CN110963688A - Glassware transfer system - Google Patents

Abstract

The invention belongs to the field of glass production equipment, and particularly discloses a glassware conveying system which comprises a heat-insulating conveying belt and a processing conveying belt which are perpendicular to each other, wherein a material pushing part for pushing a workpiece on the heat-insulating conveying belt to the processing conveying belt is arranged on the outer side of the tail end of the heat-insulating conveying belt; the surface of the processing conveyor belt is rotatably connected with a plurality of trays, and the trays are connected with a rotary driving piece; the processing conveyer belt outside is fixed with a supporting bench, and sliding connection has the softening to remove the seat and the spraying removes the seat on the supporting bench, softens to be equipped with the flame spray gun on removing the seat, and the spraying is removed and is equipped with the anti-scratch liquid flush coater on the seat, softens to remove and all be equipped with on seat and the spraying removes the seat and be used for pressing from both sides the last mechanism of putting the last conveying face of conveyer belt and be used for pressing from both sides the lower mechanism of putting of conveying face down. According to the invention, the flame is sprayed out by the flame spray gun to soften the burrs at the glass cutting opening, and the anti-scratching liquid is sprayed out by the anti-scratching liquid spraying machine and sprayed on the outer surface of the glass product, so that the glass products can be prevented from being scratched due to mutual collision.

Description

Glassware transfer system

Technical Field

The invention relates to the field of glass production equipment, in particular to a glass product conveying system.

Background

Glass is an amorphous inorganic non-metallic material, and is generally prepared by using various inorganic minerals (such as quartz sand, borax, boric acid, barite, barium carbonate, limestone, feldspar, soda ash and the like) as main raw materials and adding a small amount of auxiliary raw materials. Its main components are silicon dioxide and other oxides.

In the production process, after the notch treatment, the glass product needs to be subjected to flame deburring at the notch, and then is conveyed to an annealing furnace through a conveyor belt for annealing treatment, so that the stress of the glass product is limited within a certain range, and the glass product is prevented from self-cracking or being easy to crack in the processes of cooling, storage, reprocessing and use. When the glass products enter the annealing furnace, the glass products are pushed into the annealing furnace in a row, and the glass products generate mutual collision friction in the annealing furnace to cause the glass to be scratched, so that the quality of the glass products is reduced.

Disclosure of Invention

The invention aims to provide a glass product conveying system to prevent the problem that glass products can collide with each other and rub after entering an annealing furnace to cause glass to be scratched.

In order to achieve the purpose, the invention adopts the following technical scheme:

the glass product conveying system comprises a heat-insulating conveying belt and a processing conveying belt which are perpendicular to each other, wherein a material pushing part for pushing a workpiece on the heat-insulating conveying belt to the processing conveying belt is arranged on the outer side of the tail end of the heat-insulating conveying belt; the surface of the processing conveyor belt is rotatably connected with a plurality of trays, and the trays are connected with a rotary driving piece; the processing conveyer belt outside is fixed with a supporting bench, and sliding connection has the softening to remove the seat and the spraying removes the seat on the supporting bench, softens to be equipped with the flame spray gun on removing the seat, and the spraying is removed and is equipped with the anti-scratch liquid flush coater on the seat, softens to remove and all be equipped with on seat and the spraying removes the seat and be used for pressing from both sides the last mechanism of putting the last conveying face of processing conveyer belt and be used for pressing from both sides the lower mechanism of putting the lower conveying face of processing conveyer belt.

The principle of the scheme is as follows:

the work piece is through conveying behind the flame incision to the heat preservation conveyer belt on, keeps warm to the work piece, and when the work piece conveyed the discharge end on the heat preservation conveyer belt, the work piece on with the heat preservation conveyer belt is pushed away to the tray on the processing conveyer belt through pushing away the material piece and is carried out the spraying of flame injection burring and anti-scratch liquid, and specific process and principle are as follows:

the flame spray gun who softens and remove and set up on the seat erupts flame and softens the burr of glass incision department to reach the effect of getting rid of incision department burr, the spraying removes the scotch-proof liquid flush coater that sets up on the seat and erupts scotch-proof liquid, spouts at the glassware surface, produces the coating on the glassware surface, thereby can avoid glassware collision each other and scotch.

Push away the work piece and convey on the tray on the processing conveyer belt, the tray is rotatory to drive the work piece rotatory, because flame spray gun and anti-scratch liquid flush coater all spout flame and spout anti-scratch liquid in one side of work piece, can only spout flame and spout anti-scratch liquid to the part of work piece, and adopt the rotatory mode of work piece, can make work piece incision department can obtain comprehensive burr softening, the work piece surface can obtain comprehensive spraying layer.

Because flame spray gun sprays flame and when anti-scratch liquid flush coater sprays anti-scratch liquid, the work piece is in on the processing conveyer belt along with the processing conveyer belt forward conveying together, need flame spray gun and anti-scratch liquid flush coater along with work piece synchronous motion, just can realize better and comprehensive flame burring and anti-scratch liquid spraying, consequently this scheme sets up a supporting bench, and sliding connection softens and removes the seat and the spraying removes the seat on a supporting bench, remove the seat through softening and support flame spray gun, the spraying removes the seat and supports anti-scratch liquid flush coater. When the processing conveyor belt is conveyed, when the softening movable seat and the spraying movable seat clamp the upper conveying surface of the processing conveyor belt through the upper clamping and releasing mechanism and the lower clamping and releasing mechanism releases the lower conveying surface of the processing conveyor belt, the softening movable seat and the spraying movable seat can synchronously move along with the processing conveyor belt; when the upper clamping and releasing mechanisms on the softening movable seat and the spraying movable seat loosen the upper conveying surface of the processing conveying belt and the lower clamping and releasing mechanisms clamp the lower conveying surface of the processing conveying belt, the softening movable seat and the spraying movable seat can realize reset.

Furthermore, clamping seats are fixed at one ends of the softening movable seat and the spraying movable seat close to the processing conveyor belt, and an upper clamping mechanism and a lower clamping mechanism are arranged on the clamping seats; the upper clamping and placing mechanism and the lower clamping and placing mechanism comprise U-shaped grooves formed in the clamping and placing base, oil ducts are formed in two side walls of each U-shaped groove, clamping blocks are connected to the inner outlets of the oil ducts in a sliding mode, and the fact that the two clamping blocks stretch out of the oil ducts to clamp the upper conveying surface or the lower conveying surface of the processing conveying belt is achieved through the oil inlet in the oil ducts. The U-shaped groove is passed with lower conveying face border to the last conveying face of processing conveyer belt, gives through the oil duct oil feed and presss from both sides a thrust of tight piece for press from both sides tight piece and stretch out the oil duct outer and press from both sides the last conveying face and the lower conveying face of tight processing conveyer belt, this scheme adopts hydraulic pressure to press from both sides tightly, and the clamp force is big, can realize pressing from both sides tightly the last conveying face of processing conveyer belt or conveying face down in the very short time, and hydraulic pressure easily controls, is applicable to actual production.

Further, the softening movable seat is positioned on one side of the spraying movable seat close to the feeding end of the processing conveyor belt. The flame spraying softening deburring is carried out firstly, and then the anti-scratch liquid is sprayed.

Furthermore, the flame spray gun is provided with a plurality of flame jet orifices which are transversely arranged, the number of the flame jet orifices is even, the anti-scratching liquid spraying machine is also provided with a plurality of rows of scratching liquid spraying orifices which are transversely arranged, and the number of the rows of the scratching liquid spraying orifices is the same as the number of the flame jet orifices. The flame spray gun is provided with a plurality of flame spray ports which are transversely arranged, so that one flame spray gun can simultaneously spray flame for deburring a plurality of workpieces, and simultaneously deburring the plurality of workpieces is realized because the distance between the workpieces on the processing conveyor belt is relatively small, the flame spray gun synchronously moves for a certain distance along with the workpieces so that the cut is softened, the flame spray gun also needs to return to the original path, if the flame spray gun only sprays fire for deburring one workpiece, and after the flame spray gun is reset, the flame spray gun cannot align to an adjacent workpiece for deburring treatment, so that the flame spray gun is provided with a plurality of flame spray ports for simultaneously deburring the plurality of workpieces, and can align to the adjacent workpieces for deburring treatment after being reset, thereby avoiding the leakage of the workpieces; the anti-scratching liquid spraying machine is also provided with a plurality of transversely arranged scratching liquid spraying openings for the same reason.

Further, the rotary driving part comprises a rack fixed on the outer side of the processing conveyor belt and driving teeth arranged on the outer side wall of the tray, the rack extends along the conveying direction of the processing conveyor belt, and the driving teeth on the tray can be meshed with the rack. When the tray conveys along with the processing conveyer belt forward, the tray can be driven to rotate through the driving teeth of the side wall of the tray and the meshing of the rack, namely, the rotation of the tray can be automatically realized in the conveying process of the processing conveyer belt, and the tray is not required to be driven to rotate by extra power.

Furthermore, a glass product falling prevention plate is fixed on the rack. When the glass product is conveyed on the tray and is conveyed forwards along with the processing conveyor belt, the glass product falling prevention plate can prevent the glass product from falling.

Further, the pushing piece comprises a pushing hydraulic rod, and the stretching direction of the pushing hydraulic rod is along the conveying direction of the processing conveying belt. The glass product on the heat-preservation conveying belt is pushed to the processing conveying belt through the extension and the shortening of the material pushing hydraulic rod, and the structure is simple.

Furthermore, the free end of the material pushing hydraulic rod is provided with a U-shaped limiting shell. When pushing away material hydraulic stem and promoting the work piece, can block on the work piece outer wall through the spacing casing of U-shaped, the work piece takes place to empty when preventing to promote the work piece.

Furthermore, the inner side wall of the U-shaped limiting shell is provided with a soft protective layer. The soft protective layer can form the protection to the glassware outer wall, avoids the spacing casing of U-shaped to scrape the glassware outer wall.

Furthermore, an inclined transfer plate is arranged between the discharge end of the heat-preservation conveying belt and the feed end of the processing conveying belt. The inclined transfer plate can make up a gap between the discharge end of the heat-preservation conveying belt and the feed end of the processing conveying belt, and a workpiece is prevented from being clamped in the gap.

Drawings

FIG. 1 is a front view of a first embodiment of the present invention;

FIG. 2 is a top view of a first embodiment of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is an enlarged view of portion C of FIG. 3;

FIG. 5 is a cross-sectional view taken along line B-B of FIG. 2;

fig. 6 is a vertical cross-sectional view of a process conveyor in example 2 of the invention.

The scissor heads in fig. 2 indicate the conveying direction of the workpieces.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a driving roller 1, a driven roller 2, a processing conveyor belt 3, an upper conveying surface 31, a lower conveying surface 32, a transfer plate 305, a workpiece 4, a heat-preservation conveyor belt 5, a tray 6, a rotating shaft 60, driving teeth 61, a pushing hydraulic rod 7, a U-shaped limiting shell 70, a supporting table 8, a guide rail 80, a spraying moving seat 9, an anti-scratching liquid spraying machine 10, a inching switch 101, an anti-scratching liquid spraying opening 11, a softening moving seat 12, a flame spraying gun 13, a flame spraying opening 14, a rack 15, a glass product anti-falling plate 150, a clamping seat 16, a U-shaped groove 161, a clamping block 162, an oil duct 163, an auxiliary oil duct 164 and a driving block 165.

Example one

As shown in fig. 1 and 2, the glassware conveying system of this embodiment includes a heat-insulating conveyor 5 and a processing conveyor 3 perpendicular to each other. The heat preservation mode of the heat preservation conveying belt 5 is as follows: the heat preservation conveyor belt 5 is externally covered with a cover, and a heating lamp is installed in the cover, so that the heat preservation effect is achieved on the workpieces conveyed on the heat preservation conveyor belt 5. An inclined transfer plate 305 is installed between the discharge end of the heat-preservation conveying belt 5 and the feed end of the processing conveying belt 3, a material pushing hydraulic rod 7 is arranged on the outer side of the discharge end of the heat-preservation conveying belt 5, the material pushing hydraulic rod 7 is fixedly installed on an installation frame fixed on the ground, the stretching direction of the material pushing hydraulic rod 7 is along the conveying direction of the processing conveying belt 3, the free end of the material pushing hydraulic rod 7 is provided with a U-shaped limiting shell 70, a soft protection layer made of rubber or foam materials is fixed on the inner side wall of the U-shaped limiting shell 70, the workpiece 4 on the heat-preservation conveying belt 5 is pushed to the inclined transfer plate 305 through stretching and shortening of the material pushing hydraulic rod 7, and then.

The processing conveyor belt 3 is wound around the drive roller 1 and the driven roller 2, a plurality of rotating shafts 60 are rotatably connected to the surface of the processing conveyor belt 3 in the conveying direction of the processing conveyor belt 3, a tray 6 is fixed to the rotating shafts 60, and the workpiece 4 slid down from the inclined transfer plate 305 can be transferred to the tray 6 on the processing conveyor belt 3. Referring to fig. 2 and 3, a rack 15 is fixedly mounted on the outer side of the processing conveyor 3, the rack 15 extends along the conveying direction of the processing conveyor 3, driving teeth 61 are arranged on the outer side walls of the trays 6, and the driving teeth 61 on the side walls of the trays 6 can be meshed with the rack 15. When the tray 6 is conveyed forwards along with the processing conveyor belt 3, after the driving teeth 61 on the side wall of the tray 6 are meshed with the rack 15, the tray 6 can automatically rotate through the meshing between the rack 15 and the driving teeth 61, and the workpiece 4 on the tray 6 rotates along with the rotation.

A strip-shaped supporting platform 8 is further fixed on the outer side of the processing conveyor belt 3, the supporting platform 8 also extends along the conveying direction of the processing conveyor belt 3, and the rack 15 and the supporting platform 8 are respectively located on two sides of the processing conveyor belt 3. Two guide rails 80 are arranged on the supporting table 8, the guide rails 80 are connected with a softening movable seat 12 and a spraying movable seat 9 in a sliding mode, and the softening movable seat 12 is located on one side, close to the feeding end of the processing conveyor belt 3, of the spraying movable seat 9.

Referring to fig. 2 and 5, a flame spray gun 13 is fixedly mounted on the softening movable base 12, the flame spray gun 13 is connected with a plurality of flame spray ports 14 arranged transversely, the number of the flame spray ports 14 is even, and the number of the flame spray ports 14 is two in the embodiment. Referring to fig. 2 and 3, an anti-scratching liquid sprayer 10 is mounted on the movable spraying seat 9, the anti-scratching liquid sprayer 10 adopts a sprayer in the prior art, an anti-scratching liquid is filled in the anti-scratching liquid sprayer 10, the anti-scratching liquid in the invention is made of Miracoat MBTC-100 glass hot end coating, the anti-scratching liquid sprayer 10 is connected with a plurality of rows of transversely arranged scratching liquid spraying openings 11, the number of the scratching liquid spraying openings 11 is the same as that of the flame spraying openings 14, namely, the number of the scratching liquid spraying openings 11 is also two in the embodiment, a plurality of workpieces 4 are spaced between the anti-scratching liquid sprayer 10 and the flame spraying guns 13, and the number of the spaced workpieces 4 is the same as that of the flame spraying openings 14, namely, two workpieces 4 are spaced between the anti-scratching liquid sprayer 10 and the flame spraying guns 13 in the embodiment.

As shown in fig. 3 and 5, the softening movable base 12 and the spraying movable base 9 are respectively provided with an upper clamping mechanism for clamping the upper conveying surface 31 of the processing conveyor belt 3 and a lower clamping mechanism for clamping the lower conveying surface 32 of the processing conveyor belt 3, the ends of the softening movable base 12 and the spraying movable base 9 close to the processing conveyor belt 3 are respectively fixed with a clamping base 16, and the upper clamping mechanism and the lower clamping mechanism are respectively arranged on the clamping base 16. The upper clamping mechanism and the lower clamping mechanism have the same structure, and the structure of the upper clamping mechanism is as shown in fig. 4, the upper clamping mechanism and the lower clamping mechanism comprises a U-shaped groove 161 formed in a clamping seat 16, oil passages 163 are formed in two side walls of the U-shaped groove 161, a clamping block 162 is connected to an outlet in each oil passage 163 in a sliding manner, the edge of the upper conveying surface 31 and the edge of the lower conveying surface 32 of the processing conveyor belt 3 penetrate through the U-shaped groove 161, and oil is fed into the oil passages 163 to clamp the upper conveying surface 31 or the lower conveying surface 32 of the processing conveyor belt 3 by extending the two clamping blocks 162 out.

As shown in fig. 4, in order to facilitate the opening of the flame spray gun 13 and the anti-scratching liquid sprayer 10, the switches of the flame spray gun 13 and the anti-scratching liquid sprayer 10 are set as a jog switch 101 in the prior art (the switch is turned on when pressed down, and the release switch is turned off), the oil passage 163 is communicated with the auxiliary oil passage 164, the driving block 165 is slidably connected to the outlet of the auxiliary oil passage 164, when oil enters the oil passage 163, hydraulic oil can enter the auxiliary oil passage 164, so that the driving block 165 extends out, and the jog switch 101 is pressed by the driving block 165, so that the flame spray gun 13 and the anti-scratching liquid sprayer 10 are turned on.

The specific implementation process of the invention is as follows:

the work piece 4 is handled on conveying to heat preservation conveyer belt 5 through flame cut, keeps warm to work piece 4, and when work piece 4 conveyed the discharge end on heat preservation conveyer belt 5, the spraying of flame spray burring and anti-scuffing liquid was carried out on pushing away the tray 6 that pushes away on pushing away material hydraulic stem 7 and pushing away the work piece 4 on the heat preservation conveyer belt 5 to processing conveyer belt 3, gets into the annealing stove at last and anneals, and the work piece 4 carries out the burring and the spraying of anti-scuffing liquid on processing conveyer belt 3 specifically process as follows:

taking the machining process of the workpiece a and the workpiece b in fig. 2 as an example, when the driving teeth 61 on the tray 6 on which the two workpieces a and b are located are both engaged with the rack 15, the tray 6 automatically rotates under the action of the rack 15, at this time, the hydraulic system controls the oil passage 163 on the upper portion of the clamping and placing seat 16 on the softening and moving seat 12 to feed oil and the oil passage 163 on the lower portion of the clamping and placing seat 16 to return oil, the two clamping blocks 162 on the upper portion of the clamping and placing seat 16 extend out of the oil passage 163 to clamp the upper conveying surface 31 of the machining conveyor 3, and the two clamping blocks 162 on the lower portion of the clamping and placing seat 16 retract into the oil passage 163 to release the lower conveying surface 32 of the machining conveyor 3, the softening and moving seat 12 synchronously moves with the upper conveying surface 31 of the machining conveyor 3, and the hydraulic oil in the oil passage 163 on the upper portion of the clamping and placing seat 16 also enters the auxiliary oil passage 164 to, flame spouts from two flame jet ports 14, spouts the fire to the incision of work piece a and work piece b respectively, softens the burr of incision department, because during the fire-spraying, work piece a and work piece b all are in the rotation state, and the flame of blowout can all soften the burr of incision round, and the burring is more comprehensive, simultaneously because flame spray gun 13 can be in relative static state with work piece 4 to better softening the burring.

After the softening and deburring of the workpiece a and the workpiece b in fig. 2 are completed, the workpiece a and the workpiece b in fig. 2 advance to a station, and then the softening and moving seat 12 is reset, wherein the specific process of resetting is as follows: the hydraulic system controls oil return of an oil duct 163 at the upper part of the clamping and placing seat 16 on the softening movable seat 12 and oil inlet of an oil duct 163 at the lower part of the clamping and placing seat 16, two clamping blocks 162 at the upper part of the clamping and placing seat 16 retract into the oil duct 163 to loosen the upper conveying surface 31 of the processing conveyor belt 3, two clamping blocks 162 at the lower part of the clamping and placing seat 16 extend out of the oil duct 163 to clamp the lower conveying surface 32 of the processing conveyor belt 3, and the softening movable seat 12 synchronously moves along with the lower conveying surface 32 of the processing conveyor belt 3, so that resetting of the softening movable. In the process of controlling the oil return of the oil passage 163 at the upper part of the clamping seat 16 on the softening movable seat 12 by the hydraulic system, the driving block 165 at the outlet of the auxiliary oil passage 164 is also retracted, the inching switch 101 of the flame spray gun 13 is automatically popped up, and the flame spray gun 13 is closed. During the resetting of the softening movable base 12, the workpieces a and b in fig. 2 continue to advance by one station.

After the above process is repeated, the softening movable seat 12 performs two forward reset actions, the workpiece a and the workpiece b on fig. 2 move to four stations, at this time, the workpiece a and the workpiece b just move to the stations of the two workpieces 4 aligned with the anti-scratching liquid spraying machine 10, at this time, the hydraulic system controls the oil duct 163 at the upper part of the clamping seat 16 on the spraying movable seat 9 to feed oil and the oil duct 163 at the lower part to feed oil, the same as the movement of the softening movable seat 12, the spraying movable seat 9 synchronously moves along with the upper conveying surface 31 of the processing conveying belt 3, the workpiece a and the workpiece b are sprayed with the scratching liquid, and a coating is generated on the surface of the glass product, so that the glass product is prevented from being scratched due to collision after entering the annealing furnace.

Example two

The difference between this embodiment and the first embodiment is: as shown in fig. 6, a vertical glassware falling-down prevention plate 150 is fixed to the rack 15 in this embodiment. The glass article fall-down preventing plate 150 can prevent the glass articles from falling down when the glass articles are conveyed on the tray 6 forward with the processing conveyor 3.

EXAMPLE III

The difference between this embodiment and the first embodiment is: in this embodiment, the number of the scratching liquid spraying openings 11 provided in the scratching liquid preventing sprayer 10 and the number of the flame spraying openings 14 provided in the flame spraying gun 13 are four, and the number of the workpieces 4 spaced between the scratching liquid preventing sprayer 10 and the flame spraying gun 13 is also four. After the four workpieces 4 are deburred, the four workpieces 4 advance to two stations, then the softening movable base 12 is reset, in the resetting process, the four workpieces 4 continue to advance to two stations, and at the moment, the four flame injection ports 14 of the flame spray gun 13 are aligned to the four adjacent workpieces 4 to perform next deburring work.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (10)

1. A glassware transfer system, characterized by: the device comprises a heat-preservation conveying belt and a processing conveying belt which are perpendicular to each other, wherein a material pushing piece used for pushing a workpiece on the heat-preservation conveying belt to the processing conveying belt is arranged on the outer side of the tail end of the heat-preservation conveying belt; the surface of the processing conveyor belt is rotatably connected with a plurality of trays, and the trays are connected with a rotary driving piece; the processing conveyer belt outside is fixed with a supporting bench, sliding connection has the softening to remove the seat and the spraying removes the seat on the supporting bench, the softening is equipped with the flame spray gun on removing the seat, the spraying is removed and is equipped with the anti-scratch liquid flush coater on the seat, all be equipped with on softening and removing seat and the spraying and be used for pressing from both sides the last mechanism of putting the last conveying face of processing conveyer belt and be used for pressing from both sides the lower mechanism of putting the lower conveying face of processing conveyer belt.

2. The glass article transfer system of claim 1, wherein: clamping seats are fixed at one ends of the softening movable seat and the spraying movable seat, which are close to the processing conveyor belt, and the upper clamping mechanism and the lower clamping mechanism are arranged on the clamping seats; the upper clamping and placing mechanism and the lower clamping and placing mechanism comprise U-shaped grooves formed in the clamping and placing base, oil ducts are formed in two side walls of each U-shaped groove, clamping blocks are connected to the inner outlets of the oil ducts in a sliding mode, and the fact that the two clamping blocks stretch out of the oil ducts to clamp the upper conveying surface or the lower conveying surface of the processing conveying belt is achieved through oil inlet in the oil ducts.

3. The glass article transfer system of claim 2, wherein: the softening moving seat is positioned on one side of the spraying moving seat close to the feeding end of the processing conveyor belt.

4. The glass article transfer system of claim 3, wherein: the flame spray gun is provided with a plurality of flame jet orifices which are transversely arranged, the number of the flame jet orifices is even, the anti-scratching liquid spraying machine is also provided with a plurality of rows of scratching liquid spraying orifices which are transversely arranged, and the number of the rows of the scratching liquid spraying orifices is the same as the number of the flame jet orifices.

5. The glass article transfer system of any one of claims 1-4, wherein: the rotary driving part comprises a rack fixed on the outer side of the processing conveyor belt and driving teeth arranged on the outer side wall of the tray, the rack extends along the conveying direction of the processing conveyor belt, and the driving teeth on the tray can be meshed with the rack.

6. The glass article transfer system of claim 5, wherein: and a glassware anti-falling plate is fixed on the rack.

7. The glass article transfer system of claim 5, wherein: the pushing piece comprises a pushing hydraulic rod, and the stretching direction of the pushing hydraulic rod is along the conveying direction of the processing conveying belt.

8. The glass article transfer system of claim 7, wherein: and the free end of the material pushing hydraulic rod is provided with a U-shaped limiting shell.

9. The glass article transfer system of claim 8, wherein: the inside wall of the U-shaped limiting shell is provided with a soft protective layer.

10. The glass article transfer system of any one of claims 1-4, wherein: an inclined transfer plate is arranged between the discharge end of the heat-preservation conveying belt and the feed end of the processing conveying belt.

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