CN211876572U - Oven utilizing electromagnetic heating superconducting heat pipe for heat conduction - Google Patents
Oven utilizing electromagnetic heating superconducting heat pipe for heat conduction Download PDFInfo
- Publication number
- CN211876572U CN211876572U CN202020471686.3U CN202020471686U CN211876572U CN 211876572 U CN211876572 U CN 211876572U CN 202020471686 U CN202020471686 U CN 202020471686U CN 211876572 U CN211876572 U CN 211876572U
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- liquid storage
- heat
- pipe
- storage tube
- heat pipe
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Abstract
The utility model relates to an utilize oven of electromagnetic heating superconductive heat pipe heat conduction, including box, first liquid storage tube, second liquid storage tube, circulating pump and electromagnetic heater, the circulating pump is used for driving liquid to circulate between first liquid storage tube and second liquid storage tube, electromagnetic heater is used for heating for the liquid of flowing through the circulating pump, all be equipped with a plurality of heat pipes on first liquid storage tube and the second liquid storage tube, be located first liquid storage tube the heat absorption end of heat pipe is inserted in liquid in the first liquid storage tube, the end of giving out heat is located the box, on the second liquid storage tube the heat absorption end of heat pipe is inserted liquid in the second liquid storage tube, the end of giving out heat is located the box. The utility model aims at providing an utilize oven of electromagnetic heating superconductive heat pipe heat conduction has solved current transformer and has dried the big problem of environmental pollution who uses diesel oil as the heat source existence with the oven.
Description
Technical Field
The utility model relates to an equipment is used in the transformer production, in particular to utilize oven of electromagnetic heating superconductive heat pipe heat conduction.
Background
In the production process of the characteristic transformer, the transformer needs to be dried by an oven. The existing drying oven for drying the transformer generates steam by burning diesel oil to heat a water supply tank, and then radiates heat when the steam flows through a heat exchange pipe positioned in the drying oven to realize the drying effect. The diesel oil is used as a heat source, so that the environmental pollution is great.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing an utilize oven of electromagnetic heating superconductive heat pipe heat conduction has solved current transformer and has dried the big problem of environmental pollution who uses diesel oil as the heat source existence with the oven.
The technical problem is solved by the following technical scheme: the utility model provides an utilize oven of electromagnetic heating superconductive heat pipe heat conduction, includes the box, its characterized in that still includes first liquid storage tube, second liquid storage tube, circulating pump and electromagnetic heater, the circulating pump is used for driving liquid to circulate between first liquid storage tube and second liquid storage tube, electromagnetic heater is used for heating for the liquid that flows through the circulating pump, all be equipped with a plurality of heat pipes on first liquid storage tube and the second liquid storage tube, be located on first liquid storage tube the heat absorption end of heat pipe insert in the liquid in first liquid storage tube, the end of giving out heat is located the box, the heat absorption end of heat pipe on the second liquid storage tube insert in the liquid in the second liquid storage tube, the end of giving out heat is located the box. When the liquid-cooling drying box is used, liquid circulates under the action of the circulating pump and is heated through electromagnetic heating, and then the heat of the liquid is transferred to the box body through the heat pipe to dry a transformer in the box body. The water is circulated during electromagnetic heating, and the heating efficiency is high.
Preferably, the box body is a long strip extending along the horizontal direction, a box door is arranged at one end of the box body in the length direction, the first liquid storage tube and the second liquid storage tube both extend along the length direction of the box body, and the first liquid storage tube and the second liquid storage tube are distributed on two sides of the box body in the width direction. The heat pipes are convenient to arrange and fully heated in the box body.
Preferably, the first liquid storage pipe is located on the box body, one end of the box door and the second liquid storage pipe are located on the box body, one end of the box door is located on the box body, the first communication pipe is communicated with the first liquid storage pipe, the first liquid storage pipe is located on the box body, one end of the box door and one end of the second liquid storage pipe are located on the box body, one end of the box door is located on the second communication pipe, and the circulating pump and the electromagnetic heater are arranged on the second communication pipe. The circulating pump and the electromagnetic heater can be conveniently prevented from being damaged in the process that the transformer enters and exits the box body, and the safety is good.
Preferably, the inside of box is equipped with two heat pipe protection mechanisms along box width direction distribution, heat pipe protection mechanism includes the connecting seat that links together with the box and articulates the guard plate of rectangular shape on the connecting seat through the hinge, guard plate and hinge all distribute along the length direction of box, one of two heat pipe protection mechanisms the guard plate is used for sheltering from the end of giving out heat, another heat pipe protection mechanism that is located the heat pipe on first liquid storage pipe the guard plate is used for sheltering from the end of giving out heat that is located the heat pipe on the second liquid storage pipe. The heat of the heat pipe can be sufficiently and quickly dissipated, and the heat pipe can be prevented from being damaged due to collision with the heat pipe in the process that the transformer enters and exits the box body.
Preferably, the connecting seat is provided with a horizontal limiting supporting block and a vertical limiting block, the vertical limiting block is provided with a limiting block part inserting hole, and the protection plate is provided with a protection plate part inserting hole; when the protection plate rotates to be supported on the horizontal limiting support block, the protection plate is positioned above the heat release end of the heat pipe and completely shields the heat release end of the heat pipe; when the protection plate rotates to be abutted with the vertical limiting block, the limiting block part jack is aligned with the protection plate part jack, and the protection plate is staggered with the heat release end of the heat pipe along the horizontal direction. The protection plate can be conveniently kept in a protection state and a non-protection state. When the heat pipe needs to be protected, the protection is rotated to be supported on the horizontal limiting supporting block when the heat pipe enters and exits the transformer.
Preferably, the first liquid storage tube and the second liquid storage tube are both located outside the tank. The capacity of the transformer stored in the box body can be improved when the appearance volume of the box body is constant.
Preferably, the box body is a circular tube structure extending along the horizontal direction, the first liquid storage tube and the second liquid storage tube are distributed on two radial sides of the box body, and the first liquid storage tube and the second liquid storage tube are both located below the box body and are shielded by the box body. The protection effect on the liquid storage pipe is good.
The technical scheme has the following advantages: the electromagnetic heating is utilized, so that the environment is not polluted; the heat is transferred through the heat pipe, and the occupied inner space of the box body is small.
Drawings
Fig. 1 is a schematic view of the present invention as viewed in the longitudinal direction.
In the figure: the liquid heating device comprises a box body 1, a first liquid storage pipe 2, a second liquid storage pipe 3, a first communicating pipe 4, a second communicating pipe 5, a circulating pump 6, an electromagnetic heater 7, a heat pipe 8, a heat absorption end 9, a heat release end 10, a heat pipe protection mechanism 11, a connecting seat 12, a hinge shaft 13, a protection plate 14, a horizontal limiting support block 15, a vertical limiting block 16, a limiting block part jack 17 and a protection plate part jack 18.
Detailed Description
The technical solution of the present invention is described in detail and fully with reference to the accompanying drawings.
Referring to fig. 1, an oven using electromagnetic heating superconducting heat pipes to conduct heat comprises a box body 1. The box body is of a round tube structure extending along the horizontal direction, namely a long strip extending along the front-back direction. The longitudinal direction of the case is the front-back direction, and the width direction, i.e., the radial direction, is the left-right direction. The front end of the box body in the length direction is provided with a box door (not shown in the figure) for the transformer to enter and exit. The first liquid storage tube 2 is provided on one side of the tank in the radial direction, i.e., the left side in the drawing. The radial other side of the box body is provided with a second liquid storage pipe 3. The first liquid storage tube and the second liquid storage tube are both located outside the tank body. The first liquid storage pipe and the second liquid storage pipe are both positioned below the box body and are shielded by the box body. The end of the first liquid storage tube located at the box body and provided with the box door (namely the front end of the first liquid storage tube) and the end of the second liquid storage tube located at the box body and provided with the box door (namely the front end of the second liquid storage tube) are communicated through a first communication tube 4. The end of the first liquid storage tube away from the box body, which is provided with the box door (i.e. the rear end of the first liquid storage tube), and the end of the second liquid storage tube away from the box body, which is provided with the box door (i.e. the rear end of the second liquid storage tube), are communicated through a second communicating pipe 5. The second communicating pipe is provided with a circulating pump 6 and an electromagnetic heater 7. The first liquid storage pipe and the second liquid storage pipe are both provided with a plurality of heat pipes 8, the heat absorption ends 9 of the heat pipes positioned on the first liquid storage pipe are inserted into the liquid in the first liquid storage pipe, and the heat release ends 10 are positioned in the box body. The heat absorption end of the heat pipe on the second liquid storage pipe is inserted into the liquid in the second liquid storage pipe, and the heat release end is positioned in the box body. Two heat pipe protection mechanisms 11 distributed along the width direction of the box body are arranged in the box body. The heat pipe protection mechanism includes a connection base 12 connected with the case body and a strip-shaped protection plate 14 hinged on the connection base through a hinge shaft 13. The protection plate and the hinge shaft are distributed along the length direction of the box body. One of the two heat pipe protection mechanisms. The protection plate is used for shielding the heat release end of the heat pipe positioned on the first liquid storage pipe and the other heat pipe protection mechanism. The protection plate is used for shielding the heat release end of the heat pipe positioned on the second liquid storage pipe. The connecting seat is provided with a horizontal limiting support block 15 and a vertical limiting block 16. The vertical stopper is provided with a stopper portion insertion hole 17. The guard plate is provided with a guard plate portion insertion hole 18. When the protection plate rotates to be supported on the horizontal limiting support block (namely, in the state in the figure), the protection plate is positioned above the heat release end of the heat pipe and completely shields the heat release end of the heat pipe. When the guard plate rotates to be in the same place with vertical stopper butt, stopper portion jack is aligned with the guard plate portion jack, the guard plate staggers along the horizontal direction with the exothermic end of heat pipe, inserts simultaneously in stopper portion jack and guard plate portion jack through the bolt and makes the guard plate keep staggering with the exothermic section of heat pipe promptly width direction keeps vertical state.
During the use, through circulating pump drive liquid circulation between first liquid storage pipe and second liquid storage pipe, electromagnetic heater heats for the liquid that flows through the circulating pump, and the heat pipe is dried in the oven through heat transfer. When the transformer is dried, the protection plate is kept in the state in the drawing to protect the heat pipe, and when the transformer is dried, the protection plate is kept in the state of erecting in the width direction.
Claims (7)
1. The utility model provides an utilize oven of electromagnetic heating superconductive heat pipe heat conduction, includes the box, its characterized in that still includes first liquid storage tube, second liquid storage tube, circulating pump and electromagnetic heater, the circulating pump is used for driving liquid to circulate between first liquid storage tube and second liquid storage tube, electromagnetic heater is used for heating for the liquid that flows through the circulating pump, all be equipped with a plurality of heat pipes on first liquid storage tube and the second liquid storage tube, be located on first liquid storage tube the heat absorption end of heat pipe insert in the liquid in first liquid storage tube, the end of giving out heat is located the box, the heat absorption end of heat pipe on the second liquid storage tube insert in the liquid in the second liquid storage tube, the end of giving out heat is located the box.
2. The oven for conducting heat through the superconducting heat pipe by utilizing electromagnetic heating as claimed in claim 1, wherein the box body is a long strip extending along the horizontal direction, a box door is arranged at one end of the box body in the length direction, the first liquid storage pipe and the second liquid storage pipe both extend along the length direction of the box body, and the first liquid storage pipe and the second liquid storage pipe are distributed at two sides of the box body in the width direction.
3. The oven for conducting heat through the superconducting heat pipe by electromagnetic heating as claimed in claim 2, wherein the end of the first liquid storage pipe located at the box body where the box door is located and the end of the second liquid storage pipe located at the box body where the box door is located are communicated through a first communication pipe, the end of the first liquid storage pipe away from the box body where the box door is located and the end of the second liquid storage pipe away from the box body where the box door is located are communicated through a second communication pipe, and the circulation pump and the electromagnetic heater are both arranged on the second communication pipe.
4. The oven for conducting heat through an electromagnetically heated superconducting heat pipe as claimed in claim 2, wherein two heat pipe protection mechanisms are disposed inside the oven body and distributed along the width direction of the oven body, each heat pipe protection mechanism comprises a connecting seat connected with the oven body and an elongated protection plate hinged to the connecting seat through a hinge shaft, the protection plate and the hinge shaft are both distributed along the length direction of the oven body, the protection plate of one of the two heat pipe protection mechanisms is used for shielding the heat release end of the heat pipe on the first liquid storage pipe, and the protection plate of the other heat pipe protection mechanism is used for shielding the heat release end of the heat pipe on the second liquid storage pipe.
5. The oven for conducting heat through the superconducting heat pipe by utilizing electromagnetic heating as claimed in claim 4, wherein the connecting seat is provided with a horizontal limiting supporting block and a vertical limiting block, the vertical limiting block is provided with a limiting block part insertion hole, and the protection plate is provided with a protection plate part insertion hole; when the protection plate rotates to be supported on the horizontal limiting support block, the protection plate is positioned above the heat release end of the heat pipe and completely shields the heat release end of the heat pipe; when the protection plate rotates to be abutted with the vertical limiting block, the limiting block part jack is aligned with the protection plate part jack, and the protection plate is staggered with the heat release end of the heat pipe along the horizontal direction.
6. The oven for conducting heat by using the electromagnetic heating superconducting heat pipe as claimed in claim 1, wherein the first liquid storage pipe and the second liquid storage pipe are both located outside the box body.
7. The oven for conducting heat through an electromagnetically heated superconducting heat pipe as claimed in claim 4, wherein the box body is a horizontally extending circular tube structure, the first liquid storage tube and the second liquid storage tube are distributed on two radial sides of the box body, and the first liquid storage tube and the second liquid storage tube are located below the box body and are shielded by the box body.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202020471686.3U CN211876572U (en) | 2020-04-03 | 2020-04-03 | Oven utilizing electromagnetic heating superconducting heat pipe for heat conduction |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202020471686.3U CN211876572U (en) | 2020-04-03 | 2020-04-03 | Oven utilizing electromagnetic heating superconducting heat pipe for heat conduction |
Publications (1)
Publication Number | Publication Date |
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CN211876572U true CN211876572U (en) | 2020-11-06 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202020471686.3U Expired - Fee Related CN211876572U (en) | 2020-04-03 | 2020-04-03 | Oven utilizing electromagnetic heating superconducting heat pipe for heat conduction |
Country Status (1)
Country | Link |
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CN (1) | CN211876572U (en) |
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2020
- 2020-04-03 CN CN202020471686.3U patent/CN211876572U/en not_active Expired - Fee Related
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20201106 |