CN217363334U - Rust-resistant high strength heater that loses - Google Patents

Abstract

The utility model discloses a rust-resistant high strength heater that loses, including heat conduction mechanism and combined mechanism, the supporting mechanism that is used for the integral erection to support is installed to the bottom both sides of heat conduction mechanism for the subregion generates heat combined mechanism sets up in the rear middle part of heat conduction mechanism, the installation mechanism that is used for quick assembly disassembly combination is installed to the bottom of heat conduction mechanism. This rust-resistant high strength heater that loses, compare with current device, through the wrapping cover, it is the alumina porcelain material, can protect first filament plate, the joint strength when improving first filament plate and using, avoid taking place to warp, through first filament plate, it is iron chromium aluminium material, when making whole heater have good electrically conductive heat-generating capacity, still have good antioxidant power, thereby can prevent that first filament plate from taking place the corrosion damage, through first wire and first last wire, can be simultaneously to the upper and lower region of first filament plate carry out the ohmic heating, thereby can be so that the more even of generating heat.

Description

Rust-resistant high strength heater that loses

Technical Field

The utility model relates to a heater technical field specifically is an antirust high strength heater that loses.

Background

The heating wire is an element which is connected with electricity and then heated to achieve a certain purpose, and is applied to medical treatment, chemical industry, ceramics and electronics.

The existing heating wire has the problem that the heating is not uniform and rapid enough when in use, so that the overall use effect is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a rust-resistant high strength heater that loses to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an antirust high strength heater, includes heat conduction mechanism and combined mechanism, the supporting mechanism that is used for the integral erection to support is installed to heat conduction mechanism's bottom both sides, is used for the subregion to generate heat the combined mechanism sets up in the rear middle part of heat conduction mechanism, the installation mechanism that is used for quick assembly disassembly combination is installed to heat conduction mechanism's bottom, heat conduction mechanism is including wrapping up cover, first silk board, first wire and first last wire, the middle part of wrapping up the cover is fixed with first silk board, and first silk board is the mesh form, one side below of first silk board is connected with first wire, and first wire and wrapping up cover, first silk board are linked together, the opposite side top of first silk board is connected with first last wire, and the external diameter of first last wire is the same with the external diameter of first wire.

Furthermore, the supporting mechanism comprises a mounting seat and a supporting rod, and the bottom of the mounting seat is connected with the supporting rod.

Further, the supporting mechanism further comprises a fixing sleeve and a connecting rod, the fixing sleeve is arranged in the middle of the surface of the supporting rod, and the middle of one side of the fixing sleeve is connected with the connecting rod.

Furthermore, the combined mechanism comprises a second wire plate, a second lower lead and a second upper lead, wherein one side of the second wire plate is connected with the second lower lead, and the other side of the second wire plate is connected with the second upper lead.

Furthermore, the combined mechanism further comprises a third wire plate, a third lower lead and a third upper lead, wherein the third wire plate is arranged behind the second wire plate, one side of the third wire plate is connected with the third lower lead, and the other side of the third wire plate is connected with the third upper lead.

Furthermore, the third wire plate and the second wire plate are the same in size and shape, and the third wire plate and the second wire plate are arranged in parallel.

Furthermore, the mounting mechanism comprises a mounting column and a clamping ring, and the clamping ring is fixed above the surface of the mounting column.

Compared with the prior art, the utility model provides a rust-resistant high strength heater that loses possesses following beneficial effect: this heater has good intensity and oxidation resistance, and it is more even to generate heat simultaneously, and speed is faster, and calorific capacity is variable to can carry out subregion heating as required, conveniently carry out local subregion's change simultaneously.

1. The utility model discloses a wrapping cover, it is the alumina porcelain material, can protect first filament plate, the joint strength when improving first filament plate and using avoids taking place to warp, through first filament plate, it is iron chromium aluminium material, when making whole heater have good electrically conductive heating ability, still have good oxidation resistance, thereby can prevent that first filament plate from taking place the corrosion damage, through first lower wire and first upper wire, can carry out the ohmic heating to the upper and lower region of first filament plate simultaneously, thereby can make the more even that generates heat, two tunnel electrically conducts can improve the efficiency of generating heat simultaneously, use effect that so is favorable to improving the heater;

2. the utility model discloses a second is lower the wire, the second is gone up the wire, third is lower wire and third is gone up the wire, it is the same with the theory of operation of first wire and first last wire, can make second filament plate and third filament plate generate heat evenly fast, through second filament plate, third filament plate and first filament plate, its three parallel connection, independent work that can be respectively, thereby can carry out multiunit or single group work as required according to the use, make calorific capacity variable, can divide into preceding, middle, back three district with generating heat simultaneously, so as to can carry out regional heating according to the use needs;

3. the utility model discloses a mount pad and bracing piece can be used for the support of whole heater to and install fixedly to whole heater, through fixed cover and connecting rod, can couple together the bracing piece of both sides, thereby can improve the stability when supporting the installation, avoid taking place to warp, through erection column and snap ring, can conveniently be in the same place wrapping up in cover and mount pad installation combination, thereby can make things convenient for the change of taking off of subregion when damaging, be favorable to here to reduce the high cost of changing to the whole body.

Drawings

FIG. 1 is a schematic view of the overall front view structure of the present invention;

FIG. 2 is a schematic view of the overall top view structure of the present invention;

fig. 3 is the utility model discloses the mount pad looks at partial sectional structure schematic diagram to the right.

In the figure: 1. a heat conducting mechanism; 101. wrapping the sleeve; 102. a first wire plate; 103. a first lower conductive line; 104. a first upper conductive line; 2. a support mechanism; 201. a mounting seat; 202. a support bar; 203. fixing a sleeve; 204. a connecting rod; 3. a combination mechanism; 301. a second wire plate; 302. a second lower conductive line; 303. a second upper conductive line; 304. a third wire plate; 305. a third lower lead; 306. a third upper conductive line; 4. an installation mechanism; 401. mounting a column; 402. and (4) clamping the ring.

Detailed Description

As shown in fig. 1, an anti-corrosion high-strength heating wire comprises a heat conducting mechanism 1 and a combining mechanism 3, wherein two sides of the bottom of the heat conducting mechanism 1 are provided with supporting mechanisms 2 for integral installation and support, the heat conducting mechanism 1 comprises a wrapping sleeve 101, a first wire plate 102, a first lower lead 103 and a first upper lead 104, the middle of the wrapping sleeve 101 is fixed with the first wire plate 102, the first wire plate 102 is in a mesh shape, the lower part of one side of the first wire plate 102 is connected with the first lower lead 103, the first lower lead 103 is communicated with the wrapping sleeve 101 and the first wire plate 102, the upper part of the other side of the first wire plate 102 is connected with the first upper lead 104, the outer diameter of the first upper lead 104 is the same as the outer diameter of the first lower lead 103, the wrapping sleeve 101 is made of alumina porcelain, the first wire plate 102 can be protected, the connection strength of the first wire plate 102 is improved, and deformation is avoided, through the first wire plate 102 which is made of iron-chromium-aluminum materials, the whole heating wire has good conductive heating capacity and oxidation resistance, so that the first wire plate 102 can be prevented from being rusted and damaged, through the first lower lead 103 and the first upper lead 104, the upper area and the lower area of the first wire plate 102 can be simultaneously subjected to electric heating, so that heating can be more uniform, meanwhile, two paths of electric conduction can improve the heating efficiency, so that the use effect of the heating wire is improved, the supporting mechanism 2 comprises a mounting seat 201 and a supporting rod 202, the bottom of the mounting seat 201 is connected with the supporting rod 202, a fixing sleeve 203 and a connecting rod 204 are arranged in the middle of the surface of the supporting rod 202, the middle of one side of the fixing sleeve 203 is connected with the connecting rod 204, and through the mounting seat 201 and the supporting rod 202, the whole heating wire can be used for supporting the whole heating wire and can be fixedly installed, the supporting rods 202 on the two sides can be connected through the fixing sleeve 203 and the connecting rod 204, so that the stability of the supporting installation can be improved, and the deformation is avoided;

as shown in fig. 1-3, the combination mechanism 3 for partitioned heat generation is disposed in the middle of the rear of the heat conducting mechanism 1, the bottom of the heat conducting mechanism 1 is mounted with a mounting mechanism 4 for quick assembly and disassembly combination, the combination mechanism 3 includes a second wire plate 301, a second lower conducting wire 302 and a second upper conducting wire 303, one side of the second wire plate 301 is connected with the second lower conducting wire 302, the other side of the second wire plate 301 is connected with the second upper conducting wire 303, a third wire plate 304, a third lower conducting wire 305 and a third upper conducting wire 306, the third wire plate 304 is disposed behind the second wire plate 301, one side of the third wire plate 304 is connected with the third lower conducting wire 305, the other side of the third wire plate 304 is connected with the third upper conducting wire 306, the third wire plate 304 has the same size and shape as the second wire plate 301, and the third wire plate 304 is disposed in parallel with the second wire plate 301, and passes through the second lower conducting wire 302, the second upper conducting wire 303, the third lower conducting wire 305 and the third upper conducting wire 306, the heating device is the same as the working principle of the first lower lead 103 and the first upper lead 104, the second wire plate 301 and the third wire plate 304 can uniformly and quickly generate heat, the second wire plate 301, the third wire plate 304 and the first wire plate 102 are connected in parallel, and can respectively and independently work, so that multiple groups or single group work can be performed according to use requirements, the heating amount is variable, meanwhile, the heating can be divided into a front region, a middle region and a rear region, the heating can be performed in a partitioned mode according to use requirements, the mounting mechanism 4 comprises a mounting column 401 and a clamping ring 402, the clamping ring 402 is fixed above the surface of the mounting column 401, the wrapping sleeve 101 and the mounting seat 201 can be conveniently mounted and combined together through the mounting column 401 and the clamping ring 402, the partition can be conveniently taken down and replaced when being damaged, and high cost of overall replacement can be reduced.

The working principle is as follows: when the heating wire is used, firstly, the wrapping sleeve 101 which is made of alumina porcelain can protect the first wire plate 102, the connection strength of the first wire plate 102 in use is improved, deformation is avoided, then, the first wire plate 102 which is made of iron-chromium-aluminum material enables the whole heating wire to have good conductive heating capacity and good oxidation resistance, so that the first wire plate 102 can be prevented from being corroded and damaged, then, the upper area and the lower area of the first wire plate 102 can be simultaneously subjected to electric heating through the first lower lead 103 and the first upper lead 104, so that heating is more uniform, meanwhile, the two paths of electric conduction can improve heating efficiency, so that the use effect of the heating wire is improved, at the moment, the second lower lead 302, the second upper lead 303, the third lower lead 305 and the third upper lead 306 have the same working principle as the first lower lead 103 and the first upper lead 104, the second wire plate 301 and the third wire plate 304 can uniformly and quickly generate heat, then the third wire plate 301, the third wire plate 304 and the first wire plate 102 are connected in parallel and can respectively work independently, so that multiple groups or single groups of work can be carried out according to the use requirement, the heat generation amount is variable, meanwhile, the heat generation can be divided into a front region, a middle region and a rear region, the regional heating can be carried out according to the use requirement, then the whole heating wire can be supported and fixed by the mounting seat 201 and the supporting rods 202, the supporting rods 202 on two sides can be connected by the fixing sleeve 203 and the connecting rods 204, the stability of the support during mounting can be improved, the deformation can be avoided, finally, the wrapping sleeve 101 and the mounting seat 201 can be conveniently mounted and combined together by the mounting columns 401 and the clamping rings 402, and the regional taking-down and replacement can be conveniently carried out when the heating wire is damaged, this advantageously reduces the high cost of the overall replacement.

Claims (7)

1. The rust-proof high-strength heating wire comprises a heat conduction mechanism (1) and a combination mechanism (3), and is characterized in that supporting mechanisms (2) used for integral installation and support are installed on two sides of the bottom of the heat conduction mechanism (1), the combination mechanism (3) used for heating in a partitioned mode is arranged in the middle of the rear portion of the heat conduction mechanism (1), an installation mechanism (4) used for rapid disassembly and assembly and combination is installed at the bottom of the heat conduction mechanism (1), the heat conduction mechanism (1) comprises a wrapping sleeve (101), a first wire plate (102), a first lower lead (103) and a first upper lead (104), the first wire plate (102) is fixed to the middle of the wrapping sleeve (101), the first wire plate (102) is in a mesh shape, the first lower lead (103) is connected to the lower portion of one side of the first wire plate (102), and the first lower lead (103) and the wrapping sleeve (101), The first wire plates (102) are communicated, a first upper conducting wire (104) is connected to the upper portion of the other side of the first wire plates (102), and the outer diameter of the first upper conducting wire (104) is the same as that of the first lower conducting wire (103).

2. The rust-proof high-strength heating wire according to claim 1, wherein the supporting mechanism (2) comprises a mounting base (201) and a supporting rod (202), and the supporting rod (202) is connected to the bottom of the mounting base (201).

3. The rust-resistant high-strength heating wire as claimed in claim 2, wherein the supporting mechanism (2) further comprises a fixing sleeve (203) and a connecting rod (204), the fixing sleeve (203) is disposed in the middle of the surface of the supporting rod (202), and the connecting rod (204) is connected to the middle of one side of the fixing sleeve (203).

4. An anti-rusting high-strength heating wire according to claim 1, wherein the combining mechanism (3) comprises a second wire plate (301), a second lower lead (302) and a second upper lead (303), one side of the second wire plate (301) is connected with the second lower lead (302), and the other side of the second wire plate (301) is connected with the second upper lead (303).

5. An anti-corrosion high-strength heating wire according to claim 4, wherein the combining mechanism (3) further comprises a third wire plate (304), a third lower lead (305) and a third upper lead (306), the third wire plate (304) is disposed behind the second wire plate (301), and the third lower lead (305) is connected to one side of the third wire plate (304), and the third upper lead (306) is connected to the other side of the third wire plate (304).

6. An anti-rusting high-strength heating wire according to claim 5, wherein the third wire plate (304) and the second wire plate (301) are the same in size and shape, and the third wire plate (304) and the second wire plate (301) are arranged in parallel.

7. The rust resistant high-strength heater according to claim 1, wherein the mounting mechanism (4) comprises a mounting post (401) and a snap ring (402), and the snap ring (402) is fixed above the surface of the mounting post (401).

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