and a fourth mounting frame 505 are welded on the left side and the right side of the upper surface of the mounting rack 501 respectively; a first circular head plate 504 is welded on the front side and the rear side of the top of the third mounting frame 503 respectively; a second round head 506 plate is welded to each of the top front side and the top rear side of the fourth mounting bracket 505.

Before use, sufficient glue solution is added into a first glue storage box 405 and a second glue storage box 406 through a first glue inlet pipe 407 and a second glue inlet pipe 408, then the two third electric telescopic rods 304 are controlled to extend, the two third electric telescopic rods 304 drive the two second installation bases 305 to move close to each other, the two second installation bases 305 drive the two fixed groove plates 306 to move, the two rectangular lenses of the second specification are driven to move close to each other, when the two rectangular lenses of the second specification move to proper positions, namely the tops of the rectangular lenses of the second specification abut against the positions of a first sealing plate 4011 and a second sealing plate 4012, at the moment, the two fifth electric telescopic rods 403 are controlled to extend downwards, then the fifth electric telescopic rods 403 drive the third installation bases 404 to move downwards, namely the third installation bases 404 drive the first glue storage box 405, the second glue storage box 406, the first glue inlet pipe 407, the second glue outlet pipe 407, and the second glue outlet pipe 406, The second glue inlet tube 408 and the slide rail frame 409 move downwards, and simultaneously the first sealing plate 4011 and the second sealing plate 4012 can be intercepted at the top of the rectangular lens with the second specification, and further the first sealing plate 4011 and the second sealing plate 4012 can slide on the inner side of the slide rail frame 409 through the bilateral sliding seat 4010, namely the first sealing plate 4011 and the second sealing plate 4012 cannot move downwards synchronously along with the first glue storage box 405 and the second glue storage box 406, so that the openings of the first glue storage box 405 and the second glue storage box 406 are opened, then one side of the opening of the first glue storage box 405 and the second glue storage box 406 is contacted with the surface of the rectangular lens with the second specification and moves downwards, the first glue storage box 405 and the second glue storage box 406 are respectively attached to the left side edge and the right side edge of one surface of the rectangular lens, namely the first glue coating film 4015 and the second glue coating film 4016 are attached to the left side edge and the right side edge of the one surface of the rectangular lens, in the moving process, glue solutions in the first glue storage box 405 and the second glue storage box 406 can be leached from the first glue coating film 4015 and the second glue coating film 4016, and slowly move downwards in the leaching process, so that the glue solutions are coated on edges of two sides of the lens, when the lens is packaged and coated, the first glue absorbing strip 4013 and the second glue absorbing strip 4014 are located on two sides of a glue coating area, the surface of the lens which is also attached moves downwards, the glue solutions are ensured not to flow to positions outside the glue coating area, the glue solutions are completely located in the attachment area of the edges of the two sides of the lens, the other group of the first glue storage box 405, the second glue storage box 406, the first glue coating film 4015 and the second glue coating film 4016 perform the same operation on the other lens, and the glue coating of the two rectangular lenses with the second specification is completed.

After the gluing is finished, the two fifth electric telescopic rods 403 are controlled to move upwards to reset, so that the first glue storage box 405, the second glue storage box 406, the first glue coating film 4015 and the second glue coating film 4016 move upwards to leave the lenses, then the two first electric telescopic rods 205 are controlled to extend continuously, the two third electric telescopic rods 304 are controlled to extend, so that the two fixing groove plates 306 drive the two rectangular lenses of the second specification to move close to each other, the two second electric telescopic rods 207 drive the two rectangular lenses of the first specification to move close to each other until the four lenses are combined together, namely, the cross sections of the two rectangular lenses of the first specification are in contact with the planes of the two rectangular lenses of the second specification, namely, the two rectangular lenses of the second specification sandwich the two rectangular lenses of the first specification, and the cross sections of the two rectangular lenses of the first specification are in contact with the gluing positions of the two rectangular lenses of the second specification, simultaneously lateral part ejector pin 308 can withstand the button head 201101 of clamp splice 2011, then clamp splice 2011 rotates around first installation axostylus axostyle 2010, and clamping part 201102 opens to both sides promptly, and four lateral part ejector pins 308 can withstand the button head 201101 of four clamp splices 2011 simultaneously for four clamping parts 201102 open, make four clamp splice 2011 loosen the centre gripping fixed to the rectangular lens of two first kinds of specifications.

At this time, the contact combination of two rectangular lenses of the first specification and two rectangular lenses of the second specification is completed, and then the sixth electric telescopic rod 4017 is controlled to extend downwards, that is, the sixth electric telescopic rod 4017 drives the collective mounting plate 4018 to move downwards, so that the collective mounting plate 4018 drives four fork supports 4019 to move downwards, the fork supports 4019 move downwards to be forked on two sides of the rectangular lenses of the first specification, so that the third adhesive absorbing strip 4020 is jointed with the outer sides of the joint seams of the adjacent lenses, the fourth adhesive absorbing strip 4021 is jointed with the right-angled regions inside the joint seams of the adjacent lenses, simultaneously, the lower side surfaces of the four joint plates 4025 are respectively contacted with two first round head plates 504 and two second round head plates 506 when moving downwards, and then the four joint plates 4025 rotate upwards around the second mounting shaft 4022 through the connecting base plate 4024, that the four joint plates 4025 drive four adhesive absorbing pads 4026 to rotate upwards, and the four adhesive absorbing pads 4026 are jointed with the bottoms of the joint seams of the four lenses, the four fork supports 4019 are respectively inserted at the positions of the four joint seams to simultaneously cover the inner sides, the outer sides and the bottoms of the four joint seams, so that glue solution overflowing from the joint seams is absorbed by the third glue absorbing strips 4020, the fourth glue absorbing strips 4021 and the glue absorbing pads 4026, after the glue solution is absorbed, the fifth electric telescopic rod 403 is controlled to contract upwards, namely the four fork supports 4019 move upwards, meanwhile, the four connecting plates 4025 move upwards, the lower side surfaces of the four connecting plates 4025 leave the two first round head plates 504 and the two second round head plates 506, at the moment, due to the elasticity of the second torsion springs 4023, the four second torsion springs 4023 rebound synchronously, the connecting seat plate 4024, the connecting plate 4025 and the glue absorbing pads 4026 are driven to reset and not contact with the bottoms of the lenses any more, the four fork supports 4019 move upwards to separate from the lenses, and then stand to wait for the glue solution solidification, namely, the four lenses are completely glued.

Adding enough chemical engineering lotion into two soaking cabins of the storage box 502 to enable the liquid level of the chemical engineering lotion to be flush with the upper surface of the storage box 502, after four lenses are glued, controlling two fourth electric telescopic rods 309 to extend upwards, then driving two second fixed upper hook plates 3010 to move upwards to leave the tops of the lenses by the two fourth electric telescopic rods 309, then controlling two third electric telescopic rods 304 to contract and reset simultaneously to enable two fixed groove plates 306 to leave two rectangular lenses of a second specification, at the moment, controlling eight electric lifting telescopic columns 203 to contract downwards to drive a first mounting table 204, a first electric telescopic rod 205, a first mounting seat 206, a second electric telescopic rod 207, a first fixed upper hook plate 208, a first fixed lower hook plate 209, a first mounting shaft 2010, a clamping block 2011 and a first torsion spring 2012 to synchronously move downwards, that is, the second electric telescopic rod 207, the first fixed upper hook plate 208 and the first fixed lower hook plate 209 drive the hollow optical rod to move downwards, make the hollow optical rod move downwards to the position where the bottom surface of the hollow optical rod contacts with the chemical lotion in two soaking compartments of the storage box 502, make the bottom surface of the hollow optical rod contact with the chemical lotion, then stand, because the hollow optical rod is in the process of standing, because of gravity, the glue solution can overflow from the bottom of the joint seam of the hollow optical rod, and then after the gluing of the hollow optical rod is completed, there can be glue overflow at the bottom of the hollow optical rod, lead to the glue solution to be piled up at the bottom of the hollow optical rod, after solidification, lead to the bottom surface of the hollow optical rod to be uneven, therefore soak in the chemical lotion when the bottom of the hollow optical rod, the glue solution can be dissolved and separated by the chemical industry, make the bottom glue solution of the hollow optical rod be removed.

Example 4

On the basis of embodiment 3, a hollow light bar gluing method comprises the following steps:

the method comprises the following steps: adding materials, namely adding sufficient glue solution into the glue adding system 4, and adding sufficient glue solution cleaning agent into the glue overflow removing system 5;

step two: clamping two rectangular lenses of a first specification on two first clamping and butting systems 2, and clamping two rectangular lenses of a second specification on two second clamping and butting systems 3;

step three: gluing, wherein the two second clamping and butting systems 3 are controlled to drive the two rectangular lenses with the first specification to move close to each other to the two sides of the gluing system 4, and then the gluing system 4 glues the two rectangular lenses with the second specification;

step four: gluing, after glue solution is coated, controlling the gluing system 4 to move upwards to separate from the two rectangular lenses with the second specification, and then controlling the two first clamping and butting systems 2 and the two second clamping and butting systems 3 to drive the four rectangular lenses to approach and be butted together;

step five: absorbing glue, controlling a gluing system 4 to move downwards to absorb overflowing glue solution at the joint of the lenses, waiting for the glue solution to solidify, connecting the lenses together, and obtaining a hollow light rod after the four lenses are bonded and combined;

step six: and (3) washing glue, controlling the two second clamping and butting systems 3 to be away from each other, controlling the two first clamping and butting systems 2 to drive the combined hollow light bar to move downwards to the glue overflow removing system 5, and washing the overflow solidified glue solution at the bottom of the joint of the hollow light bar to obtain the finished hollow light bar.

While the disclosure has been described with respect to a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims

1. A hollow optical rod gluing device comprises a mounting machine bottom plate (1); the glue applying device is characterized by also comprising a first clamping and butt-joint system (2), a second clamping and butt-joint system (3), a glue applying system (4) and an overflow glue removing system (5); the left side and the right side of the mounting machine bottom plate (1) are respectively provided with a first clamping and butting system (2) for clamping and fixing the rectangular lens with the first specification; a second clamping and butting system (3) for clamping and fixing the rectangular lens with the second specification is respectively arranged on the front side and the rear side of the mounting machine bottom plate (1); a gluing system (4) for gluing the lens is arranged on the upper side of the mounting machine base plate (1); an overflow glue removing system (5) for removing the overflow glue at the bottom of the lens is arranged in the middle of the upper side of the mounting machine bottom plate (1).

2. A hollow optical rod gluing device according to claim 1, wherein: the first clamping and butting system (2) comprises a first bearing mounting plate (201), a first mounting frame (202), an electric lifting telescopic column (203), a first mounting table (204), a first electric telescopic rod (205), a first mounting seat (206), a second electric telescopic rod (207), a first fixed upper hook plate (208), a first fixed lower hook plate (209), a first mounting shaft rod (2010), a clamping block (2011) and a first torsion spring (2012); the left side and the right side of the mounting machine bottom plate (1) are respectively fixedly connected with a first bearing mounting plate (201); the upper surfaces of the two first bearing mounting plates (201) are fixedly connected with a first mounting frame (202) respectively; four electric lifting telescopic columns (203) are respectively arranged on the two first mounting racks (202); the telescopic ends of the four corresponding electric lifting telescopic columns (203) are fixedly connected with a first mounting table (204); a first electric telescopic rod (205) is fixedly connected to the inner sides of the two first mounting tables (204); the telescopic ends of the two first electric telescopic rods (205) are respectively fixedly connected with a first mounting seat (206); two opposite sides of the two first mounting seats (206) are respectively fixedly connected with a second electric telescopic rod (207); the telescopic ends of the two second electric telescopic rods (207) are respectively fixedly connected with a first fixed upper hook plate (208); the lower parts of the opposite sides of the two second electric telescopic rods (207) are respectively fixedly connected with a first fixed lower hook plate (209); a first mounting shaft rod (2010) is mounted on the front side and the rear side of each second electric telescopic rod (207); the four first mounting shaft levers (2010) are respectively connected with a clamping block (2011) in a rotating way; the outer surfaces of the four first mounting shaft rods (2010) are respectively sleeved with a first torsion spring (2012); one end of each first torsion spring (2012) is fixedly connected with the first mounting shaft lever (2010), and the other end of each first torsion spring is fixedly connected with the clamping block (2011).

3. A hollow optical rod gluing device according to claim 2, wherein: each clamping block (2011) is provided with a round head part (201101) and a clamping part (201102).

4. A hollow optical rod gluing device according to claim 3, wherein: the second clamping and butting system (3) comprises a second bearing mounting plate (301), a second mounting frame (302), a second mounting table (303), a third electric telescopic rod (304), a second mounting seat (305), a fixed groove plate (306), a side ejector rod (308), a fourth electric telescopic rod (309) and a second fixed upper hook plate (3010); a second bearing mounting plate (301) is respectively mounted on the front side and the rear side of the mounting machine bottom plate (1); the upper surfaces of the two second bearing mounting plates (301) are fixedly connected with a second mounting rack (302) respectively; a second mounting table (303) is respectively mounted on the upper sides of the two second mounting frames (302); a third electric telescopic rod (304) is respectively arranged at the inner sides of the two second mounting platforms (303); the telescopic ends of the two third electric telescopic rods (304) are respectively fixedly connected with a second mounting seat (305); the opposite sides of the two second mounting seats (305) are respectively fixedly connected with a fixed groove plate (306); the opposite sides of the two fixed groove plates (306) are respectively provided with a rectangular groove; two fixed groove plates (306) are respectively provided with a containing groove (307) for containing a rectangular lens with a second specification at the opposite sides; the width of the accommodating groove (307) is the same as that of the rectangular lens of the second specification; a side ejector rod (308) is fixedly connected to the left side and the right side of each fixed slot plate (306); each fixed groove plate (306) is provided with a fourth electric telescopic rod (309); the telescopic ends of the two fourth electric telescopic rods (309) are respectively fixedly connected with a second fixed upper hook plate (3010).

5. The gluing device of claim 4, wherein: the inner sides of the first fixed upper hook plate (208), the first fixed lower hook plate (209), the accommodating groove (307) and the second fixed upper hook plate (3010) are all provided with protective pads.

6. The gluing device of claim 5, wherein: the gluing system (4) comprises an installation vertical column (401), an installation ring (402), a fifth electric telescopic rod (403), a third installation seat (404), a first glue storage box (405), a second glue storage box (406), a first glue inlet pipe (407), a second glue inlet pipe (408), a slide rail frame (409), a bilateral sliding seat (4010), a first sealing plate (4011), a second sealing plate (4012), a first glue absorption strip (4013), a second glue absorption strip (4014), a first glue coating film (4015), a second glue coating film (4016), a sixth electric telescopic rod (4017), a set installation plate (4018), a fork frame (4019), a third glue absorption strip (4020), a fourth glue absorption strip (4021), a second installation shaft lever (4022), a second torsion spring (4023), a connection seat plate (4024), a connection plate (4025) and a glue absorption pad (4026); four corners of the upper side of the mounting machine bottom plate (1) are respectively fixedly connected with a mounting vertical column (401); the tops of the four mounting vertical columns (401) are fixedly connected with mounting rings (402); the left side and the right side of the mounting ring (402) are respectively provided with a fifth electric telescopic rod (403); the telescopic ends of the two fifth electric telescopic rods (403) are respectively fixedly connected with a third mounting seat (404); each third mounting seat (404) is provided with a first glue storage box (405) and a second glue storage box (406); the tops of the two first glue storage boxes (405) are respectively provided with a first glue inlet pipe (407); the tops of the two second glue storage boxes (406) are respectively provided with a second glue inlet pipe (408); a slide rail frame (409) is fixedly connected between the corresponding first glue storage box (405) and the second glue storage box (406); the middle of each of the two slide rail frames (409) is connected with a bilateral slide seat (4010) in a sliding way; a first sealing plate (4011) and a second sealing plate (4012) are respectively installed on the front side and the rear side of each double-side sliding seat (4010), and the first sealing plate (4011) and the second sealing plate (4012) are respectively contacted with the second glue storage box (406) and the first glue storage box (405); each first glue storage box (405) is connected with two first glue absorbing strips (4013); each second glue storage box (406) is connected with two second glue absorbing strips (4014); the two first glue storage boxes (405) are respectively connected with a first glue coating film (4015); two second glue storage boxes (406) are respectively connected with a second glue coating film (4016); a sixth electric telescopic rod (4017) is arranged in the middle of the mounting ring (402); the telescopic end of the sixth electric telescopic rod (4017) is fixedly connected with a collective mounting plate (4018); four corners of the lower side of the assembly mounting plate (4018) are respectively provided with a glue suction component.

7. The gluing device of claim 6, wherein: the first gluing film (4015) is provided with micropores for leaching glue solution.

8. The gluing device of claim 7, wherein: the glue absorbing assembly comprises a fork frame (4019), a third glue absorbing strip (4020), a fourth glue absorbing strip (4021), a second mounting shaft rod (4022), a second torsion spring (4023), a connecting seat plate (4024), a connecting joint plate (4025) and a glue absorbing pad (4026); four corners at the lower side of the assembly mounting plate (4018) are fixedly connected with a fork frame (4019) respectively; each fork frame (4019) is provided with a third adhesive absorption strip (4020); each fork frame (4019) is provided with a fourth suction rubber strip (4021); a second mounting shaft (4022) is mounted at the lower part of each fork frame (4019); a second torsion spring (4023) is sleeved on the outer surface of each second mounting shaft rod (4022); each second mounting shaft lever (4022) is rotatably connected with a connecting seat plate (4024); one end of each second torsion spring (4023) is fixedly connected with a second mounting shaft lever (4022), and the other end of each second torsion spring is fixedly connected with a connecting seat plate (4024); the lower part of each connecting seat plate (4024) is fixedly connected with a connecting plate (4025); the upper surface of each connecting plate (4025) is provided with a rubber suction pad (4026).

9. A hollow optical rod gluing device according to claim 8, wherein: the overflow glue removing system (5) comprises an installation rack (501), a storage box (502), a third installation rack (503), a first round head plate (504), a fourth installation rack (505) and a second round head plate (506); the upper surface of the mounting machine bottom plate (1) is fixedly connected with a mounting rack (501); a storage box (502) is arranged in the middle of the upper surface of the mounting rack (501); the rear part of the upper side and the front part of the upper side of the storage box (502) are respectively provided with a rectangular groove which is two soaking chambers, and the width of the rectangular groove is larger than the thickness of the lens with the second specification; a third mounting rack (503) and a fourth mounting rack (505) are fixedly connected to the left side of the upper surface and the right side of the upper surface of the mounting rack (501) respectively; a first round head plate (504) is fixedly connected to the front side and the rear side of the top of the third mounting frame (503); a second round head (506) plate is fixedly connected to the front side and the rear side of the top of the fourth mounting frame (505).

10. A method for gluing a hollow light bar, using the hollow light bar gluing device of any one of claims 1 to 9, wherein: the method comprises the following steps:

the method comprises the following steps: adding materials, namely adding sufficient glue solution into the glue adding system (4), and adding sufficient glue solution cleaning agent into the glue overflow removing system (5);

step two: clamping two rectangular lenses of a first specification on two first clamping and butting systems (2), and clamping two rectangular lenses of a second specification on two second clamping and butting systems (3);

step three: gluing, wherein the two second clamping and butting systems (3) are controlled to drive the two rectangular lenses with the first specification to mutually approach to move to two sides of the gluing system (4), and then the gluing system (4) glues the two rectangular lenses with the second specification;

step four: gluing, wherein after glue solution is coated, the gluing system (4) is controlled to move upwards to be separated from the two rectangular lenses with the second specification, and then the two first clamping and butting systems (2) and the two second clamping and butting systems (3) are controlled to drive the four rectangular lenses to approach and be butted together;

step five: absorbing glue, controlling a gluing system (4) to move downwards to absorb overflowing glue liquid at the joint of the lenses, waiting for the glue liquid to solidify, connecting the lenses together, and obtaining a hollow light rod after the four lenses are bonded and combined;

step six: and (3) washing glue, controlling the two second clamping and butting systems (3) to be away from each other, controlling the two first clamping and butting systems (2) to drive the combined hollow light bar to move downwards to the glue overflowing removing system (5), and washing overflowing solidified glue liquid at the bottom of the joint of the hollow light bar to obtain the finished hollow light bar.