CN220648342U - Electric appliance radiating heat through convection fan - Google Patents

Abstract

The utility model discloses an electric appliance radiating through a convection fan, which comprises an induction cooker main body, wherein the induction cooker main body comprises an outer shell and a working assembly, the outer shell comprises an upper shell and a lower shell, the upper shell is covered on the lower shell, and the electric appliance radiating through the convection fan is characterized in that the working assembly comprises a fan assembly, an installation groove is formed in the lower shell, a first fan installation position is formed in the inner lower side of the installation groove, a second fan installation position is formed in the inner upper side of the installation groove, the fan assembly comprises a first convection fan and a second convection fan, the first convection fan is installed in the first fan installation position, and the second convection fan is installed in the second fan installation position.

Description

Electric appliance radiating heat through convection fan

Technical Field

The utility model belongs to the technical field of electric appliances, and particularly relates to an electric appliance radiating heat through a convection fan.

Background

An electromagnetic oven is a kitchen household appliance which converts electric energy into heat energy by utilizing an electromagnetic induction principle, and is widely applied to the process of cooking and heating food. Conventional induction cookers typically use heat sinks or fans to dissipate heat to maintain the temperature of the oven within a safe range.

However, under the conditions of high power or long-time use, the heat dissipation mode of the traditional induction cooker generally cannot effectively and rapidly dissipate heat due to the fact that a large amount of heat is generated in the working process of the induction cooker, so that the temperature of the cooker body is too high. This not only affects the performance and lifetime of the induction cooker, but may also lead to malfunction or even damage of the equipment.

High power induction cookers generate a great deal of heat when operated for long periods of time. Conventional heat dissipation methods generally employ a fin or aluminum heat sink to conduct heat, but such methods have limited heat dissipation efficiency. The heat sink or heat spreader has a limited heat dissipation area and is not capable of rapidly and efficiently dissipating heat to the surrounding environment. Therefore, in the high-power induction cooker, the temperature of the cooker body can be increased after long-time use, and the use safety and the stability of equipment are affected.

Disclosure of Invention

The utility model aims to solve the technical problems in the background art by providing an electric appliance which can realize the effect of rapid heat dissipation by entering convection through double fans and dissipates heat through the convection fans.

In order to achieve the above purpose, the present utility model provides the technical scheme: the utility model provides an electric appliance radiating through convection fan, it includes the electromagnetism stove main part, this electromagnetism stove main part includes shell body and work subassembly, this shell body includes casing and lower casing, this upper casing lid is established on this lower casing, its characterized in that, this work subassembly includes the fan subassembly, the mounting groove has been seted up to this lower casing inside, the downside is equipped with first fan installation position in this mounting groove, the upside is equipped with the second fan installation position in this mounting groove, this fan subassembly includes first convection fan and second convection fan, this first convection fan is installed in this first fan installation position, this second convection fan is installed in this second fan installation position.

Further, the work assembly further comprises an electric heating module, a plurality of electric heating installation columns are convexly arranged on the inner side of the installation groove, an electric heating installation position is formed by surrounding the electric heating installation columns, a plurality of connecting lugs are arranged on the edge of the electric heating module, the connecting lugs respectively correspond to the electric heating installation columns one to one, the electric heating module is arranged in the electric heating installation position, and meanwhile, the connecting lugs are respectively arranged on the electric heating installation columns and are fixedly connected through screws.

Further, the work assembly further comprises a control template, a plurality of template mounting columns are convexly arranged on the lower side in the mounting groove, the control template is arranged on the plurality of template mounting columns, a plurality of connection perforations are formed in the surface of the control template, the plurality of connection perforations correspond to the plurality of template mounting columns one by one, and the control template is fixedly connected through penetrating screws.

Further, the control template is electrically connected with the electric heating module.

Further, the control module is electrically connected to the first convection fan and the second convection fan, respectively.

Further, the bottoms of the first fan installation position and the second fan installation position are provided with heat dissipation holes.

The utility model has the following advantages: the electric appliance capable of radiating heat through the convection fans enters convection through the double fans, so that the effect of rapid heat radiation can be achieved, and the electric appliance is convenient to use.

Drawings

Fig. 1 is a schematic view of the internal structure of the induction cooker main body of the utility model.

Fig. 2 is a schematic exploded view of the present utility model.

Reference numerals: an induction cooker main body 1; an outer case 10; a working assembly 20; an upper case 11; a lower housing 12; an electric heating module 21; a control template 22; a fan assembly 23; a mounting groove 121; an electrothermal mounting post 122; an electrothermal mounting location 123; a connecting lug 211; a template mounting post 124; the connection perforation 221; a first fan mounting location 125; a second fan mounting location 126; a first convection fan 231; a second convection fan 232; heat dissipation aperture 127.

Detailed Description

As shown in fig. 1 to 2, an electric appliance for radiating heat by a convection fan includes an induction cooker main body 1, the induction cooker main body 1 including an outer case 10 and a working assembly 20, the outer case 10 including an upper case 11 and a lower case 12, the working assembly 20 being installed in the lower case 12, the upper case 11 being covered on the lower case 12 and being fixed by screw connection.

The working assembly 20 includes an electric heating module 21, a control module 22 and a fan assembly 23, wherein a mounting groove 121 is formed in the lower housing 12, and the electric heating module 21, the control module 22 and the fan assembly 23 are respectively mounted in the mounting groove 121 and are fixed by screw connection.

The inside of the installation groove 121 is convexly provided with a plurality of electric heating installation columns 122, a plurality of electric heating installation columns 122 surround to form an electric heating installation position 123, the edge of the electric heating module 21 is provided with a plurality of connection lugs 211, the connection lugs 211 respectively correspond to the electric heating installation columns 122 one by one, during installation, the electric heating module 21 is arranged in the electric heating installation position 123, and simultaneously, the connection lugs 211 are respectively arranged on the electric heating installation columns 122 and are fixedly connected through screws, so that the electric heating module 21 is fixedly installed in the lower shell 12, and the installation is simple and convenient.

The lower side in the installation groove 121 is convexly provided with a plurality of template installation columns 124, the control template 22 is arranged on a plurality of the template installation columns 124, a plurality of connection perforations 221 are formed on the surface of the control template 22, the plurality of connection perforations 221 are in one-to-one correspondence with the plurality of the template installation columns 124, and are fixedly connected through penetrating screws, so that the control template 22 is fixedly installed in the lower shell 12, and the installation is simple and convenient.

The control template 22 is electrically connected with the electrothermal module 21, and when in use, the electrothermal module 21 is driven to generate heat by the control template 22 to work.

The lower side in the installation groove 121 is provided with a first fan installation position 125, the upper side in the installation groove 121 is provided with a second fan installation position 126, the fan assembly 23 comprises a first convection fan 231 and a second convection fan 232, wherein the first convection fan 231 is installed in the first fan installation position 125, and the second convection fan 232 is installed in the second fan installation position 126 and is fixed by screw connection.

The bottoms of the first fan mounting position 125 and the second fan mounting position 126 are provided with heat dissipation holes 127, and when in use, heat is discharged through the heat dissipation holes 127.

The control module 22 is electrically connected to the first convection fan 231 and the second convection fan 232, respectively, and in use, the first convection fan 231 and the second convection fan 232 are driven to rotate by the control module 22 to operate.

When the electric heating module 21, the first convection fan 231 and the second convection fan 232 are driven to be electrified through the control template 22, the electric heating module 21 is electrified to generate heat, the first convection fan 231 and the second convection fan 232 are electrified to rotate, and the first convection fan 231 and the second convection fan 232 are matched in a mutual convection manner, so that heat can be rapidly discharged through the heat dissipation opening 127, a rapid heat dissipation effect is achieved, and the electric heating module is convenient to use.

In summary, the lower housing 12 is provided with the mounting groove 121, the lower side in the mounting groove 121 is provided with the first fan mounting position 125, the upper side in the mounting groove 121 is provided with the second fan mounting position 126, the fan assembly 23 comprises the first convection fan 231 and the second convection fan 232, the first convection fan 231 is mounted in the first fan mounting position 125, the second convection fan 232 is mounted in the second fan mounting position 126, and the electric appliance radiating heat through the convection fans enters convection through the double fans, thereby realizing the effect of rapid heat radiation and being convenient to use.

Claims (6)

1. An electric appliance radiating heat through a convection fan comprises an induction cooker main body (1), wherein the induction cooker main body (1) comprises an outer shell (10) and a working assembly (20), the outer shell (10) comprises an upper shell (11) and a lower shell (12), and the upper shell (11) is covered on the lower shell (12), and is characterized in that the working assembly (20) comprises a fan assembly (23), a mounting groove (121) is formed in the inner part of the lower shell (12), a first fan mounting position (125) is formed in the inner lower side of the mounting groove (121), a second fan mounting position (126) is formed in the inner upper side of the mounting groove (121), the fan assembly (23) comprises a first convection fan (231) and a second convection fan (232), the first convection fan (231) is mounted in the first fan mounting position (125), and the second convection fan (232) is mounted in the second fan mounting position (126).

2. The electric appliance radiating by a convection fan according to claim 1, wherein the working assembly (20) further comprises an electric heating module (21), a plurality of electric heating installation posts (122) are convexly arranged on the inner side of the installation groove (121), a plurality of electric heating installation positions (123) are formed around the electric heating installation posts (122), a plurality of connecting through lugs (211) are arranged on the edge of the electric heating module (21), the connecting through lugs (211) are respectively in one-to-one correspondence with the electric heating installation posts (122), the electric heating module (21) is arranged in the electric heating installation positions (123), and meanwhile, the connecting through lugs (211) are respectively arranged on the electric heating installation posts (122) and are fixedly connected through penetrating screws.

3. The electric appliance radiating by the convection fan according to claim 2, wherein the working assembly (20) further comprises a control template (22), a plurality of template mounting columns (124) are convexly arranged at the inner lower side of the mounting groove (121), the control template (22) is arranged on the plurality of template mounting columns (124), a plurality of connecting perforations (221) are formed on the surface of the control template (22), and the plurality of connecting perforations (221) are in one-to-one correspondence with the plurality of template mounting columns (124) and are fixedly connected by penetrating screws.

4. An appliance for dissipating heat by means of a convection fan according to claim 3, characterized in that the control module (22) is electrically connected to the electric heating module (21).

5. An appliance for dissipating heat by means of convection fans according to claim 3, characterized in that the control module (22) is electrically connected between the first convection fan (231) and the second convection fan (232), respectively.

6. The electric appliance radiating heat by the convection fan according to claim 1, wherein the first fan mounting location (125) and the second fan mounting location (126) are provided with heat radiating openings (127) at the bottoms thereof.