阅读说明：本技术 一种稳定性好的玻璃制造用增压容器 (Good pressurized container for glass manufacturing of stability ) 是由 李捷 陈明明 李红连 于 2020-11-29 设计创作，主要内容包括：本发明公开了一种稳定性好的玻璃制造用增压容器,涉及玻璃制造技术领域；为了解决熔化桶加压问题；具体包括压力桶,所述压力桶的底部固定连接有支架,压力桶的底部固定连接有分流筒,分流筒的底部固定连接有防泄漏组件,防泄漏组件的一端固定连接有气泵,压力桶的内壁固定连接有熔化桶,熔化桶的外壁固定连接有加热线圈,分流筒的顶部固定连接于熔化桶的底部,分流筒的顶部通过螺纹连接有导管,导管的一端固定连接于熔化桶的顶部。本发明通过设置分流筒,气泵将高压气体通过分流筒输送给各个导管,导管将气体从熔化桶顶部输入,对熔化桶内部注入高压气体,增大熔化桶内部的压强,且不需要使用液压缸压缩熔化桶内部空气。(The invention discloses a pressurized container with good stability for glass manufacturing, and relates to the technical field of glass manufacturing; in order to solve the problem of pressurizing the melting barrel; the pressure barrel is characterized by comprising a pressure barrel, a support fixedly connected with the bottom of the pressure barrel, a shunt barrel fixedly connected with the bottom of the pressure barrel, a leakage-proof assembly fixedly connected with the bottom of the shunt barrel, an air pump fixedly connected with one end of the leakage-proof assembly, a melting barrel fixedly connected with the inner wall of the pressure barrel, a heating coil fixedly connected with the outer wall of the melting barrel, a top of the shunt barrel is fixedly connected with the bottom of the melting barrel, a guide pipe is connected to the top of the shunt barrel through threads, and one end of the guide pipe is fixedly connected with the. According to the invention, the flow dividing cylinder is arranged, the air pump conveys high-pressure gas to each guide pipe through the flow dividing cylinder, the guide pipes input the gas from the top of the melting barrel, the high-pressure gas is injected into the melting barrel, the pressure intensity in the melting barrel is increased, and a hydraulic cylinder is not required to compress the air in the melting barrel.)

1. The utility model provides a good pressurized container for glass manufacturing of stability, including pressure vessel (1), a serial communication port, bottom fixedly connected with support (10) of pressure vessel (1), the bottom fixedly connected with reposition of redundant personnel section of thick bamboo (9) of pressure vessel (1), subassembly (7) are prevented to the bottom fixedly connected with of reposition of redundant personnel section of thick bamboo (9), prevent one end fixedly connected with air pump (8) of leaking subassembly (7), the inner wall fixedly connected with of pressure vessel (1) melts bucket (12), the outer wall fixedly connected with heating coil (13) of melting bucket (12), the top fixedly connected with in the bottom of melting bucket (12) of reposition of redundant personnel section of thick bamboo (9), there is pipe (11) at the top of reposition of redundant personnel section of thick bamboo (9) through threaded connection, the one end fixed connection of pipe (11) is in the top.

2. The pressurized container for glass manufacturing with good stability according to claim 1, wherein one end of the leakage-proof assembly (7) is fixedly connected with a pressure measuring assembly (5), the leakage-proof assembly (7) comprises a detection tube (18) and a device housing (23), the inner wall of the detection tube (18) is fixedly connected with a partition plate (19), the device housing (23) is fixedly connected with the outer wall of the detection tube (18), the outer wall of the device housing (23) is fixedly connected with a connecting tube (25), one end of the connecting tube (25) is fixedly connected with the outer wall of the detection tube (18), and the top inner wall of the device housing (23) is fixedly connected with a connecting shaft (24).

3. The pressurized container for glass manufacturing with good stability according to claim 2, wherein the pressure measuring component (5) comprises a first air pipe (6) and a first pressure gauge (16), the first end of the first air pipe (6) is in threaded connection with one end of the detection pipe (18), the other end of the first air pipe (6) is fixedly connected with a second valve (17), the first pressure gauge (16) is fixedly connected with one end of the second valve (17), one end of the second valve (17) is fixedly connected with a second air pipe (15), one end of the second air pipe (15) is fixedly connected with a first valve (14), and one end of the first valve (14) is fixedly connected with the outer wall of the pressure barrel (1).

4. The pressurized container for glass manufacturing with good stability according to claim 1, wherein the top of the pressure barrel (1) is fixedly connected with a pressure relief component (2) and a motor (3), and the top of the pressure barrel (1) is provided with a feeding hole (4).

5. The pressurized container for glass manufacturing with good stability according to claim 4, wherein one end of the motor (3) is fixedly connected with a stirring assembly, the stirring assembly comprises a first fixing plate (30) and a second fixing plate (38), the second fixing plate (38) is welded on the inner wall of the pressure barrel (1), a communication port is formed in the outer wall of one side of the second fixing plate (38), a conveying cylinder (36) is welded on one side of the second fixing plate (38), an outlet groove (37) is formed in the outer wall of the conveying cylinder (36), the first fixing plate (30) is rotatably connected to two ends of the pressure barrel (1), and the output end of the motor (3) is connected with a rotating shaft (33) through a coupling.

6. The pressurized container for manufacturing glass with good stability as claimed in claim 5, wherein the spiral blade (34) is welded to the outer wall of the rotating shaft (33), the spiral blade (34) and the rotating shaft (33) are arranged inside the conveying cylinder (36), the stirring rod (31) is fixedly connected to the outer wall of one side of the first fixing plate (30), the scraping plate (35) and the stirring sheet (32) are welded to the outer wall of the stirring rod (31), and one end of the scraping plate (35) is attached to the inner wall of the pressure barrel (1).

7. The pressurized container for glass manufacturing with good stability as claimed in claim 2, wherein a flange (20) is welded to one end of the detection tube (18), and one end of the flange (20) is fixedly connected to the output end of the air pump (8).

8. The pressurized container for glass manufacturing with good stability according to claim 4, wherein the pressure relief assembly (2) comprises an alarm box (26) and an exhaust pipe (29), one end of the alarm box (26) is connected with a second pressure gauge (27) through a pressure measuring pipe, one end of the pressure measuring pipe is fixedly connected with a pressure relief cylinder, the top of the pressure relief cylinder is movably connected with a handle (28), and the exhaust pipe (29) is fixedly connected to the outer wall of the pressure relief cylinder.

9. The pressurized container for glass manufacturing with good stability as claimed in claim 2, wherein the spring (22) is sleeved on the outer wall of the connecting shaft (24), one end of the spring (22) is fixedly connected with the rubber block (21), the rubber block (21) is slidably connected to the outer wall of the connecting shaft (24), and the outer wall of the rubber block (21) is attached to the inner wall of the device shell (23).

Technical Field

The invention relates to the technical field of glass manufacturing, in particular to a pressurizing container for glass manufacturing with good stability.

Background

In order to meet the requirement of mass production of glass, more glass solution is needed, the rapid melting of glass raw materials becomes a problem to be solved, and the purpose of rapid melting is achieved by increasing the pressure in a melting furnace to reduce the melting point of the glass raw materials; the existing pressurizing container for manufacturing glass generally reduces the melting point of melting glass raw materials by increasing air pressure in a mode of heating compressed air, but needs to consume a large amount of heat, and has poor pressurizing effect and low efficiency.

Through the retrieval, chinese patent application number is 201922460466.0's patent, discloses a pressure boost container for glass manufacturing that stability is good, including the pressure boost container, pressure boost container bottom is provided with the support base, the upper surface left side of supporting the base installs the air compressor machine, air compressor machine right side fixedly connected with connecting tube, connecting tube right side fixedly connected with admission line, admission line runs through the inner wall that the pressure boost container extended to the pressure boost container, pressure boost container inner chamber mid-mounting has the division board, the division board left side is the pressure boost inner chamber that contracts, the division board right side is for storing the inner chamber, the pneumatic cylinder is installed at compression inner chamber top. The separator in the above patent has the following disadvantages: after the glass raw material is heated and melted in the pressurizing container, the liquid raw material flows to the transition channel through the partition plate, and after the temperature is reduced, the transition channel is easily blocked, so that the compression inner cavity and the storage inner cavity are separated, and safety accidents are caused.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a pressurizing container for glass manufacturing, which has good stability.

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

the utility model provides a good pressurized container for glass manufacturing of stability, includes the pressure vessel, the bottom fixedly connected with support of pressure vessel, the bottom fixedly connected with reposition of redundant personnel section of thick bamboo of pressure vessel, the bottom fixedly connected with of reposition of redundant personnel section of thick bamboo prevents leaking the subassembly, prevents leaking the one end fixedly connected with air pump of subassembly, and the inner wall fixedly connected with of pressure vessel melts the bucket, melts the outer wall fixedly connected with heating coil of bucket, and the top fixedly connected with of reposition of redundant personnel section of thick bamboo has the pipe in the bottom of melting the bucket, and there is the pipe at the top of reposition of redundant personnel section of thick bamboo through.

Preferably: prevent leaking the one end fixedly connected with pressure measurement subassembly of subassembly, prevent leaking the subassembly including detecting tube and device casing, the inner wall fixedly connected with baffle of detecting tube, device casing fixed connection is in the outer wall of detecting tube, and the outer wall fixedly connected with connecting pipe of device casing, the one end fixed connection of connecting pipe in the outer wall of detecting tube, the top inner wall fixedly connected with connecting axle of device casing.

Further: the pressure measuring assembly comprises a first air pipe and a first pressure gauge, the first end of the first air pipe is in threaded connection with one end of the detection pipe, the other end of the first air pipe is fixedly connected with a second valve, the first pressure gauge is fixedly connected with one end of the second valve, the second valve is fixedly connected with one end of the second valve, the first valve is fixedly connected with one end of the second air pipe, and the first valve is fixedly connected with the outer wall of the pressure barrel.

As a preferable aspect of the present invention: the top fixedly connected with pressure release subassembly and motor of pressure vessel, the feed inlet has been seted up at the top of pressure vessel.

On the basis of the scheme: the one end fixedly connected with stirring subassembly of motor, the stirring subassembly is including fixed plate one and fixed plate two, and fixed plate two welds in the inner wall of pressure vessel, and the intercommunication mouth has been seted up to one side outer wall of fixed plate two, and the welding of one side of fixed plate two has a transport section of thick bamboo, and the export groove has been seted up to the outer wall of transport section of thick bamboo, and fixed plate one rotates to be connected in the both ends of pressure vessel, and the output of motor is connected with the pivot through the shaft joint.

Preferably: the outer wall welding of pivot has the spiral blade, and spiral blade and pivot set up in the inside of carrying a section of thick bamboo, one side outer wall fixedly connected with poking bar of fixed plate one, and the outer wall welding of poking bar has scraper blade and stirring piece, and the one end of scraper blade is pasted in the inner wall of pressure vessel.

Further: a flange is welded at one end of the detection pipe, and one end of the flange is fixedly connected to the output end of the air pump.

On the basis of the scheme: the pressure relief assembly comprises an alarm box and an exhaust pipe, one end of the alarm box is connected with a second pressure gauge through a pressure measuring pipe, one end of the pressure measuring pipe is fixedly connected with a pressure relief barrel, the top of the pressure relief barrel is movably connected with a handle, and the exhaust pipe is fixedly connected to the outer wall of the pressure relief barrel.

As a preferable aspect of the present invention: the outer wall cover of connecting axle has the spring, and the one end fixedly connected with block rubber of spring, the sliding connection of block rubber in the outer wall of connecting axle, the outer wall laminating of block rubber in the inner wall of device casing.

The invention has the beneficial effects that:

1. the utility model provides a good pressurized container for glass manufacturing of stability, is through setting up the reposition of redundant personnel section of thick bamboo, and the air pump carries high-pressure gas for each pipe through reposition of redundant personnel section of thick bamboo, and the pipe is with gaseous from melting the input of bucket top, to melting the inside high-pressure gas that pours into of bucket, increases the inside pressure of melting bucket, and need not use the pneumatic cylinder compression to melt the inside air of bucket for the space in the melting bucket is bigger, can melt more glass raw and other materials, improves and melts efficiency.

2. The utility model provides a good pressurized container for glass manufacturing of stability, through setting up heating coil, heating coil circular telegram heats the glass raw and other materials that melts in the bucket, and the heat that heating coil produced, partly transmits to the pipe through heat radiation, heats the air in the pipe, and the air of heating is carried to melting in the bucket again, realizes thermal high-efficient utilization, avoids low temperature air to get into simultaneously and melts in the bucket, leads to inside temperature inhomogeneous.

3. The utility model provides a good pressurized container for glass manufacturing of stability, prevent leaking the subassembly through the setting, the air is in getting into the gas transmission pipe by the intake pipe, and because the design of baffle, make in the air admission device casing, and simultaneously, under the effort of atmospheric pressure, promote the block rubber and move along the connecting axle, after the spring compression to the certain degree, the air in the check pipe enters into the opposite side of check pipe through the connecting pipe, if take place to reveal, the atmospheric pressure in the check pipe reduces, the block rubber is because the effect downstream of spring, thereby block the circulation of air, reach the purpose that prevents to reveal.

4. The utility model provides a pressure boost container for glass manufacturing that stability is good, through setting up pressure measurement subassembly, open valve two, the air is carried to manometer one through trachea one, detects the gas tightness of pipeline, with prevent leaking the subassembly cooperation, can accurate measurement leakage quantity's size, the staff's of being convenient for maintenance opens valve one, closes valve two, makes manometer one be used for detecting the pressure in the melting bucket, can monitor the pressure in the melting bucket, conveniently adjusts the pressure in the melting bucket.

5. The utility model provides a good pressurized container for glass manufacturing of stability, through setting up the stirring subassembly, can carry out the stirring of a plurality of directions to the material in the pressure vessel, it is better to make the material mix the effect, avoid appearing the layering phenomenon, utilize the motor to drive a fixed plate and rotate, and then make the helical blade rotate, make the material that is close to the pressure vessel both ends carry to the feed cylinder in through the helical blade, the material is discharged from the export groove, it is further, the fixed plate drives the poking bar and rotates, stir the material, make thick liquids around can both get into the feed cylinder fast, the scraper blade strikes off the material of pressure vessel inner wall, prevent that the material from solidifying at the inner wall.

Drawings

FIG. 1 is a schematic view of the overall structure of a pressurized container for glass manufacture according to the present invention;

FIG. 2 is a schematic view of a melting barrel of a pressurized container for manufacturing glass according to the present invention;

FIG. 3 is a schematic structural view of a pressure measuring unit of a pressurized container for glass manufacture according to the present invention;

FIG. 4 is a schematic view of a leak-proof assembly of a pressurized container for glass manufacturing according to the present invention;

FIG. 5 is a schematic structural view of a pressure relief assembly of a pressurized container for glass manufacturing according to the present invention;

FIG. 6 is a schematic structural view of a stirring assembly of a pressurized container for manufacturing glass according to the present invention.

In the figure: 1-pressure barrel, 2-pressure relief component, 3-motor, 4-feed inlet, 5-pressure measuring component, 6-air pipe I, 7-leakage preventing component, 8-air pump, 9-shunt barrel, 10-bracket, 11-catheter, 12-melting barrel, 13-heating coil, 14-valve I, 15-air pipe II, 16-pressure gauge I, 17-valve II, 18-detection tube, 19-clapboard, 20-flange, 21-rubber block, 22-spring, 23-device shell, 24-connecting shaft, 25-connecting pipe, 26-alarm box, 27-pressure gauge II, 28-handle, 29-exhaust pipe, 30-fixing plate I, 31-stirring rod, 32-stirring piece, 32-leakage preventing component, 33-rotating shaft, 34-spiral blade, 35-scraping plate, 36-conveying cylinder, 37-outlet groove and 38-fixing plate II.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

In the description of this patent, it is to be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings for the convenience of describing the patent and for the simplicity of description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the patent.

In the description of this patent, it is noted that unless otherwise specifically stated or limited, the terms "mounted," "connected," and "disposed" are to be construed broadly and can include, for example, fixedly connected, disposed, detachably connected, disposed, or integrally connected and disposed. The specific meaning of the above terms in this patent may be understood by those of ordinary skill in the art as appropriate.

A pressurized container for glass manufacturing with good stability is disclosed, as shown in fig. 1 and 2, and comprises a pressure barrel 1, wherein the bottom of the pressure barrel 1 is fixedly connected with a support 10, the bottom of the pressure barrel 1 is fixedly connected with a shunt barrel 9, the bottom of the shunt barrel 9 is fixedly connected with a leakage-proof assembly 7, one end of the leakage-proof assembly 7 is fixedly connected with an air pump 8, the inner wall of the pressure barrel 1 is fixedly connected with a melting barrel 12, the outer wall of the melting barrel 12 is fixedly connected with a heating coil 13, the top of the shunt barrel 9 is fixedly connected with the bottom of the melting barrel 12, the top of the shunt barrel 9 is connected with a guide pipe 11 through threads, and one end of the guide pipe 11; by arranging the flow dividing cylinder 9, the air pump 8 conveys high-pressure air to each guide pipe 11 through the flow dividing cylinder 9, the guide pipes 11 input the air from the top of the melting barrel 12, the high-pressure air is injected into the melting barrel 12, the pressure inside the melting barrel 12 is increased, and the air inside the melting barrel 12 is not required to be compressed by using a hydraulic cylinder, so that the space inside the melting barrel 12 is larger, more glass raw materials can be melted, and the melting efficiency is improved; through setting up heating coil 13, heating coil 13 circular telegram heats the glass raw and other materials that melts in bucket 12 and melts, and heating coil 13 produced heat, partly transmit to pipe 11 through heat radiation, heats the air in pipe 11, and the air of heating is carried to melting in bucket 12 again, realizes thermal high-efficient utilization, avoids low temperature air to get into and melts in bucket 12 simultaneously, leads to inside temperature inhomogeneous.

In order to solve the pressure detection problem; as shown in fig. 3 and 4, one end of the leak-proof assembly 7 is fixedly connected with a pressure measuring assembly 5, the leak-proof assembly 7 comprises a detecting tube 18 and a device housing 23, the inner wall of the detecting tube 18 is fixedly connected with a partition plate 19, one end of the detecting tube 18 is welded with a flange 20, one end of the flange 20 is fixedly connected with the output end of the air pump 8, the device housing 23 is fixedly connected with the outer wall of the detecting tube 18, the outer wall of the device housing 23 is fixedly connected with a connecting tube 25, one end of the connecting tube 25 is fixedly connected with the outer wall of the detecting tube 18, the top inner wall of the device housing 23 is fixedly connected with a connecting shaft 24, the outer wall of the connecting shaft 24 is sleeved with a spring 22, one end of the spring 22 is fixedly connected with a rubber block 21, the rubber block 21 is slidably connected with the outer wall of the connecting shaft 24, the, the first end of the first air pipe 6 is in threaded connection with one end of the detection pipe 18, the other end of the first air pipe 6 is fixedly connected with a second valve 17, a first pressure gauge 16 is fixedly connected with one end of the second valve 17, one end of the second valve 17 is fixedly connected with a second air pipe 15, one end of the second air pipe 15 is fixedly connected with a first valve 14, and one end of the first valve 14 is fixedly connected with the outer wall of the pressure barrel 1; through the arrangement of the anti-leakage assembly 7, air enters the air pipe from the air inlet pipe, due to the design of the partition plate 19, the air enters the device shell 23, meanwhile, under the action of air pressure, the rubber block 21 is pushed to move along the connecting shaft 24, after the spring 22 is compressed to a certain degree, the air in the detection pipe 18 enters the other side of the detection pipe 18 through the connecting pipe 25, if leakage occurs, the air pressure in the detection pipe 18 is reduced, the rubber block 21 moves downwards under the action of the spring 22, so that the circulation of the air is blocked, and the purpose of preventing the leakage is achieved; through setting up pressure measuring unit 5, open valve two 17, the air is carried to manometer one 16 through trachea one 6, detects the gas tightness of pipeline, with prevent leaking the cooperation of subassembly 7, can the accurate size of measuring leakage quantity, the staff's of being convenient for maintenance opens valve one 14, closes valve two 17, makes manometer one 16 be used for detecting the pressure in melting bucket 12, can monitor the pressure in melting bucket 12, conveniently adjusts the pressure in melting bucket 12.

In order to solve the problem of material mixing; as shown in fig. 5 and 6, a pressure relief assembly 2 and a motor 3 are fixedly connected to the top of a pressure barrel 1, a feed inlet 4 is formed in the top of the pressure barrel 1, the pressure relief assembly 2 includes an alarm box 26 and an exhaust pipe 29, one end of the alarm box 26 is connected with a pressure gauge two 27 through a pressure measuring pipe, one end of the pressure measuring pipe is fixedly connected with a pressure relief barrel, the top of the pressure relief barrel is movably connected with a handle 28, the exhaust pipe 29 is fixedly connected to the outer wall of the pressure relief barrel, one end of the motor 3 is fixedly connected with a stirring assembly, the stirring assembly includes a first fixing plate 30 and a second fixing plate 38, the second fixing plate 38 is welded to the inner wall of the pressure barrel 1, a communication port is formed in the outer wall of one side of the second fixing plate 38, a conveying barrel 36 is welded to one side of the second fixing plate 38, an outlet groove 37 is formed in the outer wall of the, a spiral blade 34 is welded on the outer wall of the rotating shaft 33, the spiral blade 34 and the rotating shaft 33 are arranged inside the conveying cylinder 36, a stirring rod 31 is fixedly connected to the outer wall of one side of the first fixing plate 30, a scraping plate 35 and a stirring sheet 32 are welded on the outer wall of the stirring rod 31, and one end of the scraping plate 35 is attached to the inner wall of the pressure barrel 1; through setting up the stirring subassembly, can carry out the stirring of a plurality of directions to the material in the pressure vessel 1, it is better to make the material mix the effect, avoid appearing the layering phenomenon, utilize motor 3 to drive a fixed plate 30 and rotate, and then make helical blade 34 rotate, make the material that is close to pressure vessel 1 both ends carry to the transport cylinder 36 in through helical blade 34, the material is discharged from export groove 37, it is further, a fixed plate 30 drives stirring rod 31 and rotates, stir the material, make thick liquids around can both get into in the transport cylinder 36 fast, scraper blade 35 strikes off the material of 1 inner wall of pressure vessel, prevent that the material from solidifying at the inner wall.

When the device is used, the air pump 8 conveys high-pressure air to each guide pipe 11 through the flow dividing cylinder 9, the guide pipes 11 input the air from the top of the melting barrel 12, the high-pressure air is injected into the melting barrel 12 to increase the pressure inside the melting barrel 12, the heating coil 13 is electrified to heat and melt the glass raw material in the melting barrel 12, part of the heat generated by the heating coil 13 is transmitted to the guide pipes 11 through heat radiation to heat the air in the guide pipes 11, the heated air is conveyed into the melting barrel 12 again to realize the efficient utilization of the heat, meanwhile, the phenomenon that the internal temperature is uneven due to the fact that low-temperature air enters the melting barrel 12 is avoided, the air enters the air conveying pipe through the air inlet pipe, due to the design of the partition plate 19, the air enters the device shell 23, meanwhile, under the acting force of the air pressure, the rubber block 21 is pushed to move along the connecting shaft 24, after the spring 22, the air in the detection tube 18 enters the other side of the detection tube 18 through the connecting tube 25, if leakage occurs, the air pressure in the detection tube 18 is reduced, the rubber block 21 moves downwards under the action of the spring 22, so that the circulation of the air is blocked, the purpose of preventing the leakage is achieved, the valve II 17 is opened, the air is conveyed to the pressure gauge I16 through the air tube I6, the air tightness of the pipeline is detected, the air is matched with the leakage-proof assembly 7, the leakage amount can be accurately measured, the maintenance of workers is facilitated, the valve I14 is opened, the valve II 17 is closed, the pressure gauge I16 is used for detecting the pressure in the melting barrel 12, the pressure in the melting barrel 12 can be monitored, the pressure in the melting barrel 12 can be conveniently adjusted, the motor 3 is used for driving the fixing plate I30 to rotate, the spiral blade 34 is further rotated, and materials close to two ends of the pressure barrel 1 are conveyed to the conveying barrel 36 through the spiral, the material is discharged from export groove 37, and is further, fixed plate 30 drives puddler 31 and rotates, stirs the material, makes thick liquids on every side can both get into the transport cylinder 36 fast in, and scraper blade 35 scrapes off the material of 1 inner wall of pressure vessel, prevents that the material from solidifying at the inner wall.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.