CN114291444A - Chemical material handles and uses heat preservation equipment that has anticorrosion structure - Google Patents

Abstract

The invention discloses heat preservation equipment with an anti-corrosion structure for chemical material treatment, and relates to the technical field of chemical material treatment. According to the invention, through the mutual matching arrangement of the components, the tightness of connection with the feeding pipe can be improved, the condition of material leakage during feeding can be further reduced, the material is prevented from being stained on the surface of the heat-insulation tank, the service cycle of the heat-insulation tank is prolonged, automatic pressure relief inside the heat-insulation tank can be assisted by arranging the pressure relief at the top of the heat-insulation tank, the pressure-relieved gas can be reintroduced into the heat-insulation coil pipe by matching the arrangement of the heat-insulation component, the temperature inside the tank body can be compensated by using the rest heat energy, the usability of the heat-insulation tank is improved, and the corrosion-resistant capacity of the corrosion-resistant component outside the tank body can be improved.

Description

Chemical material handles and uses heat preservation equipment that has anticorrosion structure

Technical Field

The invention relates to the technical field of chemical material treatment, in particular to a heat preservation device with an anti-corrosion structure for chemical material treatment.

Background

The chemical material is short for engineering material required for building a chemical device, chemical machinery, chemical instruments, pipelines and structures forming the chemical production device run under different temperatures, pressures and mechanical loads, the contacted materials have strong corrosion action, and the materials need to be placed in a specific anti-corrosion heat-preservation tank in production, and can be used for processing while keeping activity when in use.

The heat preservation equipment for chemical material treatment on the market has the defects that the connection of a feeding pipeline and a feeding hole is not tight enough, chemical materials are easy to leak during feeding, and the leaked raw materials are easy to corrode the heat preservation equipment, so that the service life of the heat preservation equipment is influenced.

Disclosure of Invention

The invention aims to provide heat preservation equipment with an anti-corrosion structure for chemical material treatment, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a chemical material handles with insulation equipment that has anticorrosion structure, includes holding tank and washing subassembly, the feed inlet is installed in holding tank top left side, just feed inlet externally mounted has prevents leaking the subassembly, the holding tank right side is provided with the pressure release subassembly, just pressure release subassembly outer end is connected with the subassembly that keeps warm, washing unit mount in the holding tank middle part, prevent leaking the subassembly and include base, sealing washer, revolving axle, fastening frame, flexible glue and fastening pin, just the base inner wall is connected with the sealing washer, install at the base top the revolving axle, just revolving axle externally connected with fastening frame, fastening frame lower surface is provided with flexible glue, just flexible glue right-hand member alternates there is the fastening pin.

Further, the pressure relief assembly comprises a pressure relief pipe, a return spring, a placement piece, fastening glue and sealing glue, wherein the inner wall of the pressure relief pipe is connected with the return spring, the exterior of the return spring is provided with the placement piece, the exterior of the placement piece is provided with the fastening glue, and the sealing glue is connected to the top of the placement piece.

Furthermore, the arrangement piece is elastically connected with the pressure relief pipe through the return spring, is circumferentially distributed on the inner wall of the pressure relief pipe and is of a quarter-circle structure.

Further, the heat preservation subassembly includes circulating pipe, mount, pivot, sheet rubber, heat preservation coil pipe and processing case, circulating pipe internally mounted have the mount, just the mount is inside to be alternate to have the pivot, the pivot external connection has the sheet rubber, the circulating pipe other end is connected with the heat preservation coil pipe, just the heat preservation coil pipe other end is connected with the processing case.

Furthermore, the rubber sheet is rotationally connected with the placing frame through the rotating shaft, the rubber sheet is symmetrically distributed about the central position of the placing frame, and the rubber sheet is of an arc-shaped structure.

Further, the heat preservation coil pipe with the embedded connection of holding vessel, just the heat preservation coil pipe is helical structure.

Further, the washing subassembly includes hydraulic push rod, clean board, clean cotton, corrosion resistant pressure head, miniature push rod and airtight board, just the hydraulic push rod output is connected with clean board, clean board outside is provided with clean cotton, just clean board bottom is provided with the corrosion resistant pressure head, miniature push rod install in clean board top, just miniature push rod output is installed airtight board.

Furthermore, the cleaning plate and the cleaning cotton are distributed in a concentric circle shape, the corrosion-resistant pressure head and the cleaning plate are positioned on the same axis, and the external shape of the corrosion-resistant pressure head is matched with the size of the inner wall of the heat-insulating tank.

Further, a discharge hole is formed in the lower portion of the surface of the heat-preservation tank, and an anti-corrosion assembly is arranged on the outer surface of the heat-preservation tank.

Further, the anticorrosive component comprises a heat-insulating layer, a polyurethane coating, a damping rotating shaft, a blocking frame and hydrophobic cloth, the polyurethane coating is sprayed on the surface of the heat-insulating layer, the damping rotating shaft is installed above the heat-insulating layer, the blocking frame is arranged outside the damping rotating shaft, and the hydrophobic cloth is arranged outside the blocking frame.

The invention provides a heat preservation device with an anti-corrosion structure for chemical material treatment, which has the following beneficial effects: the heat preservation equipment with the anticorrosion structure for the chemical material treatment adopts the mutually matched arrangement among the components, so that the tightness of connection with a feeding pipe can be improved, the condition of material leakage during feeding can be further reduced, the material is prevented from being stained on the surface of a heat preservation tank, the service cycle of the heat preservation tank is prolonged, automatic pressure relief inside the heat preservation tank can be assisted by pressure relief arranged at the top of the heat preservation tank, the pressure-relieved gas can be reintroduced into a heat preservation coil pipe by matching with the arrangement of the heat preservation components, the temperature inside the tank body can be compensated by using the rest heat energy, the usability of the heat preservation equipment is improved, and the anticorrosion capacity of the anticorrosion component outside the tank body can be improved;

1. according to the invention, through the mutual matching arrangement between the heat-insulating tank and the leakage-preventing assembly, the feeding pipe can be inserted into the base during feeding, the matching sealing ring can be matched with the outer wall of the feeding pipe to be mutually attached, the fastening frame is rotatably buckled outside the feeding pipe around the rotating shaft, the friction coefficient between the fastening frame and the feeding pipe can be improved through the flexible glue at the bottom of the fastening frame, and then the fastening frame is connected with the base through the fastening pin, so that the connection tightness between the fastening frame and the base can be improved, and the material leakage occurrence situation of the fastening frame and the base can be further reduced.

2. According to the invention, through the mutual matching arrangement of the pressure relief assembly and the heat preservation tank, when the air pressure in the heat preservation tank is too high, the gas opposite to the inside can enter the pressure relief pipe, and the arrangement piece in the pressure relief pipe is extruded to enable the arrangement piece to upwards rotate around the return spring, so that the sealing rubber pieces attached to each other are separated, the purpose of pressure relief is achieved, the fastening rubber on the outer side of the arrangement piece can promote the connection between the arrangement piece and the heat preservation tank, further, the leakage of the gas can be reduced, and the condition of internal temperature reduction is prevented.

3. According to the invention, through the mutual matching arrangement of the pressure relief assembly and the heat insulation assembly, when redundant gas enters the circulating pipe through the pressure relief pipe, the gas can be guided to pass through and the gas is prevented from flowing back through the arrangement of the arranging frame, the rotating shaft and the rubber sheet in the circulating pipe, the gas is guided into the heat insulation coil pipe, the heat insulation coil pipe is spirally embedded into the heat insulation tank, the heat lost by the heat insulation tank is compensated by utilizing the residual heat of the gas, and the heat insulation effect of the heat insulation tank can be further improved.

4. According to the invention, through the mutually matched arrangement of the heat-insulating tank and the washing component, when the interior of the tank body needs to be cleaned, the cleaning liquid is introduced into the interior of the tank body through the feed inlet, the cleaning plate can move up and down under the work of the hydraulic push rod, the inner wall of the tank body can be cleaned through the cleaning cotton while moving, the cleaning liquid in the interior can rapidly flow and impact the inner wall of the tank body due to the negative pressure generated by the lifting of the cleaning plate during moving, the cleaning effect is improved, the airtight plate is driven to move through the miniature push rod, and further the cleaning liquid can enter the interior of the corrosion-resistant pressure head, the interior of the corrosion-resistant pressure head is formed by the foam cotton, the cleaning liquid has certain flexibility, the impurities doped in the cleaning liquid can be adsorbed, and the excessive water adsorbed in the interior can be extruded and discharged through the discharge outlet.

5. According to the invention, through the mutual matching arrangement of the anti-corrosion component and the heat-preservation tank, the baffle frame is pulled out to rotate along the damping rotating shaft, so that the baffle frame can be unfolded outwards, the liquid falling to the outer surface of the tank body can be guided out by matching with the hydrophobic cloth on the top of the baffle frame, the corrosion of the tank body caused by the liquid being infected on the surface of the tank body is avoided, the heat preservation and heat insulation purposes can be achieved through the arrangement of the heat-preservation heat-insulation layer, and the polyurethane coating is sprayed on the surface of the heat-preservation heat-insulation layer, so that the anti-corrosion capability of the heat-preservation tank is further improved.

Drawings

FIG. 1 is a schematic view of the overall structure of a heat-insulating apparatus with an anticorrosion structure for chemical material treatment according to the present invention;

FIG. 2 is an enlarged schematic structural view of the insulation apparatus with an anticorrosion structure for chemical material treatment in FIG. 1;

FIG. 3 is a schematic view of a leak-proof assembly of the heat-insulating apparatus with an anti-corrosion structure for chemical material treatment according to the present invention;

FIG. 4 is a schematic view of the internal structure of the pressure relief pipe of the heat preservation apparatus with an anticorrosion structure for chemical material treatment according to the present invention;

FIG. 5 is a schematic structural diagram of a cross section of a pressure relief pipe of the heat preservation device with an anticorrosion structure for chemical material treatment according to the present invention;

FIG. 6 is a schematic structural view of a cross section of a circulating pipe of the heat insulating apparatus having an anticorrosive structure for chemical material treatment according to the present invention;

FIG. 7 is a schematic view of the internal structure of a heat-insulating tank of the heat-insulating equipment with an anticorrosion structure for chemical material treatment according to the invention;

FIG. 8 is a schematic top view of a cleaning plate of the heat-insulating apparatus with an anti-corrosion structure for chemical material treatment according to the present invention;

fig. 9 is an enlarged schematic structural view of a heat preservation device with an anticorrosion structure for chemical material treatment in fig. 1 at the position B.

In the figure: 1. a heat preservation tank; 2. a feed inlet; 3. a leak-proof assembly; 301. a base; 302. a seal ring; 303. a rotating shaft; 304. a fastening frame; 305. flexible glue; 306. a fastening pin; 4. a pressure relief assembly; 401. a pressure relief pipe; 402. a return spring; 403. placing the sheet; 404. fastening glue; 405. sealing the rubber sheet; 5. a heat preservation assembly; 501. a circulation pipe; 502. a placement frame; 503. a rotating shaft; 504. a rubber sheet; 505. a heat preservation coil pipe; 506. a treatment tank; 6. a washing assembly; 601. a hydraulic push rod; 602. cleaning the plate; 603. cleaning cotton; 604. a corrosion-resistant pressure head; 605. a micro push rod; 606. an airtight plate; 7. a discharge port; 8. an anti-corrosion component; 801. a heat insulation layer; 802. a polyurethane coating; 803. a damping rotating shaft; 804. a blocking frame; 805. a hydrophobic cloth.

Detailed Description

Referring to fig. 1-9, the present invention provides a technical solution: an insulation device with an anti-corrosion structure for chemical material treatment comprises an insulation tank 1 and a washing component 6, wherein a feed inlet 2 is arranged at the left side of the top of the insulation tank 1, and the outside of the feed inlet 2 is provided with a leakage-proof component 3, the right side of the heat-insulating tank 1 is provided with a pressure-releasing component 4, and the outer end of the pressure relief component 4 is connected with an insulation component 5, the washing component 6 is arranged at the middle part of the insulation tank 1, the leakage-proof component 3 comprises a base 301, a sealing ring 302, a rotating shaft 303, a fastening frame 304, flexible glue 305 and a fastening pin 306, the inner wall of the base 301 is connected with a sealing ring 302, the top of the base 301 is provided with a revolving shaft 303, and a fastening frame 304 is connected to the outside of the rotation shaft 303, a flexible glue 305 is provided on the lower surface of the fastening frame 304, a fastening pin 306 is inserted at the right end of the flexible glue 305 in a penetrating manner, a discharge hole 7 is formed below the surface of the heat-preservation tank 1, and an anti-corrosion assembly 8 is arranged on the outer surface of the heat-preservation tank 1;

the operation is as follows, through the mutual matching arrangement between the heat-insulating tank 1 and the leakage-preventing component 3, the feeding pipe can be inserted into the base 301 during feeding, the matching sealing ring 302 can be lifted to be attached to the outer wall of the feeding pipe, meanwhile, the fastening frame 304 is rotationally buckled outside the feeding pipe around the rotating shaft 303, the friction coefficient between the fastening frame 304 and the feeding pipe can be lifted through the flexible glue 305 at the bottom of the fastening frame 304, and then the fastening frame 304 is connected with the base 301 through the fastening pin 306, so that the connection tightness between the fastening frame 304 and the base 301 can be improved, and the material leakage of the fastening frame and the base can be further reduced;

referring to fig. 1, 4 and 5, the pressure relief assembly 4 includes a pressure relief pipe 401, a return spring 402, a mounting plate 403, a fastening glue 404 and a sealing glue film 405, wherein the inner wall of the pressure relief pipe 401 is connected with the return spring 402, the mounting plate 403 is disposed outside the return spring 402, the fastening glue 404 is disposed outside the mounting plate 403, the sealing glue film 405 is connected to the top of the mounting plate 403, the mounting plate 403 is elastically connected with the pressure relief pipe 401 through the return spring 402, the mounting plate 403 is circumferentially distributed around the inner wall of the pressure relief pipe 401, and the mounting plate 403 is in a quarter-circle structure;

the specific operation is as follows, through the mutual matching arrangement between the pressure relief assembly 4 and the heat preservation tank 1, when the air pressure in the heat preservation tank 1 is too high, the gas in the heat preservation tank can enter the pressure relief pipe 401, the arrangement piece 403 in the pressure relief pipe 401 is extruded to enable the arrangement piece 403 to rotate upwards around the return spring 402, so that the sealing rubber sheets 405 attached to each other are separated, the air circulation achieves the purpose of pressure relief, the fastening rubber 404 on the outer side of the arrangement piece 403 can promote the connection between the two, the gas leakage can be reduced, and the condition that the internal air temperature is reduced is prevented;

referring to fig. 1, 6 and 7, the heat insulation assembly 5 includes a circulation pipe 501, a placement frame 502, a rotation shaft 503, a rubber sheet 504, a heat insulation coil 505 and a processing box 506, the placement frame 502 is installed inside the circulation pipe 501, the rotation shaft 503 is inserted into the placement frame 502, the rubber sheet 504 is connected to the outside of the rotation shaft 503, the heat insulation coil 505 is connected to the other end of the circulation pipe 501, the processing box 506 is connected to the other end of the heat insulation coil 505, the rubber sheet 504 is rotatably connected to the placement frame 502 through the rotation shaft 503, the rubber sheets 504 are symmetrically distributed about the center position of the placement frame 502, the rubber sheet 504 is in an arc structure, the heat insulation coil 505 is connected to the heat insulation tank 1 in an embedded manner, and the heat insulation coil 505 is in a spiral structure;

the concrete operation is as follows, set up through mutually supporting between pressure release subassembly 4 and the heat preservation subassembly 5, make when unnecessary gas enters into to circulating pipe 501 inside through pressure release pipe 401, through the inside arrangement frame 502 of circulating pipe 501, the setting of pivot 503 and sheet rubber 504, make it avoid gaseous the emergence backward flow when can leading gas to pass through, and with gaseous leading-in to heat preservation coil pipe 505 inside, this heat preservation coil pipe 505 is the inside that the heliciform spirals embedding heat preservation jar 1, utilize the heat that heat compensation heat preservation jar 1 that its gaseous surplus loses, and then can promote its heat preservation effect.

Referring to fig. 1, 7 and 8, the washing assembly 6 includes a hydraulic push rod 601, a cleaning plate 602, cleaning cotton 603, an anti-corrosion pressure head 604, a micro push rod 605 and an airtight plate 606, wherein the output end of the hydraulic push rod 601 is connected with the cleaning plate 602, the cleaning cotton 603 is arranged outside the cleaning plate 602, the anti-corrosion pressure head 604 is arranged at the bottom of the cleaning plate 602, the micro push rod 605 is mounted at the top of the cleaning plate 602, the airtight plate 606 is mounted at the output end of the micro push rod 605, the cleaning plate 602 and the cleaning cotton 603 are distributed in a concentric circle shape, the anti-corrosion pressure head 604 and the cleaning plate 602 are located on the same axis, and the external shape of the anti-corrosion pressure head 604 matches with the size of the inner wall of the heat-insulating tank 1;

the specific operation is as follows, through the mutual matching arrangement between the heat-preservation tank 1 and the washing component 6, when the interior of the tank body needs to be cleaned, cleaning liquid is introduced into the tank body through the feed inlet 2, and the cleaning plate 602 can move up and down under the operation of the hydraulic push rod 601, the inner wall of the tank body can be wiped and cleaned by the cleaning cotton 603 during movement, and the cleaning liquid in the tank body can rapidly flow and impact the inner wall of the tank body due to the negative pressure generated by the lifting of the cleaning plate 602 during movement, so that the cleaning effect is improved, and the micro-push rod 605 drives the air sealing plate 606 to move, so that the cleaning liquid can enter the corrosion-resistant pressure head 604, the corrosion-resistant pressure head 604 is made of foam, has certain flexibility and can adsorb impurities doped in the cleaning solution, and can extrude the excessive moisture absorbed inside when being extruded, and discharge through the discharge hole 7.

Referring to fig. 1 and 9, the anti-corrosion assembly 8 includes a heat insulating layer 801, a polyurethane coating 802, a damping rotating shaft 803, a blocking frame 804 and a hydrophobic cloth 805, the polyurethane coating 802 is sprayed on the surface of the heat insulating layer 801, the damping rotating shaft 803 is installed above the heat insulating layer 801, the blocking frame 804 is arranged outside the damping rotating shaft 803, and the hydrophobic cloth 805 is arranged outside the blocking frame 804;

the concrete operation is as follows, set up through mutually supporting between anticorrosive subassembly 8 and the holding vessel 1, make keep off frame 804 through pulling out and make it rotate and then can make and keep off frame 804 and outwards expand along damping pivot 803, the cooperation keeps off hydrophobic cloth 805 at frame 804 top can lead out the liquid that falls to jar external surface, avoid it to be infected with the condition that leads to jar body to receive the corruption at the surface of the jar body, and through the setting of heat preservation insulating layer 801, make it can reach heat preservation and thermal-insulated purpose, its surface still spraying has polyurethane coating 802, further promote its anticorrosive ability.

In conclusion, when the heat preservation device with the anticorrosion structure for chemical material treatment is used, the blocking frame 804 is pulled out to rotate along the damping rotating shaft 803, so that the blocking frame 804 is unfolded outwards, the liquid falling to the outer surface of the tank body can be guided out by matching with the hydrophobic cloth 805 at the top of the blocking frame 804, the corrosion of the tank body caused by the liquid being stained on the surface of the tank body is avoided, the heat preservation and heat insulation purposes can be achieved by arranging the heat preservation and heat insulation layer 801, the polyurethane coating 802 is sprayed on the surface of the heat preservation and heat insulation layer, the anticorrosion capability of the heat preservation layer is further improved, the feeding pipe is inserted into the base 301, the sealing ring 302 is matched to be lifted to be mutually attached to the outer wall of the feeding pipe, meanwhile, the fastening frame 304 is rotated around the rotating shaft 303 to be buckled outside the feeding pipe, the friction coefficient between the feeding pipe and the flexible glue 305 at the bottom of the fastening frame 304 can be lifted, and then the fastening frame 304 is connected with the base 301 through the fastening pin 306, and then can promote the connection tightness of the two, then the material is introduced into the interior of the heat preservation tank 1, when the air pressure in the heat preservation tank 1 is too high, the gas corresponding to the interior can enter the interior of the pressure relief pipe 401, and the arrangement piece 403 in the interior of the pressure relief pipe 401 is extruded to enable the material to upwards rotate around the return spring 402, so that the sealing rubber sheets 405 attached to each other are separated, the purpose of pressure relief is achieved through the gas circulation, the connection between the fastening rubber 404 on the outer side of the arrangement piece 403 can be promoted, the gas leakage can be reduced, the condition of internal temperature reduction is prevented, when the redundant gas enters the interior of the circulation pipe 501 through the pressure relief pipe 401 in cooperation with the arrangement of the heat preservation component 5, the arrangement frame 502, the rotating shaft 503 and the rubber sheet 504 in the interior of the circulation pipe 501 can guide the gas to pass through and simultaneously avoid the gas from flowing back, and the gas is introduced into the interior of the heat preservation coil 505, the heat preservation coil pipe 505 is spirally and spirally embedded in the heat preservation tank 1, the heat lost by the heat preservation tank 1 is compensated by the residual heat of the gas, the heat preservation effect of the heat preservation coil pipe can be improved, finally, when the tank body is required to be cleaned, the cleaning liquid is introduced into the tank body through the feed inlet 2, the cleaning plate 602 can move up and down under the work of the hydraulic push rod 601, the inner wall of the tank body can be cleaned through the cleaning cotton 603 during the movement, the cleaning liquid in the tank body can rapidly flow and impact the inner wall of the tank body due to the negative pressure generated by the lifting and falling of the cleaning plate 602 during the movement, the cleaning effect is improved, the airtight plate 606 is driven to move through the micro push rod 605, the cleaning liquid can enter the corrosion-resistant pressure head 604, the corrosion-resistant pressure head 604 is internally composed of foam, and the impurities doped in the cleaning liquid can be adsorbed while having certain flexibility, and can extrude the excessive moisture absorbed inside when being extruded, and discharge through the discharge hole 7.

Claims (10)

1. The utility model provides a chemical material handles with heat preservation equipment that has anticorrosion structure, its characterized in that, including heat preservation jar (1) and washing subassembly (6), feed inlet (2) are installed to heat preservation jar (1) top left side, just feed inlet (2) externally mounted has prevents leaking subassembly (3), heat preservation jar (1) right side is provided with pressure release subassembly (4), just pressure release subassembly (4) outer end is connected with heat preservation subassembly (5), washing subassembly (6) install in heat preservation jar (1) middle part, prevent leaking subassembly (3) and include base (301), sealing washer (302), pivot (303), fastening frame (304), flexible glue (305) and fastening pin (306), and base (301) inner wall connection have sealing washer (302), base (301) top is installed pivot (303), just pivot (303) external connection have fastening frame (304), the lower surface of the fastening frame (304) is provided with the flexible glue (305), and the fastening pin (306) is inserted into the right end of the flexible glue (305).

2. The heat preservation device with the anticorrosion structure for chemical material processing according to claim 1, wherein the pressure relief assembly (4) comprises a pressure relief pipe (401), a return spring (402), a placement piece (403), a fastening glue (404) and a sealing glue piece (405), the return spring (402) is connected to the inner wall of the pressure relief pipe (401), the placement piece (403) is arranged outside the return spring (402), the fastening glue (404) is arranged outside the placement piece (403), and the sealing glue piece (405) is connected to the top of the placement piece (403).

3. The heat preservation device with the anticorrosion structure for chemical material treatment according to claim 2, wherein the arrangement pieces (403) are elastically connected with the pressure relief pipe (401) through the return spring (402), the arrangement pieces (403) are circumferentially distributed about the inner wall of the pressure relief pipe (401), and the arrangement pieces (403) are in a quarter-circle structure.

4. The chemical material handles heat preservation equipment with anticorrosion structure of claim 1, characterized in that, heat preservation subassembly (5) includes circulating pipe (501), arrangement frame (502), pivot (503), sheet rubber (504), heat preservation coil pipe (505) and processing case (506), circulating pipe (501) internally mounted have arrangement frame (502), just the inside interlude of arrangement frame (502) has pivot (503), pivot (503) external connection has sheet rubber (504), the circulating pipe (501) other end is connected with heat preservation coil pipe (505), just heat preservation coil pipe (505) other end is connected with processing case (506).

5. The heat preservation device with the corrosion prevention structure for chemical material processing according to claim 4, wherein the rubber sheet (504) is rotatably connected with the placement frame (502) through the rotating shaft (503), the rubber sheets (504) are symmetrically distributed about the center position of the placement frame (502), and the rubber sheet (504) is in an arc-shaped structure.

6. The heat-insulating equipment with the anticorrosion structure for the chemical material treatment as claimed in claim 4, wherein the heat-insulating coil (505) is connected with the heat-insulating tank (1) in an embedded manner, and the heat-insulating coil (505) is of a spiral structure.

7. The thermal insulation equipment with the corrosion prevention structure for chemical material treatment according to claim 1, wherein the washing assembly (6) comprises a hydraulic push rod (601), a cleaning plate (602), cleaning cotton (603), a corrosion-resistant pressure head (604), a micro push rod (605) and an airtight plate (606), the cleaning plate (602) is connected to the output end of the hydraulic push rod (601), the cleaning cotton (603) is arranged outside the cleaning plate (602), the corrosion-resistant pressure head (604) is arranged at the bottom of the cleaning plate (602), the micro push rod (605) is mounted at the top of the cleaning plate (602), and the airtight plate (606) is mounted at the output end of the micro push rod (605).

8. The thermal insulation equipment with the corrosion prevention structure for chemical material processing according to claim 7, wherein the cleaning plate (602) and the cleaning cotton (603) are distributed in a concentric circle shape, the corrosion-resistant pressure head (604) and the cleaning plate (602) are on the same axis, and the external shape of the corrosion-resistant pressure head (604) is matched with the size of the inner wall of the thermal insulation tank (1).

9. The heat-insulating equipment with the anticorrosion structure for the chemical material treatment as claimed in claim 1, wherein a discharge hole (7) is formed below the surface of the heat-insulating tank (1), and an anticorrosion assembly (8) is arranged on the outer surface of the heat-insulating tank (1).

10. The heat-insulating equipment with the anticorrosion structure for the chemical material treatment according to claim 9, wherein the anticorrosion assembly (8) comprises a heat-insulating layer (801), a polyurethane coating (802), a damping rotating shaft (803), a blocking frame (804) and hydrophobic cloth (805), the polyurethane coating (802) is sprayed on the surface of the heat-insulating layer (801), the damping rotating shaft (803) is installed above the heat-insulating layer (801), the blocking frame (804) is arranged outside the damping rotating shaft (803), and the hydrophobic cloth (805) is arranged outside the blocking frame (804).

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