CN114738994A - High-frequency electromagnetic built-in compound-heating type intelligent heating integrated device - Google Patents

Abstract

The invention is suitable for the technical field of heating equipment, and provides a high-frequency electromagnetic built-in compound heating type intelligent heating integrated device which comprises a shell, wherein a heating cavity is formed in the shell, an electromagnetic heating pipe assembly with an open bottom end is vertically arranged in the heating cavity, and the top end of the electromagnetic heating pipe assembly is fixedly connected with the top of the inner wall of the heating cavity. This integrative device of intelligent heating of built-in compound hot type of high frequency electromagnetism, inner chamber through heating the chamber sets up electromagnetic heating pipe subassembly, it is effectively reasonable with solenoid built-in, after liquid or gas etc. enter into the heating chamber from the input tube, down to its bottom and turn to going upward, solenoid circular telegram back produces magnetic field, the heating metal pipe generates heat under the magnetic field effect, liquid or gas to in the heating metal pipe heat, because solenoid places in the heating chamber, the temperature that its self generates heat is also by make full use of, make the electric energy more abundant, the efficient converts heat energy into, electromagnetic heating effect and work efficiency have been improved.

Description

High-frequency electromagnetic built-in compound heating type intelligent heating integrated device

Technical Field

The invention belongs to the technical field of heating equipment, and particularly relates to a high-frequency electromagnetic built-in compound heating type intelligent heating integrated device.

Background

Electromagnetic heating is also called electromagnetic induction heating, namely an electromagnetic heating technology, the principle of the electromagnetic heating is that an alternating magnetic field is generated through an electronic circuit board component, when a ferrous container is placed on the iron-containing container, the surface of the container cuts alternating magnetic lines of force to generate alternating current (namely eddy current) on a metal part at the bottom of the container, the eddy current enables carriers at the bottom of the container to move randomly at high speed, and the carriers collide and rub with atoms to generate heat energy, so that the effect of heating objects is achieved, and the iron container generates heat by itself, so that the heat conversion rate is particularly high and can reach 95% at most.

In the prior art, a high-frequency induction coil is directly wound on the periphery of a heating barrel of the high-frequency electromagnetic heating device, after the high-frequency induction coil is electrified, the heating barrel generates heat energy to heat liquid or gas and the like in the heating barrel, and a heating effect is achieved.

Disclosure of Invention

The invention provides a high-frequency electromagnetic built-in compound heating type intelligent heating integrated device, and aims to solve the problems that in the prior art, the temperature of a coil and the temperature in a heating barrel cannot be utilized, so that the power is high and the heating efficiency is low.

The invention is realized in such a way, the high-frequency electromagnetic built-in compound heating type intelligent heating integrated device comprises a shell, wherein a heating cavity is formed in the shell, an electromagnetic heating pipe assembly with an open bottom end is vertically arranged in the heating cavity, and the top end of the electromagnetic heating pipe assembly is fixedly connected with the top of the inner wall of the heating cavity;

a superconducting component is vertically arranged in the electromagnetic heating pipe component, the superconducting component comprises a hollow cylindrical superconducting cylinder, and superconducting liquid is arranged in the superconducting cylinder;

the top of the side wall of the heating cavity is communicated with an input pipe which penetrates to the outside of the shell, and the top of the heating cavity is communicated with an output pipe which penetrates to the outside of the shell;

one side of the shell is provided with a controller.

Preferably, the electromagnetic heating pipe assembly comprises a heating metal pipe and an electromagnetic coil, and the electromagnetic coil is arranged in the side wall of the heating metal pipe body in a surrounding manner.

Preferably, the electromagnetic heating pipe assembly comprises a heating metal pipe, an electromagnetic coil and an outer metal pipe, wherein the electromagnetic coil is arranged between the heating metal pipe and the outer metal pipe and is arranged on the outer surface of the heating metal pipe in a surrounding manner.

Preferably, an annular plate for blocking the gap is arranged at the bottom end of the gap between the heating metal pipe and the outer metal pipe.

Preferably, the two sides of the inner wall of the heating metal pipe are respectively provided with a superconducting bracket, and the other end of the superconducting bracket is fixedly connected with the outer wall surface of the superconducting cylinder.

Preferably, a control panel is arranged on the surface of the controller, and a power line is arranged on the controller.

Preferably, a connecting wire is connected between the controller and the electromagnetic coil, and a wire slot for the connecting wire to run is formed in the inner cavity of the shell.

Preferably, the outer ends of the input pipe and the output pipe are both provided with connectors.

Preferably, the shell is made of electromagnetic shielding material, and the surface of the shell is coated with a heat preservation coating.

Advantageous effects

Compared with the prior art, the invention has the beneficial effects that:

(1) according to the high-frequency electromagnetic built-in compound heating type intelligent heating integrated device, the electromagnetic heating pipe assembly is arranged in the inner cavity of the heating cavity, the electromagnetic coil is effectively and reasonably built in, when liquid or gas enters the heating cavity from the input pipe, the liquid or gas descends to the bottom of the heating cavity and then ascends, the electromagnetic coil generates a magnetic field after being electrified, the heating metal pipe generates heat, the liquid or gas in the heating metal pipe is heated, and the self-heating temperature of the electromagnetic coil is fully utilized because the electromagnetic coil is placed in the heating cavity, so that electric energy is more fully and efficiently converted into heat energy, and the electromagnetic heating effect and the working efficiency are improved.

(2) The invention relates to a high-frequency electromagnetic built-in reheating type intelligent heating integrated device, which is characterized in that a superconducting component is arranged in an electromagnetic heating pipe component, after liquid or gas is heated by the electromagnetic heating pipe component, heat is conducted to superconducting liquid through a superconducting cylinder, the superconducting liquid can automatically and quickly heat up and reversely conducts the heat into the liquid or the gas through the superconducting cylinder, the heating area of the liquid or the gas in a heating metal pipe is enlarged to accelerate the heating speed, when the temperature of the liquid or the gas reaches a control point, a power supply automatically returns to zero, at the moment, the residual temperature of the superconducting component also continuously keeps heat storage, when the power supply is electrified for the second time, partial heat can be accumulated, and when the power supply returns to zero, the heat storage is supplemented again, so that the heating effect of the device is extremely good, the efficiency is high, and the energy is saved.

Drawings

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

FIG. 2 is a schematic structural diagram of an embodiment of the present invention;

fig. 3 is a schematic structural view of an electromagnetic heating tube assembly according to the present invention;

fig. 4 is a top view of an electromagnetic heating tube assembly and a superconducting assembly of the present invention.

In the figure: 1-shell, 2-heating cavity, 3-heating metal tube, 4-electromagnetic coil, 5-outer metal tube, 6-superconducting cylinder, 7-superconducting liquid, 8-input tube, 9-output tube, 10-controller, 11-annular plate, 12-superconducting bracket, 13-control panel, 14-power line, 15-connecting wire, 16-wire groove and 17-connector.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1-4, the present invention provides a technical solution: a high-frequency electromagnetic built-in reheating type intelligent heating integrated device comprises a shell 1, wherein a heating cavity 2 is formed in the shell 1, an electromagnetic heating pipe assembly with an open bottom end is vertically arranged in the heating cavity 2, and the top end of the electromagnetic heating pipe assembly is fixedly connected with the top of the inner wall of the heating cavity 2;

the shell 1 is a vertical cuboid of placing, and shell 1 both can be placed on the ground, also can break away from ground fixed mounting with shell 1 on the wall through coupling assembling, 2 inner chambers cavity in heating chamber, the whole open tube-shapes in bottom that are of electromagnetic heating pipe subassembly, electromagnetic heating pipe subassembly is through the uncovered and the heating chamber 2 intercommunication of its bottom for liquid and gas that enter into in the heating chamber 2 can contact with electromagnetic heating pipe subassembly better, enlarge electromagnetic heating pipe subassembly's heating range.

A superconducting component is vertically arranged in the electromagnetic heating pipe component, the superconducting component comprises a hollow cylindrical superconducting cylinder 6, and superconducting liquid 7 is arranged in the superconducting cylinder 6;

liquid or gas enters into heating chamber 2 and is heated by the electromagnetic heating pipe subassembly after, through superconductive section of thick bamboo 6 with heat conduction to superconductive liquid 7, superconductive liquid 7 itself can automatic rapid heating up, in reverse conduct heat to liquid or gas through superconductive section of thick bamboo 6 again, enlarge the heated area of heating metal pipe 3 interior liquid or gas, in order to accelerate the rate of heating, when liquid or gas temperature reach the control point, the power is automatic to zero, at this moment, superconductive subassembly also has the surplus temperature to continue to keep the heat accumulation, when treating the second power-on, can accumulate partial heat again, with supply the heat accumulation once more when waiting the power to zero, with this reciprocal, make the heating effect of this device reach extremely, high efficiency and energy saving.

The top of the side wall of the heating cavity 2 is communicated with an input pipe 8 which penetrates through the outer part of the shell 1, and the top of the heating cavity 2 is communicated with an output pipe 9 which penetrates through the outer part of the shell 1;

liquid or gas enters the heating chamber 2 through the input pipe 8 and is output to the outside of the housing 1 through the output pipe 9 after heating.

A controller 10 is provided at one side of the housing 1.

The controller 10 controls the rectification circuit to convert the 50HZ/60HZ alternating current into direct current voltage, the direct current voltage is converted into high-frequency voltage with the frequency of 20KHZ-40KHZ through the control circuit, and the high-speed changing current can generate a high-speed changing magnetic field through the electromagnetic coil 4.

In the embodiment, liquid or gas enters the heating cavity 2 through the input pipe 8, descends to the bottom of the heating cavity and ascends, the electromagnetic coil 4 in the electromagnetic heating pipe assembly generates a magnetic field after being electrified, so that the heating metal pipe 3 generates heat, the liquid or gas in the heating metal pipe 3 is heated, and the heat is simultaneously transferred to the superconducting liquid 7 through the superconducting cylinder 6, the superconducting liquid 7 can automatically and rapidly heat up, and the heat is reversely transferred into the liquid or gas through the superconducting cylinder 6, so that the heating area of the liquid or gas in the heating metal pipe 3 is enlarged, the heating speed is accelerated, when the temperature of liquid or gas reaches the control point, the power supply automatically returns to zero, at the moment, the superconducting component also has residual temperature to continuously store heat, when the power is on for the second time, partial heat can be stored, and supplementing heat storage again when the power supply returns to zero, reciprocating, and outputting the finally heated liquid or gas to the outside of the shell 1 through the output pipe 9.

Further, the electromagnetic heating pipe assembly comprises a heating metal pipe 3 and an electromagnetic coil 4, and the electromagnetic coil 4 is arranged in the side wall of the pipe body of the heating metal pipe 3 in a surrounding mode.

As shown in fig. 1, in the present embodiment, the electromagnetic coil 4 generates a magnetic field when energized, and the heating metal tube 3 generates heat by the magnetic field to heat the liquid or gas in the heating metal tube 3.

The principle of the electromagnetic heating assembly is the prior art and is not described in detail.

Further, the electromagnetic heating pipe assembly comprises a heating metal pipe 3, an electromagnetic coil 4 and an outer metal pipe 5, wherein the electromagnetic coil 4 is arranged between the heating metal pipe 3 and the outer metal pipe 5 and is arranged on the outer surface of the heating metal pipe 3 in a surrounding manner.

As shown in fig. 2, in the present embodiment, the outer metal tube 5 is sleeved outside the heating metal tube 3, the electromagnetic coil 4 is disposed around the outer surface of the heating metal tube 3, the electromagnetic coil 4 can be protected by disposing the outer metal tube 5, so as to prevent the electromagnetic coil 4 from being directly exposed in water, and meanwhile, the electromagnetic coil 4 is disposed in a gap between the heating metal tube 3 and the outer metal tube 5, so as to reduce the difficulty in mounting the electromagnetic coil 4.

Further, an annular plate 11 for sealing the gap is provided at the bottom end of the gap between the heating metal pipe 3 and the outer metal pipe 5.

In the present embodiment, the annular plate 11 is provided to close the gap between the heating metal pipe 3 and the outer metal pipe 5, so that the electromagnetic coil 4 in the gap is prevented from contacting water, and the service life of the electromagnetic coil 4 is prolonged.

Furthermore, two sides of the inner wall of the heating metal tube 3 are respectively provided with a superconducting bracket 12, and the other end of the superconducting bracket 12 is fixedly connected with the outer wall surface of the superconducting cylinder 6.

In this embodiment, the number of the superconducting brackets 12 is four or more, and the superconducting brackets are respectively fixedly connected to both sides of the superconducting cylinder 6 and both ends of one side of the superconducting cylinder, so that the superconducting component can be fixed to the heating metal pipe 3 by providing the superconducting brackets 12, thereby preventing the superconducting component from being displaced.

Further, a control panel 13 is disposed on a surface of the controller 10, and a power line 14 is disposed on the controller 10.

In the present embodiment, a display screen, keys, and the like are provided on the control panel 13, a power cord 14 is provided on the controller 10, and the power cord 14 is connected to a power source to supply power to the controller 10.

Further, a connecting wire 15 is connected between the controller 10 and the electromagnetic coil 4, and a wire slot 16 for the connecting wire 15 to run is formed in the inner cavity of the housing 1.

In the embodiment, by providing the connection line 15, the current is conducted to the electromagnetic coil 4 through the connection line 15, so that the electromagnetic coil 4 generates a magnetic field changing at a high speed, and the wire slot 16 is formed in the inner cavity of the housing 1 to facilitate the wiring of the connection line 15.

Furthermore, the outer ends of the input pipe 8 and the output pipe 9 are both provided with connectors 17.

In the present embodiment, the input pipe 8 and the output pipe 9 are connected to other connection members by providing the connectors 17, respectively, so that liquid, gas, or the like can be input and output more efficiently.

Further, the shell 1 is made of electromagnetic shielding materials, and the surface of the shell 1 is coated with a heat preservation coating.

In the embodiment, a layer of nano-ceramic heat-insulating coating with the thickness of 1.5 mm is coated on the surface of the shell 1, so that the shell 1 is heat-insulating and not easy to dissipate heat, and the heat inside the shell 1 is prevented from dissipating.

The working principle and the using process of the invention are as follows: after the invention is installed, liquid or gas enters the heating cavity 2 through the input pipe 8, descends to the bottom of the heating cavity and ascends, the electromagnetic coil 4 generates a magnetic field after being electrified, the heating metal pipe 3 generates heat, the liquid or gas in the heating metal pipe 3 is heated, and the heat is simultaneously transferred to the superconducting liquid 7 through the superconducting cylinder 6, the superconducting liquid 7 can automatically and rapidly heat up, and the heat is reversely transferred into the liquid or gas through the superconducting cylinder 6, so that the heating area of the liquid or gas in the heating metal pipe 3 is enlarged, the heating speed is accelerated, when the temperature of the liquid or gas reaches the control point, the power supply automatically returns to zero, at the moment, the superconducting component also has residual temperature to continuously keep heat storage, when the power supply is electrified for the second time, partial heat can be stored, and supplementing heat storage again when the power supply returns to zero, reciprocating, and outputting the finally heated liquid or gas to the outside of the shell 1 through the output pipe 9.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides an integrative device of built-in compound hot type intelligent heating of high frequency electromagnetism which characterized in that: the electromagnetic heating tube comprises a shell (1), wherein a heating cavity (2) is formed in the shell (1), an electromagnetic heating tube assembly with an open bottom end is vertically arranged in the heating cavity (2), and the top end of the electromagnetic heating tube assembly is fixedly connected with the top of the inner wall of the heating cavity (2);

a superconducting component is vertically arranged in the electromagnetic heating pipe component, the superconducting component comprises a hollow cylindrical superconducting cylinder (6), and superconducting liquid (7) is arranged in the superconducting cylinder (6);

the top of the side wall of the heating cavity (2) is communicated with an input pipe (8) penetrating to the outside of the shell (1), and the top of the heating cavity (2) is communicated with an output pipe (9) penetrating to the outside of the shell (1);

one side of the shell (1) is provided with a controller (10).

2. The high-frequency electromagnetic internal reheating type intelligent heating integrated device as claimed in claim 1, wherein: the electromagnetic heating pipe component comprises a heating metal pipe (3) and an electromagnetic coil (4), wherein the electromagnetic coil (4) is arranged in the side wall of the pipe body of the heating metal pipe (3) in a surrounding mode.

3. The high-frequency electromagnetic built-in reheating type intelligent heating integrated device as claimed in claim 1, wherein: the electromagnetic heating pipe component comprises a heating metal pipe (3), an electromagnetic coil (4) and an outer metal pipe (5), wherein the electromagnetic coil (4) is arranged between the heating metal pipe (3) and the outer metal pipe (5) and is arranged on the outer surface of the heating metal pipe (3) in a surrounding mode.

4. The high-frequency electromagnetic built-in reheating type intelligent heating integrated device as claimed in claim 3, wherein: and an annular plate (11) for blocking the gap is arranged at the bottom end of the gap between the heating metal pipe (3) and the outer metal pipe (5).

5. The high-frequency electromagnetic built-in reheating type intelligent heating integrated device as claimed in claim 2, wherein: superconducting supports (12) are respectively arranged on two sides of the inner wall of the heating metal pipe (3), and the other ends of the superconducting supports (12) are fixedly connected with the outer wall surface of the superconducting cylinder (6).

6. The high-frequency electromagnetic built-in reheating type intelligent heating integrated device as claimed in claim 1, wherein: the surface of controller (10) is provided with control panel (13), be provided with power cord (14) on controller (10).

7. The high-frequency electromagnetic built-in reheating type intelligent heating integrated device as claimed in claim 2, wherein: a connecting wire (15) is connected between the controller (10) and the electromagnetic coil (4), and a wire groove (16) for the connecting wire (15) to run is formed in the inner cavity of the shell (1).

8. The high-frequency electromagnetic built-in reheating type intelligent heating integrated device as claimed in claim 1, wherein: the outer ends of the input pipe (8) and the output pipe (9) are provided with connectors (17).

9. The high-frequency electromagnetic internal reheating type intelligent heating integrated device as claimed in claim 1, wherein: the shell (1) is made of an electromagnetic shielding material, and a heat preservation coating is coated on the surface of the shell (1).

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