CN114409278B - Antifog cavity glass processing device - Google Patents

Abstract

The present disclosure provides an antifog cavity glass processing device, including: the circular drying cylinder is provided with a spacing heat-insulating interlayer on the inner side, and an inner annular wall is arranged on the inner side of the spacing heat-insulating interlayer; the horizontal conveying frame is arranged outside the feeding opening; the annular rotating frame is arranged in the sealed drying bin, and annular gear rings are arranged around the front side and the rear side of the annular rotating frame; the horizontal bearing frame is uniformly and circumferentially arranged on the outer side of the annular rotating frame in a surrounding mode. According to the invention, the round drying cylinder is used as a drying space of the glass plate, the glass plate can be conveyed into the inside of the round drying cylinder, and the glass plate is supported by the horizontal bearing frame which is arranged on the annular rotating frame in the round drying cylinder in a surrounding manner, so that the glass plate is conveyed in the round drying cylinder in a surrounding manner through the annular rotating frame, the whole volume of the round drying cylinder can be greatly reduced while the conveying drying time is ensured, the occupied area of the round drying cylinder is reduced, and the heat loss is reduced to reduce the energy consumption.

Description

Antifog cavity glass processing device

Technical Field

The disclosure relates to the technical field of hollow glass processing, in particular to an anti-fog hollow glass processing device.

Background

The hollow glass is made up by using several glass sheets, using high-strength high-air-tightness composite adhesive to bond glass sheets and aluminium alloy frame containing drying agent, and making them into high-effective sound-insulating heat-insulating glass.

The applicant found that in the production process of hollow glass, glass plates need to be treated before production, no water vapor for cleaning is left on the surfaces of the glass plates, the surfaces of the glass plates are in a dry and clean state, the glass plates need to be dried, and when the glass plates are dried at present, the upper and lower surfaces of the glass plates are cleaned and dried by high-pressure air when the glass plates are conveyed, but in order to keep the drying quality, the treatment device needs to convey the glass plates in drying equipment for a longer time, so that the problems of larger overall size, more occupied space and higher energy consumption of a drying box are caused.

Disclosure of Invention

Accordingly, an object of the present disclosure is to provide an anti-fog hollow glass processing device, which solves the problems of larger overall size, more occupied space and higher energy consumption of the drying box caused by the longer time for conveying the glass plate in the drying box in order to maintain the drying quality.

Based on the above object, the present disclosure provides an antifog hollow glass processing device, comprising:

the circular drying cylinder is characterized in that an interval heat-insulating interlayer is arranged on the inner side of the circular drying cylinder, an inner annular wall is arranged on the inner side of the interval heat-insulating interlayer, an annular guide rail is arranged on the inner side wall of the inner annular wall, a sealed drying bin is arranged in the inner annular wall, a feeding opening is horizontally arranged on the side surface of the circular drying cylinder, and a discharging opening is arranged on the lower side of the feeding opening in parallel;

the horizontal conveying frame is arranged at the outer side of the feeding opening, a conveying chute is arranged in the middle of the horizontal conveying frame, a plurality of bearing rollers are uniformly and parallelly arranged at the inner side of the conveying chute, and a plurality of lateral rollers are uniformly and parallelly arranged in the middle of the conveying chute;

the air outlet is arranged at the front side of the circular drying cylinder, an exhaust fan is arranged at the inner side of the air outlet, an air inlet is arranged at the rear side of the circular drying cylinder, a filtering and protecting net is arranged in the middle of the air inlet, annular heating fins are arranged at the inner side of the air inlet, and a plurality of electric heating pipes are arranged in the middle of the annular heating fins;

the annular rotating frame is arranged in the sealed drying bin, annular gear rings are arranged around the front side and the rear side of the annular rotating frame, a central rotating shaft is arranged at the center of the annular rotating frame, a spacing bearing is arranged at the shaft end of the central rotating shaft, a supporting bracket is arranged on the outer side of the spacing bearing, a driving motor is arranged at the bottom of the supporting bracket, and a driving gear is arranged at the shaft end of the driving motor;

the horizontal bearing frame is circumferentially and uniformly arranged on the outer side of the annular rotating frame in a surrounding mode, a jogging chute is arranged in the middle of the horizontal bearing frame, a plurality of clamping rollers are uniformly and parallelly arranged on the inner side of the jogging chute, a plurality of limit rollers are uniformly and parallelly arranged in the middle of the jogging chute, and guide rollers are arranged on the outer side of the horizontal bearing frame;

the blanking guide frame is arranged on the inner side of the discharging opening, a blanking friction belt is arranged in the middle of the blanking guide frame, a blanking driving roller is arranged on the inner side of the blanking friction belt, and a blanking motor is arranged at the shaft end of the blanking driving roller.

In some alternative embodiments, the outer side of the discharging opening is also provided with a horizontal conveying frame, and the horizontal conveying frame arranged at the outer side of the feeding opening and the horizontal conveying frame arranged at the outer side of the discharging opening are parallel to each other.

In some alternative embodiments, the horizontal center line of the conveying chute is perpendicular to the axial center line of the bearing roller, and the axial center line of the lateral roller is perpendicular to the axial center line of the bearing roller.

In some alternative embodiments, the shaft end of the lateral roller is provided with a synchronous belt pulley, the outer side of the synchronous belt pulley is provided with a driving belt pulley, the rear end of the driving belt pulley is provided with a conveying motor, and the shaft end of the driving belt pulley is provided with a conveying motor.

In some alternative embodiments, the horizontal center line of the circular drying cylinder and the horizontal center line of the air draft fan are positioned on the same straight line, the horizontal center line of the annular heating fin and the horizontal center line of the air draft fan are positioned on the same straight line, and the horizontal center line of the air inlet and the horizontal center line of the air outlet are positioned on the same straight line.

In some alternative embodiments, the annular rotating frame is rotatably connected with the support bracket through the central rotating shaft and the interval bearing, and the annular gear ring and the driving gear are meshed with each other to form a transmission mechanism.

In some alternative embodiments, the rear end of the jogging chute is provided with a touch top plate, the rear side of the touch top plate is provided with a return spring, and the left side and the right side of the touch top plate are symmetrically provided with jogging ejector rods.

In some alternative embodiments, the outer end of the horizontal bearing frame is provided with a limit sleeve, the inner side of the limit sleeve is provided with a limit stop in a jogged sliding manner, the middle of the limit stop is provided with a jogged clamping groove, and the rear side of the limit stop is provided with a locking spring.

In some alternative embodiments, the inner side surface of the touch top plate is perpendicular to the horizontal center line of the embedded sliding groove, and the embedded ejector rod and the embedded clamping groove are matched in size.

In some optional embodiments, arc unlocking magnets are symmetrically arranged on the left side and the right side of the blanking guide frame, linkage magnets are arranged at the rear ends of the limit stops, and adjacent magnetic poles between the arc unlocking magnets and the linkage magnets are different.

From the above, it can be seen that, the antifog hollow glass processing device provided by the disclosure, through the circular drying cylinder that sets up as the dry space of glass board, the glass board can carry into its inside, the horizontal carrier that encircles the setting on the annular swivel mount that sets up through its inside carries out the bearing, make the glass board can carry around in the circular drying cylinder through annular swivel mount, thereby can reduce the whole volume of circular drying cylinder greatly when guaranteeing to carry the dry time length, in order to reduce its area, and reduce its external surface area, reduce the heat loss and in order to reduce the energy consumption, simultaneously the glass board is through the double-deck horizontal carrier that the homonymy set up in order to carry into circular drying cylinder, or carry out by wherein, and the horizontal carrier can block the side edge department of glass board through carrying the spout, and carry the transportation to the glass board through carrying gyro wheel and side gyro wheel, the glass board has the contact with the horizontal carrier only edge, so can carry the glass board, can not scratch glass board tow sides, it is more convenient and flexible to use.

Drawings

In order to more clearly illustrate the technical solutions of the present disclosure or related art, the drawings required for the embodiments or related art description will be briefly described below, and it is apparent that the drawings in the following description are only embodiments of the present disclosure, and other drawings may be obtained according to these drawings without inventive effort to those of ordinary skill in the art.

FIG. 1 is a schematic diagram of a front structure of an embodiment of the present disclosure;

FIG. 2 is a schematic view of the internal structure of a circular dryer cartridge according to an embodiment of the present disclosure;

FIG. 3 is a schematic cross-sectional view of a circular dryer cartridge according to an embodiment of the present disclosure;

FIG. 4 is a schematic structural view of a horizontal carrier in accordance with an embodiment of the present disclosure;

FIG. 5 is an exploded view of an annular spin stand according to an embodiment of the present disclosure;

FIG. 6 is a schematic elevational view of an annular spin stand according to an embodiment of the present disclosure;

FIG. 7 is a schematic cross-sectional view of a horizontal carrier of an embodiment of the present disclosure;

fig. 8 is a partial schematic view of a horizontal carrier in accordance with an embodiment of the present disclosure.

Detailed Description

For the purposes of promoting an understanding of the principles and advantages of the disclosure, reference will now be made in detail to the following specific examples.

It should be noted that unless otherwise defined, technical or scientific terms used in the embodiments of the present disclosure should be given the ordinary meaning as understood by one of ordinary skill in the art to which the present disclosure pertains. The terms "first," "second," and the like, as used in embodiments of the present disclosure, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that elements or items preceding the word are included in the element or item listed after the word and equivalents thereof, but does not exclude other elements or items. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", etc. are used merely to indicate relative positional relationships, which may also be changed when the absolute position of the object to be described is changed.

The present disclosure, an antifog cavity glass processing device includes:

the circular drying cylinder 1, the inner side of the circular drying cylinder 1 is provided with a spacing heat insulation interlayer 101, the inner side of the spacing heat insulation interlayer 101 is provided with an inner annular wall 102, the inner side wall of the inner annular wall 102 is provided with an annular guide rail 103, the inner side of the inner annular wall 102 is provided with a sealed drying bin 104, the side surface of the circular drying cylinder 1 is horizontally provided with a feeding opening 105, and the lower side of the feeding opening 105 is parallel provided with a discharging opening 106;

the horizontal conveying frame 2 is arranged on the outer side of the feeding opening 105, a conveying chute 201 is arranged in the middle of the horizontal conveying frame 2, a plurality of bearing rollers 202 are uniformly and parallelly arranged on the inner side of the conveying chute 201, and a plurality of lateral rollers 203 are uniformly and parallelly arranged in the middle of the conveying chute 201;

the air outlet 3 is arranged at the front side of the circular drying cylinder 1, an air draft fan 301 is arranged at the inner side of the air outlet 3, an air inlet 302 is arranged at the rear side of the circular drying cylinder 1, a filter protection net 303 is arranged in the middle of the air inlet 302, an annular heating fin 304 is arranged at the inner side of the air inlet 302, and a plurality of electric heating pipes 305 are arranged in the middle of the annular heating fin 304;

the annular rotating frame 4 is arranged in the sealed drying bin 104, annular gear rings 401 are arranged around the front side and the rear side of the annular rotating frame 4, a central rotating shaft 402 is arranged at the center of the annular rotating frame 4, a spacing bearing 403 is arranged at the shaft end of the central rotating shaft 402, a supporting bracket 404 is arranged at the outer side of the spacing bearing 403, a driving motor 405 is arranged at the bottom of the supporting bracket 404, and a driving gear 406 is arranged at the shaft end of the driving motor 405;

the horizontal bearing frame 5 is uniformly and circumferentially arranged on the outer side of the annular rotating frame 4 in a surrounding manner, the middle of the horizontal bearing frame 5 is provided with a jogging chute 501, the inner side of the jogging chute 501 is uniformly and parallelly provided with a plurality of clamping rollers 502, the middle of the jogging chute 501 is uniformly and parallelly provided with a plurality of limit rollers 503, and the outer side of the horizontal bearing frame 5 is provided with a guide roller 504;

the blanking guide frame 7 is arranged on the inner side of the discharging opening 106, a blanking friction belt 701 is arranged in the middle of the blanking guide frame 7, a blanking driving roller 702 is arranged on the inner side of the blanking friction belt 701, and a blanking motor 703 is arranged at the shaft end of the blanking driving roller 702.

Referring to fig. 1 to 8, as an embodiment of the present invention, an anti-fog hollow glass processing apparatus includes: the circular drying cylinder 1, the inner side of the circular drying cylinder 1 is provided with a spacing heat insulation interlayer 101, the inner side of the spacing heat insulation interlayer 101 is provided with an inner annular wall 102, the inner side wall of the inner annular wall 102 is provided with an annular guide rail 103, the inner side of the inner annular wall 102 is provided with a sealed drying bin 104, the side surface of the circular drying cylinder 1 is horizontally provided with a feeding opening 105, and the lower side of the feeding opening 105 is parallel provided with a discharging opening 106; the horizontal conveying frame 2 is arranged on the outer side of the feeding opening 105, a conveying chute 201 is arranged in the middle of the horizontal conveying frame 2, a plurality of bearing rollers 202 are uniformly and parallelly arranged on the inner side of the conveying chute 201, and a plurality of lateral rollers 203 are uniformly and parallelly arranged in the middle of the conveying chute 201; the air outlet 3 is arranged at the front side of the circular drying cylinder 1, an air draft fan 301 is arranged at the inner side of the air outlet 3, an air inlet 302 is arranged at the rear side of the circular drying cylinder 1, a filter protection net 303 is arranged in the middle of the air inlet 302, an annular heating fin 304 is arranged at the inner side of the air inlet 302, and a plurality of electric heating pipes 305 are arranged in the middle of the annular heating fin 304; the annular rotating frame 4 is arranged in the sealed drying bin 104, annular gear rings 401 are arranged around the front side and the rear side of the annular rotating frame 4, a central rotating shaft 402 is arranged at the center of the annular rotating frame 4, a spacing bearing 403 is arranged at the shaft end of the central rotating shaft 402, a supporting bracket 404 is arranged at the outer side of the spacing bearing 403, a driving motor 405 is arranged at the bottom of the supporting bracket 404, and a driving gear 406 is arranged at the shaft end of the driving motor 405; the horizontal bearing frame 5 is uniformly and circumferentially arranged on the outer side of the annular rotating frame 4 in a surrounding manner, the middle of the horizontal bearing frame 5 is provided with a jogging chute 501, the inner side of the jogging chute 501 is uniformly and parallelly provided with a plurality of clamping rollers 502, the middle of the jogging chute 501 is uniformly and parallelly provided with a plurality of limit rollers 503, and the outer side of the horizontal bearing frame 5 is provided with a guide roller 504; the blanking guide frame 7 is arranged on the inner side of the discharging opening 106, a blanking friction belt 701 is arranged in the middle of the blanking guide frame 7, a blanking driving roller 702 is arranged on the inner side of the blanking friction belt 701, and a blanking motor 703 is arranged at the shaft end of the blanking driving roller 702.

Referring to fig. 1 to 8, optionally, the device performs drying and surface cleaning on the cleaned glass sheet before processing the hollow glass by using the circular drying cylinder 1, the side surface of the circular drying cylinder 1 is horizontally provided with the feeding opening 105 and the discharging opening 106, the feeding opening 105 and the discharging opening 106 are both arranged at one side of the circular drying cylinder 1, so as to facilitate loading and unloading, the glass sheet can be fed into the circular drying cylinder 1 or output through the feeding opening 105 and the discharging opening 106, the outer side of the feeding opening 105 is provided with the horizontal conveying frame 2 for conveying the glass sheet, the outer side of the discharging opening 106 is also provided with the horizontal conveying frame 2, the horizontal conveying frame 2 arranged at the outer side of the feeding opening 105 and the horizontal conveying frame 2 arranged at the outer side of the discharging opening 106 are parallel to each other, the conveying chute 201 is arranged in the middle of the horizontal conveying frame 2, and the conveying chute 201 is uniformly provided with a plurality of bearing rollers 202 and lateral rollers 203, the horizontal center line of the conveying chute 201 is perpendicular to the axial center line of the bearing roller 202, the axial center line of the lateral roller 203 is perpendicular to the axial center line of the bearing roller 202, the bearing roller 202 and the vertical lateral roller 203 which are arranged symmetrically up and down can provide bearing limit for the edge of the glass plate, the shaft end of the lateral roller 203 is provided with a synchronous pulley 204, the outer side of the synchronous pulley 204 is provided with a driving belt 205, the rear end of the driving belt 205 is provided with a driving belt pulley 206, the shaft end of the driving belt pulley 206 is provided with a conveying motor 207, so that all the lateral rollers 203 can be driven to synchronously rotate through a belt transmission structure, the lateral roller 203 can further drive the glass plate to convey along the conveying chute 201 for loading and unloading, and meanwhile, the area in the middle of the glass plate can be kept suspended, the glass plate conveying device is not contacted with any bearing conveying structure, can convey the glass plate, and is more convenient to use.

Referring to fig. 1 to 8, optionally, the device completes drying and surface cleaning of the cleaned glass plate before processing the hollow glass through the circular drying cylinder 1, the circular drying cylinder 1 is of a cylindrical structure, a space heat insulation interlayer 101 of a hollow structure is arranged between the shell of the circular drying cylinder 1 on the outer side and the inner annular wall 102 of the inner side, so as to provide heat insulation and heat preservation for the circular drying cylinder 1, the temperature of a sealed drying bin 104 inside the circular drying cylinder 1 is kept constant, the drying efficiency is improved and the energy consumption is reduced, an air outlet 3 and an air inlet 302 are respectively arranged on the front side and the rear side of the circular drying cylinder 1, an air suction fan 301 and an annular heating fin 304 are respectively arranged on the inner sides of the air outlet 3 and the air inlet 302, the horizontal center line of the circular drying cylinder 1 and the horizontal center line of the air suction fan 301 are positioned on the same straight line, the horizontal center line of the annular heating fin 304 and the horizontal center line of the air suction fan 301 are positioned on the same straight line, so that the outside air can be pumped into the drying bin 104 inside the circular drying cylinder 1 by the circular fan 301, the air inlet 3 and the annular heating fin 304 can be conveyed by the annular heating tube 304 through the circular drying cylinder 1, and the annular heating fin 304 can be further processed through the annular heating tube 304, and the air can be conveyed by the annular heating tube 304 and the annular heating plate 304 when the annular heating glass plate is processed, and the air can be further conveyed by the annular heating tube 304, and the annular heating plate 304 and the air can be processed through the annular heating plate 304.

Referring to fig. 1 to 8, optionally, the device completes drying and surface cleaning of the cleaned glass plate before processing the hollow glass by the circular drying cylinder 1, the circular drying cylinder 1 is internally provided with an annular rotary frame 4, the outer side of the annular rotary frame 4 is circumferentially provided with a plurality of horizontal carrying frames 5, each horizontal carrying frame 5 can carry a glass plate, the annular rotary frame 4 is rotationally connected with the supporting bracket 404 by the central rotary shaft 402 and the interval bearing 403, the annular gear 401 and the driving gear 406 are meshed with each other to form a transmission mechanism, so that the horizontal carrying frames 5 can be driven to rotate along the central rotary shaft 402 by the annular gear 401 and the driving gear 406, and then all the horizontal carrying frames 5 arranged on the annular rotary frame can be driven to rotate, so that the horizontal carrying frames 5 can be horizontally embedded into the horizontal carrying frames 5 one by one through the feeding opening 105 and the discharging opening 106, or the glass plate can be horizontally carried out to complete discharging by the horizontal carrying frames 5, and the plurality of glass plates can be rotationally carried along with the annular rotary frames 4, thereby ensuring that the whole drying period is greatly reduced, the whole drying cylinder 1 can be conveniently transported, the heat-carrying area of the circular drying cylinder can be conveniently reduced, and the heat-carrying area of the circular drying cylinder can be better, and the drying cylinder can be more effectively contacted with the inner side of the glass plate can be arranged on the circular drying cylinder 1.

Referring to fig. 1 to 8, alternatively, the device can independently load and convey glass plates through a horizontal carrier 5, a jogging chute 501 is correspondingly arranged in the middle of the horizontal carrier 5, a plurality of clamping rollers 502 and limiting rollers 503 are uniformly arranged in the middle of the jogging chute 501, the edges of the glass plates are embedded into the jogging chute 501 and can be supported and fixed through the clamping rollers 502 and the limiting rollers 503, and can slide along the jogging chute 501 through the clamping rollers 502 and the limiting rollers 503 to convey and feed materials, a touch top plate 505 is arranged at the rear end of the jogging chute 501, a reset spring 506 is arranged at the rear side of the touch top plate 505, jogging ejector rods 507 are symmetrically arranged at the left side and the right side of the touch top plate 505, so that the front end of the glass plates can touch the touch top plate 505 when the glass plates are conveyed towards the inner side of the horizontal carrier 5 along the jogging chute 501, the touch top plate 505 and the jogged ejector rods 507 connected with the two sides of the touch top plate 505 are pushed to synchronously move to the rear side, meanwhile, the outer end of the horizontal bearing frame 5 is provided with a limit sleeve 6, the inner side of the limit sleeve 6 is provided with a limit stop 601 in a jogged sliding way, the middle of the limit stop 601 is provided with a jogged clamping groove 603, the rear side of the limit stop 601 is provided with a locking spring 604, the inner side surface of the touch top plate 505 and the horizontal center line of the jogged sliding groove 501 are mutually perpendicular, the jogged ejector rods 507 and the jogged clamping groove 603 are mutually matched in size, so when the glass plate is conveyed into the horizontal bearing frame 5 along the jogged sliding groove 501 to touch the touch top plate 505, the touch top plate 505 and the jogged ejector rods 507 connected with the two sides of the horizontal bearing frame can be pushed to synchronously move to the rear side, the jogged ejector rods 507 are separated from the jogged clamping groove 603, the limit stop 601 can be pushed by the locking spring 604 to extend out of the limit sleeve 6 to block the rear end of the glass plate, the loading and locking work of the glass plate are completed, the glass plate is prevented from falling off from the horizontal bearing frame 5 when the annular rotating frame 4 rotates, the reliability of the whole processing is improved, the annular rotating frame 4 rotates clockwise, when the horizontal bearing frame 5 is driven to pass through the feeding opening 105, the horizontal conveying frame 2 can pass the glass plate through the circular drying cylinder 1 from the feeding opening 105 and convey the glass plate into the horizontal bearing frame 5, the loading work is completed by sequentially passing through the feeding opening 105 when the horizontal bearing frames 5 rotate, after the horizontal conveying frame 2 rotates for a circle along with the annular rotating frame 4, the discharging opening 106 can be passed, the inner side of the discharging opening 106 is correspondingly provided with the discharging guide frame 7, the left side and the right side of the discharging guide frame 7 are symmetrically provided with arc unlocking magnets, the rear end of the limit stop 601 is provided with the linkage magnets 602, the adjacent magnetic poles between the arc unlocking magnet 704 and the linkage magnet 602 are different, so when the horizontal conveying frame 2 reaches the discharging opening 106, the arc unlocking magnet 704 can attract the linkage magnet 602, so that the limit stop 601 moves to reset to the rear side, the limit stop 601 is prevented from blocking the rear side of the glass plate to unlock the glass plate, meanwhile, the blanking guide frame 7 is also provided with a blanking friction belt 701, the blanking friction belt 701 can be driven to move through the blanking driving roller 702 and the blanking motor 703, when the horizontal conveying frame 2 reaches the discharging opening 106, the outer sides of the limit rollers 503 on the horizontal conveying frame 2 are convenient for the blanking friction belt 701 to contact with each other, the limit rollers 503 are driven to rotate through the blanking friction belt 701, the glass plate is driven to move and conveyed along the horizontal conveying frame 2 through the limit rollers 503, the glass plate can be conveyed to the horizontal conveying frame 2 outside the discharging opening 106 through the horizontal conveying frame 2, the blanking work is completed, so that the glass plate can be continuously dried, the use is more convenient and quick, and the processing and drying efficiency is higher.

When in use, the cleaned glass plate is conveyed along the horizontal conveying frame 2 outside the feeding opening 105, edges of two sides of the glass plate are embedded into the conveying chute 201 in the middle of the horizontal conveying frame 2 and are clamped and supported by the bearing rollers 202 symmetrically arranged at the upper side and the lower side, meanwhile, the conveying motor 207 drives the driving belt pulley 206 to rotate, the driving belt pulley 206 drives all the synchronous belt pulleys 204 and the lateral rollers 203 to synchronously rotate through the transmission belt 205, the lateral rollers 203 drive the glass plate to slide along the conveying chute 201 and convey the glass plate into the sealed drying bin 104 through the feeding opening 105, the driving motor 405 drives the driving gear 406 to rotate, the driving gear 406 drives the horizontal bearing frame 5 to rotate along the central rotating shaft 402 through the annular gear ring 401, and then drives all the horizontal bearing frames 5 arranged on the horizontal bearing frame to rotate, so that the corresponding horizontal bearing frames 5 move to the inner side of the feeding opening 105, so that the glass plate enters the horizontal bearing frame 5 positioned at the inner side of the feeding opening 105 and is conveyed to the inner side of the horizontal bearing frame 5 along the embedded sliding groove 501, when the glass plate is conveyed in place, the front end of the glass plate touches the touch top plate 505, the touch top plate 505 and the embedded ejector rods 507 connected with the two sides of the touch top plate are pushed to synchronously move to the rear side, the embedded ejector rods 507 are separated from the embedded clamping grooves 603, the limit stop block 601 is pushed by the locking spring 604 to extend out of the limit sleeve 6 so as to block the rear end of the glass plate, the glass plate is prevented from falling off from the horizontal bearing frame 5 when rotating along with the annular rotating frame 4, the annular rotating frame 4 rotates to drive the plurality of horizontal bearing frames 5 to sequentially pass through the feeding opening 105 to complete feeding work, and meanwhile, the external air is pumped into the sealed drying bin 104 inside the circular drying cylinder 1 through the air inlet 302 by the air exhaust fan 301 and is conveyed out through the air outlet 3, when air enters the sealed drying bin 104 through the air inlet 302, the electric heating pipe 305 and the annular heating fins 304 are used for heating, so that hot air can enter and flow through the glass plate inside the circular drying cylinder 1 for drying, and after the horizontal conveying frame 2 follows the annular rotary frame 4 to rotate for a circle, the glass plate can pass through the discharging opening 106, when the horizontal conveying frame 2 reaches the discharging opening 106, the arc unlocking magnet 704 attracts the linkage magnet 602 to enable the limit stop 601 to move backwards and reset, the limit stop 601 is prevented from blocking the rear side of the glass plate, meanwhile, the blanking friction belt 701 is driven to move through the blanking driving roller 702 and the blanking motor 703, the outer side of the limit roller 503 on the horizontal conveying frame 2 is convenient for the mutual contact of the blanking friction belt 701, the limit roller 503 is driven to rotate through the blanking friction belt 701, and then the glass plate is driven to move and conveyed along the horizontal conveying frame 2 through the limit roller 503, so that the glass plate can be conveyed to the horizontal conveying frame 2 outside the discharging opening 106 through the horizontal conveying frame 2, and then the drying and surface cleaning of the cleaned glass plate are finished.

According to the antifog hollow glass processing device provided by the invention, the round drying cylinder 1 is used as a drying space of a glass plate, the glass plate can be conveyed into the round drying cylinder, the round drying cylinder 1 is internally provided with the annular rotary frame 4, the glass plate can be conveyed in a surrounding manner through the annular rotary frame 4, so that the whole volume of the round drying cylinder 1 can be greatly reduced while the conveying drying time is ensured, the occupied area of the round drying cylinder is reduced, the outer surface area of the round drying cylinder is reduced, the heat loss is reduced, the energy consumption is reduced, meanwhile, the glass plate can be conveyed into the round drying cylinder 1 through the double-layer horizontal conveying frame 2 arranged on the same side, or conveyed out of the round drying cylinder, the glass plate can be clamped at the side edge of the horizontal conveying frame 2 through the conveying chute 201, and the glass plate is conveyed in a bearing manner through the bearing roller 202 and the lateral roller 203, and only the edge of the horizontal conveying frame 2 is contacted, so that the glass plate can be conveyed without scratching the front and back sides of the glass plate, and the glass plate is more convenient and flexible to use.

Those of ordinary skill in the art will appreciate that: the discussion of any of the embodiments above is merely exemplary and is not intended to suggest that the scope of embodiments of the disclosure (including the claims) is limited to these examples; combinations of features of the above embodiments or in different embodiments are also possible within the spirit of the disclosed embodiments, steps may be implemented in any order, and there are many other variations of the different aspects of the disclosed embodiments described above that are not provided in detail for the sake of brevity.

While the present disclosure has been described in conjunction with specific embodiments thereof, many alternatives, modifications, and variations of those embodiments will be apparent to those skilled in the art in light of the foregoing description.

The disclosed embodiments are intended to embrace all such alternatives, modifications and variances which fall within the broad scope of the appended claims. Accordingly, any omissions, modifications, equivalents, improvements, and the like, which are within the spirit and principles of the embodiments of the disclosure, are intended to be included within the scope of the disclosure.

Claims (5)

1. An antifog cavity glass processing device, characterized by comprising:

the circular drying cylinder is characterized in that an interval heat-insulating interlayer is arranged on the inner side of the circular drying cylinder, an inner annular wall is arranged on the inner side of the interval heat-insulating interlayer, an annular guide rail is arranged on the inner side wall of the inner annular wall, a sealed drying bin is arranged in the inner annular wall, a feeding opening is horizontally arranged on the side surface of the circular drying cylinder, and a discharging opening is arranged on the lower side of the feeding opening in parallel;

the horizontal conveying frame is arranged at the outer side of the feeding opening, a conveying chute is arranged in the middle of the horizontal conveying frame, a plurality of bearing rollers are uniformly and parallelly arranged at the inner side of the conveying chute, and a plurality of lateral rollers are uniformly and parallelly arranged in the middle of the conveying chute;

the air outlet is arranged at the front side of the circular drying cylinder, an exhaust fan is arranged at the inner side of the air outlet, an air inlet is arranged at the rear side of the circular drying cylinder, a filtering and protecting net is arranged in the middle of the air inlet, annular heating fins are arranged at the inner side of the air inlet, and a plurality of electric heating pipes are arranged in the middle of the annular heating fins;

the annular rotating frame is arranged in the sealed drying bin, annular gear rings are arranged around the front side and the rear side of the annular rotating frame, a central rotating shaft is arranged at the center of the annular rotating frame, a spacing bearing is arranged at the shaft end of the central rotating shaft, a supporting bracket is arranged on the outer side of the spacing bearing, a driving motor is arranged at the bottom of the supporting bracket, and a driving gear is arranged at the shaft end of the driving motor;

the horizontal bearing frame is circumferentially and uniformly arranged on the outer side of the annular rotating frame in a surrounding mode, a jogging chute is arranged in the middle of the horizontal bearing frame, a plurality of clamping rollers are uniformly and parallelly arranged on the inner side of the jogging chute, a plurality of limit rollers are uniformly and parallelly arranged in the middle of the jogging chute, and guide rollers are arranged on the outer side of the horizontal bearing frame;

the blanking guide frame is arranged at the inner side of the discharging opening, a blanking friction belt is arranged in the middle of the blanking guide frame, a blanking driving roller is arranged at the inner side of the blanking friction belt, and a blanking motor is arranged at the shaft end of the blanking driving roller;

the outer side of the discharging opening is also provided with a horizontal conveying frame, and the horizontal conveying frame arranged at the outer side of the feeding opening is parallel to the horizontal conveying frame arranged at the outer side of the discharging opening;

the horizontal center line of the conveying chute is perpendicular to the axial center line of the bearing roller, and the axial center line of the lateral roller is perpendicular to the axial center line of the bearing roller;

the shaft end of the lateral idler wheel is provided with a synchronous belt pulley, the outer side of the synchronous belt pulley is provided with a transmission belt, the rear end of the transmission belt is provided with a driving belt pulley, and the shaft end of the driving belt pulley is provided with a conveying motor;

the horizontal center line of the circular drying cylinder and the horizontal center line of the air draft fan are positioned on the same straight line, the horizontal center line of the annular heating fin and the horizontal center line of the air draft fan are positioned on the same straight line, and the horizontal center line of the air inlet and the horizontal center line of the air outlet are positioned on the same straight line;

the annular rotating frame is in rotary connection with the supporting bracket through the central rotating shaft and the interval bearing, and the annular gear ring and the driving gear are meshed with each other to form a transmission mechanism.

2. The antifogging hollow glass processing device according to claim 1, wherein a touch top plate is arranged at the rear end of the jogged sliding groove, a reset spring is arranged at the rear side of the touch top plate, and jogged ejector rods are symmetrically arranged at the left side and the right side of the touch top plate.

3. The antifogging hollow glass processing device according to claim 2, wherein a limit sleeve is arranged at the outer end of the horizontal bearing frame, a limit stop is arranged on the inner side of the limit sleeve in a jogged sliding manner, a jogged clamping groove is arranged in the middle of the limit stop, and a locking spring is arranged on the rear side of the limit stop.

4. The antifogging hollow glass processing apparatus according to claim 3, wherein the inner side surface of the touch top plate is perpendicular to the horizontal center line of the engaging groove, and the engaging push rod and the engaging groove are sized to fit each other.

5. The antifogging hollow glass processing device according to claim 3, wherein arc unlocking magnets are symmetrically arranged on the left side and the right side of the blanking guide frame, linkage magnets are arranged at the rear ends of the limit stops, and adjacent magnetic poles between the arc unlocking magnets and the linkage magnets are different.