CN113698087B - Bubble-removing heat-resistant conveying equipment for glass production and manufacture - Google Patents

Abstract

The invention provides a defoaming heat-resistant conveying device for glass production and manufacture, relates to the technical field of glass production, and solves the problems that when glass is annealed and cooled, heat is accumulated and cannot be effectively released after an existing bearing device is used for a long time, so that the bearing device has poor heat-resistant effect; the heat radiation structure comprises: the heat dissipation frame, the heat dissipation frame is sheet structure, and the heat dissipation frame is array arrangement, and open the bottom has the arc groove, and the arc groove of heat dissipation frame and bear frame department arc groove coincide each other, and the heat dissipation frame is fixed in bearing the frame, bears the heat dissipation frame of frame, is favorable to the heat transfer between heat dissipation frame and the bearing frame, through setting up the heat dissipation frame of sheet array arrangement, has increased the radiating effect of heat dissipation frame.

Description

Bubble-removing heat-resistant conveying equipment for glass production and manufacture

Technical Field

The invention belongs to the technical field of glass production, and particularly relates to a defoaming heat-resistant conveying device for glass production.

Background

Glass is a material which is widely applied in recent modern times, the glass is an amorphous inorganic nonmetallic material, a plurality of inorganic minerals are generally used as main raw materials, transparent objects with hard and brittle glass texture are generally prepared by mixing quartz sand, limestone, sodium carbonate and the like, melting at high temperature, forming and cooling.

Based on the above, the glass is required to be pressurized and cooled after being melted in production, but after the existing bearing device is used for a long time, heat accumulation can be generated, and the heat cannot be effectively released, so that the problem of poor heat-resistant effect of the bearing device is caused.

Accordingly, in view of the above, research and improvement has been made to solve the problems of the prior art, and a bubble removal and heat resistance conveying apparatus for glass production and manufacturing is provided to achieve the purpose of more practical value.

Disclosure of Invention

In order to solve the technical problems, the invention provides a defoaming heat-resistant conveying device for glass production and manufacture, which aims to solve the problems that the melted liquid glass is required to be pressurized and annealed and cooled during glass production, but after the existing bearing device is used for a long time, heat accumulation is generated, the heat cannot be effectively released, and the heat-resistant effect of the bearing device is poor.

The invention provides a defoaming heat-resistant conveying device for glass production and manufacture, which is characterized by comprising the following specific technical means: a de-bubbling heat resistant conveying device for glass production and manufacture comprises a base structure; the base structure is placed on the ground, the upper end of the base structure is provided with a bearing device, and the interior of the bearing device is provided with a heat dissipation structure; the heat radiation structure comprises: the heat dissipation frames are of sheet structures, are arranged in an array mode, arc-shaped grooves are formed in the bottom ends of the heat dissipation frames, the arc-shaped grooves of the heat dissipation frames are matched with the arc-shaped grooves at the bearing frames, and the heat dissipation frames are fixed in the bearing frames; the radiating fans are arranged at the left end and the right end of the radiating frame, three groups of radiating fans are arranged at each end of the radiating frame, and six groups of radiating fans are arranged in total; the mounting structure is slidably mounted on the bearing device, and a cleaning structure is fixed at the bottom of the mounting structure; the transmission assembly is arranged on the outer walls of the front end and the rear end of the cleaning structure, and the sliding structure is arranged at the position of the transmission assembly.

Further, the base structure includes: the bottom plate, the bottom plate is rectangular plate structure, and the end position sets up to protruding structure about the bottom plate, and protruding structure is the array mode and arranges.

Further, the bearing device comprises: the section of the bearing frame is of an arch structure, and arc grooves are formed in the bottoms of the front end and the rear end of the bearing frame; the bearing plate is fixed on the top surface of the bearing frame, and the front end and the rear end of the bearing frame are provided with side sliding grooves which are of a transverse double-layer structure.

Further, the mounting structure includes: the mounting plate is of a vertical plate structure, two groups of inner sliding plates are arranged on the inner side surface of the lower end of the mounting plate, the mounting plate is slidably mounted on the side sliding grooves through the inner sliding plates, two groups of inclined mounting grooves are formed in the top of the mounting plate, and the mounting plate is arranged into two groups which are symmetrical front and back; the guide plate is in a triangular structure in the section position, and the mounting plates are connected between the two groups of mounting plates; the pinch roller is provided with two groups altogether, and the pinch roller rotates and installs on the mounting panel.

Further, the cleaning structure includes: the bottom sliding frames are of a frame structure, are arranged in an array structure, are fixedly connected through the bottom, are matched with the heat dissipation frame in space, and are fixed on the mounting plate; the brush bar is provided with brush hair, the brush bar is rotatably arranged at the left end and the right end of the bottom sliding frame, the bottom of the brush bar is provided with a gear, and the bottoms of the brush bars on the adjacent bottom sliding frames are connected and driven by a driving belt; the transmission bar is of a strip-shaped structure, the transmission bar is fixed on the bottom plate, a tooth row is arranged on the transmission bar, and the tooth row of the transmission bar is meshed with the gears at the bottoms of the first group of brush bars.

Further, the transmission assembly includes: the sliding plate is of a waist-round structure and is slidably arranged on the mounting plate; the outer gears are provided with two groups of outer gears which are rotatably arranged at the outermost end of the sliding plate, the outer walls of the outer gears are provided with gear teeth, and the two groups of outer gears are of an intermeshing structure; the driven wheels are of a grooved pulley structure, four groups of driven wheels are arranged, two groups of driven wheels are arranged on the pinch roller, and the other two groups of driven wheels are arranged on the inner side of the external gear.

Further, the sliding structure includes: the connecting plates are of a kidney-shaped plate structure, the root parts of the connecting plates are hinged to the sliding plates, the outer walls of the root parts of the connecting plates are of gear tooth structures, the two groups of connecting plates are meshed with each other through the gear tooth structures, and holes of the kidney-shaped structures are formed in the tail ends of the connecting plates; the fixing plate is of a T-shaped structure, the fixing plate is arranged at the outer ends of the two groups of connecting plates, two groups of sliding grooves are clamped on the extending rod of the fixing plate, and the extending rod is provided with an auxiliary block; the connecting rods are hinged to the middle positions of the connecting plates, the tail ends of the connecting rods are slidably arranged in the sliding grooves of the extension rods, the tail ends of the two groups of connecting rods are provided with gear teeth meshed with each other, and the tail ends of the two groups of connecting plates are provided with sliding shafts facing to the outer ends; the connecting block is installed on the sliding shaft of two sets of connecting rods, and the regulating shaft is installed in the rotation of connecting block left end, and the regulating shaft is screwed up and is installed on the auxiliary block of fixed plate.

Compared with the prior art, the invention has the following beneficial effects: according to the heat radiation structure, the bearing frame with the arch-shaped cross section is beneficial to clamping of the heat radiation structure, the bottom parts of the front end and the rear end of the bearing frame are provided with the arc-shaped grooves, so that the installation of a cleaning structure is facilitated, the bearing plate is fixed on the top surface of the bearing frame, the bearing plate is beneficial to directly transferring received heat to the bearing frame, the heat-resisting and heat-radiating effects are achieved, the heat radiation frame of the bearing frame is beneficial to heat transfer between the heat radiation frame and the bearing frame, the heat radiation effect of the heat radiation frame is improved through the heat radiation frames arranged in the sheet-shaped array, and the auxiliary air flow effect of the heat radiation fans on the heat radiation frame is improved through installing six groups of heat radiation fans at the left end and the right end of the heat radiation frame.

According to the cleaning structure, the bottom sliding frame which is matched with the heat dissipation frame is used for realizing that the frame body of the bottom sliding frame can slide at the bottom of the heat dissipation frame, the bottom sliding frame is fixed on the mounting plate, the bottom sliding frame is driven to slide when the mounting plate moves through the bottom sliding frame which is fixed on the mounting plate, the auxiliary cleaning of dust in the heat dissipation frame is realized, the brush rod is rotatably arranged through the symmetrical structure, the clearance of the brush rod to the space of the heat dissipation frame is increased, the joint movement of the transmission belts between the adjacent brush rods is realized through connecting the bottoms of the adjacent brush rods with the transmission belts, the meshing transmission between the transmission belts and the gears is facilitated through arranging the transmission belts at the bottom gear positions of the brush rod, and the brush rods in the movement can rotate, so that the better cleaning efficiency of the inside of the heat dissipation frame is realized.

In the transmission assembly, the external gear is arranged at the outermost end of the sliding plate, so that the sliding structure is arranged at the interval position between the sliding plate and the external gear, the effect of synchronous symmetrical motion of the external gear is realized through the external gear which is in meshed transmission, the belt is conveniently arranged by the driven gear through the driven gear with the groove structure, and the belt mainly has the transmission effect between the external gear and the pinch roller.

According to the sliding structure, the synchronous effect of the connecting plates during swinging is achieved through the connecting plates with the roots meshed with each other, the holes of the kidney-shaped structures are formed in the tail ends of the connecting plates, the opening and closing movement and adjustment of the pinch rollers are controlled in an auxiliary mode through the holes of the kidney-shaped structures in the tail ends of the connecting plates, a supporting structure is formed by the connecting rods, the connecting plates and the fixing plates, the outward supporting of the connecting plates by the sliding connecting rods is achieved, the position adjustment effect of the pinch rollers by the connecting plates is achieved, the same control of the connecting rods by the connecting blocks is achieved through the connecting blocks arranged on the connecting rods, the adjusting shafts are rotatably arranged at the left ends of the connecting blocks, the adjusting shafts are screwed on the auxiliary blocks arranged on the auxiliary blocks, the adjustment of the connecting rods is facilitated through the adjusting shafts which are too expensive, and the adjustment of the pinch rollers is achieved.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic cross-sectional view of a heat dissipating rack according to the present invention.

Fig. 3 is a schematic view of the bottom carriage structure of the present invention.

Fig. 4 is a schematic view of the structure of the base plate and the heat dissipating fan of the present invention.

FIG. 5 is a schematic view of the mounting plate and puck of the present invention.

Fig. 6 is a schematic view of a sliding structure of the present invention.

Fig. 7 is a schematic view of a sliding plate and a sliding structure according to the present invention.

Fig. 8 is a schematic view of the structure of the adjusting shaft and the connecting rod of the present invention.

Fig. 9 is a schematic view of a partially enlarged structure at a in fig. 2 according to the present invention.

Fig. 10 is a partially enlarged schematic view of the structure of fig. 4B according to the present invention.

In the figure, the correspondence between the component names and the drawing numbers is: 1. a base structure; 101. a bottom plate; 2. a carrying device; 201. a carrier; 202. a carrying plate; 203. a side chute; 3. a heat dissipation structure; 301. a heat dissipation frame; 302. a heat dissipation fan; 4. a mounting structure; 401. a mounting plate; 402. a guide plate; 403. a pinch roller; 5. cleaning the structure; 501. a bottom carriage; 502. a brush bar; 503. a transmission bar; 504. a transmission belt; 6. a transmission assembly; 601. an external gear; 602. a belt; 603. driven wheel; 604. a sliding plate; 7. a sliding structure; 701. a connecting plate; 702. a fixing plate; 703. a connecting rod; 704. a connecting block; 705. and adjusting the shaft.

Detailed Description

Examples: as shown in fig. 1 to 10: the invention provides a defoaming heat-resistant conveying device for glass production and manufacturing, which comprises a base structure 1; the base structure 1 is placed on the ground, the upper end of the base structure 1 is provided with a bearing device 2, and a heat dissipation structure 3 is arranged in the bearing device 2; the heat radiation structure 3 comprises: the heat dissipation frames 301 are of a sheet-shaped structure, the heat dissipation frames 301 are arranged in an array mode, arc-shaped grooves are formed in the bottom ends of the heat dissipation frames 301, the arc-shaped grooves of the heat dissipation frames 301 are matched with the arc-shaped grooves of the bearing frames 201, the heat dissipation frames 301 are fixed in the bearing frames 201, the heat dissipation frames 301 of the bearing frames 201 are beneficial to heat transfer between the heat dissipation frames 301 and the bearing frames 201, and the heat dissipation effect of the heat dissipation frames 301 is improved through the heat dissipation frames 301 arranged in a sheet-shaped array mode; the heat dissipation fans 302, the heat dissipation fans 302 are installed at the left and right end positions of the heat dissipation frame 301, three groups of heat dissipation fans 302 are installed at each end of the heat dissipation frame 301, six groups of heat dissipation fans 302 are arranged in total, and the auxiliary air flow effect of the heat dissipation fans 302 on the heat dissipation frame 301 is increased by installing six groups of heat dissipation fans 302 at the left and right end positions of the heat dissipation frame 301.

Wherein, base structure 1 is including: the bottom plate 101, bottom plate 101 is rectangular plate structure, and bottom plate 101 left and right sides end position sets up to protruding structure, and protruding structure is array arrangement, through bottom plate 101 of rectangular plate structure, has increased the direct contact of bottom plate 101 with ground, has increased the stability of bottom plate 101, through the protruding structure of bottom plate 101 left and right sides end position, is favorable to protruding structure to bearing device 2's support, is array arrangement's protruding structure, helps supporting heat radiation structure 3.

Wherein, the carrying device 2 comprises: the cross section of the bearing frame 201 is of an arch structure, the bottoms of the front end and the rear end of the bearing frame 201 are provided with arc grooves, the clamping of the heat dissipation structure 3 is facilitated through the bearing frame 201 with the arch structure in cross section, and the installation of the cleaning structure 5 is facilitated through the arc grooves formed in the bottoms of the front end and the rear end of the bearing frame 201; the bearing plate 202, the end is all done decurrent chamfer processing about the bearing plate 202, and the bearing plate 202 is fixed at the top surface of bearing frame 201, through fixing the bearing plate 202 at the top surface of bearing frame 201, is favorable to bearing plate 202 to directly transmit the heat that receives to bearing frame 201, reaches heat-resisting and radiating effect, and the side spout 203 has been seted up to bearing frame 201 front and back end position, and side spout 203 is horizontal bilayer structure, through horizontal bilayer structure's side spout 203, is favorable to the installation slip of mounting structure 4.

Wherein, mounting structure 4 is including: the mounting plate 401 is of a vertical plate structure, two groups of inner sliding plates are arranged on the inner side surface of the lower end of the mounting plate 401, the mounting plate 401 is slidably mounted on the side sliding grooves 203 through the inner sliding plates, the stabilizing effect of the mounting plate 401 is improved through the mounting plate 401 mounted by the two groups of inner sliding plates, two groups of inclined mounting grooves are formed in the top of the mounting plate 401, and the mounting plate 401 is arranged into two groups which are symmetrical front and back; the guide plates 402 are triangular in section positions of the guide plates 402, the mounting plates 401 are connected between two groups of mounting plates 401, and the guide effect of the guide plates 402 on the flow direction of liquid glass is increased through the guide plates 402 with triangular sections; the two groups of pressing wheels 403 are arranged, and the pressing wheels 403 are rotatably arranged on the mounting plate 401.

Specific use and action of the embodiment: when the invention is used, firstly, because the liquid glass flows to the rotating pressing wheel 403 through the guide plate 402, the pressing wheel 403 can squeeze the liquid glass to finish the preliminary forming of the glass, the formed glass falls on the bearing plate 202, the bearing plate 202 can bear the extruded glass, so that the bearing plate 202 can bear higher temperature, the bearing plate 202 is required to have good heat-resistant effect, the bearing plate 202 is directly and tightly fixed on the bearing frame 201, the bottom of the bearing frame 201 is provided with the heat dissipation frame 301, and the heat dissipation frame 301 and the bearing frame 201 are tightly adhered, so that the heat of the bearing plate 202 can be better transferred to the heat dissipation frame 301, the heat dissipation effect on the bearing plate 202 is achieved, and the bearing plate 202 has better heat resistance.

Second embodiment: the mounting structure 4 is slidably mounted on the bearing device 2, and a cleaning structure 5 is fixed at the bottom of the mounting structure 4; wherein, clearance structure 5 is including: the bottom sliding frames 501 are of a frame structure, the bottom sliding frames 501 are arranged in an array structure, the bottom sliding frames 501 arranged in an array are fixedly connected through the bottom, the distance between each group of bottom sliding frames 501 is matched with that of the heat dissipation frame 301, the bottom sliding frames 501 can slide at the bottom of the heat dissipation frame 301 through the bottom sliding frames 501 mutually matched with the heat dissipation frame 301, the bottom sliding frames 501 are fixed on the mounting plate 401, and the bottom sliding frames 501 are driven to slide when the mounting plate 401 moves through the bottom sliding frames 501 fixed on the mounting plate 401, so that the auxiliary cleaning of dust in the heat dissipation frame 301 is achieved.

Wherein, clearance structure 5 still includes: the brush bars 502, the brush bars 502 are provided with bristles, the brush bars 502 are rotatably arranged at the left end and the right end of the bottom carriage 501, gears are arranged at the bottoms of the brush bars 502, the bottoms of the brush bars 502 on adjacent bottom carriages 501 are connected and driven by a driving belt 504, the brush bars 502 are rotatably arranged through a symmetrical structure, the clearance of the brush bars 502 to the space of the heat dissipation frame 301 is increased, and the joint movement of the driving belts 504 between adjacent brush bars 502 is realized by connecting the bottoms of the adjacent brush bars 502 with the driving belt 504; the transmission strip 503, the transmission strip 503 is rectangular structure, and the transmission strip 503 is fixed on the bottom plate 101, is provided with the tooth row on the transmission strip 503, and the tooth row of transmission strip 503 and the gear engagement of first group brush-holder stud 502 bottom, through with brush-holder stud 502 bottom gear position installation transmission strip 503, be favorable to the meshing transmission between transmission strip 503 and the gear, reach the brush-holder stud 502 in motion and can carry out the rotation, reach and carry out better cleaning performance to the heat dissipation frame 301 inside.

Specific use and action of the embodiment: the heat dissipation fan 302 mainly plays the radiating effect for the heat dissipation frame 301, but long-time through the radiating heat dissipation frame 301 of heat dissipation fan 302, certain dust can be accumulated in the inside, cause the poor problem of the radiating effect of later stage heat dissipation frame 301, set up end balladeur train 501 with the bottom of heat dissipation frame 301, end balladeur train 501 is array structure, make every group end balladeur train 501 homoenergetic and heat dissipation frame 301 crisscross each other, end balladeur train 501 unify to be fixed on mounting panel 401, make end balladeur train 501 can follow mounting panel 401 and slide, make the mounting panel 401 in the slip can realize, the assistance drives end balladeur train 501 and carries out the clearance to heat dissipation frame 301, with end rotation installation brush-holder stud 502 about end respectively about the end, connect through drive belt 504 between the brush-holder 502, the gear of brush-holder stud 502 and the drive belt 503 intermeshing on bottom plate 101, when making end balladeur train 501 follow mounting panel 401 and slide, brush-holder 502 bottom can rotate through drive belt 503, realize the better effect to heat dissipation frame 301 interval position.

Third embodiment: the transmission assembly 6, transmission assembly 6 sets up on the front and back end outer wall of clearance structure 5, and transmission assembly 6's position is provided with sliding structure 7 simultaneously.

Wherein, drive assembly 6 includes: the sliding plate 604, the sliding plate 604 is in a waisted structure, the sliding plate 604 is slidably arranged on the mounting plate 401, and the convenience in adjusting the pressing wheel 403 is facilitated through the sliding plate 604 slidably arranged on the mounting plate 401; the two groups of external gears 601 are arranged at the outermost ends of the sliding plates 604 in a rotating way, the external gears 601 are arranged on the outer walls of the external gears 601 in a mutual meshing way, the sliding structures 7 are arranged at the interval positions between the sliding plates 604 and the external gears 601 by arranging the external gears 601 at the outermost ends of the sliding plates 604, and the effect of synchronous and symmetrical movement of the external gears 601 is realized by mutually meshing the external gears 601 in a transmission way; driven wheel 603, driven wheel 603 is the groove wheel structure, and driven wheel 603 is provided with four groups altogether, and two sets of driven wheel 603 are installed on pinch roller 403, and other two sets of driven wheel 603 are installed in the external gear 601 inboard, through groove structure's driven wheel 603, have realized from the driving wheel 603 and have conveniently installed belt 602, and belt 602 mainly plays the transmission effect between external gear 601 and the pinch roller 403.

Wherein, sliding structure 7 is including: the two groups of connecting plates 701 are arranged, the root parts of the connecting plates 701 are hinged to the sliding plates 604, the outer walls of the root parts of the connecting plates 701 are provided with gear tooth structures, the two groups of connecting plates 701 are meshed with each other through the gear tooth structures, the synchronous effect of the connecting plates 701 during swinging is realized through the connecting plates 701 meshed with each other at the root parts, holes of the kidney-shaped structures are formed in the tail ends of the connecting plates 701, and the auxiliary control of the opening and closing movement and adjustment of the pressing wheels 403 by the connecting plates 701 is facilitated through the holes of the kidney-shaped structures in the tail ends of the connecting plates 701; the fixing plate 702 is of a T-shaped structure, the fixing plate 702 is arranged at the outer ends of the two groups of connecting plates 701, two groups of sliding grooves are clamped on the extending rods of the fixing plate 702, and the extending rods are provided with auxiliary blocks; the connecting rod 703, the connecting rod 703 is hinged to be installed in the middle of the connecting plate 701, the tail end of the connecting rod 703 is slidably installed in a chute of an extension rod, a supporting structure is formed by the connecting rod 703, the connecting plate 701 and the fixed plate 702, the outward support of the connecting plate 701 by the sliding connecting rod 703 is realized, the position adjustment effect of the connecting plate 701 on the pressing wheel 403 is achieved, the tail ends of the two groups of connecting rods 703 are provided with gear teeth meshed with each other, and the tail ends of the two groups of connecting plates 701 are provided with sliding shafts towards the outer ends.

Wherein, sliding structure 7 still includes: the connecting block 704, the connecting block 704 is installed on the sliding shaft of two sets of connecting rods 703, through installing the connecting block 704 on connecting rod 703, the same control of connecting block 704 to connecting rod 703 has been realized, connecting block 704 left end rotates installs regulating spindle 705, regulating spindle 705 twists and installs on the auxiliary block of fixed plate 702, through twisting the regulating spindle 705 of installing on the auxiliary block, be favorable to too expensive regulating spindle 705 to realize the adjustment to connecting rod 703, reach the interval adjustment of sliding structure 7 to pinch roller 403.

Specific use and action of the embodiment: in order to guarantee that two groups of pressing wheels 403 extrude more numbers of liquid in bags, also in order to enable the interval of pressing wheels 403 to conveniently adjust, connect two groups of pressing wheels 403 with drive assembly 6 through sliding structure 7 and control, install connecting plate 701 on the sliding plate 604 of slidable mounting in proper order, fixed plate 702 and external gear 601, two groups of external gears 601 of intermeshing, simultaneously be connected with the follow driving wheel 603 of pressing wheels 403 through belt 602, reach the synchronous symmetrical rotation effect to pressing wheels 403, make wave liquid better process, fixed plate 702 is T-shaped structure, can slide mounting two groups of connecting rods 703 simultaneously, connecting rod 703, fixed plate 702 and connecting plate 701 constitute bearing structure, can realize outwards supporting effect to connecting plate 701 through sliding connecting rod 703, and screw up the regulating axle 705 on the auxiliary head of fixed plate 702, the control to the connecting block can be realized through the rotation, the connecting block is installed at the end of connecting rod 703, thereby rotate and adjust the swing angle of regulating axle 705 can realize the swing angle to connecting plate 701, reach the purpose of controlling the angle of opening and shutting of pressing wheels 403 to sliding structure 7.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (3)

1. A remove heat-resisting conveying equipment of bubble for glass manufacture, its characterized in that: the novel heat dissipation device comprises a base structure (1), wherein the base structure (1) is placed on the ground, a bearing device (2) is arranged at the upper end of the base structure (1), and a heat dissipation structure (3) is arranged in the bearing device (2); the heat dissipation structure (3) comprises: the heat dissipation frame (301), the heat dissipation frame (301) is of a lamellar structure, the heat dissipation frames (301) are arranged in an array mode, arc-shaped grooves are formed in the bottom end of the heat dissipation frame, the arc-shaped grooves of the heat dissipation frame (301) are matched with the arc-shaped grooves of the bearing frame (201), and the heat dissipation frame (301) is fixed in the bearing frame (201); the heat dissipation fans (302), wherein the heat dissipation fans (302) are arranged at the left end and the right end of the heat dissipation frame (301), three groups of heat dissipation fans (302) are arranged at each end of the heat dissipation frame (301), and six groups of heat dissipation fans (302) are arranged in total;

The mounting structure (4) is slidably mounted on the bearing device (2), and a cleaning structure (5) is fixed at the bottom of the mounting structure (4); the transmission assembly (6) is arranged on the outer walls of the front end and the rear end of the cleaning structure (5), and a sliding structure (7) is arranged at the position of the transmission assembly (6);

The bearing device (2) comprises: the cross section of the bearing frame (201) is of an arch structure, and arc grooves are formed in the bottoms of the front end and the rear end of the bearing frame (201); the bearing plate (202), the left and right ends of the bearing plate (202) are all subjected to downward chamfering treatment, the bearing plate (202) is fixed on the top surface of the bearing frame (201), the front and rear end positions of the bearing frame (201) are provided with side sliding grooves (203), and the side sliding grooves (203) are of a transverse double-layer structure;

The mounting structure (4) comprises: the mounting plate (401), the mounting plate (401) is of a vertical plate structure, two groups of inner sliding plates are arranged on the inner side surface of the lower end of the mounting plate (401), the mounting plate (401) is slidably mounted on the side sliding groove (203) through the inner sliding plates, two groups of inclined mounting grooves are formed in the top of the mounting plate (401), and the mounting plate (401) is arranged into two groups which are symmetrical in front-back mode; the cross section of the guide plate (402) is of a triangular structure, and the guide plate (402) is connected between two groups of mounting plates (401); the pinch rollers (403), the pinch rollers (403) are provided with two groups altogether, the pinch rollers (403) are rotatably installed on the mounting plate (401);

the cleaning structure (5) comprises: the bottom sliding frames (501) are of a frame structure, the bottom sliding frames (501) are arranged in an array structure, the bottom sliding frames (501) arranged in an array mode are fixedly connected through the bottom, the space between each group of bottom sliding frames (501) is matched with the heat dissipation frame (301), and the bottom sliding frames (501) are fixed on the mounting plate (401);

The cleaning structure (5) further comprises: the brush bar (502), brush hair is arranged on the brush bar (502), the brush bar (502) is rotatably arranged at the left end and the right end of the bottom sliding frame (501), the bottom of the brush bar (502) is provided with a gear, and the bottoms of the brush bars (502) on the adjacent bottom sliding frames (501) are connected and driven by a driving belt (504); the driving strip (503), the driving strip (503) is of a strip structure, the driving strip (503) is fixed on the bottom plate (101), the driving strip (503) is provided with tooth rows, and the tooth rows of the driving strip (503) are meshed with the bottom gears of the first group of brush bars (502);

The transmission assembly (6) comprises: the sliding plate (604), the sliding plate (604) is of a kidney-shaped structure, and the sliding plate (604) is slidably arranged on the mounting plate (401); the external gears (601) are provided with two groups of external gears (601), the two groups of external gears (601) are rotatably arranged at the outermost end of the sliding plate (604), the external walls of the external gears (601) are provided with gear teeth, and the two groups of external gears (601) are of an intermeshing structure; the driven wheels (603), the driven wheels (603) are of a groove wheel structure, four groups of driven wheels (603) are arranged in total, two groups of driven wheels (603) are arranged on the pressing wheel (403), and the other two groups of driven wheels (603) are arranged on the inner side of the outer gear (601);

The sliding structure (7) comprises: the connecting plates (701) are of a kidney-shaped plate structure, the connecting plates (701) are arranged into two groups, the root parts of the connecting plates (701) are hinged on the sliding plates (604), the outer walls of the root parts of the connecting plates (701) are of gear tooth structures, the two groups of connecting plates (701) are meshed with each other through the gear tooth structures, and the tail ends of the connecting plates (701) are provided with kidney-shaped structure openings; the fixing plate (702), the fixing plate (702) is of a T-shaped structure, the fixing plate (702) is arranged at the outer ends of the two groups of connecting plates (701), two groups of sliding grooves are clamped on the extending rod of the fixing plate (702), and the extending rod is provided with an auxiliary block; the connecting rods (703), the connecting rods (703) are hinged to the middle positions of the connecting plates (701), the tail ends of the connecting rods (703) are slidably mounted in the sliding grooves of the extension rods, the tail ends of the two groups of connecting rods (703) are provided with gear teeth meshed with each other, and the tail ends of the two groups of connecting plates (701) are provided with sliding shafts towards the outer ends.

2. A de-bubbling heat resistant conveyor apparatus for glass production according to claim 1, wherein: the base structure (1) comprises: the bottom plate (101), bottom plate (101) are rectangular plate structure, and end position sets up to protruding structure about bottom plate (101), and protruding structure is the array mode and arranges.

3. A de-bubbling heat resistant conveyor apparatus for glass production according to claim 2, wherein: the sliding structure (7) further comprises: the connecting block (704), connecting block (704) are installed on the sliding shaft of two sets of connecting rods (703), the left end of connecting block (704) is rotatably provided with an adjusting shaft (705), and the adjusting shaft (705) is screwed on the auxiliary block of the fixed plate (702).