阅读说明：本技术 一种耐火防水矿物浇注母线生产工艺及其生产设备 (Production process and production equipment for fire-resistant waterproof mineral cast bus ) 是由 郑凯杰 于 2020-07-06 设计创作，主要内容包括：本发明涉及母线生产工艺及设备领域,具体为一种耐火防水矿物浇注母线生产工艺及其生产设备,其中,耐火防水矿物浇注母线生产设备的机架上设有搅拌罐,搅拌罐包括罐体和罐盖,罐盖上设有：真空上料斗、上搅拌桨、下搅拌桨、辅助搅拌桨、抽真空接口和液体物料接口,本发明,在搅拌的整个过程都进行抽真空脱泡作业,并通过水温机对罐体进行加热,在这样的罐内压力下,水的沸点为70度左右,罐体内的物料温度加上搅拌产热可达到该沸点温度,因此,可以保证搅拌物料完全脱水、脱泡,从而确保最终母线产品的各项电气性能达到较高标准。(The invention relates to the field of bus production technology and equipment, in particular to a production technology and production equipment of a fire-resistant waterproof mineral pouring bus, wherein a stirring tank is arranged on a rack of the production equipment of the fire-resistant waterproof mineral pouring bus, the stirring tank comprises a tank body and a tank cover, and the tank cover is provided with: the invention relates to a vacuum feeding hopper, an upper stirring paddle, a lower stirring paddle, an auxiliary stirring paddle, a vacuumizing interface and a liquid material interface, wherein the vacuumizing and defoaming operation is carried out in the whole stirring process, a tank body is heated by a water temperature machine, the boiling point of water is about 70 ℃ under the pressure in the tank, and the temperature of the materials in the tank body and the heat generated by stirring can reach the boiling point temperature, so that the stirring materials can be completely dehydrated and defoamed, and the electrical properties of the final bus product can reach higher standards.)

1. The utility model provides a fire-resistant waterproof mineral pouring generating line production facility, includes the frame, be equipped with the agitator tank in the frame, the agitator tank includes a jar body and cover, its characterized in that, be equipped with on the cover:

the vacuum feeding hopper is used for conveying solid materials to the tank body;

the first stirring shaft is vertically arranged and provided with an upper stirring paddle and a lower stirring paddle;

the second stirring shaft is obliquely arranged and provided with an auxiliary stirring paddle, and the auxiliary stirring paddle is positioned between the upper stirring paddle and the lower stirring paddle;

the vacuumizing interface is connected with a vacuumizing pump;

the liquid material interface is connected with a liquid material tank.

2. The production equipment of the fire-resistant waterproof mineral pouring bus bar according to claim 1, wherein the tank body is provided with a water outlet at the upper part and a water inlet at the bottom, and the water outlet and the water inlet are respectively connected with a water inlet and a water outlet of a water temperature machine.

3. The production equipment of the fire-resistant waterproof mineral pouring busbar according to claim 1, wherein the upper stirring paddle is located above the lower stirring paddle, and the length of the upper stirring paddle is smaller than that of the lower stirring paddle.

4. The production equipment of the fire-resistant waterproof mineral pouring bus bar as claimed in claim 1, wherein a plurality of scrapers are arranged at the end of the lower stirring paddle and used for scraping the inner wall of the tank body, and the scrapers are staggered up and down.

5. The production equipment of the fire-resistant waterproof mineral pouring bus bar according to claim 1, wherein a sealing support is arranged on the tank cover, and the first stirring shaft and the second stirring shaft are respectively arranged on the tank cover in a penetrating manner through one sealing support and a bearing.

6. The production equipment of the fire-resistant waterproof mineral pouring bus of claim 5, wherein the sealing support is connected with a speed reducer mounting support, and a speed reducer and a motor are mounted on the speed reducer mounting support and used for driving and respectively driving the first stirring shaft and the second stirring shaft to rotate.

7. The production equipment of the fire-resistant waterproof mineral pouring bus according to claim 1, wherein the inner surface of the bottom of the tank body is an arc surface, a discharge hole is formed in the position of the lowest point of the arc surface, a ball valve is arranged in the discharge hole, and the top surface of a valve neck of the ball valve is matched with the arc surface.

8. The production equipment of the fire-resistant waterproof mineral pouring bus as claimed in claim 1, wherein a roots blower and a small bag feeding station are connected to the vacuum feeding hopper, the small bag feeding station is used for feeding solid materials, the roots blower forms negative pressure inside the vacuum feeding hopper, and the solid materials fed into the small bag feeding station are pumped to the vacuum feeding hopper through the negative pressure.

9. The production equipment of the fire-resistant waterproof mineral pouring bus bar as claimed in claim 1, wherein a spare feeding port is formed in the tank cover.

10. The production process of the fire-resistant waterproof mineral pouring bus is characterized by comprising the following steps of:

step one, starting a water temperature machine to heat a tank body, and starting a vacuum pump to vacuumize the tank body after heating is completed until water in the tank body is completely drained;

step two, loading resin, starting a vacuum pump to vacuumize the tank body, pumping the preheated resin with the specified volume in the liquid material tank into the tank body, and stirring by using the first stirring shaft and the second stirring shaft;

feeding powdery solid materials, namely sequentially feeding solid silica micro powder, aluminum hydroxide, titanium dioxide and color master batches into the tank body through a small bag feeding station according to the sequence of the particle sizes from small to large, stirring for 5-6 minutes by using a first stirring shaft and a second stirring shaft after each material is fed, and stirring until the liquid level of the resin is clear and transparent after each material is fed;

feeding granular solid materials, sequentially feeding quartz sand with the diameter of 0.25mm, quartz gravel with the diameter of 1.25mm and quartz gravel with the diameter of 1.75mm into the tank body through a small bag feeding station according to the sequence of the particle sizes from small to large, stirring for 7-8 minutes by using the first stirring shaft and the second stirring shaft after each material is fed, and uniformly stirring without caking through visual inspection;

step five, sequentially adding a hardening agent, an adhesive and a defoaming agent into the tank body through a hardening agent injection port on the tank cover, stirring by using a first stirring shaft and a second stirring shaft, and simultaneously starting a vacuum pumping pump to vacuumize the tank body to enable the pressure value in the tank body to reach-2 kg;

and step six, closing the vacuum pumping pump, starting the air compression pump to enable the pressure value in the tank body to reach 4 kilograms, discharging through a ball valve, and injecting into a prepared die in advance through a material injection gun through a discharge pipe.

11. The production process of the fire-resistant waterproof mineral pouring bus bar according to claim 10, wherein the mass sum of the powdery solid material and the granular solid material is M, wherein the mass sum of the solid silica micropowder is 0.1M, the mass sum of the aluminum hydroxide is 0.1M, the mass sum of the titanium dioxide powder is 0.05M, the mass sum of the color master batch is 0.05M, the mass sum of the quartz sand with the diameter of 0.25mm is 0.1M, the mass sum of the quartz gravel with the diameter of 1.25mm is 0.25M, and the mass sum of the quartz gravel with the diameter of 1.75mm is 0.35M.

12. The production process of the fire-resistant waterproof mineral pouring bus of claim 10, wherein the solid silica micro powder passes through a 200-mesh screen, the aluminum hydroxide fire retardant passes through a 200-mesh screen, the titanium dioxide passes through a 100-mesh screen, and the color master batch is a thermosetting color master batch with the diameter of 50 um.

13. The process for producing fire-resistant waterproof mineral cast bus according to claim 10, wherein the powdery solid material and the granular solid material are subjected to a drying pretreatment before being fed so that the moisture content is reduced to less than one thousandth, and the resin is subjected to a preheating treatment before being fed, wherein the preheating temperature is not more than 35 ℃.

14. The production process of the fire-resistant waterproof mineral pouring bus bar according to claim 10,

step one, heating a tank body to 50 ℃;

in the second step, the stirring time is 5 minutes, the rotating speed of the second stirring shaft is 60 revolutions per minute, and the rotating speed of the first stirring shaft is 30 revolutions per minute;

in the third step, the rotating speed of the second stirring shaft is 60 revolutions per minute, and the rotating speed of the first stirring shaft is 40 revolutions per minute;

in the fourth step, the rotating speed of the second stirring shaft is 60 revolutions per minute, and the rotating speed of the first stirring shaft is 45 revolutions per minute;

in the fifth step, the stirring time is 3 minutes, and the rotating speeds of the first stirring shaft and the second stirring shaft are both 60 revolutions per minute;

and step six, after the vacuum pumping pump is closed, the rotating speed of the second stirring shaft is 60 revolutions per minute, and the rotating speed of the first stirring shaft is reduced to 15 revolutions per minute.

15. The production process of the fire-resistant waterproof mineral pouring bus of claim 10, wherein the solid silica micropowder, the aluminum hydroxide, the titanium dioxide, the color master batch, the quartz sand with the diameter of 0.25mm, the quartz gravel with the diameter of 1.25mm and the quartz gravel with the diameter of 1.75mm are respectively packaged in small bags.

16. The production process of the fire-resistant waterproof mineral pouring bus bar as claimed in claim 10, wherein 300 ml of cleaning agent is added after all the materials are discharged, the rotation speed of the first stirring shaft is 100 revolutions per minute, the cleaning is carried out for more than 15 minutes, the stirring is stopped, and the cleaning solution and the residues are discharged.

17. The production process of the fire-resistant waterproof mineral pouring bus of claim 10, wherein the poured mold is subjected to vibration degassing on a vibration trolley, workers brush out surface bubbles with a plastic brush, the pouring temperature is 70-75 ℃ after 30 minutes, the product and the trolley are placed in a constant-temperature constant-humidity maintenance workshop, and the drying and maintenance are carried out for more than 8 hours;

after the maintenance is finished, the product and the vibration trolley are pushed to a mould removing area, mould removing and repairing operations are carried out, clamps and reinforcing ribs of the mould are removed, the side mould and the bottom mould are removed by beating with a wooden hammer, then burrs and burrs of the bus product are polished manually, and the product preparation is finished.

Technical Field

The invention relates to the field of bus production technology and equipment, in particular to a production technology and production equipment for a fire-resistant waterproof mineral cast bus.

Background

With the continuous development of modern engineering, the power consumption of various industries is increased rapidly, the traditional cable cannot meet the requirement of a large-current transmission system, and a bus is produced accordingly. Since the bus has appeared, the bus is gradually developed from the first air type and the intensive type to the present composite insulation type, the insulation mode of the bus is continuously improved, but the bus is limited by conditions such as use environment, production process, production equipment and the like, and the bus manufactured under the prior art has certain defects in the aspects of fire prevention, water prevention and aging prevention all the time.

The existing bus production process is to perform vacuum-pumping defoaming treatment within a few minutes after a hardening agent is added, the defoaming time is insufficient after the defoaming stage, the defoaming effect is not obvious, and sand holes can appear on the surface of a poured bus, more importantly, the partial discharge test of a finished product often causes problems, so that the electrical performance and the safety performance of the bus are greatly influenced.

The existing bus production equipment comprises import equipment, wherein stirring devices of the existing bus production equipment adopt a single-shaft stirring structure, and the existing bus production equipment is characterized in that the maximum stirring linear velocity of a material liquid is generated at the position of a tank wall, the stirring of the material liquid cannot be completely conducted to the position near a stirring shaft, the material liquid near the stirring shaft only rotates along with the stirring shaft and cannot be fully stirred, so that the part of the liquid material cannot be uniformly mixed with a newly added material, the problems of uneven surface color of a casting material block and the like often occur after the casting is finished, the performance of a bus casting insulating layer is influenced, and further various indexes of a bus, particularly indexes in the aspects of strength and stress are influenced, such as' linear^-6The intensity index IK10 is not reached.

In addition, the bottom of the pouring bus stirring tank adopts a ball valve for discharging, and because the ball valve is provided with a section of valve neck, a dead angle can be formed with the conical surface of the tank bottom, so that complete discharging cannot be realized, material accumulation can occur at the dead angle part of the tank bottom, the material stirring effect is influenced, and the quality of a final product is further influenced.

Disclosure of Invention

The invention aims to provide a production process and production equipment of a fire-resistant waterproof mineral pouring bus so as to solve the problems in the prior art.

The invention provides a fire-resistant waterproof mineral pouring bus production device, which comprises a rack, wherein a stirring tank is arranged on the rack, the stirring tank comprises a tank body and a tank cover, and the tank cover is provided with:

the vacuum feeding hopper is used for conveying solid materials to the tank body;

the first stirring shaft is vertically arranged and provided with an upper stirring paddle and a lower stirring paddle;

the second stirring shaft is obliquely arranged and provided with an auxiliary stirring paddle, and the auxiliary stirring paddle is positioned between the upper stirring paddle and the lower stirring paddle;

the vacuumizing interface is connected with a vacuumizing pump;

the liquid material interface is connected with a liquid material tank.

Preferably, the upper part of the tank body is provided with a water outlet, the bottom of the tank body is provided with a water inlet, and the water outlet and the water inlet are respectively connected with the water inlet and the water outlet of the water temperature machine.

Preferably, the upper stirring paddle is located above the lower stirring paddle, and the length of the upper stirring paddle is smaller than that of the lower stirring paddle.

Preferably, the tip of stirring rake is equipped with the scraper blade down, is used for scraping the inner wall of the jar body, the scraper blade sets up to a plurality ofly, and staggers the setting from top to bottom.

Preferably, a sealing support is arranged on the tank cover, and the first stirring shaft and the second stirring shaft are respectively arranged on the tank cover in a penetrating manner through the sealing support and a bearing.

Preferably, the sealing support is connected with a speed reducer mounting support, and the speed reducer mounting support is provided with a speed reducer and a motor for transmission and respectively driving the first stirring shaft and the second stirring shaft to rotate.

Preferably, the inner surface of the bottom of the tank body is an arc surface, a discharge hole is formed in the position of the lowest point of the arc surface, a ball valve is arranged in the discharge hole, and the top surface of a valve neck of the ball valve is matched with the arc surface.

Preferably, the vacuum feeding hopper is connected with a roots blower and a small bag feeding station, the small bag feeding station is used for feeding solid materials, the roots blower enables the interior of the vacuum feeding hopper to form negative pressure, and the solid materials fed into the small bag feeding station are pumped to the vacuum feeding hopper through the negative pressure.

Preferably, a spare feeding port is arranged on the tank cover.

The invention also provides a production process of the fire-resistant waterproof mineral pouring bus, which comprises the following steps:

step one, starting a water temperature machine to heat a tank body, and starting a vacuum pump to vacuumize the tank body after heating is completed until water in the tank body is completely drained;

step two, loading resin, starting a vacuum pump to vacuumize the tank body, pumping the preheated resin with the specified volume in the liquid material tank into the tank body, and stirring by using the first stirring shaft and the second stirring shaft;

feeding powdery solid materials, namely sequentially feeding solid silica micro powder, aluminum hydroxide, titanium dioxide and color master batches into the tank body through a small bag feeding station according to the sequence of the particle sizes from small to large, stirring for 5-6 minutes by using a first stirring shaft and a second stirring shaft after each material is fed, and stirring until the liquid level of the resin is clear and transparent after each material is fed;

feeding granular solid materials, sequentially feeding quartz sand with the diameter of 0.25mm, quartz gravel with the diameter of 1.25mm and quartz gravel with the diameter of 1.75mm into the tank body through a small bag feeding station according to the sequence of the particle sizes from small to large, stirring for 7-8 minutes by using the first stirring shaft and the second stirring shaft after each material is fed, and uniformly stirring without caking through visual inspection;

step five, sequentially adding a hardening agent, an adhesive and a defoaming agent into the tank body through a hardening agent injection port on the tank cover, stirring by using a first stirring shaft and a second stirring shaft, and simultaneously starting a vacuum pumping pump to vacuumize the tank body to enable the pressure value in the tank body to reach-2 kg;

and step six, closing the vacuum pumping pump, starting the air compression pump to enable the pressure value in the tank body to reach 4 kilograms, discharging through a ball valve, and injecting into a prepared die in advance through a material injection gun through a discharge pipe.

Preferably, the mass sum of the powdery solid material and the granular solid material is M, wherein the mass sum of the solid silica micro powder is 0.1M, the mass of the aluminum hydroxide is 0.1M, the mass of the titanium dioxide is 0.05M, the mass of the color master batch is 0.05M, the mass of the quartz sand with the diameter of 0.25mm is 0.1M, the mass of the quartz gravel with the diameter of 1.25mm is 0.25M, and the mass of the quartz gravel with the diameter of 1.75mm is 0.35M.

Preferably, the solid silica micro powder passes through a 200-mesh screen, the aluminum hydroxide fire retardant passes through a 200-mesh screen, the titanium dioxide passes through a 100-mesh screen, and the color master batch is a thermosetting color master batch with the diameter of 50 um.

Preferably, before feeding the powdery solid material and the granular solid material, drying pretreatment is carried out so that the moisture content is reduced to be less than one thousandth, and before feeding the resin, preheating treatment is carried out, wherein the preheating temperature is not more than 35 ℃.

Preferably, the first and second liquid crystal materials are,

step one, heating a tank body to 50 ℃;

in the second step, the stirring time is 5 minutes, the rotating speed of the second stirring shaft is 60 revolutions per minute, and the rotating speed of the first stirring shaft is 30 revolutions per minute;

in the third step, the rotating speed of the second stirring shaft is 60 revolutions per minute, and the rotating speed of the first stirring shaft is 40 revolutions per minute;

in the fourth step, the rotating speed of the second stirring shaft is 60 revolutions per minute, and the rotating speed of the first stirring shaft is 45 revolutions per minute;

in the fifth step, the stirring time is 3 minutes, and the rotating speeds of the first stirring shaft and the second stirring shaft are both 60 revolutions per minute;

and step six, after the vacuum pumping pump is closed, the rotating speed of the second stirring shaft is 60 revolutions per minute, and the rotating speed of the first stirring shaft is reduced to 15 revolutions per minute.

Preferably, the solid silica micro powder, the aluminum hydroxide, the titanium dioxide, the color master batch, the quartz sand with the diameter of 0.25mm, the quartz gravel with the diameter of 1.25mm and the quartz gravel with the diameter of 1.75mm are respectively packaged in small bags.

Preferably, after all the materials are discharged, 300 ml of cleaning agent is added, the rotation speed of the first stirring shaft is 100 revolutions per minute, the cleaning is carried out for more than 15 minutes, the stirring is stopped, and the cleaning solution and the residues are discharged.

Preferably, the poured mould is subjected to vibration degassing bubble operation on a vibration trolley, a worker brushes bubbles on the surface of the mould by using a plastic brush, the solidification temperature is 70-75 ℃ after the pouring is finished for 30 minutes, the product and the trolley are placed in a constant-temperature constant-humidity maintenance workshop, and the drying and the maintenance are carried out for more than 8 hours;

after the maintenance is finished, the product and the vibration trolley are pushed to a mould removing area, mould removing and repairing operations are carried out, clamps and reinforcing ribs of the mould are removed, the side mould and the bottom mould are removed by beating with a wooden hammer, then burrs and burrs of the bus product are polished manually, and the product preparation is finished.

According to the invention, the vacuum-pumping defoaming operation is carried out in the whole stirring process, the tank body is heated by the water temperature machine, the boiling point of water is about 70 ℃ under the pressure in the tank, the temperature of the materials in the tank body and the heat generated by stirring can reach the boiling point temperature, and the complete dehydration and defoaming of the stirred materials can be ensured, so that various electrical properties of the final bus product can reach high standards.

Drawings

FIG. 1 is a schematic view of the structure of a production apparatus of the present invention;

FIG. 2 is a schematic structural view of a stirring tank of the present invention;

FIG. 3 is a schematic diagram of a pouch feeding station according to the present invention;

FIG. 4 is a flow chart of a bus bar production process;

in the figure: 1. a frame; 2. a stirring tank; 3. feeding the materials in a vacuum manner; 4. a Roots blower; 5. an electrical cabinet; 6. a liquid material tank; 7. a pouch feeding station; 8. a small solid mass; 9. a vacuum pump is pumped; 10. a water temperature machine; 21. a tank body; 22. a can lid; 211. an upper stirring paddle; 212. a lower stirring paddle; 213. an auxiliary stirring paddle; 214. a squeegee; 215. a temperature sensor; 216. a ball valve; 217. a discharge port; 221. a first stirring shaft; 222. a second stirring shaft; 223. sealing the support; 224. a spare feeding port; 225. a valve; 226. a speed reducer mounting support; 227. a pipe interface; 228. a motor; 71. A base; 72. a feeding box; 73. a dust removal filter bag; 74. a dust removal fan; 75. vibrating screen; 76. a buffer device; 77. and a vacuum feeding pipe.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Referring to fig. 1-4, the invention provides a production device of a fire-resistant waterproof mineral pouring bus, which comprises a frame 1, wherein a stirring tank 2 is arranged on the frame 1, and the stirring tank 2 comprises a tank body 21 and a tank cover 22. The tank cover 22 is provided with a vacuum feeding hopper 3, a first stirring shaft 221 and a second stirring shaft 222.

The production equipment sequentially carries out liquid material feeding and solid material feeding on the tank body 21, after the feeding is finished, the materials are mixed and stirred through the first stirring shaft 221 and the second stirring shaft 222, and after the stirring is finished, the materials are discharged from the tank body 21 and poured.

The tank cover 22 is provided with a vacuumizing interface, the vacuumizing interface is connected with a vacuumizing pump 9, the tank cover 22 is provided with a liquid material interface, the liquid material interface is connected with a liquid material tank 6, the liquid material tank 6 is filled with liquid materials (resin) with pre-measured volume, the vacuumizing pump 9 enables the tank body 21 to form negative pressure, and the liquid materials enter the tank body 21 under the action of the negative pressure to realize liquid material feeding.

Vacuum feeding funnel 3 is used for to jar body 21 transport solid material, the top of vacuum feeding funnel 3 is equipped with pipeline interface 227, roots's fan 4 is connected to pipeline interface 227, vacuum feeding funnel 3 still is connected with the pouch and throws material station 7, the pouch throws material station 7 and is used for throwing in solid material, roots's fan 4 can make the inside formation negative pressure of vacuum feeding funnel 3, throw the solid material pump-out to vacuum feeding funnel 3 of material station 7 through the negative pressure will drop into the pouch, realize the solid material loading from this.

The vacuum feeding hopper 3 is connected with a valve 225, the valve 225 has a sealing effect on the tank body 21 after being closed, and at the moment, the vacuum pumping function on the interior of the tank body 21 can be realized through the vacuum pumping pump 9. Can make jar body 21 form the negative pressure under the effect of evacuation pump 9, realize liquid material loading, can also satisfy the stirring in-process jar material in the body 21 to the demand of different negative pressures.

The first stirring shaft 221 is vertically arranged and provided with an upper stirring paddle 211 and a lower stirring paddle 212, and the second stirring shaft 222 is obliquely arranged and provided with an auxiliary stirring paddle 213. Preferably, the included angle between the first stirring shaft 221 and the second stirring shaft 222 is 30 degrees, and the auxiliary stirring paddle 213 is located between the upper stirring paddle 211 and the lower stirring paddle 212 to play a role in auxiliary stirring. The upper paddle 211 is located above the lower paddle 212, and the length of the upper paddle 211 is smaller than the length of the lower paddle 212. This makes upper stirring paddle 211 and lower stirring paddle 212 have different stirring radiuses, can effectively improve the near material stirring speed of jar wall fast, the near material stirring speed slow problem of first (mixing) shaft 221. The auxiliary stirring paddle 213 can push the materials near the first stirring shaft 221 and far away from the positions of the upper stirring paddle 211 and the lower stirring paddle 212 to the upper stirring paddle 211 and the lower stirring paddle 212, so that the materials can obtain a larger stirring speed at the positions of the upper stirring paddle 211 and the lower stirring paddle 212, and the material stirring device also has the function of stirring the materials, so that the materials can be stirred more uniformly and fully.

The small bag feeding station 7 is a place for feeding small bag solid materials 8, and the small bag solid materials 8 are small bag packaged solid materials, and are flexibly, quantitatively and conveniently fed through small bag packaging. The small bag feeding station 7 comprises a base 71, a feeding box 72 is arranged on the base 71, and a dust removal filter bag 73 and a dust removal fan 74 are arranged at the top of the feeding box 72 to achieve a dust removal function. The base 71 is communicated with a feeding box 72, and a vibrating screen 75, a buffer device 76 and a vacuum feeding pipe 77 are sequentially arranged in the base 71 from top to bottom. The vacuum feed pipe 77 is connected to the vacuum charging hopper 3 through a pipe. The small bag solid material 8 is put into the feeding box 72 through the feeding box 72, and the solid material enters the vacuum feeding hopper 3 through the vacuum feeding pipe 77 after passing through the vibrating screen 75, so that the solid is conveyed and fed.

The upper part of the tank body 21 is provided with a water outlet, the bottom part is provided with a water inlet, and the water outlet and the water inlet are respectively connected with the water inlet and the water outlet of the water temperature machine 10. The water temperature machine 10 is used for preheating the tank body 21 before liquid materials are fed, and the stirring effect of the materials is improved.

The tank cover 22 is provided with a sealing support 223, and the first stirring shaft 221 and the second stirring shaft 222 are respectively arranged on the tank cover 22 through the sealing support 223 and matched with the bearing. The sealing support 223 is connected with a speed reducer mounting support 226, the speed reducer mounting support 226 is provided with a speed reducer and a motor 228, and the first stirring shaft 221 and the second stirring shaft 222 are respectively connected with the motor through the speed reducer. The first stirring shaft 221 and the second stirring shaft 222 are driven by different motors to rotate respectively. Preferably, the first stirring shaft 221 and the second stirring shaft 222 are respectively connected with 15kw and 4kw motors. The tank cover 22 is further provided with a hardener injection port for injecting a hardener and other materials.

The bottom of the tank body 21 is provided with a discharge hole 217, the inner surface of the bottom of the tank body 21 is a cambered surface, the discharge hole 217 is arranged at the lowest point of the cambered surface, the top surface of the valve neck of the ball valve 216 arranged in the discharge hole 217 is matched with the cambered surface of the inner surface of the tank body 21, so that no dead angle can be generated during discharging, and no residual material is accumulated.

The invention also comprises an electrical cabinet 5 and an electrical control system, wherein the bottom of the tank body 21 is provided with a temperature sensor 215, and through the temperature sensor 215 and the electrical control system, a worker can know the temperature in the tank body 21 at any time so as to carry out corresponding operation, and the system can manually control equipment to realize the functions of solid material feeding, liquid material feeding, stirring, discharging and the like.

Preferably, the present invention is provided with a pressurizing means for the can body 21, and preferably, an air compression pump is connected to the can body 21 or the can cover 22. In the invention, the end of the lower stirring paddle 212 is provided with a scraper 214, and the scraper 214 is used for scraping the inner wall of the tank body 21. The scrapers 214 are provided in plural numbers, and are arranged to be offset from each other in the vertical direction. The scraper 214 can prevent the materials from being adhered to the inner wall of the tank body 21 in the stirring process, and can clean the inner wall of the tank body 21 after the materials are poured.

Preferably, the can lid 22 is provided with a spare dispensing opening 224. When feeding fails, feeding can be performed through the spare feeding port 224.

The invention also provides a production process of the fire-resistant waterproof mineral pouring bus, which comprises the following steps:

step one, starting a water temperature machine 10 to heat a tank body 21, and starting a vacuum pumping pump 9 to vacuumize the tank body 21 after heating is completed until water in the tank body 21 is completely pumped;

step two, loading resin, starting a vacuum pump 9 to vacuumize the tank body 21, pumping the preheated resin with the specified volume in the liquid material tank 6 into the tank body 21, and stirring by the first stirring shaft 222 and the second stirring shaft 222;

feeding powdery solid materials, sequentially feeding solid silica micro powder, aluminum hydroxide, titanium dioxide and color master batches to the tank body 21 through a small bag feeding station 7 according to the sequence of the particle sizes from small to large, stirring for 5-6 minutes by using a first stirring shaft 222 and a second stirring shaft 222 after each material is fed, and stirring until the liquid level of the resin is clear and transparent after each material is fed;

feeding granular solid materials, sequentially feeding quartz sand with the diameter of 0.25mm, quartz gravel with the diameter of 1.25mm and quartz gravel with the diameter of 1.75mm into the tank body 21 through a small bag feeding station 7 according to the sequence of the particle sizes from small to large, stirring for 7-8 minutes by using the first stirring shaft 222 and the second stirring shaft 222 after each material is fed, and uniformly stirring without caking through visual inspection;

step five, sequentially adding a hardening agent, an adhesive and a defoaming agent into the tank body 21 through a hardening agent injection port on the tank cover 22, stirring by using the first stirring shaft 222 and the second stirring shaft 222, and simultaneously starting the vacuum pumping pump 9 to vacuumize the tank body 21 to enable the pressure value in the tank body 21 to reach-2 kg;

and step six, closing the vacuum pumping pump 9, starting the air compression pump to enable the pressure value in the tank body 21 to reach 4 kilograms, discharging the materials through the ball striking valve 216, and injecting the materials into a prepared die in advance through the material injection pipe through a material injection gun.

According to the production process, the mass sum of the powdery solid material and the granular solid material is M, wherein the mass sum of the solid silica micro powder is 0.1M, the mass of the aluminum hydroxide is 0.1M, the mass of the titanium dioxide is 0.05M, the mass of the color master batch is 0.05M, the mass of the quartz sand with the diameter of 0.25mm is 0.1M, the mass of the quartz gravel with the diameter of 1.25mm is 0.25M, and the mass of the quartz gravel with the diameter of 1.75mm is 0.35M.

In the production process, the solid silicon dioxide micro powder passes through a 200-mesh screen, the aluminum hydroxide fire retardant passes through a 200-mesh screen, the titanium dioxide passes through a 100-mesh screen, and the color master batch is a thermosetting color master batch with the diameter of 50 um.

In the production process, the powdery solid material and the granular solid material are subjected to drying pretreatment before being fed, the moisture can be dried by an oven, so that the moisture content is reduced to less than one thousandth, and the resin is subjected to preheating treatment before being fed, wherein the preheating temperature is not more than 35 ℃.

In the production process, the first step is to heat the tank body 21 to 50 ℃;

in the second step, the stirring time is 5 minutes, the rotating speed of the second stirring shaft 222 is 60 revolutions per minute, and the rotating speed of the first stirring shaft 221 is 30 revolutions per minute;

in the third step, the rotation speed of the second stirring shaft 222 is 60 revolutions per minute, and the rotation speed of the first stirring shaft 221 is 40 revolutions per minute;

in the fourth step, the rotation speed of the second stirring shaft 222 is 60 revolutions per minute, and the rotation speed of the first stirring shaft 221 is 45 revolutions per minute;

in the fifth step, the stirring time is 3 minutes, and the rotating speeds of the first stirring shaft 222 and the second stirring shaft 222 are both 60 revolutions per minute;

step six, after the evacuation pump 9 is turned off, the rotation speed of the second stirring shaft 222 is 60 rpm, and the rotation speed of the first stirring shaft 221 is reduced to 15 rpm.

The production process comprises the steps of respectively packaging solid silica micro powder, aluminum hydroxide, titanium dioxide, color master batch, quartz sand with the diameter of 0.25mm, quartz gravel with the diameter of 1.25mm and quartz gravel with the diameter of 1.75mm in small bags.

In the production process, after all materials are discharged, 300 ml of cleaning agent is added, the first stirring shaft 221100 turns/min, the materials are cleaned for more than 15 min, the stirring is stopped, and the cleaning solution and the residues are discharged.

In the production process, the poured mould is vibrated on a vibration trolley to remove bubbles, workers brush the bubbles on the surface by using a plastic brush, the solidification temperature is 70-75 ℃ after the pouring is finished for 30 minutes, and the product and the trolley are placed in a constant-temperature constant-humidity maintenance workshop for drying and maintenance for more than 8 hours.

After the maintenance is finished, the product and the vibration trolley are pushed to a mould removing area, mould removing and repairing operations are carried out, clamps and reinforcing ribs of the mould are removed, the side mould and the bottom mould are removed by beating with a wooden hammer, then burrs and burrs of the bus product are polished manually, and the product preparation is finished.

The pressure bearing grade of the tank body is increased to 4 kilograms, the vacuum-pumping defoaming operation is carried out in the whole stirring process, the tank body is heated by the water temperature machine at 50 ℃, the boiling point of water is about 70 ℃ under the pressure in the tank, the temperature of the materials in the tank body and the temperature of the stirring heat can reach the boiling point, the stirring materials can be completely dehydrated and defoamed, and therefore all electrical properties of the final bus product can reach high standards.

The following table shows the product inspection and product index of the invention, and records the inspection items and inspection parameter results of the product.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.