CN215570652U - Induction cooker convenient to heat dissipation - Google Patents

Abstract

The utility model relates to the field of small household appliances, in particular to an induction cooker convenient for heat dissipation. The furnace shell is a hollow cavity which is formed by surrounding a side wall and a bottom wall and is opened upwards, a plurality of separation cavities are arranged in the hollow cavity, the fan, the control component and the heating disc component are respectively arranged in different separation cavities of the furnace shell, and cold air of the fan can change the air supply direction through air supply windows in different directions on the partition plates and is respectively sent into the separation cavities in which the control component and the heating disc component are respectively arranged to cool. The heating disc assembly, the control assembly and the fan are respectively arranged in different separating cavities, and the air supply windows in different directions are used for directional air supply, so that high heat generated by the heating disc assembly cannot be radiated onto the control assembly and independently form air supply channels to realize respective heat dissipation, the heat dissipation capability of the induction cooker is improved, the faults of electronic elements are reduced, and the service life is prolonged.

Description

Induction cooker convenient to heat dissipation

Technical Field

The utility model relates to the field of small household appliances, in particular to an induction cooker convenient for heat dissipation.

Background

The induction cooker is widely used due to convenient operation and high heat efficiency, but users hope that the thinner the induction cooker is, the better the induction cooker is, therefore, many manufacturers continuously compress the space in the oven, and the distance between the heating disc component and the control component becomes smaller. Because the heating disc assembly and the control assembly generate a large amount of heat in the operation process, the heating disc assembly and the control assembly are extruded in the same narrow space, and heat dissipation is very difficult; moreover, high heat generated by the heating plate assembly can also be radiated to the control assembly, which is more adverse to the heat dissipation of the control assembly, influences the performance of the electronic element, further causes faults and reduces the service life of the induction cooker.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects in the prior art, the utility model discloses an induction cooker convenient for heat dissipation, which comprises a cooker panel, a cooker shell, a fan, a control assembly and a heating disc assembly. The furnace shell is a hollow cavity which is formed by surrounding a side wall and a bottom wall and is opened upwards, a plurality of separation cavities are arranged in the hollow cavity, the fan, the control component and the heating disc component are respectively arranged in different separation cavities of the furnace shell, and cold air of the fan can change the air supply direction through air supply windows in different directions on the partition plates and is respectively sent into the separation cavities in which the control component and the heating disc component are respectively arranged to cool. The heating disc assembly, the control assembly and the fan are respectively arranged in different separating cavities, and the air supply windows in different directions are used for directional air supply, so that high heat generated by the heating disc assembly cannot be radiated onto the control assembly and independently form air supply channels to realize respective heat dissipation, the heat dissipation capability of the induction cooker is improved, the faults of electronic elements are reduced, and the service life is prolonged.

In order to achieve the purpose, the technical scheme adopted by the utility model is as follows:

the utility model provides an electromagnetism stove convenient to heat dissipation, includes stove panel, fan, control assembly and heating disc subassembly, its characterized in that: still include the stove outer covering, the stove outer covering for surround by lateral wall and diapire and form and uncovered ascending cavity body, be equipped with a plurality of in the cavity body and separate the chamber, fan, control assembly and heating plate subassembly divide arrange the difference of stove outer covering in and separate the chamber, the cold wind accessible stove outer covering baffle that the fan sent changes the air supply direction and sends into respectively control assembly and heating plate subassembly and cool down in separating the chamber that the place separately.

The furnace shell is provided with a partition plate assembly in a cavity of the furnace shell, the partition plate assembly comprises an arc-shaped first partition plate and a straight second partition plate, the first partition plate and the second partition plate are equal in height with the side wall of the furnace shell, the first partition plate is arranged at one corner of the cavity of the furnace shell and encloses the corner into a cold air chamber, and the second partition plate divides the residual cavity of the furnace shell into a first air exchanging chamber and a second air exchanging chamber.

The first partition plate is provided with an air supply window which respectively communicates the cold air chamber with the first air exchange chamber and the second air exchange chamber, and the air supply window is composed of a plurality of air supply outlets which can control different air supply directions.

The air supply windows comprise a first air supply window and a plurality of second air supply windows, the plurality of second air supply windows are arranged along the outer arc surface of the arc-shaped first partition plate, the intervals of the second air supply windows are equal, the first air supply window is a flat oblique opening with the air outlet direction inclined downwards, a first air baffle plate which is consistent with the air outlet direction inclined of the first air supply window is arranged on the upper edge of the outer side of the first air supply window, the second air supply window is a flat oblique opening with the air outlet direction inclined upwards, a second air baffle plate which is consistent with the air outlet direction inclined of the second air supply window is arranged on the lower edge of the outer side of the second air supply window, the first air supply window is arranged on the upper portion of the first partition plate and can send cold air of the cold air chamber into the first air exchange chamber, and the second air supply window is arranged on the lower portion of the first partition plate and can send cold air of the cold air chamber into the second air exchange chamber.

The air outlet comprises a first air outlet used for communicating the first air exchanging chamber with the outside and a second air outlet used for communicating the second air exchanging chamber with the outside, and the first air outlet and the second air outlet are long flat openings which are communicated with the inside and the outside.

Furthermore, the air inlet and the air outlet are both provided with filter screens or filter grids.

The fan is a fan with air inlet at the end part and air outlet at the side edge, the fan is arranged in the cold air chamber and locked on the bottom wall of the furnace shell, the air inlet end of the fan is butted with the air inlet, and the control assembly is arranged in the first air exchange chamber and locked on the bottom wall of the furnace shell.

The furnace panel cover is combined and locked on the furnace shell, and the heating plate assembly is arranged in the second air exchange chamber and locked on the back of the furnace panel.

The control assembly is electrically connected with the heating plate assembly and the fan, and the control assembly can control the heating plate assembly and the fan to operate.

As can be seen from the above description, the electromagnetic oven with convenient heat dissipation provided by the present invention has the advantages that: firstly, the heating disc assembly, the control assembly and the fan are respectively arranged in different separate cavities, so that high heat generated by the heating disc assembly cannot be radiated onto the control assembly and independently form an air supply channel to realize respective heat dissipation, electronic components of the control assembly cannot be influenced by high heat generated by the heating disc assembly, the heat dissipation of the control assembly is facilitated, and the stable performance of the electronic components is guaranteed; the cold air of the fan can change the air supply direction through the air supply windows in different directions on the partition plate assembly, and the control assembly arranged at the bottom of the furnace chamber and the heating disc assembly arranged at the top of the furnace chamber are respectively supplied with air downwards and upwards in a directional manner, so that the wind power is more concentrated, and the quick heat dissipation is more utilized; and thirdly, the fan is arranged on the side edges of the heating disc component and the control component, so that the space height of the furnace shell can be reduced, and the electromagnetic oven can be thinner. The utility model improves the inside of the induction cooker, can improve the heat dissipation capacity of the induction cooker, reduces the faults of electronic elements and prolongs the service life. The utility model has the advantages of reasonable design, simple structure, low cost and convenient popularization.

Drawings

FIG. 1 is a general schematic view of an induction cooker convenient for heat dissipation according to the present invention

FIG. 2 is a schematic view of a furnace shell

FIG. 3 is a schematic view A-A

FIG. 4 is an enlarged view of the part C

FIG. 5 is a schematic view of the rotation of B-B

FIG. 6 is an enlarged view of the portion D

Reference numerals:

1, a furnace panel; 2, furnace shell; 21, an air inlet; 22 air outlet; 221 a first air outlet; 222 a second air outlet; 23 air supply windows; 231 a first air supply window; 2311 a first windshield; 232 a second air supply window; 2321 a second wind deflector; 24 a separator plate assembly; 241 a first partition plate; 242 a second separator plate; 25, a cold air chamber; 26 a first ventilation chamber; 27 a second ventilation chamber; 3, a fan; 4 a control component; 5 heating disk assembly.

Detailed Description

The utility model is further described below by means of specific embodiments.

As shown in fig. 1 to 6, the electromagnetic oven convenient for heat dissipation according to the present invention includes an oven panel 1, an oven shell 2, a fan 3, a control component 4 and a heating plate component 5. The furnace shell 2 is a hollow cavity which is enclosed by side walls and a bottom wall and is opened upwards, a partition plate assembly 24 is arranged in the cavity of the furnace shell 2, the partition plate assembly 24 comprises an arc-shaped first partition plate 241 and a straight second partition plate 242, the first partition plate 241 and the second partition plate 242 are equal in height with the side walls of the furnace shell 2, the first partition plate 241 is arranged at one corner of the cavity of the furnace shell 2 and encloses the corner into a cooling air chamber 25, and the second partition plate 242 divides the rest cavity of the furnace shell 2 into a first air exchanging chamber 26 and a second air exchanging chamber 27; the first partition 241 is provided with an air supply window 23 for respectively communicating the cold air chamber 25 with the first air exchanging chamber 26 and the second air exchanging chamber 27, the air supply window 23 is composed of a plurality of air supply ports capable of controlling different air supply directions, the air supply window 23 comprises a first air supply window 231 and a plurality of second air supply windows 232, the plurality of second air supply windows 232 are arranged along the outer arc surface of the arc-shaped first partition 241 and have equal intervals, the number of the second air supply windows 232 is three in the embodiment, the first air supply window 231 is a flat oblique port with the air outlet direction inclined downwards, the upper edge of the outer side of the first air supply window 231 is provided with a first air blocking plate 2311 with the air outlet direction inclined consistent with that of the first air supply window 231, the second air supply window 232 is a flat oblique port with the air outlet direction inclined upwards, the lower edge of the outer side of the second air supply window 232 is provided with a second air blocking plate 2321 with the air outlet direction inclined consistent with that of the second air supply window 232, the first air supply window 231 is arranged at the upper part of the first clapboard 241 and can supply cold air of the cold air chamber 25 into the first air exchange chamber 26, and the second air supply window 232 is arranged at the lower part of the first clapboard 241 and can supply cold air of the cold air chamber 25 into the second air exchange chamber 27; the furnace shell 2 is provided with a circular air inlet 21 which is through from inside to outside on the bottom wall of the cold air chamber 25, the furnace shell 2 is provided with air outlets 22 on the side walls of the first air exchanging chamber 26 and the second air exchanging chamber 27, the air outlets 22 comprise a first air outlet 221 which is used for communicating the first air exchanging chamber 26 with the outside and a second air outlet 222 which is used for communicating the second air exchanging chamber 27 with the outside, and the first air outlet 221 and the second air outlet 222 are both long flat openings which are through from inside to outside; the air inlet 21 and the air outlet 22 are both provided with filter screens or filter grids. The fan 3 is a fan with air inlet at the end part and air outlet at the side edge, the fan 3 is arranged in the cold air chamber 25 and is locked on the bottom wall of the furnace shell 2, and the air inlet end of the fan is butted with the air inlet 21; the control component 4 is arranged in the first air exchange chamber 26 and locked on the bottom wall of the furnace shell 2; the furnace panel 1 is covered and locked on the furnace shell 2, and the heating plate assembly 5 is arranged in the second air exchange chamber 27 and locked on the back of the furnace panel 1; the control component 4 is electrically connected with the heating disc component 5 and the fan 3, and the control component 4 can control the heating disc component 5 and the fan 3 to operate.

The utility model relates to a heat dissipation method of an induction cooker convenient for heat dissipation, which comprises the following steps:

when the induction cooker works, the control component 4, the heating plate component 5 and the fan 3 work simultaneously, and the fan 3 sucks cold air into the cold air chamber 25 through the air inlet 21 and sends the cold air into the first air exchanging chamber 26 and the second air exchanging chamber 27 through the first air sending window 231 and the second air sending window 232 respectively. Because the air supply outlet of the first air supply window 231 is a flat inclined outlet which is inclined downwards and the upper edge of the air supply outlet is also provided with a first air baffle 2311 which is inclined downwards, cold air entering the first air exchange chamber 26 can be obliquely downwards blown onto the control component 4 locked on the bottom wall of the first air exchange chamber 26, the control component 4 is enabled to rapidly cool, and heat of the first air exchange chamber 26 is discharged through the first air outlet 221 to realize heat dissipation.

Similarly, the cold air entering the second air exchanging chamber 27 can be obliquely and upwardly blown to the heating plate assembly 5 locked on the back of the furnace panel 1 above the second air exchanging chamber 27, so that the heating plate assembly 5 is rapidly cooled and the heat in the second air exchanging chamber 27 is discharged through the second air outlet 222 to realize heat dissipation.

According to the electromagnetic oven, the interior of the electromagnetic oven is improved, the heating disc assembly, the control assembly and the fan are respectively arranged in different separate cavities, and air is directionally supplied by the air supply windows in different directions, so that high heat generated by the heating disc assembly cannot be radiated onto the control assembly and independently forms an air supply channel to realize respective heat dissipation, the heat dissipation capacity of the electromagnetic oven is improved, the faults of electronic components are reduced, and the service life is prolonged.

In the description of the present invention, the terms "first," "second," etc. are used to define a position. The use of "first" and "second" is merely for convenience of simplifying the description, and no particular meaning is implied unless specifically stated to the contrary.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.

Claims (9)

1. The utility model provides an electromagnetism stove convenient to heat dissipation, includes stove panel (1), fan (3), control assembly (4) and heating plate subassembly (5), its characterized in that: still include stove outer covering (2), stove outer covering (2) for surround by lateral wall and diapire and form and uncovered ascending cavity body, be equipped with a plurality of in the cavity body and separate the chamber, fan (3), control assembly (4) and heating disc subassembly (5) divide arrange the difference of stove outer covering (2) in separate the chamber, the cold wind accessible stove outer covering (2) baffle that fan (3) sent set up supply-air outlet change air supply direction and send into control assembly (4) and heating disc subassembly (5) respectively and cool down in separating the chamber at place.

2. The induction cooker convenient for heat dissipation according to claim 1, wherein: the furnace shell (2) is provided with a partition plate assembly (24) in a cavity of the furnace shell (2), the partition plate assembly (24) comprises a first arc-shaped partition plate (241) and a second straight partition plate (242), the height of the side walls of the first partition plate (241) and the second partition plate (242) is equal to that of the side wall of the furnace shell (2), the first partition plate (241) is arranged at one corner of the cavity of the furnace shell (2) and surrounds the corner into a cooling air chamber (25), and the second partition plate (242) divides the residual cavity of the furnace shell (2) into a first air exchange chamber (26) and a second air exchange chamber (27).

3. The induction cooker convenient for heat dissipation according to claim 2, wherein: the first clapboard (241) is provided with an air supply window (23) which respectively communicates the cold air chamber (25) with the first air exchange chamber (26) and the second air exchange chamber (27), and the air supply window (23) is composed of a plurality of air supply openings which can control different air supply directions.

4. The induction cooker convenient for heat dissipation according to claim 3, wherein: the air supply window (23) comprises a first air supply window (231) and a plurality of second air supply windows (232), the plurality of second air supply windows (232) are arranged along the outer arc surface of the arc-shaped first partition plate (241) and are equal in interval, the first air supply window (231) is a flat inclined opening with the air outlet direction inclined downwards, a first wind shield (2311) which is consistent with the air outlet direction of the first air supply window (231) in an inclined way is arranged on the upper edge of the outer side of the first air supply window (231), the second air supply window (232) is a flat inclined opening with the air outlet direction inclined upwards, a second wind shield (2321) which is consistent with the air outlet direction of the second air supply window (232) in an inclined way is arranged on the lower edge of the outer side of the second air supply window (232), the first air supply window (231) is arranged on the upper portion of the first partition plate (241) and can supply cold air into the first air exchange chamber (26) of the cold air chamber (25), the second air supply window (232) is arranged on the lower portion of the first partition plate (241) and can supply window (241) can supply cold air chamber (25) and cool air Into a second ventilation chamber (27).

5. The induction cooker convenient for heat dissipation according to claim 4, wherein: the air conditioner is characterized in that a circular air inlet (21) which is through from inside to outside is formed in the bottom wall of the cold air chamber (25) of the furnace shell (2), air outlets (22) are formed in the side walls of the first air exchanging chamber (26) and the second air exchanging chamber (27) of the furnace shell (2), the air outlets (22) comprise a first air outlet (221) which is used for communicating the first air exchanging chamber (26) with the outside and a second air outlet (222) which is used for communicating the second air exchanging chamber (27) with the outside, and the first air outlet (221) and the second air outlet (222) are long flat openings which are through from inside to outside.

6. The induction cooker convenient for heat dissipation according to claim 5, wherein: the air inlet (21) and the air outlet (22) are both provided with filter screens or filter grids.

7. The induction cooker convenient for heat dissipation according to claim 5, wherein: the fan (3) is arranged in the cold air chamber (25) and locked on the bottom wall of the furnace shell (2), the air inlet end of the fan is butted with the air inlet (21), and the control assembly (4) is arranged in the first air exchange chamber (26) and locked on the bottom wall of the furnace shell (2).

8. The induction cooker convenient for heat dissipation according to claim 7, wherein: the furnace panel (1) is covered and locked on the furnace shell (2), and the heating plate component (5) is arranged in the second air exchange chamber (27) and locked on the back of the furnace panel (1).

9. The induction cooker convenient for heat dissipation according to claim 8, wherein: the control component (4) is electrically connected with the heating disc component (5) and the fan (3).

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