CN212901626U

CN212901626U - Embedded electromagnetic stove

Info

Publication number: CN212901626U
Application number: CN202021686486.6U
Authority: CN
Inventors: 章棱郡; 程三艳
Original assignee: Hangzhou Oukai Industrial Co Ltd
Current assignee: Hangzhou Oukai Industrial Co Ltd
Priority date: 2020-08-13
Filing date: 2020-08-13
Publication date: 2021-04-06
Anticipated expiration: 2030-08-13

Abstract

An embedded electromagnetic stove comprises an electromagnetic stove plate, a heat conducting cover, an explosion-proof shell, a heat conducting plate and a first heat radiating plate; the two groups of side end faces of the explosion-proof shell which are far away from each other are respectively provided with a strip-shaped hole, an air exhaust hole and an air inlet hole, and the peripheral surface of the explosion-proof shell is provided with flange plates which are connected with each other; the electromagnetic oven plate is connected with the flange plate; the heat conducting cover is connected with the end face pressed by the electromagnetic oven plate and the flange plate; the heat conducting plate and the first heat radiating plate are inserted into the explosion-proof shell from the strip-shaped hole on one side and are matched with and extend into the strip-shaped hole on the other side, and the heat conducting plate and the first heat radiating plate are hermetically connected with the inner wall of the strip-shaped hole; the end surface of the heat conducting plate facing the heat conducting cover compresses the heat conducting cover; a plurality of groups of first through holes are formed in the first heat dissipation plate; an air inlet bin is formed between the end face, far away from the heat conducting plate, of the first heat radiating plate and the inner wall of the explosion-proof shell; the air inlet bin is internally provided with a blowing device. The utility model provides an electromagnetic oven explosion-proof nature is good and have good heat dispersion.

Description

Embedded electromagnetic stove

Technical Field

The utility model relates to an induction cooker technical field especially relates to an embedded induction cooker.

Background

The electromagnetic stove is also called as an electromagnetic stove and is a product of modern kitchen revolution, and heat is directly generated at the bottom of a pot without open fire or conduction heating, so that the heat efficiency is greatly improved. Is a high-efficiency energy-saving kitchen ware, which is completely different from the traditional all-fired or non-fired conduction heating kitchen ware; the electromagnetic stove is an electric cooking appliance manufactured by utilizing an electromagnetic induction heating principle; the electromagnetic stove comprises a high-frequency induction heating coil, a high-frequency power conversion device, a controller, a ferromagnetic material pot bottom cooker and the like; the embedded electromagnetic stove is embedded and installed on the top surface of a cooking bench for use, related electric equipment of the electromagnetic stove is positioned in a cavity below the top surface of the cooking bench, electric equipment elements of the electromagnetic stove generate high temperature and electric radiation when the electromagnetic stove is used, the cavity below the top surface of the cooking bench has poor air flowability, the heat dissipation effect of the electromagnetic stove is poor, the use performance of the electromagnetic stove is seriously influenced, and safety accidents are easy to happen when the cavity is serious; therefore, the application provides an embedded induction cooker.

SUMMERY OF THE UTILITY MODEL

Objects of the invention

For solving the technical problem who exists among the background art, the utility model provides an embedded induction cooker, the utility model provides an induction cooker explosion-proof nature is good and have good heat dispersion, still conveniently carries out the dismouting.

(II) technical scheme

In order to solve the problems, the utility model provides an embedded induction cooker, which comprises an induction cooker plate, a heat conducting cover, an explosion-proof shell, a heat conducting plate, a first heat radiating plate, a blowing device and a second heat radiating plate;

the end face of the explosion-proof shell is provided with an opening, two groups of side end faces of the explosion-proof shell, which are far away from each other, are respectively provided with a first strip-shaped hole and a second strip-shaped hole, and the peripheral surface of the explosion-proof shell is provided with a flange plate along the circumferential direction thereof for connecting with the top of a cooking bench; the flange plates are arranged end to end;

the electromagnetic stove plate is connected with the flange plate, and the flange plate is pressed by the electromagnetic stove plate towards the end face of the flange plate; the heat-conducting cover is connected with the end face of the electromagnetic stove plate and the end face of the flange plate which are tightly pressed, and the inner end face of the heat-conducting cover and the electromagnetic stove plate form a sealed cabin for installing an electromagnetic wire coil and a main control board;

the heat conducting plate is inserted into the explosion-proof shell from the first strip-shaped hole on one side and is matched with and extends into the first strip-shaped hole on the other side, the heat conducting plate is hermetically connected with the inner walls of the two groups of first strip-shaped holes, and the heat conducting plate presses the heat conducting cover towards the end face of the heat conducting cover;

the first heat dissipation plate is inserted into the explosion-proof shell from a second strip-shaped hole on one side and extends into a second strip-shaped hole on the other side in a matching manner, the first heat dissipation plate is hermetically connected with the inner walls of the two groups of second strip-shaped holes, and a plurality of groups of first through holes are formed in the first heat dissipation plate; an installation bin is defined by the first heat dissipation plate, the heat conduction plate and the inner wall of the explosion-proof shell; the mounting bin is provided with a plurality of groups of air exhaust holes on the explosion-proof shell; an air inlet bin is formed between the end face, far away from the heat conducting plate, of the first heat radiating plate and the inner wall of the explosion-proof shell; the air inlet bin is provided with an air inlet hole on the explosion-proof shell; the air blowing device is arranged in the air inlet bin, and the air inlet end of the air blowing device is connected with the air inlet hole;

the multiple groups of second heat dissipation plates are distributed side by side, the two ends of the multiple groups of second heat dissipation plates are respectively connected with the heat conduction plate and the first heat dissipation plate, and multiple groups of second through holes are formed in each group of second heat dissipation plates.

Preferably, dustproof filter screens are arranged in the air inlet holes and the multiple groups of air exhaust holes.

Preferably, the inner wall of the explosion-proof shell is provided with a noise reduction plate; and the end surface of the noise reduction plate far away from the inner wall of the explosion-proof shell is provided with a radiation-proof layer.

Preferably, the heat conducting plate and the end face pressed by the heat conducting cover are coated with heat conducting silica gel.

Preferably, the end face of the heat conducting plate and the end face of the first heat dissipation plate are flush with the outer end face of the explosion-proof shell.

Preferably, the heat conducting plate, the first heat dissipation plate and the second heat dissipation plate are made of copper alloy materials.

Preferably, the device further comprises a fastening piece; the end face, far away from the electromagnetic oven plate, of the flange plate is provided with a plurality of threaded blind holes;

the plurality of groups of fastening pieces respectively penetrate through the top of the cooking bench and are screwed into the plurality of groups of threaded blind holes through threads.

Preferably, a sealing groove is formed in the end face, away from the electromagnetic oven plate, of the flange plate along the circumferential direction of the explosion-proof shell; a sealing gasket is arranged in the sealing groove; the thickness value of the sealing gasket is larger than the groove depth value of the sealing groove.

Preferably, the projection of the flange plate and the explosion-proof housing are in a shape of Chinese character 'hui'.

Preferably, the flange plate and the explosion proof housing are of a unitary construction.

The above technical scheme of the utility model has following profitable technological effect:

in the utility model, the flange plate is connected with the top of the kitchen range, the electromagnetic kitchen range plate is positioned above the top of the kitchen range, the explosion-proof shell is positioned in the cavity inside the top of the kitchen range, and the heat conducting cover is connected with the electromagnetic kitchen range plate and positioned in the explosion-proof shell; when the induction cooker is used for cooking, high temperature generated by the operation of electric elements such as an electromagnetic wire coil and the like in the heat conducting cover is conducted to the heat conducting plate; heat energy is transferred to the first heat dissipation plate along the plurality of groups of second heat dissipation plates; the blowing device operates to blow external low-temperature air into the explosion-proof shell to dissipate heat of the heat conducting plate, the first heat dissipating plate and the second heat dissipating plate, so as to cool and dissipate heat of the interior of the heat conducting cover; the heat conducting cover and the electromagnetic oven plate enclose a sealed cabin for installing the electromagnetic wire coil and the main control board, so that the influence of external impurities and the like entering the sealed cabin on the operation of the electromagnetic wire coil and the main control board is avoided; the first heat dissipation plate and the heat conduction plate are directly contacted with the outside, so that the heat dissipation efficiency is improved; the explosion-proof shell greatly improves the use safety of the induction cooker;

in the utility model, the noise reduction plate arranged on the inner wall of the explosion-proof shell can effectively reduce the noise generated by the operation of the electromagnetic oven; the radiation protection layer that the board of making an uproar was equipped with of making an uproar can further reduce the electric radiation that the electromagnetism kitchen operation produced and to the injury of user.

Drawings

Fig. 1 is a schematic structural view of an embedded induction cooker provided by the present invention.

Fig. 2 is a schematic diagram of a locally enlarged structure at a position a in an embedded induction cooker.

Fig. 3 is a schematic structural view of the embedded induction cooker with a partially enlarged part B.

Fig. 4 is a left side view of the embedded induction cooker provided by the utility model.

Fig. 5 is a bottom view of the embedded induction cooker provided by the present invention.

Reference numerals: 1. an electromagnetic range plate; 2. a heat conducting cover; 3. an explosion-proof housing; 4. a heat conducting plate; 5. a first heat dissipation plate; 6. a blowing device; 7. an air inlet hole; 8. an air inlet bin; 9. a flange plate; 10. a threaded blind hole; 11. a gasket; 12. a first through hole; 13. a second through hole; 14. a noise reduction plate; 15. a radiation protective layer; 16. heat conducting silica gel; 17. an air exhaust hole; 18. a second heat dissipation plate; 19. sealing the groove.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings. It should be understood that the description is intended to be illustrative only and is not intended to limit the scope of the present invention. Moreover, in the following description, descriptions of well-known structures and techniques are omitted so as to not unnecessarily obscure the concepts of the present invention.

As shown in fig. 1-5, the present invention provides an embedded electromagnetic oven, which comprises an electromagnetic oven plate 1, a heat conducting cover 2, an explosion-proof housing 3, a heat conducting plate 4, a first heat dissipating plate 5, a blowing device 6 and a second heat dissipating plate 18;

the end face of the explosion-proof shell 3 is provided with an opening, two groups of side end faces of the explosion-proof shell 3, which are far away from each other, are respectively provided with a first strip-shaped hole and a second strip-shaped hole, and the peripheral surface of the explosion-proof shell 3 is provided with a flange plate 9 along the circumferential direction thereof for connecting with the top of a cooking bench; the flange plates 9 are arranged end to end;

the induction cooker plate 1 is connected with the flange plate 9, and the end face of the induction cooker plate 1 facing the flange plate 9 presses the flange plate 9; the heat conducting cover 2 is connected with the end face of the electromagnetic stove plate 1 pressed with the flange plate 9, and the inner end face of the heat conducting cover 2 and the electromagnetic stove plate 1 form a sealed cabin for installing an electromagnetic wire coil and a main control board;

further, the heat conducting cover 2 is made of aluminum alloy materials without limitation;

it should be noted that the electromagnetic oven plate 1 is used for placing a pot, and the electromagnetic oven plate 1 is also provided with a display panel; the electromagnetic wire coil is arranged in the heat conducting cover 2 and used for heating the cookware; the display panel and the main control panel control the electromagnetic wire coil; the display panel is opposite to the display area on the electromagnetic oven panel; the electromagnetic wire coil corresponds to a heating area on the electromagnetic oven plate, which is the prior art;

the heat conducting plate 4 is inserted into the explosion-proof shell 3 through the first strip-shaped hole on one side and is matched with and stretches into the first strip-shaped hole on the other side, the heat conducting plate 4 is hermetically connected with the inner walls of the two groups of first strip-shaped holes, and the heat conducting plate 4 presses the heat conducting cover 2 towards the end face of the heat conducting cover 2; the heat conducting plate 4 divides the interior of the explosion-proof shell 3 into an upper storage mounting bin and a lower heat dissipation bin; the heat conducting cover 2 is positioned in the storage installation bin; the first heat dissipation plate 5, the second heat dissipation plate 18 and the air blowing device 6 are positioned in the heat dissipation bin;

the first heat dissipation plate 5 is inserted into the explosion-proof shell 3 from a second strip-shaped hole on one side and is matched with and extends into a second strip-shaped hole on the other side, the first heat dissipation plate 5 is hermetically connected with the inner walls of the two groups of second strip-shaped holes, and a plurality of groups of first through holes 12 are formed in the first heat dissipation plate 5;

an installation bin is enclosed among the first heat dissipation plate 5, the heat conduction plate 4 and the inner wall of the explosion-proof shell 3; the mounting bin is provided with a plurality of groups of air exhaust holes 17 on the explosion-proof shell 3;

an air inlet bin 8 is formed between the end surface of the first heat dissipation plate 5 far away from the heat conduction plate 4 and the inner wall of the explosion-proof shell 3; the air inlet bin 8 is provided with an air inlet hole 7 on the explosion-proof shell 3; the blowing device 6 is arranged in the air inlet bin 8, and the air inlet end of the blowing device 6 is connected with the air inlet hole 7;

the multiple groups of second heat dissipation plates 18 are distributed side by side, two ends of the multiple groups of second heat dissipation plates 18 are respectively connected with the heat conduction plate 4 and the first heat dissipation plate 5, and multiple groups of second through holes 13 are formed in each group of second heat dissipation plates 18.

In the utility model, the flange plate 9 is connected with the top of the kitchen range, the electromagnetic kitchen plate 1 is positioned above the top of the kitchen range, the explosion-proof shell 3 is positioned in the cavity inside the top of the kitchen range, and the heat conducting cover 2 is connected with the electromagnetic kitchen plate 1 and positioned in the explosion-proof shell 3; when an electromagnetic stove is used for cooking, high temperature generated by the operation of electric elements such as an electromagnetic wire coil and the like in the heat conducting cover 2 is conducted to the heat conducting plate 4; heat energy is transferred to the first heat dissipation plate 5 along the plurality of groups of second heat dissipation plates 18; the blowing device 6 operates to blow external low-temperature air into the explosion-proof shell 3 to dissipate heat of the heat-conducting plate 4, the first heat-dissipating plate 5 and the second heat-dissipating plate 18, so as to cool and dissipate heat of the interior of the heat-conducting cover 2; the heat conducting cover 2 and the electromagnetic oven plate 1 enclose a sealed cabin for installing the electromagnetic wire coil and the main control board, so that the electromagnetic wire coil and the main control board are prevented from being influenced by external impurities entering the sealed cabin; the first heat dissipation plate 5 and the heat conduction plate 4 are directly contacted with the outside, so that the heat dissipation efficiency is improved; the safety of using the electromagnetic stove is greatly improved by the arranged explosion-proof shell 3.

In an alternative embodiment, dust-proof filtering nets are respectively arranged in the air inlet holes 7 and the plurality of groups of air outlet holes 17 so as to prevent external impurities and the like from entering the explosion-proof housing 3 through the air inlet holes 7 and the plurality of groups of air outlet holes 17.

In an alternative embodiment, the inner wall of the explosion-proof housing 3 is provided with a noise reduction plate 14; the end surface of the noise reduction plate 14 far away from the inner wall of the explosion-proof shell 3 is provided with a radiation-proof layer 15; the noise reduction plate 14 is arranged to reduce the noise generated by the operation of the induction cooker; the radiation protection layer 15 is arranged to further reduce the harm of the electric radiation generated by the operation of the induction cooker to users.

In an alternative embodiment, the end face of the heat conducting plate 4 pressed against the heat conducting cover 2 is coated with heat conducting silicone 16 to improve the efficiency of heat conduction of the heat conducting cover 2.

In an alternative embodiment, the end surface of the heat conducting plate 4 and the end surface of the first heat radiating plate 5 are flush with the outer end surface of the explosion-proof housing 3, so that the appearance of the explosion-proof housing 3 is improved.

In an alternative embodiment, the heat-conducting plate 4, the first heat-dissipating plate 5 and the second heat-dissipating plate 18 are made of copper alloy.

In an optional embodiment, further comprising a tightening piece; wherein, the end surface of the flange plate 9 far away from the electromagnetic oven plate 1 is provided with a plurality of threaded blind holes 10;

the plurality of groups of fastening pieces respectively penetrate through the top of the cooking bench and are respectively screwed into the plurality of groups of threaded blind holes 10, and the flange plate 9 and the top of the cooking bench are conveniently disassembled and assembled through the arrangement.

In an alternative embodiment, the end face of the flange plate 9 facing away from the cooktop plate 1 is provided with a sealing groove 19 along the circumference of the explosion-proof housing 3; a sealing gasket 11 is arranged in the sealing groove 19; the thickness value of the sealing gasket 11 is larger than the groove depth value of the sealing groove 19, and the end face, facing the hearth surface, of the sealing gasket 11 is pressed on the hearth surface;

further, the plurality of sets of blind threaded holes 10 are located inside the sealing groove 19, thereby improving sealability between the flange plate 9 and the top of the range and preventing water and the like from flowing into the range from a gap between the flange plate 9 and the top of the range.

In an alternative embodiment, the projection of the flange plate 9 and the explosion-proof housing 3 are both in the shape of a Chinese character 'hui'.

In an alternative embodiment, the flange plate 9 and the explosion proof housing 3 are of a unitary construction.

It is to be understood that the above-described embodiments of the present invention are merely illustrative of or explaining the principles of the invention and are not to be construed as limiting the invention. Therefore, any modification, equivalent replacement, improvement and the like made without departing from the spirit and scope of the present invention should be included in the protection scope of the present invention. Further, it is intended that the appended claims cover all such variations and modifications as fall within the scope and boundaries of the appended claims or the equivalents of such scope and boundaries.

Claims

1. An embedded induction cooker is characterized by comprising an induction cooker plate (1), a heat conducting cover (2), an explosion-proof shell (3), a heat conducting plate (4), a first heat radiating plate (5), a blowing device (6) and a second heat radiating plate (18);

the end face of the explosion-proof shell (3) is provided with an opening, two groups of side end faces, which are far away from each other, of the explosion-proof shell (3) are respectively provided with a first strip-shaped hole and a second strip-shaped hole, and the peripheral surface of the explosion-proof shell (3) is provided with a flange plate (9) which is used for being connected with the top of a cooking bench along the circumferential direction; the flange plates (9) are arranged end to end;

the electromagnetic stove plate (1) is connected with the flange plate (9), and the flange plate (9) is pressed by the electromagnetic stove plate (1) towards the end face of the flange plate (9); the heat-conducting cover (2) is connected with the end face of the electromagnetic stove plate (1) and the end face of the flange plate, which are tightly pressed, and the inner end face of the heat-conducting cover (2) and the electromagnetic stove plate (1) form a sealed cabin for installing an electromagnetic wire coil and a main control board;

the heat-conducting plate (4) is inserted into the explosion-proof shell (3) through the first strip-shaped hole on one side and is matched with and stretches into the first strip-shaped hole on the other side, the heat-conducting plate (4) is hermetically connected with the inner walls of the two groups of first strip-shaped holes, and the heat-conducting plate (4) presses the heat-conducting cover (2) towards the end face of the heat-conducting cover (2);

the first heat dissipation plate (5) is inserted into the explosion-proof shell (3) from a second strip-shaped hole on one side and is matched with and extends into a second strip-shaped hole on the other side, the first heat dissipation plate (5) is hermetically connected with the inner walls of the two groups of second strip-shaped holes, and a plurality of groups of first through holes (12) are formed in the first heat dissipation plate (5); an installation bin is enclosed among the first heat dissipation plate (5), the heat conduction plate (4) and the inner wall of the explosion-proof shell (3); the installation bin is provided with a plurality of groups of air exhaust holes (17) on the explosion-proof shell (3); an air inlet bin (8) is formed between the end face, far away from the heat conducting plate (4), of the first heat radiating plate (5) and the inner wall of the explosion-proof shell (3); the air inlet bin (8) is provided with an air inlet hole (7) on the explosion-proof shell (3); the blowing device (6) is arranged in the air inlet bin (8), and the air inlet end of the blowing device (6) is connected with the air inlet hole (7);

the multiple groups of second heat dissipation plates (18) are distributed side by side, two ends of the multiple groups of second heat dissipation plates (18) are respectively connected with the heat conduction plate (4) and the first heat dissipation plate (5), and multiple groups of second through holes (13) are formed in each group of second heat dissipation plates (18).

2. The embedded induction cooker according to claim 1, wherein dust-proof filtering nets are arranged in the air inlet holes (7) and the plurality of groups of air outlet holes (17).

3. The built-in induction cooker according to claim 1, characterized in that the inner wall of the explosion-proof housing (3) is provided with a noise reduction plate (14); and the end surface of the noise reduction plate (14) far away from the inner wall of the explosion-proof shell (3) is provided with a radiation-proof layer (15).

4. The induction cooker according to claim 1, wherein the end surface of the heat conducting plate (4) pressed against the heat conducting cover (2) is coated with heat conducting silica gel (16).

5. The induction cooker according to claim 1, wherein the end surface of the heat-conducting plate (4) and the end surface of the first heat-radiating plate (5) are flush with the outer end surface of the explosion-proof housing (3).

6. The induction cooker according to claim 1, wherein the heat conducting plate (4), the first heat dissipating plate (5) and the second heat dissipating plate (18) are made of copper alloy.

7. The induction cooker according to claim 1, further comprising a fastening member; wherein, the end surface of the flange plate (9) far away from the electromagnetic oven plate (1) is provided with a plurality of threaded blind holes (10);

the plurality of groups of fastening pieces respectively penetrate through the top of the cooking bench and are respectively screwed into the plurality of groups of threaded blind holes (10).

8. A built-in induction cooker according to claim 7, characterized in that the flange plate (9) is provided with a sealing groove (19) on the end face away from the induction cooker plate (1) along the circumference of the explosion-proof housing (3); a sealing gasket (11) is arranged in the sealing groove (19); the thickness value of the sealing gasket (11) is larger than the groove depth value of the sealing groove (19).

9. A built-in induction cooker according to claim 1, characterized in that the projection of the flange plate (9) and the explosion-proof housing (3) are both of a shape of Chinese character 'hui'.

10. A built-in induction cooker according to claim 1, characterized in that the flange plate (9) and the explosion-proof housing (3) are of one-piece construction.