CN210624894U - Built-in magnetic induction fluid heating element and device thereof - Google Patents

Abstract

The utility model discloses a built-in magnetic induction fluid heating element and device thereof, its magnetic heating body adopts the anti-mounting means of putting, set up promptly the electromagnetic induction coil outside, the heat of its generation can be directly taken away by the liquid of opposite side, need not through long distance heat conduction again, it stores in the magnetic heating body to reduce the heat, traditional electromagnetic heating device's defect has been overcome, and simultaneously, adopt the electromagnetic heating mode to add hot water, can produce the magnetized drinking water, the incrustation scale in domestic appliance and the thermodynamic equipment can be got rid of to the magnetized drinking water, the life of extension equipment, the magnetized drinking water is still health water, can effectively prevent cardiovascular and cerebrovascular disease, oral diseases, skin itch etc., can promote the resistance to diseases and the anti-aging ability of organism comprehensively.

Description

Built-in magnetic induction fluid heating element and device thereof

Technical Field

The utility model relates to an electromagnetic induction heating technical field especially relates to a built-in magnetic induction fluid heating element and device thereof.

Background

In life or work, more and more occasions need to heat liquid, heat the liquid, adopt the heater, the heater includes resistance-type fast heater, also includes electromagnetic induction type electromagnetic heater.

In the market, the existing electromagnetic induction type heating equipment mainly comprises an electromagnetic heating main body, an electromagnetic induction coil, an electromagnetic coil pedestal, a heating furnace body, an I-shaped ferrite bar, an electromagnetic heating absorber and the like, but is limited by the structure of the electromagnetic induction type heating equipment, the whole structure of the electromagnetic induction type heating equipment is complex, the heat generated by the electromagnetic heating coil is not fully utilized, a great amount of heat is stored in the I-shaped electromagnetic heating body, a part of heat is wasted in the actual operation process, energy waste is caused, the heat efficiency is low, and even the service life of the electromagnetic heating coil can be influenced.

SUMMERY OF THE UTILITY MODEL

The utility model provides a solve above-mentioned technical problem, this application provides a built-in magnetic induction fluid heating element and device thereof.

The built-in magnetic induction fluid heating element comprises a shell and an electromagnetic induction coil.

The inside of casing divides into two spaces at least, places the chamber and treats the heating liquid chamber including electromagnetic induction coil, it surrounds to treat the heating liquid chamber electromagnetic induction coil places the chamber. The electromagnetic induction coil is arranged in the electromagnetic induction coil placing cavity, and positive and negative leads of the coil extend out of the end part of the electromagnetic induction coil placing cavity and then extend out of the shell. The electromagnetic induction coil placing cavity is formed by surrounding metal with magnetism. The liquid cavity to be heated is provided with a water inlet and a water outlet.

When the electromagnetic induction coil is used, the electromagnetic induction coil is electrified to generate an alternating magnetic field, and the side wall of the magnetic electromagnetic induction coil placing cavity cuts the alternating magnetic field to generate eddy current, so that heat is generated.

The liquid cavity to be heated is connected with an external water pipe through a water inlet and a water outlet, water or other liquid flows into the liquid cavity to be heated through the water inlet, the liquid is in contact with the outer wall of the electromagnetic induction coil placing cavity in the liquid cavity to be heated, heat is taken away, and the liquid flows out through the water outlet after being heated.

Furthermore, the electromagnetic induction coil is a threaded tubular coil, the electromagnetic induction coil placing cavity is tubular, and the electromagnetic induction coil and the inner wall of the electromagnetic induction coil placing cavity are arranged at intervals or are provided with insulating materials.

Furthermore, the positive center in chamber is placed to the electromagnetic induction coil is equipped with electromagnetic induction coil fixed column for the installation is fixed electromagnetic induction coil, the diameter of electromagnetic induction coil fixed column equals electromagnetic induction coil's internal diameter, just electromagnetic induction coil fixed column adopts insulating material to make.

Furthermore, the end part of the electromagnetic induction coil placing cavity is fixed or detachably plugged by an end cover, or is plugged by filling waterproof heat-insulating materials. Wherein, the end cover is fixed and can adopt the screw thread mode, perhaps the screw hole mode is fixed, and end cover and electromagnetic induction coil place and be equipped with waterproof sealing washer between the chamber.

Furthermore, the liquid cavity to be heated is enclosed by a metal material.

Furthermore, the outer side of the shell is coated with heat insulation materials to prevent heat loss.

Further, the water inlet and the water outlet are respectively positioned on two sides of the liquid cavity to be heated.

Further, the casing is cylindrical, the liquid chamber of treating to heat is the annular cylinder, electromagnetic induction coil places the chamber and is cylindrical.

A built-in magnetic induction fluid heating device comprises at least one built-in magnetic induction fluid heating element and a mounting seat.

Further, the built-in magnetic induction fluid heating elements are distributed in rows or in a ring shape on the mounting seat.

Further, all the electromagnetic induction coils of the built-in magnetic induction fluid heating element are connected in parallel.

Furthermore, the water inlets of all the built-in magnetic induction fluid heating elements are connected to a main water inlet pipe, and the water outlets are connected to a main water outlet pipe.

Furthermore, the built-in magnetic induction fluid heating device comprises a temperature sensor and a power switch, wherein the temperature sensor is arranged in the main water outlet pipe, and when the temperature of the liquid is detected to reach a set temperature value, the power switch is used for cutting off the power supply of the built-in magnetic induction fluid heating device.

It is right by the aforesaid the utility model discloses a description can know, compare with prior art, the utility model provides a built-in magnetic induction fluid heating element and device thereof, its magnetic heating body adopts reverse mounting means, set up promptly the electromagnetic induction coil outside, the heat that its generated can be directly taken away by the liquid of opposite side, need not through long distance heat conduction again, it is internal that the reduction heat is stored in the magnetic heating body, the defect of traditional electromagnetic heating device has been overcome, simultaneously, adopt electromagnetic heating mode to add hot water, can produce the magnetized drinking water, the incrustation scale in domestic appliance and the thermodynamic equipment can be got rid of to the magnetized drinking water, the life of extension equipment, the magnetized drinking water is still health care water, can effectively prevent cardiovascular and cerebrovascular disease, oral disease, skin itch etc. can promote the resistance to diseases and the anti-aging ability of organism comprehensively.

Drawings

The accompanying drawings, which are described herein, serve to provide a further understanding of the invention and constitute a part of this specification, and the exemplary embodiments and descriptions thereof are provided for explaining the invention without unduly limiting it. In the drawings:

FIG. 1 is a cross-sectional view of a housing of an in-line magnetically inductive fluid heating element;

FIG. 2 is a first cross-sectional view of an in-line magnetically inductive fluid heating element;

FIG. 3 is a second cross-sectional view of the internal magnetic induction fluid heating element;

FIG. 4 is a first top view of the internal magnetic induction fluid heating apparatus;

FIG. 5 is a second top view of an internal magnetic induction fluid heating element;

the symbols in fig. 1 to 5 denote:

10-shell, 11-electromagnetic induction coil placing cavity, 12-liquid cavity to be heated, 13-water inlet, 14-water outlet, 20-electromagnetic induction coil and 30-mounting seat.

Detailed Description

In order to make the technical problem, technical scheme and beneficial effect that the utility model will solve more clear, understand, combine the embodiment below, it is right the utility model discloses go on further detailed description. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

The first embodiment is as follows:

a built-in magnetically inductive fluid heating element comprises a housing 10 and an electromagnetic induction coil 20.

Referring to fig. 1, the interior of the housing 10 is divided into two spaces, including an electromagnetic induction coil placing cavity 11 and a liquid cavity 12 to be heated, and the liquid cavity 12 to be heated surrounds the electromagnetic induction coil placing cavity 11. On the whole, casing 10 is cylindrical, treat that heating liquid chamber 12 is the annular cylinder, electromagnetic induction coil places chamber 11 and is cylindrical.

The electromagnetic induction coil placing cavity 11 is formed by surrounding metal with magnetism, the liquid cavity 12 to be heated is formed by surrounding metal materials, and the liquid cavity 12 to be heated is provided with a water inlet 13 and a water outlet 14. The outer side of the housing 10 is further covered with a heat insulating material (not shown) to prevent heat loss.

Referring to fig. 2, the electromagnetic induction coil 20 is disposed in the electromagnetic induction coil placing cavity 11, and positive and negative leads of the coil extend from an end of the electromagnetic induction coil placing cavity 11 to the outside of the housing 10.

Specifically, the electromagnetic induction coil 20 is a threaded tubular coil, the electromagnetic induction coil 20 and the inner wall of the electromagnetic induction coil placing cavity 11 are arranged at intervals or provided with an insulating material (not shown) therebetween, the end of the electromagnetic induction coil placing cavity 11 is fixed or detachably plugged by an end cover, and in other embodiments, the end is filled with a waterproof heat-insulating material.

Referring to fig. 3, in other embodiments, a fixing post of the electromagnetic induction coil 20 is disposed at the center of the electromagnetic induction coil placing cavity 11, a diameter of the fixing post of the electromagnetic induction coil 20 is equal to an inner diameter of the electromagnetic induction coil 20, and the fixing post of the electromagnetic induction coil 20 is made of an insulating material.

When the electromagnetic induction coil is used, the electromagnetic induction coil 20 is electrified to generate an alternating magnetic field, and the side wall of the electromagnetic induction coil placing cavity 11 with magnetism cuts the alternating magnetic field to generate eddy current, so that heat is generated.

The liquid cavity 12 to be heated is connected with an external water pipe through a water inlet 13 and a water outlet 14, water or other liquid flows into the liquid cavity 12 to be heated through the water inlet 13, the liquid is in contact with the outer wall of the electromagnetic induction coil placing cavity 11 in the liquid cavity 12 to be heated, heat is taken away, and the heated liquid flows out through the water outlet 14.

Example two:

an internal magnetic induction fluid heating apparatus comprises a plurality of internal magnetic induction fluid heating elements of the first embodiment and a mounting seat 30.

The electromagnetic induction coils 20 of all the built-in magnetic induction fluid heating elements are connected in parallel; the water inlets 13 of all the built-in magnetic induction fluid heating elements are connected to a main water inlet pipe, and the water outlets 14 are connected to a main water outlet pipe.

Referring to fig. 4 and 5, the internal magnetic induction fluid heating elements are arranged in rows or in rings on the mounting block 30.

Example three:

on the basis of the second embodiment, the built-in magnetic induction fluid heating device comprises a temperature sensor and a power switch, wherein the temperature sensor is arranged in the main water outlet pipe, and when the temperature of the liquid is detected to reach a set temperature value, the power switch is used for cutting off the power supply of the built-in magnetic induction fluid heating device.

The temperature sensor and the power switch of the embodiment are existing products, are not improved, and are not technical improvement points of the application.

It is right by the aforesaid the utility model discloses a description can know, compare with prior art, the utility model provides a built-in magnetic induction fluid heating element and device thereof, its magnetic heating body adopts reverse mounting means, set up promptly the electromagnetic induction coil outside, the heat that its generated can be directly taken away by the liquid of opposite side, need not through long distance heat conduction again, it is internal that the reduction heat is stored in the magnetic heating body, the defect of traditional electromagnetic heating device has been overcome, simultaneously, adopt electromagnetic heating mode to add hot water, can produce the magnetized drinking water, the incrustation scale in domestic appliance and the thermodynamic equipment can be got rid of to the magnetized drinking water, the life of extension equipment, the magnetized drinking water is still health care water, can effectively prevent cardiovascular and cerebrovascular disease, oral disease, skin itch etc. can promote the resistance to diseases and the anti-aging ability of organism comprehensively.

The above exemplary description of the present invention is provided, and it is obvious that the present invention is not limited by the above manner, as long as the present invention adopts various insubstantial improvements of the method concept and technical solution, or the present invention is directly applied to other occasions without improvement, all within the protection scope of the present invention.

Claims (10)

1. A built-in magnetic induction fluid heating element is characterized by comprising a shell and an electromagnetic induction coil; the interior of the shell is at least divided into two spaces, including an electromagnetic induction coil placing cavity and a liquid cavity to be heated; the liquid cavity to be heated surrounds the electromagnetic induction coil placing cavity; the electromagnetic induction coil is arranged in the electromagnetic induction coil placing cavity, and positive and negative leads of the coil extend out of the end part of the electromagnetic induction coil placing cavity and then extend out of the shell; the electromagnetic induction coil placing cavity is formed by surrounding metal with magnetism; the liquid cavity to be heated is provided with a water inlet and a water outlet.

2. The internal magnetic induction fluid heating element of claim 1, wherein the electromagnetic coil is a threaded tubular coil, the electromagnetic coil receiving cavity is tubular, and the electromagnetic coil is spaced from the inner wall of the electromagnetic coil receiving cavity or has an insulating material therebetween.

3. The built-in magnetically inductive fluid heating element according to claim 1, wherein an electromagnetic induction coil fixing post is disposed at the center of the electromagnetic induction coil placing cavity, the diameter of the electromagnetic induction coil fixing post is equal to the inner diameter of the electromagnetic induction coil, and the electromagnetic induction coil fixing post is made of an insulating material.

4. The built-in magnetically inductive fluid heating element according to claim 1, wherein the end of the electromagnetic coil placement cavity is fixed or removable sealed with an end cap, or is filled with a waterproof and heat insulating material.

5. The internal magnetic induction fluid heating element of claim 1 wherein the liquid chamber to be heated is surrounded by a metallic material.

6. The internal magnetic induction fluid heating element of claim 1 wherein the outside of the housing is coated with a thermal insulating material.

7. The internal magnetic induction fluid heating element of claim 1, wherein the water inlet and outlet are located on either side of the liquid chamber to be heated.

8. The internal magnetic induction fluid heating element of claim 1 wherein the housing is cylindrical, the liquid chamber to be heated is an annular cylinder, and the electromagnetic coil receiving chamber is cylindrical.

9. An in-built magnetically inductive fluid heating apparatus comprising at least one in-built magnetically inductive fluid heating element as claimed in any one of claims 1 to 8 and a mounting.

10. The in-line magnetically inductive fluid heating apparatus of claim 9, wherein the in-line magnetically inductive fluid heating elements are arranged in rows or in a ring at the mounting.

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