CN115648788B - Radiation-resistant multi-layer glass bonding device - Google Patents

Abstract

The invention discloses an irradiation-resistant multi-layer glass bonding device, which relates to the technical field of glass bonding and comprises the following components: the device comprises a shell, a feed inlet, a discharge outlet and a sealing plate; the inside of the shell is provided with a bonding device which is used for bonding the multiple layers of glass; a cleaning device is arranged on one side of the shell close to the feed inlet; the cleaning device is used for cleaning the surface of the glass; in the process that the glass enters the shell, the cleaning device immediately cleans the surface of the glass, so that dust and impurities on the surface of the glass are removed, the phenomenon that the bonding surface of the glass is empty in the bonding process due to the fact that dust and impurities remain on the surface of the glass is avoided, the bonding quality of the multi-layer glass is affected, and the bonding quality of the glass is improved; when the glass moves to the inside of the shell, the bonding device glues and bonds the surface of the glass, so that the bonding efficiency of the glass is improved.

Description

Radiation-resistant multi-layer glass bonding device

Technical Field

The invention relates to the technical field of glass bonding, in particular to a radiation-resistant multi-layer glass bonding device.

Background

The glass is an amorphous inorganic material which is prepared by taking quartz sand, calcined soda, feldspar, limestone and the like as main raw materials and carrying out melting, forming, cooling and solidification; the glass has the transparency which is difficult to be provided with by common materials, has excellent mechanical property and thermal property, and is continuously developed to a multifunctional direction along with the development requirement of modern buildings, so that the glass has multiple functions and multiple layers of glass are required to be bonded; the existing glass bonding is manual gluing bonding, production efficiency is low, and bubbles are generated when glass is bonded, so that the bonding quality of the glass is affected, and the bonding surface of the multi-layer glass is fallen.

Disclosure of Invention

The invention aims to provide an irradiation-resistant multi-layer glass bonding device which is used for solving the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme:

an irradiation-resistant multiple layer glass bonding apparatus comprising: the feeding device comprises a shell, wherein a feeding hole is formed in the side wall of the shell, a discharging hole is formed in the top of the shell, a sealing plate is arranged on one side, away from the shell, of the feeding hole, and the sealing plate is in sliding connection with the outer wall of the shell through a pulley; the inside of the shell is provided with a bonding device which is used for bonding the multiple layers of glass; a cleaning device is arranged on one side of the shell close to the feed inlet; the cleaning device is used for cleaning the surface of the glass;

the controller controls the telescopic clamping plate to start, and the telescopic clamping plate clamps the irradiation-resistant glass; the irradiation-resistant glass moves under the action of the telescopic clamping plate, the irradiation-resistant glass moves to one side close to the feed inlet, enters the inside of the shell through the feed inlet, and meets the cleaning device in the process that the glass enters the inside of the shell, the cleaning device immediately cleans the surface of the glass, dust impurities on the surface of the irradiation-resistant glass are removed, dust impurities are prevented from remaining on the surface of the irradiation-resistant glass, the phenomenon that the bonding surface of the irradiation-resistant glass is empty in the bonding process is caused, so that the bonding quality of the irradiation-resistant multi-layer glass is influenced, and the bonding quality of the irradiation-resistant glass is improved; when the irradiation-resistant glass moves to the inside of the shell, the bonding device glues and bonds the surface of the irradiation-resistant glass, so that the bonding efficiency of the irradiation-resistant glass is improved, when the irradiation-resistant glass is bonded, the controller controls the sealing plate to move, the sealing plate moves to the position of the feed inlet, the feed inlet is closed by the sealing plate, and after the irradiation-resistant glass is bonded, the irradiation-resistant glass is conveyed out through the discharge outlet.

Preferably, the bonding device includes: the support frame is arranged inside the shell, extension plates are symmetrically arranged on the side walls of the support frame, a slideway is arranged on the inner wall of the shell, a spring is arranged on the extension plate, one end of the spring is connected with the inner wall of the slideway, and the support frame is in sliding connection with the shell through the extension plates and the slideway; the bottom of the support frame is provided with a push plate, and one side of the push plate far away from the support frame is provided with a hydraulic cylinder; the support frame is of a C-shaped structure; the top of the supporting frame is communicated with the discharge port.

Preferably, the support frame includes: the upper support frame and the lower support frame are symmetrically arranged; a telescopic plate is arranged on one side of the upper support frame and the lower support frame, which are opposite; the expansion plate expands and contracts through a spring; the surface of the expansion plate is provided with a plurality of air holes, an air pump is arranged outside the shell, and the air holes are connected with the air pump through pipelines.

Preferably, a gluing device is arranged on one side of the upper support frame and one side of the lower support frame, which are close to the expansion plate; the gumming device includes: the spraying box is internally provided with a micropump, and is arranged between the upper supporting frame and the lower supporting frame; the upper end and the lower end of the spraying box are symmetrically provided with spraying grooves, and the two sides of the spraying box are symmetrically provided with sliding rods; the sliding rod is of a telescopic structure; the sliding groove is formed in the surface of one side, close to the expansion plate, of the supporting frame, and the sliding rod is connected with the sliding groove in a sliding mode through a pulley.

Preferably, a glue storage tank is arranged on one side, far away from the feed inlet, of the spraying tank, a conveying belt is arranged between the glue storage tank and the spraying tank, an extrusion rod is arranged in the conveying belt, an extrusion plate is arranged on the outer wall of the glue storage tank, and the extrusion plate is connected with the extrusion rod; a conveying pipe is arranged in the conveying belt; one end of the conveying pipe is communicated with the glue storage box, and the other end of the conveying pipe is communicated with the spraying box;

the upper glass and the lower glass which are cleaned move under the drive of the telescopic clamping plates, the upper glass moves into the upper supporting frame, the lower glass moves into the lower supporting frame, a gap exists between the upper supporting frame and the lower supporting frame at the moment, when the middle glass moves towards the supporting frame, the arc plate is jacked to two sides in the moving process of the middle glass, the arc plate drives the upper supporting frame and the lower supporting frame to move in the jacking process of the arc plate, the upper supporting frame and the lower supporting frame drive the extension plate to move along the inner wall of the shell, the upper supporting frame and the lower supporting frame respectively move to one side far away from the supporting frame, and the telescopic plate is driven to move in the moving process of the upper supporting frame and the lower supporting frame, so that the telescopic plate is in a mutual contact state; the middle layer glass then enters a gap between the upper support frame and the lower support frame;

in the process that the middle layer glass moves to the shell, the side wall of the middle layer glass is contacted with the spraying box, then when the middle layer glass moves, the spraying box is pushed to move, in the process that the spraying box moves, the sliding rod is driven to move, the sliding rod moves along the sliding groove, and the sliding rod moves to one side far away from the feed inlet; when the spraying box moves, the spraying box pushes the conveying belt to move, in the pushing process of the spraying box, the extrusion rod in the conveying belt is extruded, the extrusion plate is pushed under the action of the spraying box, the extrusion plate moves to one side far away from the conveying belt, the extrusion plate extrudes the glue storage box, the pressure in the glue storage box is increased at the moment, the adhesive glue in the glue storage box enters a pipeline in the conveying belt, the adhesive glue enters the spraying box through the pipeline and is then conveyed into the spraying groove through the spraying box, and glue is coated on the lower surface of upper glass and the upper surface of lower glass through the spraying groove, so that glue spraying is realized in the glass moving process, the time for bonding the multi-layer glass is saved, and the bonding efficiency of the multi-layer glass is improved; when the middle layer glass enters the supporting frame, the spraying box moves to the farthest end away from the feeding hole;

when the equipment starts, firstly, the laminated glass subjected to glue coating treatment is not subjected to pressing treatment, then the laminated glass is moved to one side of a rotating plate, which is close to a discharge hole, under the action of a hydraulic cylinder, and then a first piece of laminated glass stays between the discharge hole and the rotating plate; then, the air enters the second piece of multi-layer glass through the feeding hole, after the gluing of the second piece of multi-layer glass is finished, the controller controls the sealing plate to be closed, the sealing plate is matched with the sealing strip on the rotating plate, the controller controls the air pump to start, the air pump pumps the air in the shell outwards, the air in the shell enters the pipeline through the air hole and is conveyed into the air pump through the pipeline, and the air in the bonding surface of the multi-layer glass is discharged; the air in the shell is discharged, so that the inside of the shell is in a negative pressure state, the outside of the shell is in a normal pressure state, at the moment, the multi-layer glass positioned on one side of the rotating plate close to the discharge hole extrudes the rotating plate under the action of gravity, and meanwhile, the external air pressure extrudes towards one side close to the rotating plate under the action of atmospheric pressure, and after the rotating plate is extruded, the born pressure is applied to the surface of the multi-layer glass in the shell, so that the multi-layer glass in the shell is pressed and fixed in the process of removing bubbles on the bonding surface; after the multi-layer glass is bonded, the controller controls the sealing plate to be opened, so that normal pressure is restored in the shell, and then the controller controls the hydraulic cylinder to move the multi-layer glass to one side close to the discharge hole.

Preferably, a rotating plate is arranged on one side of the upper support frame far away from the lower support frame, and a blocking block is arranged on one side of the rotating plate close to the push plate; two sides of the push plate are hinged with rotary plates, and one side of the rotary plate, which is close to the hydraulic cylinder, is provided with a stop block; the surface of the rotating plate is provided with a sealing strip;

when the multi-layer glass is bonded, the controller controls the hydraulic cylinder to start, the hydraulic cylinder in the hydraulic cylinder pushes the pushing plate to move, the pushing plate drives the multi-layer glass to move to one side far away from the hydraulic cylinder, the pushing plate pushes the multi-layer glass to move to the discharge hole, and in the moving process of the pushing plate, the rotating plate is driven to move, and as the bottom of the rotating plate is provided with the stop block, the rotating plate can lift the multi-layer glass to move in the moving process; in the moving process of the multilayer glass, the rotating plate is pushed to rotate by the multilayer glass, the rotating plate rotates to one side close to the discharge hole, after the rotating plate rotates, the multilayer glass can be smoothly sent out from the supporting frame, when the pushing plate moves to the upper side of the rotating plate, the rotating plate loses support and then resets, after the rotating plate resets, the controller controls the hydraulic cylinder to recover, the hydraulic cylinder in the hydraulic cylinder drives the pushing plate to reset, in the resetting process of the pushing plate, the pushing plate encounters the blocking of the rotating plate, then the rotating plate rotates under the action of the rotating plate, the rotating plate rotates to one side far away from the pushing plate, the pushing plate smoothly resets, when the rotating plate leaves the surface of the rotating plate, and then the rotating plate resets, and the pushing plate drives the rotating plate to reset; after the push plate is reset, the conveyed multi-layer glass is pressed on the surface of the rotating plate, and the rotating plate lifts the multi-layer glass due to the blocking block arranged at the bottom of the rotating plate; the sealing strips on the rotating plate are pressed by the multi-layer glass, so that the sealing performance of the inside of the shell is improved. When the multilayer glass is placed on the surface of the rotating plate, the multilayer glass close to one side of the feeding hole is overlapped one by one, and certain gravity is applied to the lowest multilayer glass by the upper glass, so that the pressure maintaining of the lowest multilayer glass is realized, the adhesion of the multilayer glass is further enhanced, and the adhesion quality of the multilayer glass is improved.

Preferably, a telescopic clamping plate is arranged on one side of the upper support frame and the lower support frame, which is close to the feed inlet, and a sucking disc is arranged on one side of the telescopic clamping plate, which is close to the feed inlet; an air pump is arranged outside the shell; the sucking disc is connected with an air pump through a pipeline.

Preferably, the cleaning device includes: the arc-shaped plates are symmetrically arranged on the side wall of the support frame; the two arc-shaped plate arc-shaped bottom surfaces are arranged in opposite directions, a cleaning push is arranged on the arc-shaped bottom surface of the arc-shaped plate, a spray header is arranged on one side, far away from the feed inlet, of the cleaning push, a cleaning tank is arranged outside the shell, a water pump is arranged in the cleaning tank, and the spray header is communicated with the water pump through a pipeline; one end of the arc-shaped plate, which is far away from the feed inlet, is provided with a cleaning roller, and the cleaning roller is rotationally connected with the arc-shaped plate;

when the upper glass and the lower glass move towards the inside of the shell, the controller controls the telescopic clamping plate to start, the telescopic clamping plate moves towards one side close to the feed inlet, after the sucker contacts with the side walls of the upper glass and the lower glass, the controller controls the air pump to start, the air pump pumps air in the sucker outwards, so that the sucker clamps the upper glass and the lower glass firmly, and when the upper glass and the lower glass move, the lower surface of the upper glass and the upper surface of the lower glass contact with the cleaning roller, and the cleaning roller cleans dust impurities on the lower surface of the upper glass and the upper surface of the lower glass;

when the upper glass and the lower glass move into the supporting frame, the external clamping device drives the middle glass to move towards the inside of the shell, the middle glass passes through between the two arc plates, in the moving process of the middle glass, the two arc plates are propped open by the middle glass, the two arc plates move towards one side far away from the middle glass, in the moving process of the middle glass, the water pump is controlled by the controller to start, the water pump drives water in the cleaning tank to convey cleaning water to the spray header through the pipeline, and then the spray header sprays outwards, the sprayed cleaning water cleans the surface of the middle glass, and then when the middle glass moves, the surface of the middle glass is contacted with the cleaning push, the cleaning push scrapes the residual cleaning water on the surface of the middle glass, so that the surface of the middle glass is clean, dust impurities are prevented from falling on the surface of the glass, the adhesion of the middle glass is affected, and the quality of glass adhesion is improved; the cleaned middle layer glass enters a gap between the upper layer glass and the lower layer glass; and then the controller controls the air pump to start, and the air pump pumps outside air into the sucker, so that the sucker is separated from the upper glass layer and the lower glass layer.

Compared with the prior art, the invention has the following beneficial effects:

1. in the process that the spraying case promoted, the extrusion pole in the extrusion conveyer belt, the extrusion pole promotes the stripper plate under the effect of spraying case, the stripper plate moves to one side of keeping away from the conveyer belt, the extrusion of stripper plate stores up gluey case, store up gluey incasement pressure increase this moment, the bonding glue of storing up in the gluey incasement gets into the pipeline in the conveyer belt, the bonding glue gets into the spraying case through the pipeline, carry to the spraying inslot through the spraying case afterwards, glue up upper glass's lower surface and lower glass's upper surface through the spraying groove for at the in-process that glass removed, realized the spraying of glue, saved the time that multiple glazing bonds, improved multiple glazing bonding's efficiency.

2. The controller controls the closing of the sealing plate, the sealing strip on sealing plate and the rotating plate are mutually matched, the controller controls the sucking pump to start, the sucking pump pumps air in the shell outwards, the air in the shell enters the pipeline through the air hole and is conveyed into the sucking pump through the pipeline, so that air in the bonding surface of the multi-layer glass is discharged, better bonding of the multi-layer glass is facilitated, and bonding quality of the multi-layer glass is improved.

3. In the process that middle level glass removed, the controller control water pump starts, the water pump drives the water in the clean jar and carries, clean water passes through the pipeline and carries to the shower head, outwards blowout through the shower head afterwards, the spun clean water cleans middle level glass's surface, when middle level glass removed afterwards, middle level glass's surface and clean push away the contact, clean push away the remaining clean water in middle level glass surface for middle level glass surface is clean, avoid dust impurity to fall on the glass surface, thereby influence the bonding of multiple layer glass, and then improved the quality that glass bonded.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a main body diagram of the present invention;

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

FIG. 3 is a schematic view of the structure of the lower support frame and the hydraulic cylinder;

FIG. 4 is a schematic side elevational view of the present invention;

FIG. 5 is a schematic structural view of a support frame;

FIG. 6 is a side view of the support bracket;

FIG. 7 is a schematic cross-sectional view of a support bracket;

fig. 8 is an enlarged view at a in fig. 4.

In the figure: 1. a housing; 11. a feed inlet; 12. a discharge port; 13. a sealing plate;

2. a bonding device; 21. a support frame; 211. an extension plate; 22. a push plate; 221. a rotating plate; 23. a hydraulic cylinder; 24. an upper support frame; 25. a lower support frame; 26. a telescoping plate; 261. a gas cavity; 27. a rotating plate;

3. a cleaning device; 31. an arc-shaped plate; 32. cleaning and pushing; 33. a spray header; 34. a cleaning roller;

4. a gluing device; 41. a spraying box; 42. a spraying groove; 43. a slide bar; 44. a chute; 45. a glue storage box; 451. an extrusion plate; 46. and (3) a conveyor belt.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-8, the present invention provides the following technical solutions:

an irradiation-resistant multiple layer glass bonding apparatus comprising: the device comprises a shell 1, wherein a feed inlet 11 is formed in the side wall of the shell 1, a discharge outlet 12 is formed in the top of the shell 1, a sealing plate 13 is arranged on one side, away from the shell 1, of the feed inlet 11, and the sealing plate 13 is in sliding connection with the outer wall of the shell 1 through a pulley; a bonding device 2 is arranged in the shell 1, and the bonding device 2 is used for bonding the multiple layers of glass; a cleaning device 3 is arranged on one side of the shell 1 close to the feed inlet 11; the cleaning device 3 is used for cleaning the surface of the glass;

the controller controls the telescopic clamping plate to start, and the telescopic clamping plate clamps the glass; the glass moves under the action of the telescopic clamping plate, the glass moves to the side close to the feed inlet 11, the glass enters the shell 1 through the feed inlet 11, the glass surface meets the cleaning device 3 in the process of entering the shell 1, the cleaning device 3 immediately cleans the glass surface, dust and impurities on the glass surface are removed, dust and impurities are prevented from remaining on the glass surface, and the bonding surface of the glass is free in the bonding process; when glass moves to the inside of casing 1, bonding device 2 carries out the rubber coating and bonds glass surface, and when glass carries out the in-process of bonding, the closing plate 13 is moved to the position of feed inlet 11 to the closing plate 13, when glass bonds the back, and glass carries out through discharge gate 12.

As a specific embodiment of the present invention, the bonding device 2 includes: the support frame 21, the support frame 21 sets up inside casing 1, the symmetry is provided with extension board 211 on the support frame 21 lateral wall, set up the slide on the casing 1 inner wall, be provided with the spring on the extension board 211, the slide inner wall is connected to one end of spring, support frame 21 is through extension board 211 and slide and casing 1 sliding connection; a push plate 22 is arranged at the bottom of the support frame 21, and a hydraulic cylinder 23 is arranged at one side of the push plate 22 away from the support frame 21; the support frame 21 is of a C-shaped structure; the top of the supporting frame 21 is communicated with the discharge port 12.

As an embodiment of the present invention, the supporting frame 21 includes: an upper support frame 24 and a lower support frame 25, wherein the upper support frame 24 and the lower support frame 25 are symmetrically arranged; a telescopic plate 26 is arranged on one side of the upper support frame 24, which is opposite to the lower support frame 25; the expansion plate 26 expands and contracts through a spring; the surface of the expansion plate 26 is provided with a plurality of air holes 261, an air pump is arranged outside the shell 1, and the air holes 261 are connected with the air pump through pipelines.

As a specific embodiment of the present invention, the upper support frame 24 and the lower support frame 25 are provided with a glue spreading device 4 at one side close to the expansion plate 26; the gumming device 4 comprises: a spraying box 41, wherein a micropump is arranged in the spraying box 41, and the spraying box 41 is arranged between the upper supporting frame 24 and the lower supporting frame 25; the upper end and the lower end of the spraying box 41 are symmetrically provided with spraying grooves 42, and the two sides of the spraying box 41 are symmetrically provided with sliding rods 43; the sliding rod 43 is of a telescopic structure; a sliding groove 44 is formed in the surface of one side, close to the expansion plate 26, of the supporting frame 21, and the sliding rod 43 is slidably connected with the sliding groove 44 through a pulley.

As a specific embodiment of the present invention, a glue storage tank 45 is disposed on a side of the spraying tank 41 away from the feed inlet 11, a conveyor belt 46 is disposed between the glue storage tank 45 and the spraying tank 41, an extrusion rod is disposed in the conveyor belt 46, an extrusion plate 451 is disposed on an outer wall of the glue storage tank 45, and the extrusion plate 451 is connected with the extrusion rod; a conveying pipe is arranged in the conveying belt 46; one end of the conveying pipe is communicated with the glue storage tank 45, and the other end of the conveying pipe is communicated with the spraying tank 41;

the cleaned upper glass and lower glass move under the drive of the telescopic clamping plates, the upper glass moves into the upper support frame 24, the lower glass moves into the lower support frame 25, a gap exists between the upper support frame 24 and the lower support frame 25 at the moment, when the middle glass moves towards the support frame 21, in the process of moving the middle glass, the arc plate 31 is jacked towards two sides, in the process of jacking the arc plate 31, the arc plate 31 drives the upper support frame 24 and the lower support frame 25 to move, the upper support frame 24 and the lower support frame 25 drive the extension plate 211 to move along the inner wall of the shell 1, the upper support frame 24 and the lower support frame 25 respectively move towards one side far away from the support frame 21, and in the process of moving the upper support frame 24 and the lower support frame 25, the extension plate 26 is driven to move, so that the extension plate 26 is in a mutual contact state; the middle layer glass then enters the gap between the upper support frame 24 and the lower support frame 25;

in the process of moving the middle layer glass into the shell 1, the side wall of the middle layer glass is contacted with the spraying box 41, then when the middle layer glass moves, the spraying box 41 is pushed to move, in the process of moving the spraying box 41, the sliding rod 43 is driven to move, the sliding rod 43 moves along the sliding groove 44, and the sliding rod 43 moves to one side far away from the feeding hole 11; when the spraying box 41 moves, the spraying box 41 pushes the conveying belt 46 to move, in the pushing process of the spraying box 41, the extrusion rod in the conveying belt 46 is extruded, the extrusion rod pushes the extrusion plate 451 under the action of the spraying box 41, the extrusion plate 451 moves to the side far away from the conveying belt 46, the extrusion plate 451 extrudes the glue storage box 45, at the moment, the pressure in the glue storage box 45 is increased, the adhesive in the glue storage box 45 enters a pipeline in the conveying belt 46, the adhesive enters the spraying box 41 through the pipeline, then the micro pump in the spraying box 41 is controlled to be started by the controller, and the micro pump drives the adhesive to move towards the spraying groove 42; the adhesive is then conveyed to a spraying groove 42 by a micropump in a spraying box 41, and the lower surface of the upper glass layer and the upper surface of the lower glass layer are coated with adhesive by the spraying groove 42, so that the spraying of the adhesive is realized in the moving process of the glass; after the middle glass enters the supporting frame 21, the spraying box 41 moves to the farthest end from the feeding hole 11;

when the equipment starts, firstly, the laminated glass subjected to the gluing treatment is not subjected to the pressing treatment, then the laminated glass is moved to one side of a rotating plate 27, which is close to a discharge hole 12, under the action of a hydraulic cylinder 23, and then a first piece of laminated glass stays between the discharge hole 12 and the rotating plate 27; then, the second piece of multi-layer glass enters the feeding hole 11, after the gluing of the second piece of multi-layer glass is finished, the controller controls the sealing plate 13 to be closed, the sealing plate 13 is matched with the sealing strip on the rotating plate 27, the controller controls the air pump to start, the air pump pumps the air in the shell 1 outwards, the air in the shell 1 enters the pipeline through the air hole 261 and is conveyed into the air pump through the pipeline, and the air in the bonding surface of the multi-layer glass is discharged; because the air in the shell 1 is discharged, the shell 1 is in a negative pressure state, and the outside of the shell 1 is in a normal pressure state, at the moment, the multi-layer glass positioned on one side of the rotating plate 27 close to the discharge hole 12 extrudes the rotating plate 27 under the action of gravity, and meanwhile, under the action of atmospheric pressure, the external air pressure extrudes towards one side close to the rotating plate 27, and after the rotating plate 27 is extruded, the born pressure is applied to the surface of the multi-layer glass in the shell 1, so that the multi-layer glass in the shell 1 is pressed and fixed in the process of removing bubbles on the bonding surface; when the multi-layer glass is bonded, the controller controls the sealing plate 13 to be opened, so that the normal pressure in the shell 1 is restored, and then the controller controls the hydraulic cylinder 23 to move the multi-layer glass to the side close to the discharge hole 12.

As a specific embodiment of the present invention, a rotating plate 27 is disposed on a side of the upper support frame 24 away from the lower support frame 25, and a blocking block is disposed on a side of the rotating plate 27 close to the push plate 22; a rotary plate 221 is hinged to two sides of the push plate 22, and a stop block is arranged on one side, close to the hydraulic cylinder 23, of the rotary plate 221; the surface of the rotating plate 27 is provided with a sealing strip;

when the multi-layer glass is bonded, the controller controls the hydraulic cylinder 23 to start, the hydraulic cylinder 23 in the hydraulic cylinder 23 pushes the push plate 22 to move, the push plate 22 drives the multi-layer glass to move to one side far away from the hydraulic cylinder 23, the push plate 22 pushes the multi-layer glass to move to the discharge hole 12, and in the moving process of the push plate 22, the rotating plate 221 is driven to move, and as the stop block is arranged at the bottom of the rotating plate 221, the rotating plate 221 can lift the multi-layer glass to move in the moving process; in the moving process of the multi-layer glass, the multi-layer glass pushes the rotating plate 27 to rotate, the rotating plate 27 rotates to the side close to the discharge hole 12, after the rotating plate 27 rotates, the multi-layer glass can be smoothly sent out from the supporting frame 21, when the pushing plate 22 moves to the upper side of the rotating plate 27, the rotating plate 27 loses support, then the rotating plate 27 resets, after the rotating plate 27 resets, the controller controls the hydraulic cylinder 23 to recycle, the hydraulic cylinder 23 in the hydraulic cylinder 23 drives the pushing plate 22 to reset, in the resetting process of the pushing plate 22, the pushing plate 22 is blocked by the rotating plate 27, then the rotating plate 221 rotates under the action of the rotating plate 27, the rotating plate 221 rotates to the side far away from the pushing plate 22, the rotating plate 221 rotates, the pushing plate 22 smoothly resets, when the rotating plate 221 leaves the surface of the rotating plate 27, then the rotating plate 221 resets, and the pushing plate 22 drives the rotating plate 221 to reset; after the push plate 22 is reset, the conveyed multi-layer glass is pressed on the surface of the rotating plate 27, and the rotating plate 27 lifts the multi-layer glass due to the blocking block arranged at the bottom of the rotating plate 27; the laminated glass presses the sealing strip on the rotating plate 27, improving the sealing property inside the case 1. When the multilayer glass is placed on the surface of the rotating plate, the multilayer glass close to one side of the feeding hole is overlapped one by one, and certain gravity is applied to the lowest multilayer glass by the upper glass, so that pressure maintaining of the lowest multilayer glass is realized.

As a specific embodiment of the present invention, a telescopic clamping plate is disposed on one side of the upper support frame 24 and the lower support frame 25, which is close to the feed inlet 11, and a suction cup is disposed on one side of the telescopic clamping plate, which is close to the feed inlet 11; an air pump is arranged outside the shell 1; the sucking disc is connected with an air pump through a pipeline.

As a specific embodiment of the present invention, the cleaning device 3 includes: the arc-shaped plates 31, wherein the arc-shaped plates 31 are symmetrically arranged on the side wall of the supporting frame 21; the arc-shaped bottom surfaces of the two arc-shaped plates 31 are arranged in opposite directions, a cleaning push 32 is arranged on the arc-shaped bottom surface of the arc-shaped plate 31, a spray header 33 is arranged on one side, far away from the feed inlet 11, of the cleaning push 32, a cleaning tank is arranged outside the shell 1, a water pump is arranged in the cleaning tank, and the spray header 33 is communicated with the water pump through a pipeline; a cleaning roller 34 is arranged at one end of the arc-shaped plate 31 far away from the feed inlet 11, and the cleaning roller 34 is rotationally connected with the arc-shaped plate 31;

when the upper glass and the lower glass move towards the inside of the shell 1, the controller controls the telescopic clamping plate (the telescopic clamping plate is composed of a plate, a sucker and a telescopic rod on the plate, the telescopic rod is driven by an electric cylinder, the sucker is communicated with the air pump through a pipeline), the telescopic clamping plate moves towards one side close to the feed inlet 11, after the sucker contacts with the side walls of the upper glass and the lower glass, the controller controls the air pump to start, the air pump pumps air in the sucker outwards, so that the sucker clamps the upper glass and the lower glass firmly, and when the upper glass and the lower glass move, the lower surface of the upper glass and the upper surface of the lower glass contact with the cleaning roller 34, and the cleaning roller 34 cleans dust impurities on the lower surface of the upper glass and the upper surface of the lower glass;

when the upper glass and the lower glass move into the supporting frame 21, an external clamping device (which belongs to the prior art and is pushed by a hydraulic cylinder, a driving wheel is arranged at the bottom of the device, the glass moves along the driving wheel under the action of the hydraulic cylinder) drives the middle glass to move towards the inside of the shell 1, the middle glass passes through between the two arc plates 31, the two arc plates 31 are propped open by the middle glass in the moving process of the middle glass, the two arc plates 31 move towards one side far away from the middle glass, a water pump is controlled by a controller to start in the moving process of the middle glass, the water pump drives water in a cleaning tank to convey cleaning water to a spray header 33 through a pipeline, then the sprayed cleaning water is sprayed outwards through the spray header 33, and then the surface of the middle glass is contacted with a cleaning push 32 when the middle glass moves, and the cleaning push 32 scrapes the residual cleaning water on the surface of the middle glass, so that the surface of the middle glass is clean; the cleaned middle layer glass enters a gap between the upper layer glass and the lower layer glass; and then the controller controls the air pump to start, and the air pump pumps outside air into the sucker, so that the sucker is separated from the upper glass layer and the lower glass layer.

The working principle of the invention is as follows:

when the equipment starts, firstly, the laminated glass subjected to the gluing treatment is not subjected to the pressing treatment, then the laminated glass is moved to one side of a rotating plate 27, which is close to a discharge hole 12, under the action of a hydraulic cylinder 23, and then a first piece of laminated glass stays between the discharge hole 12 and the rotating plate 27; and then into the second piece of multiple glass through the feed port 11;

when the upper glass and the lower glass in the second glass move towards the inside of the shell 1, the controller controls the telescopic clamping plate to start, the telescopic clamping plate moves towards one side close to the feed inlet 11, after the sucking disc contacts with the side walls of the upper glass and the lower glass, the controller controls the air pump to start, the air pump pumps the air in the sucking disc outwards, so that the sucking disc clamps the upper glass and the lower glass firmly, and when the upper glass and the lower glass move, the lower surface of the upper glass and the upper surface of the lower glass contact with the cleaning roller 34, and the cleaning roller 34 cleans dust impurities on the lower surface of the upper glass and the upper surface of the lower glass;

when the upper glass and the lower glass move into the supporting frame 21, the external clamping device drives the middle glass to move towards the inside of the shell 1, the middle glass passes through between the two arc plates 31, in the moving process of the middle glass, the middle glass pushes the two arc plates 31 open, the two arc plates 31 move towards the side far away from the middle glass, in the moving process of the middle glass, the controller controls the water pump to start, the water pump drives water in the cleaning tank to convey cleaning water to the spray header 33 through a pipeline, then the spray header 33 sprays outwards, the sprayed cleaning water cleans the surface of the middle glass, then when the middle glass moves, the surface of the middle glass contacts with the cleaning push 32, and the cleaning push 32 scrapes residual cleaning water on the surface of the middle glass, so that the surface of the middle glass is clean;

the cleaned upper glass and lower glass move under the drive of the telescopic clamping plates, the upper glass moves into the upper support frame 24, the lower glass moves into the lower support frame 25, a gap exists between the upper support frame 24 and the lower support frame 25 at the moment, when the middle glass moves towards the support frame 21, in the process of moving the middle glass, the arc plate 31 is jacked towards two sides, in the process of jacking the arc plate 31, the arc plate 31 drives the upper support frame 24 and the lower support frame 25 to move, the upper support frame 24 and the lower support frame 25 drive the extension plate 211 to move along the inner wall of the shell 1, the upper support frame 24 and the lower support frame 25 respectively move towards one side far away from the support frame 21, and in the process of moving the upper support frame 24 and the lower support frame 25, the extension plate 26 is driven to move, so that the extension plate 26 is in a mutual contact state; the middle layer glass then enters the gap between the upper support frame 24 and the lower support frame 25; the cleaned middle layer glass enters a gap between the upper layer glass and the lower layer glass; then the controller controls the air pump to start, and the air pump pumps outside air into the sucker, so that the sucker is separated from the upper glass and the lower glass;

in the process of moving the middle layer glass into the shell 1, the side wall of the middle layer glass is contacted with the spraying box 41, then when the middle layer glass moves, the spraying box 41 is pushed to move, in the process of moving the spraying box 41, the sliding rod 43 is driven to move, the sliding rod 43 moves along the sliding groove 44, and the sliding rod 43 moves to one side far away from the feeding hole 11; when the spraying box 41 moves, the spraying box 41 pushes the conveying belt 46 to move, in the pushing process of the spraying box 41, the extrusion rod in the conveying belt 46 is extruded, the extrusion rod pushes the extrusion plate 451 under the action of the spraying box 41, the extrusion plate 451 moves to the side far away from the conveying belt 46, the extrusion plate 451 extrudes the glue storage box 45, at the moment, the pressure in the glue storage box 45 is increased, the adhesive glue in the glue storage box 45 enters a pipeline in the conveying belt 46, the adhesive glue enters the spraying box 41 through the pipeline, then is conveyed into the spraying groove 42 through the spraying box 41, and the adhesive glue is coated on the lower surface of the upper glass and the upper surface of the lower glass through the spraying groove 42, so that in the moving process of the glass, the adhesive glue spraying is realized; after the middle glass enters the supporting frame 21, the spraying box 41 moves to the farthest end from the feeding hole 11;

when the gluing of the second piece of multi-layer glass is finished, the controller controls the sealing plate 13 to be closed, the sealing plate 13 is matched with the sealing strip on the rotating plate 27, the controller controls the air pump to be started, the air pump pumps the air in the shell 1 outwards, the air in the shell 1 enters a pipeline through the air hole 261 and is conveyed into the air pump through the pipeline, and the air in the bonding surface of the multi-layer glass is discharged; because the air in the shell 1 is discharged, the shell 1 is in a negative pressure state, and the outside of the shell 1 is in a normal pressure state, at the moment, the multi-layer glass positioned on one side of the rotating plate 27 close to the discharge hole 12 extrudes the rotating plate 27 under the action of gravity, and meanwhile, under the action of atmospheric pressure, the external air pressure extrudes towards one side close to the rotating plate 27, and after the rotating plate 27 is extruded, the born pressure is applied to the surface of the multi-layer glass in the shell 1, so that the multi-layer glass in the shell 1 is pressed and fixed in the process of removing bubbles on the bonding surface; when the multi-layer glass is bonded, the controller controls the sealing plate 13 to be opened, so that normal pressure in the shell 1 is restored, and then the controller controls the hydraulic cylinder 23 to move the multi-layer glass to the side close to the discharge hole 12;

when the multi-layer glass is bonded, the controller controls the hydraulic cylinder 23 to start, the hydraulic cylinder 23 in the hydraulic cylinder 23 pushes the push plate 22 to move, the push plate 22 drives the multi-layer glass to move to one side far away from the hydraulic cylinder 23, the push plate 22 pushes the multi-layer glass to move to the discharge hole 12, and in the moving process of the push plate 22, the rotating plate 221 is driven to move, and as the stop block is arranged at the bottom of the rotating plate 221, the rotating plate 221 can lift the multi-layer glass to move in the moving process; in the moving process of the multi-layer glass, the multi-layer glass pushes the rotating plate 27 to rotate, the rotating plate 27 rotates to the side close to the discharge hole 12, after the rotating plate 27 rotates, the multi-layer glass can be smoothly sent out from the supporting frame 21, when the pushing plate 22 moves to the upper side of the rotating plate 27, the rotating plate 27 loses support, then the rotating plate 27 resets, after the rotating plate 27 resets, the controller controls the hydraulic cylinder 23 to recycle, the hydraulic cylinder 23 in the hydraulic cylinder 23 drives the pushing plate 22 to reset, in the resetting process of the pushing plate 22, the pushing plate 22 is blocked by the rotating plate 27, then the rotating plate 221 rotates under the action of the rotating plate 27, the rotating plate 221 rotates to the side far away from the pushing plate 22, the rotating plate 221 rotates, the pushing plate 22 smoothly resets, when the rotating plate 221 leaves the surface of the rotating plate 27, then the rotating plate 221 resets, and the pushing plate 22 drives the rotating plate 221 to reset; after the push plate 22 is reset, the conveyed multi-layer glass is pressed on the surface of the rotating plate 27, and the rotating plate 27 lifts the multi-layer glass due to the blocking block arranged at the bottom of the rotating plate 27; the laminated glass presses the sealing strip on the rotating plate 27, improving the sealing property inside the case 1. When the multilayer glass is placed on the surface of the rotating plate, the multilayer glass close to one side of the feeding hole is overlapped one by one, and certain gravity is applied to the lowest multilayer glass by the upper glass, so that pressure maintaining of the lowest multilayer glass is realized.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (2)

1. An irradiation-resistant multi-layer glass bonding device is characterized in that: comprising the following steps: the automatic feeding device comprises a shell (1), wherein a feed inlet (11) is formed in the side wall of the shell (1), a discharge outlet (12) is formed in the top of the shell (1), a sealing plate (13) is arranged on one side, far away from the shell (1), of the feed inlet (11), and the sealing plate (13) is connected with the outer wall of the shell (1) in a sliding manner through a pulley; a bonding device (2) is arranged in the shell (1), and the bonding device (2) is used for bonding the multiple layers of glass; a cleaning device (3) is arranged on one side of the shell (1) close to the feed inlet (11); the cleaning device (3) is used for cleaning the surface of the glass;

the bonding device (2) comprises: the support frame (21), support frame (21) sets up inside casing (1), the symmetry is provided with extension board (211) on support frame (21) lateral wall, set up the slide on casing (1) inner wall, be provided with the spring on extension board (211), the slide inner wall is connected to one end of spring, support frame (21) are through extension board (211) and slide and casing (1) sliding connection; a push plate (22) is arranged at the bottom of the support frame (21), and a hydraulic cylinder (23) is arranged at one side of the push plate (22) away from the support frame (21); the supporting frame (21) is of a C-shaped structure; the top of the supporting frame (21) is communicated with the discharge port (12);

the support (21) comprises: the upper support frame (24) and the lower support frame (25), wherein the upper support frame (24) and the lower support frame (25) are symmetrically arranged; a telescopic plate (26) is arranged on one side of the upper support frame (24) and the lower support frame (25) which are opposite; the expansion plate (26) expands and contracts through a spring; a plurality of air holes (261) are formed in the surface of the expansion plate (26), an air pump is arranged outside the shell (1), and the air holes (261) are connected with the air pump through pipelines;

a rotating plate (27) is arranged on one side, far away from the lower support frame (25), of the upper support frame (24), and a blocking block is arranged on one side, close to the push plate (22), of the rotating plate (27); the two sides of the push plate (22) are hinged with rotating plates (221), and one side of the rotating plates (221) close to the hydraulic cylinder (23) is provided with a stop block; the surface of the rotating plate (27) is provided with a sealing strip;

a gluing device (4) is arranged on one side of the upper support frame (24) and one side of the lower support frame (25) close to the expansion plate (26); the gumming device (4) comprises: the spraying box (41), the miniature pump is arranged in the spraying box (41), and the spraying box (41) is arranged between the upper supporting frame (24) and the lower supporting frame (25); the upper end and the lower end of the spraying box (41) are symmetrically provided with spraying grooves (42), and the two sides of the spraying box (41) are symmetrically provided with sliding rods (43); the sliding rod (43) is of a telescopic structure; a sliding groove (44) is formed in the surface of one side, close to the expansion plate (26), of the supporting frame (21), and the sliding rod (43) is connected with the sliding groove (44) in a sliding mode through a pulley;

a glue storage tank (45) is arranged on one side, far away from the feed inlet (11), of the spraying tank (41), a conveying belt (46) is arranged between the glue storage tank (45) and the spraying tank (41), an extrusion rod is arranged in the conveying belt (46), an extrusion plate (451) is arranged on the outer wall of the glue storage tank (45), and the extrusion plate (451) is connected with the extrusion rod; a conveying pipe is arranged in the conveying belt (46); one end of the conveying pipe is communicated with the glue storage box (45), and the other end of the conveying pipe is communicated with the spraying box (41);

the cleaning device (3) comprises: the arc-shaped plates (31) are symmetrically arranged on the side wall of the supporting frame (21); the two arc-shaped bottom surfaces of the arc-shaped plates (31) are arranged in opposite directions, a cleaning push (32) is arranged on the arc-shaped bottom surface of the arc-shaped plate (31), a spray header (33) is arranged on one side, far away from the feed inlet (11), of the cleaning push (32), a cleaning tank is arranged outside the shell (1), a water pump is arranged in the cleaning tank, and the spray header (33) is communicated with the water pump through a pipeline; one end of the arc-shaped plate (31) far away from the feeding hole (11) is provided with a cleaning roller (34), and the cleaning roller (34) is rotationally connected with the arc-shaped plate (31).

2. The radiation resistant multiple layer glass bonding device according to claim 1, wherein: a telescopic clamping plate is arranged on one side, close to the feed inlet (11), of the upper support frame (24) and the lower support frame (25), and a sucking disc is arranged on one side, close to the feed inlet (11), of the telescopic clamping plate; an air pump is arranged outside the shell (1); the sucking disc is connected with an air pump through a pipeline.