CN115569950A

CN115569950A - Be suitable for ash removal device for toughened glass processing of multiple thickness

Info

Publication number: CN115569950A
Application number: CN202211301569.2A
Authority: CN
Inventors: 胡元海
Original assignee: Li County Jiaxin Tempered Glass Co ltd
Current assignee: Li County Jiaxin Tempered Glass Co ltd
Priority date: 2022-10-24
Filing date: 2022-10-24
Publication date: 2023-01-06

Abstract

The invention discloses a dust removing device applicable to processing of toughened glass with various thicknesses, and belongs to the technical field of toughened glass processing equipment.

Description

Be suitable for ash removal device for toughened glass processing of multiple thickness

Technical Field

The invention relates to the technical field of toughened glass processing equipment, in particular to a dust removing device applicable to processing toughened glass with various thicknesses.

Background

The toughened glass belongs to safety glass. The tempered glass is actually a prestressed glass, and in order to improve the strength of the glass, a chemical or physical method is usually used to form a compressive stress on the surface of the glass, and the glass firstly offsets the surface stress when bearing an external force, so that the bearing capacity is improved, and the wind pressure resistance, the cold and hot property, the impact property and the like of the glass are enhanced. The bearing capacity is increased, the brittleness is improved, small fragments without acute angles are formed even if toughened glass is damaged, and the harm to human bodies is greatly reduced. Compared with common glass, the rapid cooling and heating resistance of the toughened glass is improved by 3-5 times, can bear the temperature difference change of more than 250 ℃ generally, and has obvious effect on preventing thermal explosion.

In the toughened glass production process, its surface often is stained with impurity such as dust, need wash the operation to it, and traditional toughened glass carries on generally adsorbing toughened glass firmly to wash in carrying cleaning equipment with it through the sucking disc, and because the sucking disc is the cause, toughened glass can't play clean effect by the absorptive surface of sucking disc, and can't adjust effectively according to toughened glass's thickness in the cleaning process and be fit for required requirement and reach better cleaning effect, simultaneously after toughened glass washs the completion, after the sponge that absorbs water is avoided it to absorb water and is accomplished, can't carry out the extrusion of surface water stain and carry out effective cleanness with the cleaning member in the required toughened glass cleaning equipment with it.

Disclosure of Invention

The embodiment of the invention provides an ash removal device for processing tempered glass with various thicknesses, which aims to solve the technical problems.

The embodiment of the invention adopts the following technical scheme: including water spraying equipment, still include water receiving case, cleaning member, the sponge that absorbs water, glass conveyor, thickness adjusting device, shock attenuation extrusion device and support rolling device, glass conveyor is equipped with four, four glass conveyor sets up in horizontal plane and per two and sets up for the pile dress respectively two, the water receiving case sets up four glass conveyor's below, water spraying equipment is equipped with a plurality of, a plurality of water spraying equipment sets up the head end at the water receiving case respectively, thickness adjusting device sets up four glass conveyor's side, shock attenuation extrusion device is equipped with four, four shock attenuation extrusion device is located corresponding glass conveyor's inside respectively and all connects on thickness adjusting device, support rolling device sets up on thickness adjusting device and is located four between the glass conveyor, the cleaning member is equipped with two, two the cleaning member sets up respectively on the glass conveyor that corresponds, the sponge that absorbs water is equipped with two, two the sponge that absorbs water sets up respectively on the glass conveyor that corresponds.

Furthermore, the four glass conveying devices respectively comprise a conveying seat, a conveying motor, a conveying main shaft, conveying auxiliary shafts, conveying frames, a driving wheel, driven wheels, a conveying belt, conveying idler wheels and a conveying line body, the conveying seat is arranged on a horizontal plane, the conveying motor is arranged on the conveying seat, the conveying frames are respectively and symmetrically arranged on the horizontal plane, the conveying main shaft is arranged on the corresponding conveying frames and connected to the output end of the conveying motor in a rotating mode, the conveying auxiliary shafts are arranged on the corresponding conveying frames and connected with the corresponding conveying frames in a rotating mode, the driving wheel is arranged on the conveying main shaft, the driven wheels are arranged on the conveying auxiliary shafts, the conveying belt is sleeved on the driving wheel and the driven wheels, the conveying idler wheels are provided with two conveying idler wheels, the two conveying idler wheels are respectively sleeved on the conveying main shaft and the conveying auxiliary shafts, and the conveying line body is sleeved on the two conveying idler wheels.

Furthermore, the two cleaning pieces are respectively sleeved on corresponding conveying line bodies of the two glass conveying devices close to the plurality of water spraying equipment in the four glass conveying devices and are symmetrically arranged, and the two water-absorbing sponges are respectively sleeved on corresponding conveying line bodies of the two glass conveying devices far away from the plurality of water spraying equipment in the four glass conveying devices and are symmetrically arranged.

Further, thickness adjusting device includes thickness regulation seat, thickness regulation motor, thickness regulation gear, thickness regulation rack, thickness regulation board and cooperation slip subassembly, the thickness regulation seat sets up in the horizontal plane and is located four one side of glass conveyor, the thickness regulation motor sets up on the thickness regulation seat, the thickness regulation gear sets up on the output of thickness regulation motor, the thickness regulation rack is equipped with two, two the thickness regulation rack just is sliding fit, two for staggering the setting on the thickness regulation seat thickness regulation rack all meshes with the thickness regulation gear, the thickness regulation board is equipped with two, two the thickness regulation board sets up respectively on two thickness regulation racks, cooperation slip subassembly is connected on two thickness regulation boards.

Further, the cooperation slip subassembly includes cooperation sliding seat, cooperation sliding block, cooperation sliding plate and backup pad, the cooperation sliding seat sets up the offside at the cooperation sliding seat, the cooperation sliding block is equipped with two, two the cooperation sliding block all is equipped with on the cooperation sliding seat and for sliding fit from top to bottom, the cooperation sliding plate is equipped with two, two the cooperation sliding plate sets up respectively on two cooperation sliding blocks, the backup pad is equipped with four, four backup pad one end symmetry respectively sets up two on the both ends of cooperation sliding plate and the other end is connected respectively two on the both ends of thickness regulating plate.

Further, four shock attenuation extrusion device all includes shock attenuation stripper plate, shock attenuation extrusion spring, shock attenuation bank and shock attenuation squeeze wheel, the shock attenuation stripper plate sets up on the cooperation sliding plate that corresponds, shock attenuation extrusion spring is equipped with a plurality of, a plurality of shock attenuation extrusion spring align to grid respectively sets up on the shock attenuation stripper plate, the shock attenuation bank sets up on a plurality of shock attenuation extrusion spring, shock attenuation squeeze wheel is equipped with a plurality of, a plurality of shock attenuation squeeze wheel is arranged and is set up on the shock attenuation bank and be the rotation and connect.

Furthermore, the supporting rolling device comprises two supporting rolling frames and two supporting rolling wheels, the two supporting rolling frames are respectively arranged in the middle positions of the four supporting plates, which are located below the two supporting rolling frames, the supporting rolling wheels are arranged on the two supporting rolling frames and are in rotating connection, and the supporting rolling wheels and the conveying line bodies, which are located below the two conveying lines, in the four glass conveying devices are located at the same height.

Further, still include extrusion frame and extruded article, the extrusion frame is equipped with two, two the extrusion frame is connected on the cooperation sliding plate that corresponds and is located the upper and lower both sides that support the wheel that rolls, the extruded article is equipped with two, two the extruded article sets up respectively on two extrusion frames, two the extruded both sides all correspond towards two clean piece and two the sponge that absorbs water just is the arc setting, and towards two the arc department of clean piece is equipped with the brush.

The embodiment of the invention adopts at least one technical scheme to achieve the following beneficial effects:

firstly, when the toughened glass with different thicknesses needs to be cleaned, the thickness adjusting device is started according to the required toughened glass thickness, the thickness adjusting gear on the output end of the thickness adjusting motor is driven to rotate through the operation of the thickness adjusting motor, the thickness adjusting gear drives the two staggered thickness adjusting racks to symmetrically move, the two thickness adjusting racks symmetrically move to drive the two thickness adjusting plates to symmetrically move, the two thickness adjusting plates symmetrically move to drive the four supporting plates to symmetrically move so as to drive the corresponding damping extrusion plates to symmetrically move in the corresponding conveying line bodies, the corresponding conveying line bodies are supported and jacked up, and the distance between the two corresponding conveying line bodies is controlled, so that the distance between the two cleaning pieces is adjusted, the required position can be adjusted according to the required toughened glass thickness, and the matched sliding assembly is used for supporting the plurality of damping extrusion devices to be matched and slide.

Secondly, when the toughened glass is conveyed in the two cleaning pieces and is cleaned, the corresponding damping extrusion rollers can better clean the toughened glass through the elastic force of the plurality of damping extrusion springs, and can play a damping role in the conveying and cleaning processes of the toughened glass, so that the toughened glass is prevented from being broken and damaged due to overlarge stress, after the toughened glass is cleaned, one end of the toughened glass is conveyed to the supporting rolling wheels, the distance between the two cleaning pieces and the two suction sponges is enlarged through the connection of the supporting rolling wheels, so that the two cleaning pieces and the two suction sponges can be conveniently scraped and extruded, the toughened glass can move to the position where the cleaned toughened glass is located in the glass conveying device corresponding to the water absorption of the two sponges through the connection of the supporting rolling wheels, and the toughened glass is conveyed out, and the toughened glass can be wiped while the upper surface and the lower surface of the toughened glass can be subjected to the water absorption operation through the two water absorption sponges in the conveying process of the toughened glass, so that the toughened glass can be taken out.

When two cleaning pieces are too dirty or water stains adhered to two water-absorbing sponges are too much, the two thickness adjusting gears are driven to symmetrically move outwards by the operation of the thickness adjusting motor, at the moment, due to space factors, the damping extrusion device cannot be in contact with the corresponding conveying line body and only can move inside the conveying line body, so that two extrusion frames on the corresponding supporting plates are driven to symmetrically move outwards to synchronously drive the two extrusion pieces to move outwards, the two cleaning pieces and the two water-absorbing sponges which are sleeved on the corresponding conveying line body are also arc-shaped due to the fact that the end portions of the conveying line body are arc-shaped, the two extrusion pieces can move to the end portions of the two cleaning pieces and the two water-absorbing sponges to be in contact with the two extrusion pieces, the two extrusion pieces are arranged in an arc shape, the area is maximized when the two extrusion pieces and the two water-absorbing sponges are in contact, the corresponding conveying motors synchronously operate at the moment, the two cleaning pieces and the two water-absorbing sponges which correspond to the plurality of conveying pieces and the two water-absorbing sponges are driven to rotate, so that the two extrusion pieces on the two cleaning pieces can be scraped, the two water-absorbing sponges can be extruded to drop into the water-absorbing sponges to be extruded into the water-absorbing box, and the glass cleaning pieces can not be damaged, and the cleaning effect of water-absorbing sponges can be damaged in the cleaning box can be reduced.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic perspective view of the present invention;

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

FIG. 3 is a schematic perspective view of the glass conveying apparatus according to the present invention;

FIG. 4 is a schematic view of a partial structure of a thickness adjusting device according to the present invention;

FIG. 5 is a schematic perspective view of a thickness adjusting device according to the present invention;

FIG. 6 is a schematic perspective view of the shock-absorbing extruding apparatus of the present invention;

FIG. 7 is a schematic perspective view of a thickness adjusting device and a shock-absorbing extruding device according to the present invention;

FIG. 8 is a schematic perspective view of the rolling support device, the extrusion frame and the extrusion member according to the present invention;

FIG. 9 is a schematic perspective view of the thickness adjusting device, the support rolling device and the shock-absorbing extrusion device according to the present invention;

FIG. 10 is a schematic perspective view of the glass conveying device and the shock-absorbing press device according to the present invention.

Reference numerals

The device comprises a water spraying device 1, a water receiving box 11, a cleaning piece 12, a water absorbing sponge 13, an extrusion frame 14, an extrusion piece 15, a glass conveying device 2, a conveying seat 21, a conveying motor 22, a conveying main shaft 23, a conveying driven shaft 24, a conveying frame 25, a driving wheel 26, a driven wheel 27, a conveying belt 28, a conveying roller 29, a conveying line body 291, a thickness adjusting device 3, a thickness adjusting seat 31, a thickness adjusting motor 32, a thickness adjusting gear 33, a thickness adjusting rack 34, a thickness adjusting plate 35, a matching sliding assembly 36, a matching sliding seat 361, a matching sliding block 362, a matching sliding plate 363, a supporting plate 364, a damping extrusion device 4, a damping extrusion plate 41, a damping extrusion spring 42, a damping extrusion frame 43, a damping extrusion roller 44, a supporting rolling device 5, a supporting rolling frame 51 and a supporting rolling wheel 52.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the disclosed embodiments are merely exemplary of the invention, and are not intended to be exhaustive or exhaustive. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings.

The embodiment of the invention provides a dust removing device applicable to processing of toughened glass with multiple thicknesses, which comprises water spraying equipment 1, four glass conveying devices 2, cleaning pieces 12, water absorbing sponges 13, glass conveying devices 2, thickness adjusting devices 3, shock absorption extrusion devices 4 and supporting rolling devices 5, wherein the four glass conveying devices 2 are arranged on a horizontal plane in a pairwise symmetrical mode, every two glass conveying devices are arranged in a stacked mode, the four glass conveying devices 2 are arranged below the four glass conveying devices 2, the water spraying equipment 1 is provided with a plurality of water spraying devices 1, the water spraying devices 1 are arranged at the head ends of the water receiving boxes 11 respectively, the thickness adjusting devices 3 are arranged at the side ends of the four glass conveying devices 2, the shock absorption extrusion devices 4 are provided with four shock absorption extrusion devices 4, the four shock absorption extrusion devices 4 are arranged inside the corresponding glass conveying devices 2 respectively and are connected to the thickness adjusting devices 3, the supporting rolling devices 5 are arranged on the thickness adjusting devices 3 and are arranged between the four glass conveying devices 2, the two cleaning pieces 12 are arranged on the corresponding glass conveying devices 2 respectively, the two water absorbing sponges 12 are arranged on the corresponding glass conveying devices 2 respectively, the water absorbing sponges 13 can achieve a better cleaning effect and a better cleaning effect when the water absorbing sponges 13 are arranged on the glass conveying devices, and the glass conveying devices can continuously perform cleaning pieces, and the cleaning pieces are used for cleaning, and the cleaning pieces.

The working principle is as follows: when the tempered glass is cleaned, the head end of the tempered glass is firstly placed between two glass conveying devices 2 at a position close to a plurality of water spraying devices 1, the corresponding conveying motors 22 synchronously operate and reversely rotate inwards, at the moment, the tempered glass moves towards the direction of the supporting rolling device 5 through the two corresponding conveying line bodies 291, the two corresponding conveying line bodies 291 move to drive two cleaning pieces 12 to move, after the tempered glass is placed, the plurality of water spraying devices 1 can be started to flush the tempered glass, the upper surface and the lower surface of the tempered glass are in contact wiping through the conveying of the two cleaning pieces 12, so that the tempered glass is cleaned, when the tempered glass with different thicknesses needs to be cleaned, firstly, the thickness adjusting devices 3 are started according to the thicknesses of the required tempered glass, the thickness adjusting gears 33 on the output ends of the thickness adjusting motors 32 are driven to rotate through the operation of the thickness adjusting motors 32, the thickness adjusting gears 33 rotate to drive two staggered thickness adjusting racks 34 to symmetrically move, the two thickness adjusting racks 34 symmetrically move to drive two thickness adjusting plates 35 to symmetrically, the two supporting plates 35 symmetrically move to drive four supporting plates to symmetrically, thereby the four supporting plates 364 to symmetrically move correspondingly to push the conveying lines 41 to perform the corresponding to control the distance of the conveying devices 12, and the distance of the conveying lines 291 correspondingly to perform the corresponding to control the distance of the conveying devices 12, when the toughened glass is conveyed and cleaned in the two cleaning pieces 12, the corresponding damping extrusion rollers 44 can better clean the toughened glass through the elasticity of the plurality of damping extrusion springs 42, and can play a damping role in the conveying and cleaning processes of the toughened glass, so that the toughened glass is prevented from being broken and damaged due to overlarge stress, after the toughened glass is cleaned, one end of the toughened glass is conveyed to the supporting rolling wheels 52, the distance between the two cleaning pieces 12 and the two suction sponges is enlarged through the connection of the supporting rolling wheels 52, so that the two cleaning pieces 12 and the two suction sponges can be conveniently scraped and extruded, the toughened glass which is cleaned through the connection of the supporting rolling wheels 52 moves into the glass conveying devices 2 corresponding to the two water suction sponges 13, and the toughened glass is conveyed out, and in the process of conveying the toughened glass, the two water-absorbing sponges 13 can wipe the toughened glass, and simultaneously, the upper and lower surfaces of the toughened glass can be subjected to water-absorbing operation, so that the toughened glass is taken out, when the two cleaning pieces 12 are too dirty or water stains adhered to the two water-absorbing sponges 13 are too much, the two thickness adjusting gears 33 are driven by the operation of the thickness adjusting motor 32 to symmetrically move outwards, and at the moment, due to space factors, the damping and extruding device 4 cannot be in contact with the corresponding conveying line 291 and only can move inside the conveying line 291, so that the two extruding frames 14 on the corresponding supporting plate 364 are driven to symmetrically move outwards, the two extruding pieces 15 are driven to move outwards synchronously, and because the end part of the conveying line 291 is in an arc state, the two cleaning pieces 12 and the two sponges 13 sleeved on the corresponding conveying line 291 are also in an arc shape, thereby make two extrusions 15 move the tip and its contact of two cleaning pieces 12 and two sponges 13 that absorb water, set up for the arc through two extrusions 15, the area is in the maximize when contacting with two cleaning pieces 12 and two sponges 13 that absorb water, and the conveying motor 22 synchronous operation that corresponds this moment, two cleaning pieces 12 and two sponges 13 that absorb water that drive a plurality of transfer line 291 correspondence rotate, thereby can strike off the dirty on two cleaning pieces 12 through two extrusions 15, and to two sponges 13 that absorb water extrude its surface water stain and drop to store in the water receiving tank 11, thereby in the clean process of follow-up toughened glass, can not influence two cleaning pieces 12 and cross dirty or two sponges 13 that absorb water and absorb water the effect variation and influence the clean quality of toughened glass.

Preferably, the four glass conveying devices 2 each include a conveying base 21, a conveying motor 22, a conveying main shaft 23, a conveying driven shaft 24, a conveying frame 25, a driving wheel 26, a driven wheel 27, a conveying belt 28, a conveying roller 29 and a conveying line body 291, the conveying base 21 is disposed on a horizontal plane, the conveying motor 22 is disposed on the conveying base 21, the conveying frame 25 is provided with a plurality of conveying frames 25, the plurality of conveying frames 25 are symmetrically disposed on the horizontal plane, the conveying main shaft 23 is disposed on the corresponding conveying frame 25 and connected to the output end of the conveying motor 22, the conveying driven shaft 24 is disposed on the corresponding conveying frame 25 and rotatably connected to the corresponding conveying frame 25, the driving wheel 26 is disposed on the conveying main shaft 23, the driven wheel 27 is disposed on the conveying driven shaft 24, the conveying belt 28 is disposed on the driving wheel 26 and the driven wheel 27, the conveying roller 29 is provided with two conveying rollers 29, the two conveying rollers 29 are respectively disposed on the conveying main shaft 23 and the conveying roller 24, the conveying roller 291 is rotatably driven by the driving main shaft 26, the driving wheel 26 rotates, the driving wheel 29 rotates, and the driving roller 27 rotates the driven wheel 29 rotates, and the conveying roller 27 rotates.

Preferably, the two cleaning pieces 12 are respectively sleeved on corresponding conveying line bodies 291 of two of the four glass conveying devices 2 close to the plurality of water spraying devices 1 and are symmetrically arranged, the two water-absorbing sponges 13 are respectively sleeved on corresponding conveying line bodies 291 of two of the four glass conveying devices 2 far away from the plurality of water spraying devices 1 and are symmetrically arranged, when the tempered glass is cleaned, the head end of the tempered glass is firstly placed between the two glass conveying devices 2 close to the plurality of water spraying devices 1, the tempered glass synchronously runs through the corresponding conveying motors 22 and rotates reversely inwards, the tempered glass moves towards the direction supporting the rolling device 5 through the two corresponding conveying line bodies 291 at the moment, the two corresponding conveying line bodies 291 move to drive the two cleaning pieces 12 to move, after the tempered glass is placed, the plurality of water spraying devices 1 can be started to flush the tempered glass, and the upper surface and the lower surface of the tempered glass are contacted and wiped through the conveying of the two cleaning pieces 12, so that the tempered glass is cleaned.

Preferably, thickness adjusting device 3 includes thickness regulation seat 31, thickness regulation motor 32, thickness regulation gear 33, thickness regulation rack 34, thickness regulation board 35 and cooperation sliding assembly 36, thickness regulation seat 31 sets up in the horizontal plane and is located four one side of glass conveyor 2, thickness regulation motor 32 sets up on thickness regulation seat 31, thickness regulation gear 33 sets up on thickness regulation motor 32's output, thickness regulation rack 34 is equipped with two, two thickness regulation rack 34 just is sliding fit for staggering the setting on thickness regulation seat 31, two thickness regulation rack 34 all meshes with thickness regulation gear 33, thickness regulation board 35 is equipped with two, two thickness regulation board 35 sets up respectively on two thickness regulation racks 34, cooperation sliding assembly 36 connects on two thickness regulation boards 35.

Preferably, the matching sliding assembly 36 includes a matching sliding seat 361, two matching sliding blocks 362, two matching sliding plates 363 and a supporting plate 364, the matching sliding seat 361 is disposed at an opposite side of the matching sliding seat 361, the two matching sliding blocks 362 are disposed on the matching sliding seat 361 and are in up-and-down sliding fit, the two matching sliding plates 363 are disposed on the two matching sliding blocks 362 respectively, the supporting plate 364 is four, one end of the four supporting plates 364 is symmetrically disposed at two ends of the two matching sliding plates 363 respectively, the other end of the four supporting plates 364 is connected to two ends of the two thickness adjusting plates 35 respectively, when it is required to clean the tempered glass with different thicknesses, the thickness adjusting device 3 is started according to the required tempered glass thickness, the thickness adjusting gear 33 at the output end of the thickness adjusting motor 32 is driven to rotate by the thickness adjusting motor 32, the thickness adjusting gear 33 rotates to drive the two staggered thickness adjusting racks 34 to symmetrically move, the two thickness adjusting racks 34 symmetrically move to drive the two thickness adjusting plates 35 to move symmetrically, the two thickness adjusting plates 35 symmetrically move to drive the four supporting plates 364 to move symmetrically, so that the distance of the conveying line body is controlled by the two conveying devices 12, and the conveying line body is pushed to move symmetrically, thereby controlling the distance of the conveying line 291, and the conveying line body 12.

Preferably, four the shock absorption extrusion devices 4 all include shock absorption extrusion plate 41, shock absorption extrusion spring 42, shock absorption extrusion frame 43 and shock absorption extrusion roller 44, the shock absorption extrusion plate 41 sets up on the cooperation sliding plate 363 that corresponds, shock absorption extrusion spring 42 is equipped with a plurality of, a plurality of shock absorption extrusion spring 42 is align to grid respectively and sets up on shock absorption extrusion plate 41, shock absorption extrusion frame 43 sets up on a plurality of shock absorption extrusion spring 42, shock absorption extrusion roller 44 is equipped with a plurality of, a plurality of shock absorption extrusion roller 44 is arranged and is set up on shock absorption extrusion frame 43 and is the rotation connection, when toughened glass carries and clean the operation in two cleaning members 12, the shock absorption extrusion roller 44 that corresponds can play clean effect to toughened glass better through the elasticity of a plurality of shock absorption extrusion spring 42, can also play absorbing effect simultaneously in toughened glass carries and clean process, has avoided the toughened glass atress to be too big to cause breakage and damage.

Preferably, the supporting and rolling device 5 includes two supporting and rolling frames 51 and two supporting and rolling wheels 52, the two supporting and rolling frames 51 are respectively disposed at the middle positions of two of the four supporting plates 364 located below, the supporting and rolling wheels 52 are disposed on the two supporting and rolling frames 51 and are rotatably connected, the supporting and rolling wheels 52 are at the same height as the two conveying line bodies 291 located below in the four glass conveying devices 2, after the tempered glass is cleaned, one end of the tempered glass is conveyed to the supporting and rolling wheels 52, the distance between the two cleaning members 12 and the two suction sponges is enlarged by the connection of the supporting and rolling wheels 52, so that the two cleaning members 12 and the two suction sponges are conveniently scraped and squeezed, the tempered glass can be moved into the glass conveying devices 2 corresponding to the two water-absorbing sponges 13 by the connection of the supporting and rolling wheels 52, and the tempered glass can be conveyed out, and the tempered glass can be wiped by the two water-absorbing sponges 13 in the conveying process, and the tempered glass can be taken out again.

Preferably, the cleaning device further comprises two extrusion frames 14 and two extrusion pieces 15, the two extrusion frames 14 are connected to corresponding matching sliding plates 363 and located above and below the supporting rolling wheels 52, the two extrusion pieces 15 are respectively arranged on the two extrusion frames 14, two extruded two sides are respectively arranged towards the two cleaning pieces 12 and the two water-absorbing sponges 13 correspondingly and are in an arc shape, brushes are arranged at the arc positions towards the two cleaning pieces 12, when the two cleaning pieces 12 are polluted too much or the water stains adhered to the two water-absorbing sponges 13 are too much, the two thickness adjusting gears 33 are driven by the operation of the thickness adjusting motor 32 to symmetrically move outwards, and at the moment, due to space factors, the damping extrusion device 4 cannot be in contact with the corresponding conveying 291 and only can move in the inner wire body, thereby driving the two extrusion frames 14 on the corresponding support plate 364 to move outwards symmetrically and synchronously driving the two extrusion pieces 15 to move outwards, because the end part of the conveying line 291 is in an arc shape, and the two cleaning pieces 12 and the two water-absorbing sponges 13 sleeved on the corresponding conveying line 291 are also in an arc shape, so that the two extrusion pieces 15 move to the end parts of the two cleaning pieces 12 and the two water-absorbing sponges 13 to contact with the cleaning pieces, the area is maximized when the two extrusion pieces 15 are in contact with the two cleaning pieces 12 and the two water-absorbing sponges 13, and at the moment, the corresponding conveying motor 22 synchronously operates to drive the two cleaning pieces 12 and the two water-absorbing sponges 13 corresponding to the plurality of conveying lines 291 to rotate, so that the two extrusion pieces 15 can scrape off the dirt on the two cleaning pieces 12 and extrude the two water-absorbing sponges 13 to extrude the surface water stains to fall into the water receiving tank 11 for storage, therefore, in the subsequent toughened glass cleaning process, the condition that the two cleaning pieces 12 are too dirty or the water absorption effect of the two water absorption sponges 13 is poor so as not to influence the toughened glass cleaning quality is avoided.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.

Claims

1. The ash removal device for processing the toughened glass suitable for various thicknesses comprises water spraying equipment (1) and is characterized by further comprising four water receiving boxes (11), cleaning pieces (12), water absorbing sponges (13), glass conveying devices (2), thickness adjusting devices (3), shock absorption extrusion devices (4) and supporting rolling devices (5), wherein the four glass conveying devices (2) are symmetrically arranged on the horizontal plane in pairs respectively, every two glass conveying devices are arranged in a stacking mode, the water receiving boxes (11) are arranged below the four glass conveying devices (2), the water spraying equipment (1) is provided with a plurality of water spraying devices (1), the water spraying equipment (1) is arranged at the head end of the water receiving boxes (11) respectively, the thickness adjusting devices (3) are arranged at the side ends of the four glass conveying devices (2), the shock absorption extrusion devices (4) are provided with four shock absorption extrusion devices (4), the four shock absorption extrusion devices (4) are arranged inside the corresponding glass conveying devices (2) respectively and are connected to the thickness adjusting devices (3), the supporting devices (5) are arranged on the rolling adjusting devices (3), the four glass conveying devices (2) are arranged between the cleaning pieces (12), and the two glass conveying devices (2) are arranged on the cleaning pieces (12), the two water absorption sponges (13) are arranged on the corresponding glass conveying device (2) respectively.

2. The ash removal device for processing tempered glass applicable to various thicknesses as recited in claim 1, wherein each of the four glass conveying devices (2) comprises a conveying base (21), a conveying motor (22), a conveying main shaft (23), a conveying driven shaft (24), a conveying rack (25), a driving wheel (26), a driven wheel (27), a conveying belt (28), conveying rollers (29) and a conveying line body (291), the conveying base (21) is arranged on a horizontal plane, the conveying motor (22) is arranged on the conveying base (21), the conveying rack (25) is provided with a plurality of conveying rollers (25), the plurality of conveying racks (25) are respectively and symmetrically arranged on the horizontal plane, the conveying main shaft (23) is arranged on the corresponding conveying rack (25) and connected to an output end of the conveying motor (22) in a rotating manner through the corresponding conveying driven shaft (25), the conveying driven shaft (24) is arranged on the corresponding conveying rack (25) and is in rotating connection with the corresponding conveying rack, the driving wheel (26) is arranged on the conveying main shaft (23), the driven wheel (27) is arranged on the conveying main shaft (24), the conveying roller (28) is sleeved on the two conveying rollers (29), and the conveying belt (29) are arranged on the two conveying main shaft (29), the conveying line body (291) is sleeved on the two conveying rollers (29).

3. The ash removal device suitable for processing toughened glass with various thicknesses as claimed in claim 2, wherein two of said cleaning members (12) are respectively sleeved on corresponding conveyor line bodies (291) of two of said glass conveyor devices (2) at positions of said four glass conveyor devices (2) close to said plurality of water spraying apparatuses (1) and are symmetrically arranged, and two of said water-absorbing sponges (13) are respectively sleeved on corresponding conveyor line bodies (291) of two of said glass conveyor devices (2) far from said plurality of water spraying apparatuses (1) and are symmetrically arranged.

4. The ash removal device for processing tempered glass applicable to various thicknesses as claimed in claim 1, wherein the thickness adjusting device (3) comprises a thickness adjusting seat (31), a thickness adjusting motor (32), a thickness adjusting gear (33), a thickness adjusting rack (34), a thickness adjusting plate (35) and a matching sliding assembly (36), the thickness adjusting seat (31) is arranged on a horizontal plane and located on one side of the four glass conveying devices (2), the thickness adjusting motor (32) is arranged on the thickness adjusting seat (31), the thickness adjusting gear (33) is arranged on an output end of the thickness adjusting motor (32), the thickness adjusting rack (34) is provided with two thickness adjusting racks (34) which are arranged on the thickness adjusting seat (31) in a staggered mode and are in sliding fit, the two thickness adjusting racks (34) are meshed with the thickness adjusting gear (33), the two thickness adjusting plates (35) are arranged on the two thickness adjusting racks (34), and the matching sliding assembly (36) is connected to the two thickness adjusting plates (35).

5. The ash removal device for processing tempered glass applicable to various thicknesses as claimed in claim 4, wherein the matching sliding assembly (36) comprises a matching sliding seat (361), a matching sliding block (362), a matching sliding plate (363) and supporting plates (364), the matching sliding seat (361) is arranged at the opposite side of the matching sliding seat (361), two matching sliding blocks (362) are arranged on the matching sliding seat (361) and are in up-and-down sliding fit, two matching sliding plates (363) are arranged, two matching sliding plates (363) are respectively arranged on the two matching sliding blocks (362), four supporting plates (364) are arranged, one end of each supporting plate (364) is symmetrically arranged at two ends of each matching sliding plate (363), and the other end of each supporting plate is connected to two ends of each thickness adjusting plate (35).

6. The ash removal device suitable for processing tempered glass with various thicknesses as claimed in claim 5, wherein each of the four damping extrusion devices (4) comprises a damping extrusion plate (41), a damping extrusion spring (42), a damping extrusion frame (43) and a damping extrusion roller (44), the damping extrusion plates (41) are arranged on corresponding matched sliding plates (363), a plurality of damping extrusion springs (42) are arranged, the damping extrusion springs (42) are respectively and uniformly arranged on the damping extrusion plate (41), the damping extrusion frame (43) is arranged on the damping extrusion springs (42), the damping extrusion roller (44) is arranged on the damping extrusion frame (43), and the damping extrusion rollers (44) are arranged on the damping extrusion frame (43) and are all rotatably connected.

7. The ash removal device suitable for processing tempered glass with various thicknesses as claimed in claim 5, wherein the supporting and rolling device (5) comprises two supporting and rolling frames (51) and two supporting and rolling wheels (52), the two supporting and rolling frames (51) are respectively arranged at two lower middle positions of the four supporting plates (364), the supporting and rolling wheels (52) are arranged on the two supporting and rolling frames (51) and are rotatably connected, and the supporting and rolling wheels (52) and two lower conveyor line bodies (291) of the four glass conveying devices (2) are at the same height.

8. The ash removal device suitable for processing the toughened glass with multiple thicknesses as claimed in claim 7, further comprising two extrusion frames (14) and two extrusion pieces (15), wherein the two extrusion frames (14) are connected to corresponding matched sliding plates (363) and located above and below the supporting rolling wheels (52), the two extrusion pieces (15) are arranged on the two extrusion frames (14), the two extrusion pieces (15) are respectively arranged on the two extrusion frames (14), the two extruded sides are respectively arranged towards the two cleaning pieces (12) and the two water-absorbing sponges (13) and are both in an arc shape, and brushes are arranged towards the arc-shaped parts of the two cleaning pieces (12).