CN113099563A - Electromagnetic induction heating net, electromagnetic heating equipment and control method thereof - Google Patents

Abstract

The invention discloses an electromagnetic induction heating net, electromagnetic heating equipment and a control method thereof; the electromagnetic induction heating net comprises a conductive body, wherein the conductive body is a net-shaped body which is formed by weaving or integrally forming and is provided with a plurality of through holes regularly or irregularly; the reticular body is in a plane shape, an arc shape or a hemispherical shape, or the periphery of the reticular body is in a plane shape and the center of the reticular body is provided with an inner concave part. The invention adopts the net-shaped body as the heating body for magnetic field induction heating, thereby effectively reducing the total mass of the heating body and being capable of rapidly heating and raising the temperature in a short time. Because of the through holes, a net structure is formed, so that the general temperature of the heating body can reach more than 800 ℃, when a high-temperature resistant material is adopted, the temperature can reach more than 1000 ℃, the heat of the heating body can be uniformly dissipated, the heating body is not easy to deform, and the heating body can be used for a long time. Can be widely used in application scenes such as cooking, heating, barbecue and the like. When cooking and barbecue etc. use, the user can more experience the existence of high temperature state, is favorable to improving user's protection consciousness.

Description

Electromagnetic induction heating net, electromagnetic heating equipment and control method thereof

Technical Field

The invention relates to an electromagnetic induction heating structure, in particular to an electromagnetic induction heating net, an electromagnetic heating device and a control method thereof.

Background

At present, an electromagnetic induction heating product, such as an induction cooker, is a very popular electric product, and there are also products for heating by electric heating, however, such products have the following disadvantages:

firstly, the existing induction cooker pot is not universal, and many pots cannot be used, so that the induction cooker pot has higher requirements on materials;

and secondly, when the induction cooker is used for cooking, naked fire and flame of red fire are absent, and the experience feeling is not strong.

Thirdly, when the electric heating is carried out by using electricity, the electric shock is easy and the electric heating is unsafe; the heating is carried out by using charcoal fire, and the risk of gas poisoning is caused.

Fourthly, when the barbecue is carried out by using charcoal fire, open fire exists, and carbon dioxide is discharged, so that the barbecue is unsafe; electric barbecue is easy to get an electric shock; the efficiency of the electric ceramic furnace and the light wave furnace is low;

fifthly, the existing heating mode is not efficient.

In order to solve the problem of pot universality of the induction cooker, a mode of indirectly using a heating plate to pot is thought to be adopted; for example, by searching a keyword "name, abstract, claim + (heating or pot) and electromagnetic and induction heating and metal plate", 22 chinese patent documents are searched, and a document with a patent name of induction cooker partner (CN200720311644.8) also discloses a similar structure. The present inventors have conducted tests on samples based on these structures and found that indirect heating with a metal plate causes problems such as low heat efficiency due to a low temperature of the metal plate, but that the product is deformed when the temperature is raised. And because the quality of metal sheet is higher, the heating of itself intensifies and needs to consume partly energy, and the high temperature of metal sheet can in turn improve electromagnetism stove body surface and inside solenoid's temperature to cause unstable factor. In addition, products such as an induction cooker partner protrude out of the induction cooker body and are easy to separate, because the products are still high in temperature for a long time when being used and after being turned off, great safety problems are brought to users, and whether the products can pass safety certification on the market is a problem to be solved. The fact that the problems are objectively existed is proved by no mass-produced induction cooker companion product in the market at present.

The inventor has long devoted to the development of new products of electric products, and in order to overcome the problems, a new electromagnetic induction heating product is developed, and the defects are overcome.

Disclosure of Invention

The present invention is directed to solve the above problems in the prior art, and an object of the present invention is to provide an electromagnetic induction heating net, an electromagnetic heating apparatus, and a control method thereof.

The purpose of the invention is realized by the following technical scheme:

the electromagnetic induction heating net comprises a conductive body, wherein the conductive body is a net-shaped body which is formed by weaving or integrally forming and is provided with a plurality of through holes regularly or irregularly; the reticular body is in a plane shape, an arc shape or a hemispherical shape, or the periphery of the reticular body is in a plane shape and the center of the reticular body is provided with an inner concave part.

Preferably, the mesh body is a heat-resistant metal mesh body which can resist heat of more than 1000 ℃;

and/or the electromagnetic induction heating net is arranged above or in front of the induction coil of the device;

and/or the aperture of the through hole is less than 20mm, which is beneficial to generating heat and shielding electromagnetic radiation.

Preferably, a heat insulation layer is arranged on one side of the reticular body close to the electromagnetic equipment; the heat insulation layer is one layer, two layers or three layers; when the layer is a layer, the layer comprises a heat-resistant layer, and is made of refractory materials or ceramic materials which can resist over 1200 ℃; when the number of the layers is two, the insulating layer further comprises an intermediate layer, and when the number of the layers is three, the insulating layer further comprises a bottom plate layer which has an insulating function.

The electromagnetic heating equipment comprises a base, a driving circuit arranged in the base and an electromagnetic coil electrically connected with the driving circuit, and is characterized in that the electromagnetic induction heating net is arranged in a magnetic field distribution area generated by the electromagnetic coil; the net body induces the high-frequency magnetic field of the electromagnetic coil to generate high-frequency internal eddy current to generate heat.

Preferably, the driving circuit is further provided with a detection circuit for vector control; the area of the mesh body is larger than that of the electromagnetic coil, so that the heating efficiency is improved and the electromagnetic radiation is shielded.

Preferably, the electromagnetic heating equipment is an induction cooker, and the induction cooker is provided with a working panel with an inner concave cavity; a wire coil for the electromagnetic coil is arranged at the bottom of the inner concave cavity; the concave cavity is provided with the electromagnetic induction heating net; the net-shaped body is a plane body or a shape with planes at the periphery and an inner concave part at the center.

Preferably, the electromagnetic heating device is a barbecue oven, the barbecue oven is provided with a working table, and the working table is sequentially provided with the electromagnetic coil, the heat insulation layer and the mesh body from bottom to top; the heat insulation layer is three layers and comprises a heat-resistant layer which can resist more than 1200 ℃, an intermediate layer and a bottom plate layer with an insulation function; the wire coil is characterized by further comprising a heat radiation fan located below the wire coil.

Preferably, the electromagnetic heating device is a wall-mounted furnace, the wall-mounted furnace is provided with a machine body with a heating window, and the heating window is sequentially provided with the electromagnetic coil, the heat insulation layer and the reticular body from inside to outside; the heat insulation layer is three layers; the heat insulation layer is provided with a plurality of inclined through grooves so as to send heat dissipation air from the inside to the outside through the heating window and prevent the reticular body from carrying out heat radiation on the electromagnetic coil; the electromagnetic coil is characterized by further comprising a heat radiation fan which is positioned on the inner side of the electromagnetic coil and faces the outside in the wind direction, so that heat diffusion is facilitated.

Preferably, the electromagnetic heating device is a multipurpose device with cooking and heating functions and is provided with a working panel with an inner concave cavity; a wire coil for the electromagnetic coil and a cooling fan positioned below the wire coil are arranged at the bottom of the inner concave cavity; the concave cavity is provided with the electromagnetic induction heating net; the net-shaped body is a plane body or a shape with planes at the periphery and an inner concave part at the center; the inner concave cavity is sequentially provided with the electromagnetic coil, the heat insulation layer and the reticular body from bottom to top; the heat insulation layer is three layers and comprises a heat-resistant layer which can resist over 1200 ℃, an intermediate layer and a bottom plate layer with an insulation effect.

The control method of the electromagnetic heating equipment comprises the following steps: the electromagnetic induction heating net is arranged above or on the front side of an induction coil of the equipment, and through vector control of a driving circuit in the electromagnetic heating equipment, a current voltage vector of the induction coil is accurately driven, electromagnetic induction energy is converted into heat energy to the maximum extent, and the optimal heating efficiency is achieved.

Compared with the prior art, the invention has the beneficial effects that: the invention adopts the net-shaped body as the heating body for magnetic field induction heating, effectively reduces the total mass of the heating body, can quickly heat and raise the temperature in a short time, quickly lowers the temperature after fire is cut off, and is safer than an electric ceramic furnace and a light wave furnace. Because of the through holes, a net structure is formed, so that the general temperature of the heating body can reach more than 800 ℃, when a high-temperature resistant material is adopted, the temperature can reach more than 1000 ℃, the heat of the heating body can be uniformly dissipated, the heating body is not easy to deform, and the heating body can be used for a long time. Except through air, the cookware can directly contact with and conduct heat for heat transfer, and the mesh body is uncharged, safe and high in efficiency; heat transfer may also be by infrared radiation. The electromagnetic induction heating structure of the reticular body can be widely applied to application scenes such as cooking, heating, barbecue and the like. Because the mesh can be heated to the material red degree, when applications such as culinary art and barbecue, the user more can experience the existence of high temperature state, is favorable to improving user's protection consciousness.

Drawings

FIG. 1 is a front view of a first embodiment of an electromagnetic induction heating net of the present invention;

FIG. 2 is a perspective view of the embodiment of FIG. 1;

FIG. 3 is an exploded perspective view of the embodiment of FIG. 1;

FIG. 4 is a schematic cross-sectional view of an embodiment of an electromagnetic heating apparatus of the present invention, which is an induction cooker;

FIG. 5 is a perspective view of an electromagnetic heating apparatus according to another embodiment of the present invention;

FIG. 6 is a schematic cross-sectional view of an embodiment of the electromagnetic heating apparatus of the present invention as a multi-purpose apparatus with cooking and warming functions;

FIG. 7 is a schematic cross-sectional view of an embodiment of a wall-hanging stove as an electromagnetic heating apparatus of the present invention;

FIG. 8 is a schematic external view of a wall-hanging stove as an electromagnetic heating apparatus according to another embodiment of the present invention;

FIG. 9 is a schematic perspective view of an embodiment of the electromagnetic heating apparatus of the present invention as a barbecue grill;

FIG. 10 is a perspective view of the electromagnetic induction heating net in the embodiment of FIG. 9 and a partial enlarged view thereof;

FIG. 11 is a first schematic circuit diagram of an exemplary embodiment of an electromagnetic heating apparatus of the present invention;

FIG. 12 is a second schematic circuit diagram of an exemplary embodiment of an electromagnetic heating apparatus of the present invention;

FIG. 13 is a third schematic circuit diagram of an exemplary embodiment of an electromagnetic heating apparatus of the present invention;

FIG. 14 is a block circuit diagram of an exemplary embodiment of an electromagnetic heating apparatus of the present invention;

fig. 15 is a schematic step diagram of a control method of the electromagnetic heating apparatus of the present invention.

Reference numerals

S electromagnetic induction heating net

10 mesh body 100 through hole

208 diagonal groove 20 insulation layer

21 heat-resistant layer 22 intermediate layer

23 floor layer 29 wire coil

T electromagnetic oven

30 working panel 300 inner cavity

301 wire coil 31 stand

32 operation panel

R multipurpose equipment

40 working face plate 400 inner cavity

401 wire coil 409 radiator fan

W wall-mounted furnace

Heating window with 50 fuselage 500A

500 heating window 501 protection net

505 radiator fan 509A electromagnetic coil

509 electromagnetic coil

Q barbecue stove

60 working table 61 net body

62 heat-insulating layer 621 heat-resistant layer

622 intermediate layer 623 floor layer

63 electromagnetic coil

Detailed Description

The technical solutions of the present invention will be described clearly and completely by the following embodiments, which are only a part of the embodiments of the present invention, but not all of them. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the embodiments of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the embodiments of the invention. As used in the description of embodiments of the present invention and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

As shown in fig. 1 to 3, the electromagnetic induction heating net S of the present invention includes a conductive body, which is a mesh body 10 that is woven or integrally formed with a plurality of through holes 100 regularly or irregularly distributed; in the present embodiment, the mesh body 10 is a plane.

More specifically, the mesh body 10 is a heat-resistant metal mesh body (such as high-temperature-resistant stainless steel, constantan wire, etc.) that is resistant to heat of 1000 degrees or more; the aperture of the through hole 100 is generally below 20mm, which is beneficial for generating heat and shielding electromagnetic radiation. The specific aperture can be adjusted according to actual conditions, and the processing and material strength, the service life and the like are comprehensively considered.

The electromagnetic induction heating net S is typically placed above or in front of the induction coil (which may take the shape of a coil 29) of the apparatus. The distance between the two is less than 5cm, otherwise the circuit cost is increased and the electromagnetic radiation leakage is increased.

More specifically, a side of the mesh body 10 close to the electromagnetic device is provided with a heat insulation layer 20; the thermal insulation layer 20 can be one layer, two layers or three layers; one layer includes a heat-resistant layer 21 made of refractory material or ceramic material capable of resisting over 1200 deg.C; when the structure is two layers, the structure further comprises an intermediate layer 22 (aluminum silicate can be used, the structure can resist 800-1000 degrees, or other materials), and when the structure is three layers, the structure further comprises a bottom plate layer 23 (mica plate can be used, the structure can resist 400 degrees, and the structure has an insulating effect, or other materials), and the insulating effect is achieved. Or a two-layer structure comprising only the heat-resistant layer and the bottom plate layer may be adopted.

In other embodiments, the mesh body may also be in the shape of an arc, a hemisphere or a plane at the periphery and provided with an inner concave part at the center.

The invention also discloses electromagnetic heating equipment, which comprises a machine base, a driving circuit arranged in the machine base and an electromagnetic coil electrically connected with the driving circuit, wherein an electromagnetic induction heating net is arranged in a magnetic field distribution area generated by the electromagnetic coil; the net body induces the high-frequency magnetic field of the electromagnetic coil to generate high-frequency internal eddy current to generate heat. The drive circuit is also provided with a detection circuit for vector control. Referring specifically to the circuit schematic and circuit block diagrams shown in fig. 11-14. More specifically, the mesh body has an area larger than that of the electromagnetic coil to improve heat generation efficiency and shield electromagnetic radiation.

FIG. 4 is a schematic cross-sectional view of an embodiment of an electromagnetic heating apparatus of the present invention, which is an induction cooker; the electromagnetic heating equipment is an induction cooker T, and the induction cooker T is provided with a working panel 30 with an inner concave cavity 300 (the working panel 30 is arranged above the machine base 31); the bottom of the inner concave cavity 300 is provided with a wire coil 301 used as an electromagnetic coil; the inner concave cavity 300 is provided with an electromagnetic induction heating net S; the net-shaped body 10 is a plane body (in other embodiments, the net-shaped body may be a shape with planes at the periphery and an inner concave part at the center).

Fig. 5 is a perspective view of an electromagnetic heating apparatus according to another embodiment of the present invention, wherein an operation panel 32 is disposed on a front side of a base 31, and an internal structure of the electromagnetic heating apparatus is the same as that of the embodiment shown in fig. 4.

FIG. 6 is a schematic cross-sectional view of an embodiment of the electromagnetic heating apparatus of the present invention as a multi-purpose apparatus with cooking and warming functions; the electromagnetic heating equipment is a multi-purpose equipment R with cooking and heating functions and is provided with a working panel 40 with an inner concave cavity 400; a wire coil 401 serving as an electromagnetic coil and a heat dissipation fan 409 positioned below the wire coil 401 are arranged at the bottom of the inner cavity 400 (the flow direction of heat dissipation air flows upwards from top, and various channel or passage structures can be designed to facilitate the flow of heat dissipation air); the inner concave cavity 400 is provided with an electromagnetic induction heating net S; the net-shaped body 10 is a plane body (in other embodiments, the net-shaped body may be a shape with planes at the periphery and an inner concave part at the center); the inner concave cavity 400 is sequentially provided with an electromagnetic coil (namely a wire coil 401), a heat insulation layer 20 and a reticular body 10 from bottom to top; the heat insulation layer 20 is three layers including a heat resistant layer 21 capable of resisting over 1200 degrees, an intermediate layer 22, and a bottom plate layer 23 having an insulation function.

As shown in the embodiment of fig. 7, the electromagnetic heating device is a wall-mounted furnace W, the wall-mounted furnace W is provided with a machine body 50 with a heating window 500 (generally provided with a protective net 501), the heating window 500 is provided with an electromagnetic coil 509 (generally in a wire coil manner, and may be in other shapes), a heat insulation layer 20 and a mesh body 10 in sequence from inside to outside; the heat insulation layer 20 is three layers; the heat insulation layer 20 is provided with a plurality of inclined through grooves 208 so as to send heat dissipation air from the inside to the outside through the heating window 500 and prevent the net-shaped body 10 from carrying out heat radiation on the electromagnetic coil 509; a heat dissipation fan 505 is further included inside the electromagnetic coil 509 and is directed outwardly to facilitate heat dissipation.

In the embodiment shown in fig. 8, the heating windows 500A are disposed above and below the position of the electromagnetic coil 509A to prevent the high-heat air caused by high temperature from directly acting on the human body to cause discomfort.

As shown in fig. 9-10, the electromagnetic heating device is a barbecue oven Q, the barbecue oven Q is provided with a working table 60, and the working table 60 is provided with an electromagnetic coil 63, a heat insulation layer 62 and a mesh body 61 in sequence from bottom to top; the heat insulation layer 62 is three layers, including a heat resistant layer 621 capable of resisting over 1200 ℃, an intermediate layer 622, and a bottom plate layer 623 with insulation function; a heat dissipation fan (not shown) is also included below the wire coil. This is a commercial barbecue grill. In the case of domestic barbecuing or small-sized barbecuing, the structure of fig. 4-5 can also be adopted.

The invention also discloses a control method of the electromagnetic heating equipment, the electromagnetic heating equipment is the electromagnetic heating equipment with vector control, and the control method comprises the following steps: the electromagnetic induction heating net is arranged above or on the front side of an induction coil of the equipment, the current and voltage vector of the induction coil is accurately driven through vector control of a driving circuit in the electromagnetic heating equipment, electromagnetic induction energy is converted into heat energy to the maximum degree, and the optimal heating efficiency is achieved. More specific steps please refer to fig. 15.

In conclusion, the invention adopts the net-shaped body as the heating body for magnetic field induction heating, effectively reduces the total mass of the heating body, can quickly heat and raise the temperature in a short time, quickly lowers the temperature after fire is turned off, and is safer than an electric ceramic furnace and a light wave furnace. Because of the through holes, a net structure is formed, so that the general temperature of the heating body can reach more than 800 ℃, when a high-temperature resistant material is adopted, the temperature can reach more than 1000 ℃, the heat of the heating body can be uniformly dissipated, the heating body is not easy to deform, and the heating body can be used for a long time. Except through air, the cookware can directly contact with and conduct heat for heat transfer, and the mesh body is uncharged, safe and high in efficiency; heat transfer may also be by infrared radiation. The electromagnetic induction heating structure of the reticular body can be widely applied to application scenes such as cooking, heating, barbecue and the like. Because the mesh can be heated to the material red degree, when applications such as culinary art and barbecue, the user more can experience the existence of high temperature state, is favorable to improving user's protection consciousness.

The technical contents of the present invention are further illustrated by the examples only for the convenience of the reader, but the embodiments of the present invention are not limited thereto, and any technical extension or re-creation based on the present invention is protected by the present invention. The protection scope of the invention is subject to the claims.

Claims (10)

1. The electromagnetic induction heating net comprises a conductive body and is characterized in that the conductive body is a net-shaped body which is formed by weaving or integrally forming a plurality of through holes which are regularly distributed or irregularly distributed; the reticular body is in a plane shape, an arc shape or a hemispherical shape, or the periphery of the reticular body is in a plane shape and the center of the reticular body is provided with an inner concave part.

2. The electromagnetic induction heating net according to claim 1, wherein the net is a heat-resistant metal net resistant to heat of 1000 degrees or more;

and/or the electromagnetic induction heating net is arranged above or in front of the induction coil of the device;

and/or the aperture of the through hole is less than 20mm, which is beneficial to generating heat and shielding electromagnetic radiation.

3. The electromagnetic induction heating net according to claim 1 or 2, characterized in that a heat insulating layer is provided on a side of the net-shaped body close to the electromagnetic device; the heat insulation layer is one layer, two layers or three layers; when the layer is a layer, the layer comprises a heat-resistant layer, and is made of refractory materials or ceramic materials which can resist over 1200 ℃; when the number of the layers is two, the insulating layer further comprises an intermediate layer, and when the number of the layers is three, the insulating layer further comprises a bottom plate layer which has an insulating function.

4. The electromagnetic heating equipment comprises a machine base, a driving circuit arranged in the machine base and an electromagnetic coil electrically connected with the driving circuit, and is characterized in that the electromagnetic induction heating net according to any one of claims 1 to 3 is arranged in a magnetic field distribution area generated by the electromagnetic coil; the net body induces the high-frequency magnetic field of the electromagnetic coil to generate high-frequency internal eddy current to generate heat.

5. An electromagnetic heating apparatus according to claim 4, wherein said drive circuit is further provided with a detection circuit for vector control; the area of the mesh body is larger than that of the electromagnetic coil, so that the heating efficiency is improved and the electromagnetic radiation is shielded.

6. The electromagnetic heating device according to claim 4 or 5, wherein the electromagnetic heating device is an induction cooker provided with a working panel with an inner concave cavity; a wire coil for the electromagnetic coil is arranged at the bottom of the inner concave cavity; the concave cavity is provided with the electromagnetic induction heating net; the net-shaped body is a plane body or a shape with planes at the periphery and an inner concave part at the center.

7. The electromagnetic heating device of claim 4 or 5, wherein the electromagnetic heating device is a barbecue oven, the barbecue oven is provided with a working table, and the working table is provided with the electromagnetic coil, the heat insulation layer and the mesh body in sequence from bottom to top; the heat insulation layer is three layers and comprises a heat-resistant layer which can resist more than 1200 ℃, an intermediate layer and a bottom plate layer with an insulation function; the wire coil is characterized by further comprising a heat radiation fan located below the wire coil.

8. The electromagnetic heating equipment of claim 4 or 5, wherein the electromagnetic heating equipment is a wall-mounted furnace, the wall-mounted furnace is provided with a machine body with a heating window, and the electromagnetic coil, the heat insulation layer and the mesh body are sequentially arranged on the working table from inside to outside; the heat insulation layer is three layers; the heat insulation layer is provided with a plurality of inclined through grooves so as to send heat dissipation air from the inside to the outside through the heating window and prevent the reticular body from carrying out heat radiation on the electromagnetic coil; the electromagnetic coil is characterized by further comprising a heat radiation fan which is positioned on the inner side of the electromagnetic coil and faces the outside in the wind direction, so that heat diffusion is facilitated.

9. The electromagnetic heating device according to claim 4 or 5, wherein the electromagnetic heating device is a multipurpose device having cooking and heating functions, provided with a working panel with an inner concave cavity; a wire coil for the electromagnetic coil and a cooling fan positioned below the wire coil are arranged at the bottom of the inner concave cavity; the concave cavity is provided with the electromagnetic induction heating net; the net-shaped body is a plane body or a shape with planes at the periphery and an inner concave part at the center; the inner concave cavity is sequentially provided with the electromagnetic coil, the heat insulation layer and the reticular body from bottom to top; the heat insulation layer is three layers and comprises a heat-resistant layer which can resist over 1200 ℃, an intermediate layer and a bottom plate layer with an insulation effect.

10. A control method of an electromagnetic heating apparatus, characterized in that the electromagnetic heating apparatus is the electromagnetic heating apparatus of claim 5, the control method comprising the steps of:placing the electromagnetic induction heating net in an induction coil of the apparatus The upper side or the front side accurately drives the current of the induction coil through the vector control of the driving circuit in the electromagnetic heating equipment The voltage vector converts the electromagnetic induction energy into heat energy to the maximum extent to achieve the optimal heating efficiency。

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