CN219414896U - High-power electric ceramic stove with good heat dissipation - Google Patents

Abstract

The utility model discloses a high-power electric ceramic furnace with good heat dissipation, which relates to the technical field of electric ceramic furnaces and comprises a base component, wherein a heat dissipation component is arranged at the middle position inside the base component, an electric heating body is arranged at the middle position inside the heat dissipation component, the top of the base component is connected with a top cover component in a clamping way, the heat dissipation component comprises a heat dissipation seat, an inner column groove and an outer ring groove are formed in the top of the heat dissipation seat, most of heat generated by the electric heating body is isolated in the inner column groove through a first heat insulation layer, for example, a small part of heat enters the outer ring groove, a second heat insulation layer isolates a small amount of heat in the outer ring groove, and the heat is prevented from entering a gap between the base component and the heat dissipation component, so that electronic elements are prevented from being damaged by high temperature for a long time, the temperature in the outer ring groove is monitored in real time through two groups of temperature sensors, when the temperature is too high, one group of fans guides external low-temperature air flow into the outer ring groove, and the other group of fans guides high-temperature air flow into the outside environment, and the cooling is further accelerated.

Description

High-power electric ceramic stove with good heat dissipation

Technical Field

The utility model relates to the technical field of electric ceramic furnaces, in particular to a high-power electric ceramic furnace with good heat dissipation.

Background

The electric ceramic stove is used as a household heating stove, is popular among a wide range of people, and mainly comprises a glass ceramic panel and a heating stove plate positioned at the lower part of the glass ceramic panel, wherein heating stove wires are arranged inside the heating stove plate. When the heating furnace wire works, the temperature is high, the microcrystalline glass has good heat transfer unidirectional property, and the microcrystalline glass is transferred perpendicular to the plane of the glass, so that a large amount of heat can be transferred to a cooker on the microcrystalline glass. Meanwhile, part of heat energy can pass through the bottom of the heating furnace plate and is transmitted to the inner space of the electroceramic stove, and the heat dissipation efficiency is lower only by the heat dissipation holes arranged on the side face of the base, so that electronic elements in the electroceramic stove are easy to damage in a long-time high-temperature environment, the service life of the electroceramic stove is reduced, and therefore, the electroceramic stove with high power and good heat dissipation is provided.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides the electric ceramic furnace with good high-power heat dissipation, which solves the problems that a part of heat energy can be transmitted to the inner space of the electric ceramic furnace through the bottom of the heating furnace plate, the heat dissipation efficiency is lower only by virtue of the heat dissipation holes arranged on the side surface of the base, and further, electronic elements in the electric ceramic furnace are easy to damage in a long-time high-temperature environment, and the service life of the electric ceramic furnace is reduced.

In order to achieve the above purpose, the utility model is realized by the following technical scheme: the electric ceramic furnace comprises a base component, wherein a heat dissipation component is arranged in the middle of the inside of the base component, an electric heating body is arranged in the middle of the inside of the heat dissipation component, and the top of the base component is connected with a top cover component in a clamping manner;

the heat dissipation assembly comprises a heat dissipation seat, an inner column groove and an outer ring groove are formed in the top of the heat dissipation seat, the electric heating body is located in the inner column groove, a first heat insulation layer and a second heat insulation layer are respectively arranged on the inner ring surface and the outer ring surface of the outer ring groove, two groups of connecting frames are respectively connected to the two ends of the heat dissipation seat, the two groups of connecting frames and the outer ring groove are of a communication structure, fans are all installed in the connecting frames, filter screens are all installed at the ports of the connecting frames, and two groups of temperature sensors are installed in the inner part of the outer ring groove.

As a further technical scheme of the utility model, a plurality of groups of first fixing plates and a plurality of groups of second fixing plates are arranged in the outer ring groove at equal intervals in a circumferential manner, the first heat insulation layer is positioned between the inner ring surface of the outer ring groove and the plurality of groups of first fixing plates, and the second heat insulation layer is positioned between the outer ring surface of the outer ring groove and the plurality of groups of second fixing plates.

As a further technical scheme of the utility model, the base assembly comprises a base, an electronic element is arranged at the inner corner of the base, a power plug and a controller are connected to the outer part of the base, two groups of notch grooves are symmetrically formed in the two sides of the base, a plurality of groups of heat dissipation grooves are formed in the two sides of the base and are positioned outside the two groups of notch grooves at equal intervals, and clamping grooves are formed in the front side face and the rear side face of the top of the base.

As a further technical scheme of the utility model, the electronic element is positioned between the base and the radiating seat, and the two groups of connecting frames are respectively positioned in the two groups of notch grooves.

As a further technical scheme of the utility model, the top cover assembly comprises a panel, a heating plate is arranged at the top of the panel and is positioned right above the electric heating body in a penetrating manner, and two groups of elastic clamping plates and two groups of limiting plates are symmetrically arranged at the bottom end of the panel.

As a further technical scheme of the utility model, the panel is positioned at the top end of the base, the bottom clamping ends of each group of elastic clamping plates are respectively positioned in each group of clamping grooves, and the inner side surfaces of the two groups of limiting plates are attached to the outer side surface of the base.

Advantageous effects

The utility model provides a high-power electric ceramic furnace with good heat dissipation. Compared with the prior art, the method has the following beneficial effects:

1. the utility model provides a high-power good electric ceramic stove that dispels heat, through the heat isolation of the major part that will electric heat-generating body produce in the inner column groove through first insulating layer, if in little part heat gets into outer annular inslot, then the second insulating layer is isolated a small amount of heat in outer annular inslot, avoid getting into in the clearance of base subassembly and radiator unit, thereby avoid long-time high temperature damage electronic component, carry out real time monitoring through two sets of temperature sensor to outer annular inslot temperature, when the high temperature, a set of fan is with the outside low temperature air current leading-in outer annular, another set of fan is with the outside with the high temperature air current leading-in outer annular, and then accelerate the cooling.

2. The utility model provides a high-power good electric ceramic stove that dispels heat, through the bottom block end with two sets of elastic clamping plates is through pressing the block into the inside of two sets of draw-in grooves to inject the position of panel through two sets of limiting plates, and then base subassembly and top cap subassembly form the block and connect, be convenient for dismouting and follow-up maintenance.

Drawings

FIG. 1 is a schematic diagram of a high-power electric ceramic furnace with good heat dissipation;

FIG. 2 is a schematic diagram of a split structure of a high-power electric ceramic furnace with good heat dissipation;

FIG. 3 is a schematic structural view of a base assembly in a high-power electric ceramic furnace with good heat dissipation;

FIG. 4 is a schematic structural view of a heat dissipating component in a high-power electric ceramic furnace with good heat dissipation;

FIG. 5 is a top view of a heat dissipating assembly in a high power electric ceramic stove with good heat dissipation;

FIG. 6 is a schematic structural view of a top cover assembly in a high-power ceramic stove with good heat dissipation.

In the figure: 1. a base assembly; 11. a base; 12. an electronic component; 13. a power plug; 14. a controller; 15. a notch groove; 16. a heat sink; 17. a clamping groove; 2. a heat dissipation assembly; 21. a heat dissipation seat; 22. an inner column groove; 23. an outer ring groove; 24. a first insulating layer; 25. a second insulating layer; 26. a connection frame; 27. a fan; 28. a filter screen; 29. a temperature sensor; 210. a first fixing plate; 211. a second fixing plate; 3. an electric heating element; 4. a top cover assembly; 41. a panel; 42. a heating plate; 43. an elastic clamping plate; 44. and a limiting plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-2, the utility model provides a technical scheme of a high-power electric ceramic furnace with good heat dissipation: the utility model provides a high-power good electricity pottery stove that dispels heat, includes base subassembly 1, and radiating subassembly 2 is installed to the inside intermediate position of base subassembly 1, and electric heat-generating body 3 is installed to radiating subassembly 2's inside intermediate position, and the top block of base subassembly 1 is connected with top cap subassembly 4.

The electric heating element 3 is a known technique in the art, and generates heat.

Referring to fig. 4-5, the heat dissipation assembly 2 includes a heat dissipation seat 21, an inner column groove 22 and an outer ring groove 23 are formed at the top of the heat dissipation seat 21, the electric heating element 3 is located inside the inner column groove 22, a first heat insulation layer 24 and a second heat insulation layer 25 are respectively disposed on an inner ring surface and an outer ring surface of the outer ring groove 23, two groups of connecting frames 26 are respectively connected at two ends of the heat dissipation seat 21, the two groups of connecting frames 26 and the outer ring groove 23 are in a communication structure, a fan 27 is mounted inside each group of connecting frames 26, a filter screen 28 is mounted at a port of each group of connecting frames 26, two groups of temperature sensors 29 are mounted inside the outer ring groove 23, a plurality of groups of first fixing plates 210 and a plurality of groups of second fixing plates 211 are uniformly spaced inside the outer ring groove 23 and are circumferentially disposed between the inner ring surface of the outer ring groove 23 and the plurality of groups of first fixing plates 210, and the second heat insulation layer 25 is disposed between the outer ring surface of the outer ring groove 23 and the plurality of groups of second fixing plates 211.

It should be noted that, the first heat insulating layer 24 and the second heat insulating layer 25 are made of heat insulating cotton materials, the electric heating body 3 is located in the inner column groove 22, and then most of heat generated by the electric heating body 3 is isolated in the inner column groove 22 through the first heat insulating layer 24, for example, a small amount of heat enters the outer ring groove 23, then the second heat insulating layer 25 isolates a small amount of heat in the outer ring groove 23, and avoids entering a gap between the base assembly 1 and the heat dissipating assembly 2, thereby avoiding damaging the electronic component 12 at high temperature for a long time, and the temperature in the outer ring groove 23 is monitored in real time through the two sets of temperature sensors 29.

Referring to fig. 3, the base assembly 1 includes a base 11, an electronic component 12 is mounted at an inner corner of the base 11, a power plug 13 and a controller 14 are connected to an outer portion of the base 11, two groups of notch grooves 15 are symmetrically formed on two sides of the base 11, a plurality of groups of heat dissipation grooves 16 are formed on two sides of the base 11 and located at outer portions of the two groups of notch grooves 15 at equal intervals, clamping grooves 17 are formed on front and rear sides of a top of the base 11, the electronic component 12 is located between the base 11 and the heat dissipation base 21, and two groups of connecting frames 26 are located inside the two groups of notch grooves 15 respectively.

It should be noted that, heat generated by the operation of the electronic component 12 is dissipated through the plurality of sets of heat dissipation grooves 16.

Referring to fig. 6, the top cover assembly 4 includes a panel 41, a heating plate 42 is disposed on top of the panel 41 and located right above the electric heating body 3, two sets of elastic clamping plates 43 and two sets of limiting plates 44 are symmetrically disposed at bottom ends of the panel 41, the panel 41 is located at top ends of the base 11, bottom clamping ends of each set of elastic clamping plates 43 are respectively located inside each set of clamping grooves 17, and inner side surfaces of the two sets of limiting plates 44 are attached to outer side surfaces of the base 11.

It should be noted that, the bottom clamping ends of the two groups of elastic clamping plates 43 are pressed and clamped into the two groups of clamping grooves 17, and the positions of the panels 41 are limited by the two groups of limiting plates 44, so that the base assembly 1 and the top cover assembly 4 form clamping connection, and the assembly, disassembly and subsequent maintenance are facilitated.

The working principle of the utility model is as follows: when the heat-insulating device is used, firstly, the electric heating body 3 is positioned in the inner column groove 22, and then, most of heat generated by the electric heating body 3 is isolated in the inner column groove 22 through the first heat-insulating layer 24, if a small amount of heat enters the outer ring groove 23, the second heat-insulating layer 25 isolates a small amount of heat in the outer ring groove 23, and the heat is prevented from entering a gap between the base assembly 1 and the heat-radiating assembly 2, so that the electronic element 12 is prevented from being damaged by long-time high temperature, the temperature in the outer ring groove 23 is monitored in real time through the two groups of temperature sensors 29, when the temperature is too high, one group of fans 27 guides external low-temperature air flow into the outer ring groove 23, and the other group of fans 27 guides high-temperature air flow in the outer ring groove 23 into the outside, so that cooling is quickened;

the bottom clamping ends of the two groups of elastic clamping plates 43 are pressed and clamped into the two groups of clamping grooves 17, the positions of the panels 41 are limited through the two groups of limiting plates 44, and then the base assembly 1 and the top cover assembly 4 form clamping connection, so that the assembly and disassembly and the subsequent overhaul are facilitated.

Claims (6)

1. The electric ceramic furnace with high power and good heat dissipation is characterized by comprising a base component (1), wherein a heat dissipation component (2) is arranged at the middle position inside the base component (1), an electric heating body (3) is arranged at the middle position inside the heat dissipation component (2), and a top cover component (4) is connected with the top of the base component (1) in a clamping way;

the heat dissipation assembly (2) comprises a heat dissipation seat (21), an inner column groove (22) and an outer ring groove (23) are formed in the top of the heat dissipation seat (21), the electric heating element (3) is located inside the inner column groove (22), a first heat insulation layer (24) and a second heat insulation layer (25) are respectively arranged on the inner ring surface and the outer ring surface of the outer ring groove (23), two groups of connecting frames (26) are respectively connected to the two ends of the heat dissipation seat (21), the two groups of connecting frames (26) and the outer ring groove (23) are of a communication structure, fans (27) are respectively arranged in the connecting frames (26), a filter screen (28) is respectively arranged at the port of each connecting frame (26), and two groups of temperature sensors (29) are arranged in the inner part of the outer ring groove (23).

2. The electric ceramic furnace with good high-power heat dissipation according to claim 1, wherein a plurality of groups of first fixing plates (210) and a plurality of groups of second fixing plates (211) are arranged in the outer ring groove (23) at equal intervals in a circumferential shape, the first heat insulation layer (24) is positioned between the inner ring surface of the outer ring groove (23) and the plurality of groups of first fixing plates (210), and the second heat insulation layer (25) is positioned between the outer ring surface of the outer ring groove (23) and the plurality of groups of second fixing plates (211).

3. The electric ceramic furnace with high power and good heat dissipation according to claim 1, characterized in that the base component (1) comprises a base (11), an electronic element (12) is installed at an inner corner of the base (11), a power plug (13) and a controller (14) are connected to the outside of the base (11), two groups of notch grooves (15) are symmetrically formed in two sides of the base (11), multiple groups of heat dissipation grooves (16) are formed in two sides of the base (11) and located outside of the two groups of notch grooves (15) at equal intervals, and clamping grooves (17) are formed in the front side face and the rear side face of the top of the base (11).

4. A high-power and well-radiating electroceramic stove according to claim 3, characterized in that the electronic component (12) is located between the base (11) and the radiating base (21), and the two groups of connecting frames (26) are respectively located inside the two groups of notch grooves (15).

5. The high-power electric ceramic furnace with good heat dissipation according to claim 1, wherein the top cover assembly (4) comprises a panel (41), a heating plate (42) is arranged at the top of the panel (41) and located right above the electric heating body (3) in a penetrating manner, and two groups of elastic clamping plates (43) and two groups of limiting plates (44) are symmetrically arranged at the bottom end of the panel (41).

6. The electric ceramic stove with good high-power heat dissipation according to claim 5, wherein the panel (41) is located at the top end of the base (11), the bottom clamping ends of each group of elastic clamping plates (43) are respectively located in the clamping grooves (17) of each group, and the inner side surfaces of the two groups of limiting plates (44) are attached to the outer side surface of the base (11).