CN216431671U - Energy-saving heating device for copper wire production - Google Patents

Abstract

The utility model discloses an energy-conserving heating device is used in copper line production relates to energy-conserving heat supply technical field, including energy-conserving heating device main part, energy-conserving heating device main part is including the workstation, the workstation is including the roof, energy-conserving heating device main part is including circulating heat supply mechanism, the upside of roof is provided with electromagnetic heating mechanism. The utility model discloses an adopt the cooperation between the circulating heat supply mechanism inner structure, add water to first power supply unit inside from the filler pipe, utilize first power supply unit to the silicon carbide rod power supply, high temperature heating effect through the silicon carbide rod, make the water evaporation of separating trompil metal sheet upside, steam gets into inside the tortuous pipeline of the steam conduit of buckling, carry out the heat supply, the cooperation pressure release valve carries out appropriate pressure release, from the inlet pipe to the inside dry ice that adds of dry refrigerator, flow through dry refrigerator when the inside steam flow of the steam conduit of buckling, the liquefaction and from the back flow get into first power supply unit once more inside, realize the cyclic utilization of heating medium.

Description

Energy-saving heating device for copper wire production

Technical Field

The utility model relates to an energy-conserving heat supply technical field, concretely relates to copper line production is with energy-conserving heating device.

Background

The copper wire is a metal material, and in the life, use the copper wire as the wire, the electric conductivity is fine, is used for making electric wire, cable, brush etc. in a large number, and the copper wire is because its good performance wide application is to each corner in the society, therefore the heating device that the copper wire production was used is more and more showing very much the importance, and the heating device that uses in the process of copper wire production on the market has handsome in appearance, convenient to use, be convenient for maintenance and long service life's advantage.

The following problems exist in the prior art:

1. when the existing energy-saving heat supply device for copper wire production is used, the heat is supplied by consuming electric energy through electric heating, but the heating mode has larger energy loss and lower heat energy utilization rate;

2. when using, the existing energy-saving heating device for copper wire production only heats in a single mode, the heating effect is poor and satisfactory, and the actual use requirement cannot be met for a copper wire production line with higher heat demand requirement.

SUMMERY OF THE UTILITY MODEL

The utility model provides an energy-saving heating device for copper wire production, one of which aims to realize the recycling of heating media, reduce the capacity of additional manual operation and solve the problems of larger energy loss and lower heat utilization rate of a heating mode; wherein another kind of purpose is only heating through the single mode in order to solve, can't satisfy the problem that the actual needs hot demand of copper line production line to reach the effect that improves copper line production and use heating efficiency.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is:

the utility model provides a copper line production is with energy-conserving heating device, includes energy-conserving heating device main part, energy-conserving heating device main part is including the workstation, the workstation is including the roof, energy-conserving heating device main part is including circulating heat supply mechanism, the upside of roof is provided with electromagnetic heating mechanism.

The circulating heat supply mechanism comprises a steam heating device and a bent steam pipeline, and a liquefaction circulating device is arranged on one side of the bent steam pipeline.

The electromagnetic heating mechanism comprises an iron core and a coil, and an iron rod is arranged on one side of the iron core.

The utility model discloses technical scheme's further improvement lies in: the steam heating device comprises a first power supply device, a steam generation casing is fixedly mounted at the top of the first power supply device, a separation perforated metal plate is fixedly mounted inside the steam generation casing, and a silicon carbide rod is arranged on the lower side of the separation perforated metal plate.

The utility model discloses technical scheme's further improvement lies in: the bottom of elema and first power supply unit's top fixed connection, first power supply unit's side fixed mounting has the filler pipe, first power supply unit's top fixed mounting has the steam conduit of buckling, the downside of buckling the steam conduit is provided with the backing plate, the bottom of backing plate and the top fixed connection of roof.

The utility model discloses technical scheme's further improvement lies in: the liquefaction circulating device comprises a dry refrigerator, one end of the bent steam pipeline extends to one side of the dry refrigerator and is fixedly connected with the inner surface and the outer surface of the dry refrigerator, a return pipe is arranged inside the dry refrigerator, and the top of the return pipe extends to the inside of the bent steam pipeline and is fixedly connected with the inner surface and the outer surface of the bent steam pipeline.

The utility model discloses technical scheme's further improvement lies in: the one end of back flow extends to first power supply unit's inside, and with first power supply unit's inside and outside fixed surface connection, the inside fixed mounting of back flow has solenoid valve, the top fixed mounting of dry refrigerator has the inlet pipe, the one end fixed mounting of buckling steam conduit has the pressure relief valve.

The utility model discloses technical scheme's further improvement lies in: the electromagnetic heating mechanism comprises a second power supply device and a side plate, the bottoms of the second power supply device and the side plate are fixedly connected with the top of the top plate, and one end of the iron core is fixedly connected with the side face of the side plate.

The utility model discloses technical scheme's further improvement lies in: one end of the coil is fixedly connected with the side face of the second power supply device, the other end of the coil is fixedly connected with the side face of the side plate, the end part of the iron rod is fixedly connected with the outer surface of the iron core, and an arc-shaped iron rod is fixedly mounted on the outer surface of the iron rod.

Owing to adopted above-mentioned technical scheme, the utility model discloses relative prior art, the technological progress who gains is:

1. the utility model provides an energy-conserving heating device is used in copper line production, adopt the cooperation between the circulating heat supply mechanism inner structure, add water to first power supply unit inside from the filler pipe, utilize first power supply unit to the silicon carbide rod power supply, high temperature heating effect through the silicon carbide rod, make the water evaporation of separating trompil metal sheet upside, steam gets into inside the tortuous pipeline of steam conduit of buckling, carry out the heat supply, the cooperation is let out the pressure valve and is carried out appropriate pressure release, from the inlet pipe to the inside dry ice that adds of dry refrigerator, when the inside steam flow of steam conduit of buckling is through inside the dry refrigerator, the liquefaction and from inside the first power supply unit of back flow reentrant, realize the cyclic utilization of heat supply medium.

2. The utility model provides an energy-conserving heating device is used in copper line production adopts the cooperation between the electromagnetic heating mechanism inner structure, leads to alternating current through second power supply unit to the coil is inside for the inside alternating magnetic field that produces of coil, iron core produce the heating action because electromagnetic action under the magnetic field effect, iron set and the arc iron bar that cooperation iron core side set up improve the effect of heating.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic perspective view of the structural circulation type heat supply mechanism of the present invention;

FIG. 3 is a schematic sectional view of the steam heating device according to the present invention;

FIG. 4 is a schematic cross-sectional view of a structural liquefaction cycle unit of the present invention;

fig. 5 is a schematic perspective view of the electromagnetic heating mechanism of the present invention.

In the figure: 1. an energy-saving heating device main body; 2. a work table; 21. a top plate; 3. a circulating heat supply mechanism; 31. a steam heating device; 311. a first power supply device; 312. a steam generating enclosure; 313. separating the perforated metal plates; 314. a silicon carbide rod; 315. a water feeding pipe; 32. bending the steam pipeline; 321. a pressure relief valve; 33. a base plate; 34. a liquefaction cycle unit; 341. a dry refrigerator; 342. a return pipe; 343. an electromagnetic valve; 344. a feed pipe; 4. an electromagnetic heating mechanism; 41. a second power supply device; 42. a side plate; 43. an iron core; 44. a coil; 45. an iron rod; 46. an arc-shaped iron rod.

Detailed Description

The present invention will be described in further detail with reference to the following examples:

example 1

As shown in fig. 1-5, the utility model provides an energy-conserving heating device is used in copper line production, including energy-conserving heating device main part 1, energy-conserving heating device main part 1 is including workstation 2, workstation 2 is including roof 21, energy-conserving heating device main part 1 is including circulating heat supply mechanism 3, the upside of roof 21 is provided with electromagnetic heating mechanism 4, circulating heat supply mechanism 3 is including steam heating device 31 and the steam conduit 32 of buckling, one side of buckling steam conduit 32 is provided with liquefaction circulating device 34, electromagnetic heating mechanism 4 is including iron core 43 and coil 44, one side of iron core 43 is provided with iron set 45, steam heating device 31 is including first power supply unit 311, the top fixed mounting of first power supply unit 311 has steam generation jacket 312, the inside fixed mounting of steam generation jacket 312 has the partition trompil metal sheet 313, the downside of separating trompil metal sheet 313 is provided with silicon carbon rod 314.

In this embodiment, when the energy-saving heating apparatus main body 1 is used, the first power supply unit 311 supplies power to the silicon carbide rod 314, and the water on the upper side of the separation perforated metal plate 313 is evaporated by the high-temperature heating action of the silicon carbide rod 314, and the steam enters the inside of the bent pipeline of the bent steam pipeline 32 to supply heat.

Example 2

As shown in fig. 1-5, on the basis of embodiment 1, the utility model provides a technical solution: preferably, the bottom of the silicon carbide rod 314 is fixedly connected with the top of the first power supply device 311, a water feeding pipe 315 is fixedly installed on the side surface of the first power supply device 311, a bent steam pipe 32 is fixedly installed on the top of the first power supply device 311, a backing plate 33 is arranged on the lower side of the bent steam pipe 32, the bottom of the backing plate 33 is fixedly connected with the top of the top plate 21, the liquefaction cycle device 34 comprises a dry refrigerator 341, one end of the bent steam pipe 32 extends to one side of the dry refrigerator 341 and is fixedly connected with the inner surface and the outer surface of the dry refrigerator 341, a return pipe 342 is arranged inside the dry refrigerator 341, the top of the return pipe 342 extends to the inside of the bent steam pipe 32 and is fixedly connected with the inner surface and the outer surface of the bent steam pipe 32, one end of the return pipe 342 extends to the inside of the first power supply device 311 and is fixedly connected with the inner surface and the outer surface of the first power supply device 311, an electromagnetic valve 343 is fixedly installed inside the return pipe 342, the top of the dry refrigerator 341 is fixedly installed with a feeding pipe 344, and one end of the bent steam pipe 32 is fixedly installed with a pressure relief valve 321.

In this embodiment, the pressure relief valve 321 is used to perform appropriate pressure relief, dry ice is added from the feeding pipe 344 to the inside of the dry refrigerator 341, and when the steam inside the bent steam pipe 32 flows through the inside of the dry refrigerator 341, the steam is liquefied and enters the inside of the first power supply device 311 again from the return pipe 342, so as to realize recycling of the heat supply medium.

Example 3

As shown in fig. 1-5, on the basis of embodiment 1, the utility model provides a technical solution: preferably, the electromagnetic heating mechanism 4 includes a second power supply device 41 and a side plate 42, the bottoms of the second power supply device 41 and the side plate 42 are both fixedly connected to the top of the top plate 21, one end of the iron core 43 is fixedly connected to the side surface of the side plate 42, one end of the coil 44 is fixedly connected to the side surface of the second power supply device 41, the other end of the coil 44 is fixedly connected to the side surface of the side plate 42, the end of the iron rod 45 is fixedly connected to the outer surface of the iron core 43, and an arc-shaped iron rod 46 is fixedly mounted on the outer surface of the iron rod 45.

In this embodiment, the second power supply device 41 supplies alternating current to the inside of the coil 44, so that an alternating magnetic field is generated inside the coil 44, the iron core 43 generates a heating effect under the action of the magnetic field due to the electromagnetic effect, and the iron rod 45 and the arc-shaped iron rod 46 arranged on the side edge of the iron core 43 are matched to improve the heating effect.

The working principle of the energy-saving heating device for copper wire production is described in detail below.

As shown in fig. 1-5, when the energy-saving heating device main body 1 is in use, the first power supply unit 311 is used to supply power to the silicon carbide rod 314, the high-temperature heating action of the silicon carbide rod 314 evaporates the water on the upper side of the metal plate 313 with the separated holes, the steam enters the bent pipe of the bent steam pipe 32 to supply heat, the pressure relief valve 321 is used to appropriately relieve the pressure, dry ice is added into the dry refrigerator 341 from the feeding pipe 344, when the steam in the bent steam pipe 32 flows through the inside of the dry refrigerator 341, the steam is liquefied and enters the first power supply unit 311 again from the return pipe 342 to realize the recycling of the heating medium, so that the energy-saving heating device main body 1 has the capability of recycling the heating medium, the capability of additional manual operation is reduced, the problem of large energy loss and low heat energy utilization rate in the heating mode is solved, the second power supply unit 41 is used to supply alternating current to the inside the coil 44, make the inside alternating magnetic field that produces of coil 44, iron core 43 is because electromagnetic action under the magnetic field effect, produces the heating effect, and iron pole 45 and the arc iron bar 46 that the cooperation iron core 43 side set up improve the effect of heating, solve and only heat through single mode, can't satisfy the problem that the actual needs of copper line production line hot demand, improve copper line production and use heating efficiency.

The present invention has been described in detail with reference to the above general description, but it will be apparent to one of ordinary skill in the art that modifications and improvements can be made to the invention. Therefore, modifications or improvements without departing from the spirit of the invention are within the scope of the invention.

Claims (7)

1. The utility model provides an energy-conserving heating device is used in copper line production, includes energy-conserving heating device main part (1), energy-conserving heating device main part (1) is including workstation (2), workstation (2) are including roof (21), its characterized in that: the energy-saving heat supply device main body (1) comprises a circulating heat supply mechanism (3), and an electromagnetic heating mechanism (4) is arranged on the upper side of the top plate (21);

the circulating heat supply mechanism (3) comprises a steam heating device (31) and a bent steam pipeline (32), and a liquefaction circulating device (34) is arranged on one side of the bent steam pipeline (32);

the electromagnetic heating mechanism (4) comprises an iron core (43) and a coil (44), and an iron rod (45) is arranged on one side of the iron core (43).

2. The energy-saving heating device for copper wire production according to claim 1, characterized in that: steam heating device (31) is including first power supply unit (311), the top fixed mounting of first power supply unit (311) has steam generation jacket (312), steam generation jacket (312) inside fixed mounting has and separates trompil metal sheet (313), the downside of separating trompil metal sheet (313) is provided with silicon carbide rod (314).

3. The energy-saving heating device for copper wire production according to claim 2, characterized in that: the bottom of elema (314) and the top fixed connection of first power supply unit (311), the side fixed mounting of first power supply unit (311) has filler pipe (315), the top fixed mounting of first power supply unit (311) has the steam conduit of buckling (32), the downside of buckling steam conduit (32) is provided with backing plate (33), the bottom of backing plate (33) and the top fixed connection of roof (21).

4. The energy-saving heating device for copper wire production according to claim 1, characterized in that: the liquefaction circulating device (34) comprises a dry refrigerator (341), one end of the bent steam pipeline (32) extends to one side of the dry refrigerator (341) and is fixedly connected with the inner surface and the outer surface of the dry refrigerator (341), a return pipe (342) is arranged inside the dry refrigerator (341), the top of the return pipe (342) extends to the inside of the bent steam pipeline (32) and is fixedly connected with the inner surface and the outer surface of the bent steam pipeline (32).

5. The energy-saving heating device for copper wire production according to claim 4, characterized in that: the one end of back flow pipe (342) extends to the inside of first power supply unit (311), and with the inside and outside fixed surface connection of first power supply unit (311), the inside fixed mounting of back flow pipe (342) has solenoid valve (343), the top fixed mounting of dry refrigerator (341) has inlet pipe (344), the one end fixed mounting of buckling steam conduit (32) has pressure relief valve (321).

6. The energy-saving heating device for copper wire production according to claim 1, characterized in that: the electromagnetic heating mechanism (4) comprises a second power supply device (41) and a side plate (42), the bottoms of the second power supply device (41) and the side plate (42) are fixedly connected with the top of the top plate (21), and one end of the iron core (43) is fixedly connected with the side face of the side plate (42).

7. The energy-saving heating device for copper wire production according to claim 1, characterized in that: one end of the coil (44) is fixedly connected with the side face of the second power supply device (41), the other end of the coil (44) is fixedly connected with the side face of the side plate (42), the end part of the iron rod (45) is fixedly connected with the outer surface of the iron core (43), and an arc-shaped iron rod (46) is fixedly mounted on the outer surface of the iron rod (45).

Images