CN118482530A

CN118482530A - Chemical equipment heat transfer recycling equipment

Info

Publication number: CN118482530A
Application number: CN202410935135.0A
Authority: CN
Inventors: 章霞; 沈安邦; 孙康; 骆家拴
Original assignee: Sanlifu New Materials Fujian Co ltd
Current assignee: Sanlifu New Materials Fujian Co ltd
Priority date: 2024-07-12
Filing date: 2024-07-12
Publication date: 2024-08-13

Abstract

The invention relates to the technical field of chemical equipment and discloses chemical equipment heat transfer recycling equipment, which comprises a chemical equipment main body and a heat shield, wherein the heat shield is arranged on the outer side of the chemical equipment main body, a heat radiation fan is arranged at the top of the heat shield, an air guide pipe is arranged on one side of the heat shield, one end of the air guide pipe is positioned in a high-temperature area, a communicating seat is arranged on one side of the high-temperature area of a heat preservation water tank, a water bath outer cylinder is arranged at one end of the communicating seat, an inner cylinder is arranged in the water bath outer cylinder, and water outlet pipes are arranged on two sides of the upper half part of the water bath outer cylinder.

Description

Chemical equipment heat transfer recycling equipment

Technical Field

The invention relates to the technical field of chemical equipment, in particular to heat transfer recycling equipment for chemical equipment.

Background

Thermal management in chemical processes is an important issue because many chemical reactions and separation processes are energy intensive. Chemical plants are generally referred to as a generic term for all types of machines and equipment used in chemical industry for the treatment of raw materials, the chemical reaction process, and the separation and refining of products.

These devices include various pumps, compressors, reactors, distillation columns, heat exchangers, etc., and are indispensable parts for realizing chemical production. In many chemical plants, a large amount of heat is usually discharged into the environment in the form of waste heat, resulting in energy inefficiency and environmental problems.

Disclosure of Invention

The invention aims to provide a heat transfer recycling device for chemical equipment, which aims to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a chemical industry equipment heat transfer recycling equipment, includes chemical industry equipment main part and heat exchanger, the chemical industry equipment main part outside is equipped with the heat exchanger, the heat exchanger top is equipped with radiator fan, heat exchanger one side is equipped with the guide duct, guide duct one end is equipped with heat preservation water tank, the inside baffle that is equipped with of heat preservation water tank, through the baffle becomes high temperature zone and low temperature zone with heat preservation water tank internal partition, guide duct one end is located the high temperature zone, heat preservation water tank's high temperature zone one side is equipped with the intercommunication seat, intercommunication seat one end is equipped with the water bath urceolus, the inside inner tube that is equipped with of water bath urceolus, water bath urceolus upper portion both sides are equipped with the outlet pipe, outlet pipe one end is located heat preservation water tank's low temperature zone.

As a further explanation of the invention, the top of the heat shield and the inner wall of the side edge are provided with L-shaped branch strips, a spring sleeve rod is arranged in the L-shaped branch strips, one end of the spring sleeve rod positioned at the top is provided with a top heat conducting water pipe, one end of the spring sleeve rod positioned at the side edge is provided with a side heat conducting water pipe, a connecting hose is arranged between the top heat conducting water pipe and the side heat conducting water pipe, the side heat conducting water pipe and the top heat conducting water pipe are both provided with a plurality of water circulating pipes, one end of one side heat conducting water pipe is provided with a water circulating pipe, one end of the other side heat conducting water pipe is provided with a water circulating pipe, one end of the water circulating pipe is positioned in a high temperature area, one end of the water circulating pipe is positioned in a low temperature area, and a water circulating pipe is arranged between the bottom ends of two adjacent side heat conducting water pipes.

As a further explanation of the invention, one end of the air guide pipe, which is positioned in the heat shield, is funnel-shaped, and a one-way valve is arranged in the middle of the air guide pipe.

As a further explanation of the invention, one side of the outer wall of the chemical equipment main body is provided with a bypass pipe, the bypass pipe is used for circulation inside the chemical equipment main body, one section of the bypass pipe is positioned at the inner side of the air guide pipe, and one section of the bypass pipe is positioned in a high-temperature area of the heat preservation water tank.

As a further explanation of the invention, the top of the inner cylinder is provided with a feeding cover, the outer side of the upper half part of the outer cylinder of the water bath is provided with a motor support, the middle part of the motor support is provided with a stirring motor, the bottom end of an output shaft of the stirring motor is provided with a stirring shaft, the stirring shaft is positioned in the inner region of the inner cylinder and is provided with a stirring rod, and the bottom of one side of the inner cylinder is provided with a discharge valve.

As a further illustration of the invention, the motor support is shaped like a gate with the top cross bar of the motor support being positioned above the feed cap.

As a further explanation of the invention, the top surface of the inner cylinder is higher than the top surface of the outer cylinder of the water bath, the outer wall of the inner cylinder is provided with a rotating cover, the rotating cover is positioned at the top of the outer cylinder of the water bath, the top of the rotating cover is provided with a connecting frame, one end of the connecting frame is fixedly connected with a stirring shaft, the bottom of the rotating cover is provided with a fixing rod, and the fixing rod is positioned between the outer wall of the inner cylinder and the inner wall of the outer cylinder of the water bath.

As a further explanation of the invention, the outside of the fixed rod is provided with the piston sleeve, the bottom end of the fixed rod is provided with the fixed block, the outer diameter of the fixed block is the same as the inner diameter of the piston sleeve, the top end of the piston sleeve is provided with the water outlet cover, the water outlet cover is internally provided with the water outlet hole, and the reset spring is arranged between the bottom end of the water outlet cover and the top of the fixed block.

As a further explanation of the invention, the outer wall of the piston sleeve is provided with inclined fin plates, a plurality of inclined fin plates are arranged obliquely upwards, the inclined fin plates are distributed at equal intervals, and the inclined fin plates are arranged on the upstream surface of the piston sleeve.

As a further explanation of the present invention, a circulating water pump for conveying cooling water is provided at one side of the circulating water outlet pipe.

Compared with the prior art, the invention has the beneficial effects that:

The invention realizes that when the chemical equipment heat transfer recycling equipment is used, the heat shield is sleeved outside the chemical equipment main body, a part of heat generated in the use process of the chemical equipment main body is radiated through the self shell, the radiated heat is blown to the air guide pipe through the heat radiation fan, the hot air is directly blown to a high temperature area in the heat preservation water tank through the air guide pipe, water in the high temperature area is heated, in addition, the side heat conduction water pipe and the top heat conduction water pipe are tightly pressed on the outer wall of the chemical equipment main body through the cooperation of the spring sleeve rod, the side heat conduction water pipe and the top heat conduction water pipe, water is pumped from a low temperature area in the heat preservation water tank through the circulating water pump, the water is sent into the side heat conduction water pipe and the top heat conduction water pipe through the circulating water outlet pipe, heat exchange is carried out with the shell of the chemical equipment main body, the heated cooling water enters the high-temperature area through the circulating water inlet pipe, and is directly connected with a heating source in the chemical equipment main body through the bypass pipe, so that hot air or materials with heat are circulated through the bypass pipe, a part of the bypass pipe is positioned in the high-temperature area and can heat the cooling water in the high-temperature area, the cooling water in the high-temperature area is heated through the blowing heating of the air guide pipe, the side heat conducting water pipe, the top heat conducting water pipe and the bypass pipe, the heat dissipation of the chemical equipment main body is realized, the heating of the cooling water in the high-temperature area is realized, the high-temperature area is communicated with the outer water bath barrel, the inner barrel is heated through the heated cooling water to facilitate the preheating of chemical raw materials in the inner barrel, the heat transfer and the recycling of the chemical equipment are realized, the whole heat transfer and recycling equipment collect the heat of the chemical equipment through various ways, the requirement of additional energy is reduced, the energy efficiency of the whole production process is improved, the waste heat is effectively utilized, the heat pollution to the environment is reduced, the influence of production on the environment is reduced, the potential safety hazard of chemical equipment can be reduced through heat transfer and recycling, and the environment-friendly production and recycling economy of enterprises are facilitated.

Drawings

FIG. 1 is a perspective view of a chemical plant heat transfer and reuse apparatus of the present invention;

FIG. 2 is a front view of a chemical plant heat transfer and reuse apparatus of the present invention;

FIG. 3 is a top view of a chemical plant heat transfer and reuse apparatus according to the present invention;

FIG. 4 is a front cross-sectional view of a chemical plant heat transfer and reuse apparatus according to the present invention;

FIG. 5 is a schematic diagram of a partition structure of a heat transfer and recycling device for chemical equipment according to the present invention;

FIG. 6 is a schematic diagram of the internal structure of a heat transfer and recycling device for chemical equipment according to the present invention;

FIG. 7 is a schematic diagram of the internal structure of a heat transfer and recycling device for chemical equipment according to the present invention;

FIG. 8 is a front view of the internal structure of a chemical plant heat transfer recycling apparatus of the present invention;

FIG. 9 is a top view showing the internal structure of a heat transfer and recycling apparatus for chemical equipment according to the present invention;

FIG. 10 is a schematic diagram of a piston sleeve connection structure of a heat transfer and recycling device for chemical equipment.

In the figure: 1. a chemical plant body; 2. a heat shield; 3. an L-shaped branch; 4. a spring sleeve rod; 5. a side heat conduction water pipe; 6. a top heat conducting water pipe; 7. a heat radiation fan; 8. a connecting hose; 9. an air guide pipe; 10. a bypass pipe; 11. a heat preservation water tank; 12. a partition plate; 13. a one-way valve; 14. a communication seat; 15. a water bath outer cylinder; 16. an inner cylinder; 17. a motor bracket; 18. a stirring motor; 19. a stirring shaft; 20. a stirring rod; 21. a feed cap; 22. a connecting frame; 23. a rotary cover; 24. a fixed rod; 25. a discharge valve; 26. a water outlet pipe; 27. a circulation connection pipe; 28. a circulating water outlet pipe; 29. a piston sleeve; 30. a water outlet cover; 31. oblique fin plates; 32. and (5) circulating a water inlet pipe.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Embodiment one: referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a chemical industry equipment heat transfer recycling equipment, including chemical industry equipment main part 1 and heat exchanger 2, chemical industry equipment main part 1 outside is equipped with heat exchanger 2, heat exchanger 2 top is equipped with radiator 7, heat exchanger 2 one side is equipped with guide duct 9, guide duct 9 one end is equipped with heat preservation water tank 11, the inside baffle 12 that is equipped with of heat preservation water tank 11, high temperature region and low temperature region are separated into with heat preservation water tank 11 inside through baffle 12, guide duct 9 one end is located the high temperature region, high temperature region one side of heat preservation water tank 11 is equipped with intercommunication seat 14, intercommunication seat 14 one end is equipped with water bath urceolus 15, the inside inner tube 16 that is equipped with of water bath urceolus 15, water bath urceolus 15 upper half both sides are equipped with outlet pipe 26, outlet pipe 26 one end is located the low temperature region of heat preservation water tank 11. The heat shield 2 is sleeved outside the chemical equipment main body 1, a part of heat in the use process of the chemical equipment main body 1 is dissipated through the shell of the heat shield, the dissipated heat is blown to the air guide pipe 9 through the heat dissipation fan 7, hot air is directly blown to a high-temperature area in the heat preservation water tank 11 through the air guide pipe 9, water in the high-temperature area is heated, the high-temperature area is communicated with the water bath outer cylinder 15, the inner cylinder 16 is heated in a water bath through heated cooling water, the preheating of chemical raw materials in the inner cylinder 16 is facilitated, and the heat transfer recycling of the chemical equipment is realized.

Embodiment two: referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a chemical industry equipment heat transfer recycling equipment, including chemical industry equipment main part 1 and heat exchanger 2, chemical industry equipment main part 1 outside is equipped with heat exchanger 2, heat exchanger 2 top is equipped with radiator 7, heat exchanger 2 one side is equipped with guide duct 9, guide duct 9 one end is equipped with heat preservation water tank 11, the inside baffle 12 that is equipped with of heat preservation water tank 11, high temperature region and low temperature region are separated into with heat preservation water tank 11 inside through baffle 12, guide duct 9 one end is located the high temperature region, high temperature region one side of heat preservation water tank 11 is equipped with intercommunication seat 14, intercommunication seat 14 one end is equipped with water bath urceolus 15, the inside inner tube 16 that is equipped with of water bath urceolus 15, water bath urceolus 15 upper half both sides are equipped with outlet pipe 26, outlet pipe 26 one end is located the low temperature region of heat preservation water tank 11. The heat shield 2 is sleeved outside the chemical equipment main body 1, a part of heat in the use process of the chemical equipment main body 1 is radiated through the self shell, the radiated heat is blown to the air guide pipe 9 through the radiating fan 7, and the hot air is directly blown to a high-temperature area in the heat preservation water tank 11 through the air guide pipe 9, so that water in the high-temperature area is heated. One end of the air guide pipe 9 positioned in the heat shield 2 is funnel-shaped, and a one-way valve 13 is arranged in the middle of the air guide pipe 9. The funnel-shaped air guide pipe 9 is convenient for the entry of hot air, and the check valve 13 prevents the cooling water in the high temperature region from entering the air guide pipe 9.

In this embodiment, heat exchanger 2 top and side inner wall are equipped with L type branch 3, the inside spring loop bar 4 that is equipped with of L type branch 3, spring loop bar 4 one end that is located the top is equipped with top heat conduction water pipe 6, spring loop bar 4 one end that is located the side is equipped with side heat conduction water pipe 5, be equipped with coupling hose 8 between top heat conduction water pipe 6 and the side heat conduction water pipe 5, side heat conduction water pipe 5 and top heat conduction water pipe 6 all are provided with a plurality of, one of them side heat conduction water pipe 5 one end is equipped with circulation outlet pipe 28, wherein another one side heat conduction water pipe 5 one end is equipped with circulation inlet tube 32, circulation inlet tube 32 one end is located the high temperature region, circulation outlet pipe 28 one end is located the low temperature region, be equipped with circulation connecting pipe 27 between two adjacent side heat conduction water pipe 5 bottom. One side of the circulation water outlet pipe 28 is provided with a circulation water pump for conveying cooling water. Through the cooperation of spring loop bar 4 and side heat conduction water pipe 5 and top heat conduction water pipe 6, tightly sticis side heat conduction water pipe 5 and top heat conduction water pipe on the outer wall of chemical industry equipment main part 1, spring loop bar 4 includes spring and loop bar, and the loop bar is pegged graft inside L type branch 3, and the spring is located the loop bar outside, and spring one end is connected with L type branch 3, and the other end is connected with top heat conduction water pipe 6 or side heat conduction water pipe 5.

The water is pumped from a low-temperature area in the heat preservation water tank 11 through the circulating water pump, is fed into the side heat conduction water pipe 5 and the top heat conduction water pipe 6 through the circulating water outlet pipe 28, exchanges heat with the outer shell of the chemical equipment main body 1, and the heated cooling water enters a high-temperature area through the circulating water inlet pipe 32 and is communicated with the water bath outer barrel 15, and the inner barrel 16 is heated in a water bath through the heated cooling water, so that the chemical raw materials in the inner barrel 16 are preheated, and the heat transfer and the reutilization of the chemical equipment are realized.

When the circulation of the cooling water is carried out, the water in the high-temperature area flows between the water bath outer cylinder 15 and the inner cylinder 16, after the cooling water between the water bath outer cylinder 15 and the inner cylinder 16 exchanges heat with the chemical raw materials needing to be preheated in the inner cylinder 16, the temperature is reduced, then the cooled cooling water enters the low-temperature area under the transmission of the water outlet pipe 26, the cooling water in the low-temperature area circulates in the side heat conducting water pipe 5 and the top heat conducting water pipe 6 through the transmission of the circulating water pump and the circulating water outlet pipe 28, the temperature is raised after the heat exchange with the outer shell of the chemical equipment main body 1, and finally the cooling water after the temperature rise enters the high-temperature area again through the circulating water inlet pipe 32, so that the circulating heat transfer of the cooling water is realized.

Embodiment III: referring to fig. 1-4, the present invention provides a technical solution: the utility model provides a chemical industry equipment heat transfer recycling equipment, including chemical industry equipment main part 1 and heat exchanger 2, chemical industry equipment main part 1 outside is equipped with heat exchanger 2, heat exchanger 2 top is equipped with radiator 7, heat exchanger 2 one side is equipped with guide duct 9, guide duct 9 one end is equipped with heat preservation water tank 11, the inside baffle 12 that is equipped with of heat preservation water tank 11, high temperature region and low temperature region are separated into with heat preservation water tank 11 inside through baffle 12, guide duct 9 one end is located the high temperature region, high temperature region one side of heat preservation water tank 11 is equipped with intercommunication seat 14, intercommunication seat 14 one end is equipped with water bath urceolus 15, the inside inner tube 16 that is equipped with of water bath urceolus 15, water bath urceolus 15 upper half both sides are equipped with outlet pipe 26, outlet pipe 26 one end is located the low temperature region of heat preservation water tank 11. The heat shield 2 is sleeved outside the chemical equipment main body 1, a part of heat in the use process of the chemical equipment main body 1 is radiated through the self shell, the radiated heat is blown to the air guide pipe 9 through the radiating fan 7, and the hot air is directly blown to a high-temperature area in the heat preservation water tank 11 through the air guide pipe 9, so that water in the high-temperature area is heated. One end of the air guide pipe 9 positioned in the heat shield 2 is funnel-shaped, and a one-way valve 13 is arranged in the middle of the air guide pipe 9. The funnel-shaped air guide pipe 9 is convenient for the entry of hot air, and the check valve 13 prevents the cooling water in the high temperature region from entering the air guide pipe 9.

The heat shield 2 top and side inner wall are equipped with L type branch 3, the inside spring loop bar 4 that is equipped with of L type branch 3, spring loop bar 4 one end that is located the top is equipped with top heat conduction water pipe 6, spring loop bar 4 one end that is located the side is equipped with side heat conduction water pipe 5, be equipped with coupling hose 8 between top heat conduction water pipe 6 and the side heat conduction water pipe 5, side heat conduction water pipe 5 and top heat conduction water pipe 6 all are provided with a plurality of, one of them side heat conduction water pipe 5 one end is equipped with circulation outlet pipe 28, wherein another one side heat conduction water pipe 5 one end is equipped with circulation inlet tube 32, circulation inlet tube 32 one end is located the high temperature region, circulation outlet pipe 28 one end is located the low temperature region, be equipped with circulation connecting pipe 27 between two adjacent side heat conduction water pipe 5 bottom. One side of the circulation water outlet pipe 28 is provided with a circulation water pump for conveying cooling water. Through the cooperation of spring loop bar 4 and side heat conduction water pipe 5 and top heat conduction water pipe 6, tightly sticis side heat conduction water pipe 5 and top heat conduction water pipe on the outer wall of chemical industry equipment main part 1, spring loop bar 4 includes spring and loop bar, and the loop bar is pegged graft inside L type branch 3, and the spring is located the loop bar outside, and spring one end is connected with L type branch 3, and the other end is connected with top heat conduction water pipe 6 or side heat conduction water pipe 5.

In this embodiment, unlike the second embodiment, a bypass pipe 10 is disposed on one side of the outer wall of the chemical equipment main body 1, the bypass pipe 10 is used for circulation inside the chemical equipment main body 1, a section of the bypass pipe 10 is located inside the air guide pipe 9, and a section of the bypass pipe 10 is located in a high temperature region of the heat preservation water tank 11. The by-pass pipe 10 is directly connected with the heating source inside the chemical equipment main body 1, so that hot air or materials with heat circulate through the by-pass pipe 10, and part of the by-pass pipe 10 is positioned in a high-temperature area, so that cooling water in the high-temperature area can be heated, and the subsequent chemical raw materials can be preheated conveniently.

Embodiment four: referring to fig. 1 to 10, the present invention provides a technical solution: the utility model provides a chemical industry equipment heat transfer recycling equipment, including chemical industry equipment main part 1 and heat exchanger 2, chemical industry equipment main part 1 outside is equipped with heat exchanger 2, heat exchanger 2 top is equipped with radiator 7, heat exchanger 2 one side is equipped with guide duct 9, guide duct 9 one end is equipped with heat preservation water tank 11, the inside baffle 12 that is equipped with of heat preservation water tank 11, high temperature region and low temperature region are separated into with heat preservation water tank 11 inside through baffle 12, guide duct 9 one end is located the high temperature region, high temperature region one side of heat preservation water tank 11 is equipped with intercommunication seat 14, intercommunication seat 14 one end is equipped with water bath urceolus 15, the inside inner tube 16 that is equipped with of water bath urceolus 15, water bath urceolus 15 upper half both sides are equipped with outlet pipe 26, outlet pipe 26 one end is located the low temperature region of heat preservation water tank 11. The heat shield 2 is sleeved outside the chemical equipment main body 1, a part of heat in the use process of the chemical equipment main body 1 is radiated through the self shell, the radiated heat is blown to the air guide pipe 9 through the radiating fan 7, and the hot air is directly blown to a high-temperature area in the heat preservation water tank 11 through the air guide pipe 9, so that water in the high-temperature area is heated. One end of the air guide pipe 9 positioned in the heat shield 2 is funnel-shaped, and a one-way valve 13 is arranged in the middle of the air guide pipe 9. The funnel-shaped air guide pipe 9 is convenient for the entry of hot air, and the check valve 13 prevents the cooling water in the high temperature region from entering the air guide pipe 9.

One side of the outer wall of the chemical equipment main body 1 is provided with a bypass pipe 10, the bypass pipe 10 is used for circulation inside the chemical equipment main body 1, one section of the bypass pipe 10 is positioned at the inner side of the air guide pipe 9, and one section of the bypass pipe 10 is positioned in a high-temperature area of the heat preservation water tank 11. The by-pass pipe 10 is directly connected with the heating source inside the chemical equipment main body 1, so that hot air or materials with heat circulate through the by-pass pipe 10, and part of the by-pass pipe 10 is positioned in a high-temperature area, so that cooling water in the high-temperature area can be heated, and the subsequent chemical raw materials can be preheated conveniently.

In this embodiment, unlike the third embodiment, the top of the inner cylinder 16 is provided with a feeding cover 21, the outer side of the upper half portion of the outer cylinder 15 is provided with a motor support 17, the middle portion of the motor support 17 is provided with a stirring motor 18, the bottom end of the output shaft of the stirring motor 18 is provided with a stirring shaft 19, the stirring shaft 19 is located in the inner region of the inner cylinder 16 and provided with a stirring rod 20, and the bottom of one side of the inner cylinder 16 is provided with a discharge valve 25. The motor bracket 17 is shaped like a door, and a top cross bar of the motor bracket 17 is positioned above the feeding cover 21. The stirring motor 18 drives the stirring shaft 19 to rotate, so that the stirring rod 20 is driven to stir the materials in the inner barrel 16, the materials and the cooling water in the water bath outer barrel 15 are convenient to perform uniform heat exchange, and the materials are convenient to preheat uniformly.

The inner tube 16 top surface is higher than the water bath urceolus 15 top surface, and the inner tube 16 outer wall is equipped with the lid of changeing 23, and the lid of changeing 23 is located water bath urceolus 15 top, and the lid of changeing 23 top is equipped with link 22, link 22 one end and (mixing) shaft 19 fixed connection, and lid of changeing 23 bottom is equipped with dead lever 24, and dead lever 24 is located between inner tube 16 outer wall and the water bath urceolus 15 inner wall. In the material stirring process, the stirring shaft 19 drives the rotary cover 23 to rotate together, so that the fixing rod 24 is driven to rotate, and cooling water on the inner side of the water bath outer cylinder 15 is stirred through the fixing rod 24, so that the temperature of the cooling water is uniform, and the water bath preheating uniformity is facilitated.

The outside of dead lever 24 is equipped with piston cover 29, and the dead lever 24 bottom is equipped with the fixed block, and the fixed block external diameter is the same with piston cover 29 internal diameter, and piston cover 29 top is equipped with out water cap 30, goes out water cap 30 inside and has seted up the apopore, is equipped with reset spring between play water cap 30 bottom and the fixed block top.

The outer wall of the piston sleeve 29 is provided with inclined fin plates 31, the inclined fin plates 31 are obliquely arranged upwards, a plurality of inclined fin plates 31 are arranged, a plurality of inclined fin plates 31 are equidistantly arranged, and the inclined fin plates 31 are arranged on the upstream surface of the piston sleeve 29.

In the rotation process of the fixed rod 24, the cooling water can impact the inclined fin plate 31, so that the inclined fin plate 31 receives the beating of the cooling water, the piston sleeve 29 can be driven by the inclined fin plate 31 to generate upward or downward movement under the elastic action of the reset spring and the guiding action of the fixed rod 24, when the piston sleeve 29 moves up and down, the cooling inside the piston sleeve can generate extrusion to be ejected out of the hole inside the water outlet cover 30 at the top, the cooling water at the bottom can be fast up to the top, the uniformity of the cooling water in the water bath outer cylinder 15 is ensured, the preheating uniformity is improved, and the preheating effect of materials is improved.

When the chemical equipment heat transfer recycling equipment is used, the heat shield 2 is sleeved outside the chemical equipment main body 1, a part of heat generated in the use process of the chemical equipment main body 1 is radiated through the self shell, the radiated heat is blown to the air guide pipe 9 through the heat radiation fan 7, hot air is directly blown to a high-temperature area in the heat preservation water tank 11 through the air guide pipe 9 to heat water in the high-temperature area, in addition, the side heat conduction water pipe 5 and the top heat conduction water pipe are tightly pressed on the outer wall of the chemical equipment main body 1 through the cooperation of the spring sleeve rod 4, the side heat conduction water pipe 5 and the top heat conduction water pipe 6, water is pumped from the low-temperature area in the heat preservation water tank 11 through the circulating water pump, the heat is transferred into the side heat conduction water pipe 5 and the top heat conduction water pipe 6 through the circulating water outlet pipe 28, the heat exchange is carried out with the shell of the chemical equipment main body 1, and the heated cooling water enters the high-temperature area through the circulating water inlet pipe 32, in addition, the by-pass pipe 10 is directly connected with the heating source inside the chemical equipment main body 1, so that hot air or materials with heat circulate through the by-pass pipe 10, part of the by-pass pipe 10 is positioned in a high-temperature area, cooling water in the high-temperature area can be heated, the cooling water in the high-temperature area is heated through the blowing heating of the air guide pipe 9, the side heat conduction water pipe 5, the top heat conduction water pipe 6 and the by-pass pipe 10, the heat dissipation of the chemical equipment main body 1 is realized, the heating of the cooling water in the high-temperature area is realized, the high-temperature area is communicated with the inside of the water bath outer cylinder 15, the water bath heating is carried out on the inner cylinder 16 through the heated cooling water, the preheating of chemical raw materials in the inner cylinder 16 is facilitated, the heat transfer and the recycling of the chemical equipment are realized, the whole heat transfer and recycling equipment collect the heat of the chemical equipment through various ways, the requirement of additional energy is reduced, the energy efficiency of the whole production process is improved, the waste heat is effectively utilized, the heat pollution to the environment is reduced, the influence of production on the environment is reduced, the potential safety hazard of chemical equipment can be reduced through heat transfer and recycling, and the environment-friendly production and recycling economy of enterprises are facilitated.

All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Claims

1. The utility model provides a chemical industry equipment heat transfer recycling equipment, includes chemical industry equipment main part (1) and heat exchanger (2), its characterized in that: the heat insulation device comprises a chemical equipment main body (1), wherein a heat insulation cover (2) is arranged on the outer side of the chemical equipment main body (1), a heat radiation fan (7) is arranged at the top of the heat insulation cover (2), an air guide pipe (9) is arranged on one side of the heat insulation cover (2), a heat insulation water tank (11) is arranged at one end of the air guide pipe (9), a partition plate (12) is arranged inside the heat insulation water tank (11), the heat insulation water tank (11) is internally partitioned into a high-temperature area and a low-temperature area through the partition plate (12), one end of the air guide pipe (9) is located in the high-temperature area, a communication seat (14) is arranged on one side of the high-temperature area of the heat insulation water tank (11), an outer water bath cylinder (15) is arranged at one end of the communication seat, an inner cylinder (16) is arranged inside the outer water bath cylinder (15), water outlet pipes (26) are arranged on two sides of the upper half part of the outer water bath cylinder (15), and one end of each water outlet pipe (26) is located in the low-temperature area of the heat insulation water tank (11).

The utility model discloses a heat insulation water tank, including heat exchanger (2), heat exchanger, air duct (9), by-pass pipe (10), air duct (9) are located inside one end of heat exchanger (2) and are funnel-shaped, air duct (9) middle part is equipped with check valve (13), chemical industry equipment main part (1) outer wall one side is equipped with by-pass pipe (10), by-pass pipe (10) are used for the inside circulation of chemical industry equipment main part (1), by-pass pipe (10) one section is located air duct (9) inboard, by-pass pipe (10) one section is located the high temperature region of heat preservation water tank (11).

2. A chemical plant heat transfer recycling apparatus according to claim 1, wherein: the heat shield is characterized in that an L-shaped branch strip (3) is arranged on the top of the heat shield (2) and on the inner wall of the side edge, a spring sleeve rod (4) is arranged inside the L-shaped branch strip (3), the spring sleeve rod (4) is arranged at the top, a top heat conducting water pipe (6) is arranged at one end of the spring sleeve rod (4) and is arranged at the side edge, a side heat conducting water pipe (5) is arranged at one end of the spring sleeve rod, a connecting hose (8) is arranged between the top heat conducting water pipe (6) and the side heat conducting water pipe (5), a plurality of connecting hoses are arranged between the side heat conducting water pipe (5) and the top heat conducting water pipe (6), a circulating water outlet pipe (28) is arranged at one end of the side heat conducting water pipe (5), a circulating water inlet pipe (32) is arranged at one end of the side heat conducting water pipe, one end of the circulating water inlet pipe (32) is arranged in a high-temperature area, and a circulating water pipe (27) is arranged between the bottom ends of two adjacent side heat conducting water pipes (5).

3. A chemical plant heat transfer recycling apparatus according to claim 1, wherein: the utility model discloses a water bath, including inner tube (16), water bath urceolus (15), motor support (17) are equipped with at the top of inner tube (16), water bath urceolus (15) upper half outside is equipped with motor support (17), motor support (17) middle part is equipped with agitator motor (18), agitator motor (18) output shaft bottom is equipped with (mixing) shaft (19), (mixing) shaft (19) are located inner tube (16) inside region and are equipped with stirring rod (20), inner tube (16) one side bottom is equipped with relief valve (25).

4. A chemical plant heat transfer recycling apparatus according to claim 3, wherein: the motor support (17) is in a shape of a door, and a top cross bar of the motor support (17) is positioned above the feeding cover (21).

5. A chemical plant heat transfer recycling apparatus according to claim 3, wherein: the utility model discloses a water bath outer tube, including inner tube (16), inner tube (16) outer wall are equipped with changes lid (23), it is located water bath outer tube (15) top to change lid (23), it is equipped with link (22) to change lid (23) top, link (22) one end and (19) fixed connection, it is equipped with dead lever (24) to change lid (23) bottom, dead lever (24) are located between inner tube (16) outer wall and water bath outer tube (15) inner wall.

6. A chemical plant heat transfer recycling apparatus according to claim 5, wherein: the utility model discloses a water pump, including dead lever (24), piston cover (29) are equipped with in dead lever (24) outside, dead lever (24) bottom is equipped with the fixed block, the fixed block external diameter is the same with piston cover (29) internal diameter, piston cover (29) top is equipped with out water cap (30), go out water cap (30) inside and seted up the apopore, be equipped with reset spring between play water cap (30) bottom and the fixed block top.

7. The chemical plant heat transfer recycling apparatus according to claim 6, wherein: the piston sleeve (29) outer wall is equipped with oblique wing board (31), oblique wing board (31) are the slant and set up, oblique wing board (31) have a plurality of, a plurality of oblique wing board (31) are the equidistance and arrange, oblique wing board (31) set up the upstream face at piston sleeve (29).

8. A chemical plant heat transfer recycling apparatus according to claim 2, wherein: one side of the circulating water outlet pipe (28) is provided with a circulating water pump for conveying cooling water.