JP6185692B2 - Electric heating device for pressurized fluid - Google Patents

Description

  The present invention relates to an electric heating device for pressurized fluid such as water and air passing through a heating pipe.

  Conventionally, in this type of electric heating device for pressurized fluid such as water and air, there is a cylindrical electric heater of Patent No. 2539686 invented by the applicant of the present application, such as a high-pressure steam cleaning machine, metal, synthetic resin Although it has contributed to the spot heating tube industry, there is a further demand for expecting high-temperature heating efficiently in a short time, and the present invention has succeeded in improving it.

Japanese Patent No. 2539686

The present invention provides an electrical heating device for pressurized fluid, which uses both electrical resistance heating and electrical induction heating in a heating tube in order to improve thermal efficiency and obtain a high-temperature pressurized fluid in a short time.
In addition, the present invention improves the heat efficiency and obtains a high-temperature pressurized fluid in a short time. An electric heating device is provided.
Furthermore, in order to improve the thermal efficiency and obtain a high-temperature pressurized fluid in a short time, the present invention provides a pressurized fluid that can preheat the pressurized fluid and insulate the outer periphery of the device before full-scale fluid heating. An electric heating device is provided.

In order to achieve the above object, the pressurized fluid electric heating apparatus according to the present invention includes, as shown in the figure, the inner cylinder 11 of the metal cylinder 10 including the inner cylinder 11 and the outer cylinder 12. The fire-resistant electrically insulating bobbin 20 around which the electric heating wire 21 is wound is inserted between the outer cylinder 12 and the outer cylinder 12 and the bobbin 20 and between the inner cylinder 11 and the bobbin. 20 between the electric resistance heating part A strongly compressed and filled with the granular refractory material 22 and the inner peripheral surface of the inner cylinder 11 of the metal cylinder 10, and made of refractory metal, A nozzle pipe 30 that allows pressurized fluid such as water and air to flow into the pipe from the fluid inflow hole 31 and out of the tip of the nozzle 32, and a heat-resistant metal rod core 40 is provided in the pipe of the nozzle pipe 30; The pressurized fluid is applied to the outer peripheral surface of the refractory metal rod core 40 with the fluid. An electromagnetic induction heating section B comprising a tightly inserted fin-formed product 50 that can be ejected by spirally flowing from the inlet 31 toward the tip of the nozzle 32, and the nozzle The pressurized fluid can be ejected from the tip of 32 as a hot pressurized fluid in a short time with high thermal efficiency.
In order to achieve the above object, the electric heating device for pressurized fluid such as water and air according to the present invention has a metal cylinder comprising an inner cylinder 11 and an outer cylinder 12 as shown in the figure. The fireproof bobbin 20 around which the electric heating wire 21 is wound is inserted between the inner cylinder 11 and the outer cylinder 12, and between the outer cylinder 12 and the bobbin 20, and the inner cylinder 11. Made of refractory metal, which is fitted between the electric resistance heating part A, which is strongly compressed and filled with a granular refractory material 22, and the inner peripheral surface of the inner cylinder 11 of the metal cylinder 10. A nozzle pipe 30 that allows a pressurized fluid such as water or air to flow into the pipe from the fluid inlet hole 31 and flow out from the tip of the nozzle 32, and a refractory metal rod core 40 is placed in the pipe of the nozzle pipe 30. Providing the pressurized fluid to the outer peripheral surface of the heat-resistant metal rod core 40, An electromagnetic induction heating unit B including a member to which a fin formation 50 fixed to be able to be ejected by being spirally flowed from the body inflow hole 31 toward the tip of the nozzle 32 is inserted; and the metal cylinder The pressurized fluid circulation pipe is tightly wound around the outer peripheral surface of the outer cylinder 12, and can flow from the fluid supply hole 61 of the pressurized fluid into the fluid inflow hole 31 of the nozzle pipe 30. The preheating pipe / heat insulation pipe 60 is provided, and the pressurized fluid can be ejected from the tip of the nozzle 32 as a high-temperature pressurized fluid in a short time with high thermal efficiency.
In the present invention, like the cylindrical electric heater of Japanese Patent No. 2539686, the electric resistance heating unit A having excellent electrical insulation and withstand voltage and good thermal conductivity, and the electric heating wire 21 used in the electric resistance heating unit A In addition, the pressurized fluid is electrically heated by the metal nozzle tube 30 and the heat-resistant metal rod core 40, and the electromagnetic induction heating part B by the electromagnetic induction heating part B (if the fin formation 50 is a metal). Is done.

  The present invention is heated by electrical heating by the electric resistance heating unit A and the electromagnetic induction heating unit B, and by spiral flow of pressurized fluid such as water or air that is heated through the nozzle tube 30 toward the tip of the nozzle 32. The physical fluid is heated at a high temperature in a short time with high thermal efficiency and ejected from the nozzle tip. In addition to these, if a preheating pipe 60 for pressurized fluid is used in combination, the pressurized fluid is heated at a high temperature more efficiently.

It is principle explanatory drawing which showed the Example of this invention in sectional drawing. It is principle explanatory drawing which showed another Example of this invention in sectional drawing.

  Preferred forms of the invention are described in Example 1 and Example 2.

FIG. 1 shows a principle explanatory diagram of Embodiment 1 of an electric heating apparatus for pressurized fluid such as water and air according to the present invention.
The electric heating apparatus for pressurized fluid such as water and air according to the first embodiment of the present invention includes an electrical resistance heating section A, an electromagnetic induction heating section B, and a fin spiral formation 50 capable of heating by spiral movement of the pressurized fluid. Has been.
The electric resistance heating unit A includes a metal cylinder 10, a bobbin 20, an electric heating wire 21, and a refractory and electrically insulating granular oxide oxide 22.
The metal cylinder 10 is made of stainless steel and includes an inner cylinder 11 and an outer cylinder 12.
The bobbin 20 is made of fire-resistant magnesium oxide, and a known electric heating wire 21 such as a nichrome wire is wound in a coil shape.
The bobbin 20 around which the electric heating wire 21 is wound is inserted between the outer cylinder 12 and the inner cylinder 11 and is filled with refractory and electrically insulating powdered granular oxide oxide. .
The electromagnetic induction heating unit B includes a stainless steel nozzle tube 30, a heat-resistant magnetic metal round bar-shaped core 40, and a fin spiral formed product 50.
The nozzle tube 30 is formed so that a pressurized fluid can flow in from a fluid inflow hole 31 at the rear of the tube and flow out from the tip of the nozzle 32.
The core 40 generates heat using the electric heating wire 21 wound around the bobbin 20 in a coil shape as an electromagnetic coil, and is fixed to the nozzle tube 30 via a fin spiral formation 50 wound around the core 40. The
The fin helix formation 50 is made of a heat-resistant metal such as nickel or aluminum, and generates heat by electromagnetic induction heating in the same manner as the core 40.
Further, the fin spiral formation 50 is fixed to the core in the nozzle tube 30 and is closely inserted into the nozzle tube 30 so as to pass through the nozzle tube 30 from the fluid inflow hole 31 to the tip of the nozzle 32. Is heated at a high temperature by causing a spiral flow motion to further improve thermal efficiency.
Therefore, the electric heating apparatus for pressurized fluid such as water and air according to the first embodiment of the present invention can be jetted out of the nozzle 32 at a high temperature in a short time while dramatically improving the thermal efficiency of the pressurized fluid.

FIG. 2 shows a principle explanatory diagram of Embodiment 2 of the electric heating apparatus for pressurized fluid such as water and air according to the present invention.
The electric heating apparatus for pressurized fluid such as water and air according to the second embodiment of the present invention includes an electrical resistance heating unit A, an electromagnetic induction heating unit B, and a fin spiral formation 50 capable of heating by spiral flow motion of the pressurized fluid. And a preheated and heat insulating tube 60 for pressurized fluid.
Since the electrical resistance heating part A, the electromagnetic induction heating part B, and the fin spiral formation 50 are the same as those in the first embodiment, detailed description thereof is omitted.
The pressurized fluid preheating pipe / heat insulating pipe 60 is a pipe that allows the pressurized fluid to flow from the fluid supply hole 61 of the pipe 60 and allows the preheated pressurized fluid to flow into the fluid inlet hole 31 of the nozzle pipe 30. It also serves as a heat insulating pipe on the outer periphery of the part A.
Therefore, the electric heating device for pressurized fluid such as water and air of the present embodiment can preheat the fluid, so that the thermal efficiency is further improved compared with the electric heating device of the first embodiment, and the high temperature pressurized fluid is nozzled in a short time. 32 can be ejected from the tip.

  The electric heating apparatus for pressurized fluid such as water and air according to the present invention can be easily manufactured and mass-produced.

DESCRIPTION OF SYMBOLS 10 Metal cylinder 11 Inner cylinder 12 Outer cylinder 20 Bobbin 21 Electric heating wire 22 Powdered refractory material A Electrical resistance heating part 30 Nozzle pipe 31 Fluid inflow hole 32 Nozzle 40 Metal round rod-shaped core 50 Fin spiral formation B Electromagnetic induction heating part 60 Fluid preheating pipe / heat insulation pipe 61 Fluid supply hole

Claims (2)

Between the inner cylinder and the outer cylinder of a metal cylinder composed of an inner cylinder and an outer cylinder, a refractory electrically insulating bobbin around which an electric heating wire is wound is inserted, and between the outer cylinder and the bobbin And between the inner cylinder and the bobbin, an electric resistance heating part strongly compressed and filled with a granular refractory material , and a metal made of refractory metal so as to be in close contact with the inner peripheral surface of the inner cylinder of the metal cylinder A nozzle pipe configured to allow pressurized fluid to flow into the pipe from the fluid inflow hole and out of the nozzle tip; and into the pipe of the nozzle pipe , the pressurized fluid from the fluid inflow hole to the nozzle. An electromagnetic induction heating unit comprising a heat-resistant metal rod core in which an aluminum fin formed article is firmly attached to an outer peripheral surface, which is made to flow in a spiral shape toward the tip direction and can be ejected, and In the electromagnetic induction heating unit, the core is the electric generator. An apparatus for electrically heating a pressurized fluid, wherein a wire is used as an electromagnetic coil to generate heat, and the pressurized fluid can be ejected from the tip of the nozzle as a high-temperature pressurized fluid in a short time with high thermal efficiency. . The pressurized fluid circulation pipe wound tightly around the outer peripheral surface of the outer cylinder of the metal cylinder so that the pressurized fluid can flow from the fluid supply hole and flow into the fluid inlet hole of the nozzle pipe electrical heating device of pressurized fluid according to claim 1, that was characterized by having a the preheating pipe and heat-insulated pipe.

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