CN110645618A - Heating module, heating module and electric radiator - Google Patents

Abstract

The invention discloses a heating module, a heating module and an electric radiator, which comprises a heating body and a radiator, wherein the heating body is provided with a conductive end; two oppositely disposed fins: the heating body is arranged in the accommodating channel, and the outer side wall of the heating body is tightly attached to the inner wall of the accommodating channel; the plug is arranged on the outer side of the radiating fin, electrically connected with the conductive end of the heating body and used for connecting a power plug to get electricity. The heating module, the heating module and the electric radiator are low in heating temperature, high in safety, high in heat dissipation speed, high in heat dissipation efficiency, low in energy consumption, energy-saving and environment-friendly.

Description

Heating module, heating module and electric radiator

Technical Field

The invention relates to the technical field of heating and ventilation equipment, in particular to a heating module, a heating module and an electric radiator.

Background

The electric radiator is also called an electric heater, is heating equipment mainly for heating, is mainly used in cold northern areas in winter, and has the function of keeping indoor heat. The electric heating piece in the prior art generally comprises a shell and an electric heating pipe arranged in the shell, wherein the electric heating pipe is provided with a radiating fin, and heat generated by heating the electric heating pipe is radiated to heat indoors through the radiating fin. For example, the patent application with the name of an electric radiator sheet and the publication number of CN206459250U of the national intellectual property office structurally comprises a shell, a plurality of strip-shaped CNT heaters which are arranged in the shell in parallel and radiating aluminum sheets which are wrapped outside adjacent CNT heaters and are arranged on the inner side of the shell, wherein electric wires connected with a power supply are arranged at the two opposite ends of the plurality of strip-shaped CNT heaters. The CNT heater of the electric radiator with the structure is an electric heating pipe, the heat-radiating aluminum sheet on the outer side wall of the electric radiator is used for radiating heat generated by the CNT heater, the contact area between the heat-radiating aluminum sheet and the CNT heater is small, so that the heat-radiating speed is low, the heating temperature of the CNT heater needs to be increased for ensuring the heat-radiating speed, and the highest heating temperature of the CNT heater can reach 250 ℃, so that the electric radiator has high power consumption and high energy consumption, the surface temperature of the electric radiator is high, safety accidents such as scalding and fire disasters and the like easily occur, the defects of electric wire aging and the like are caused, oxygen deficiency nearby the electric radiator can be caused, and the indoor air quality is influenced; in addition, the CNT heater of the electric radiator is of a series structure, and when one CNT heater is damaged, the work of the whole electric radiator is influenced; this electric heater piece can not carry out the dismouting to single heater and change, must change all CNT heaters simultaneously, and change the operation and need special technical staff just operable, therefore the maintenance and the maintenance in later stage are inconvenient, and the product equipment is also more troublesome.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provide the heating module which is low in heating temperature, high in safety, high in heat dissipation speed, high in heat dissipation efficiency, low in energy consumption, energy-saving and environment-friendly.

The technical solution of the present invention is to provide a heating module having the following structure: it comprises

A heating element having a conductive end;

two oppositely disposed fins: the heating body is arranged in the accommodating channel, and the outer side wall of the heating body is tightly attached to the inner wall of the accommodating channel;

the plug is arranged on the outer side of the radiating fin, electrically connected with the conductive end of the heating body and used for connecting a power plug to get electricity.

Preferably, the heat sink further comprises an outer frame, the outer frame is covered on the outer side walls of the two heat sinks, and the plug connector is arranged on the outer side wall of the outer frame.

Preferably, the accommodating grooves on the first radiating fin and the second radiating fin are roundabout accommodating grooves which are symmetrically arranged, the accommodating grooves are uniformly distributed on the first radiating fin and the second radiating fin, and the heating body is a roundabout heating body of which the shape is matched with that of the accommodating grooves.

Preferably, a plurality of convex or concave radiating parts are distributed on the outer side walls of the two radiating fins.

After adopting the structure, compared with the prior art, the heating module has the following advantages: firstly, the heating module is characterized in that the heating body is arranged between a first cooling fin and a second cooling fin of two opposite cooling fins, accommodating grooves on the first cooling fin and the second cooling fin are combined to form an accommodating channel for accommodating the heating body, the outer side wall of the heating body is tightly attached to the inner wall of the accommodating channel, so that the contact area between the heating body and the two cooling fins is increased, and the cooling fins can quickly dissipate heat generated by the heating body. Secondly, the containing grooves on the two radiating fins are circuitous containing grooves, the accommodating channel formed by the containing grooves on the two radiating fins is also a circuitous accommodating channel, and the heating body is also a circuitous heating body matched with the circuitous accommodating channel; the heating bodies are uniformly distributed on the first radiating fin and the second radiating fin; therefore, the heat dissipation speed and the heat dissipation efficiency of the heating module are further improved. Moreover, the plug-in connector connected with the heating element on the heating module can be conveniently connected with a power plug to get electricity; the arrangement of the convex or concave radiating parts on the two radiating fins increases the radiating area of the heating module, and further improves the radiating speed and radiating efficiency; the outer frame that sets up on the lateral wall of two fin makes this module that generates heat be holistic modularized design, the later stage maintenance and the change of being convenient for.

Another technical solution of the present invention is to provide a heating module having the following structure: the heating device comprises a support frame, wherein the support frame is provided with at least two vertical plates which are oppositely arranged, at least one group of slots which are opposite in opening and extend along the length direction of the vertical plates are arranged on two opposite inner side walls of every two adjacent vertical plates, a heating module is inserted in each group of slots, and the heating module is the heating module.

Preferably, the heating module further comprises sockets in one-to-one correspondence with the heating modules, the sockets are correspondingly arranged on the support frame below each group of slots, and when the heating modules are inserted into the slots, the plug connectors on the heating modules are inserted into the sockets corresponding to the heating modules to obtain electricity.

After adopting the structure, compared with the prior art, the heating module provided by the invention has the following advantages: firstly, the module that generates heat of this module that generates heat can peg graft in the slot between the adjacent riser of support frame to accomplish the equipment of the module that generates heat, the installation of the module that generates heat need not with the help of hand tool, thereby makes the packaging efficiency of this module that generates heat high, simple to operate, laborsaving. Secondly, this module that generates heat still is provided with the socket that supplies the bayonet joint grafting of every module that generates heat to get the electricity, also when the module that generates heat is pegged graft in the slot, the bayonet joint on the module that generates heat is pegged graft with the corresponding socket of the module that generates heat, consequently need not reuse wire connection and gets the electricity, like this when changing the module that generates heat, only need take off the module that generates heat that damages, peg graft into the slot with new module that generates heat and make bayonet joint and socket can, the installation is very convenient, simple, and the installation effectiveness is high. Moreover, because the circuits among the heating modules are in parallel connection, a user can set the control circuit to control any one or any plurality of heating modules to work, and can select the working quantity of the heating modules and select the heating modules at which positions to work according to the indoor temperature requirement, so that the purposes of energy conservation and environmental protection are achieved. In addition, the number of the heating modules can be selected according to the user requirements or the size of a room, or the size of the heating module is selected, so that the flexibility of selection is high, and the requirements of different users are met.

Another technical solution of the present invention is to provide an electric radiator having the following structure, which includes

A heating module;

the shell is covered and connected with the outer side of the heating module;

the temperature control module is electrically connected with the power-on circuit of the heating module and used for controlling the heating temperature of the heating module; the heating module is the heating module.

As an improvement, two heat insulation plates are connected in the shell, the two heat insulation plates are respectively arranged on two sides of the heating module, and a heat insulation reflection film is arranged on one side wall, close to the heating module, of each heat insulation plate.

Preferably, the shell comprises a front side plate, a rear side plate, a left side plate and a right side plate, and the front side plate, the rear side plate, the left side plate and the right side plate are detachably connected with a front side wall, a rear side wall, a left side wall and a right side wall of a support frame of the heating module respectively; preceding curb plate, posterior lateral plate, left side board and right side board enclose to establish and form the casing that both ends all opened the setting from top to bottom, and the upper end of casing opens the department and connects an air-out board subassembly.

Preferably, the air outlet plate assembly comprises a frame body, and a flow guide grid consisting of a plurality of flow guide sheets is connected in the frame body; and the upper part of each guide vane is provided with an air guide surface which is obliquely arranged.

Preferably, the play aerofoil subassembly include out the aerofoil, the play aerofoil on the equipartition have a plurality of air outlets, the outer end inner wall of air outlet sets up to circular-arcly, the inner of air outlet lean out and form contained angle N with vertical direction, and the value range of N is 1 ~ 5 degrees.

Preferably, the rear side plate is provided with a connecting part connected with the support, and the lower part of the rear side plate is provided with a plurality of air guide holes.

After adopting the structure, compared with the prior art, the electric radiator has the following advantages:

1. the front side plate, the rear side plate, the left side plate and the right side plate of the shell of the electric heating piece are detachably connected with the front side wall, the rear side wall, the left side wall and the right side wall of the support frame of the heating module respectively, so that the front side plate, the rear side plate, the left side plate and the right side plate of the shell can be independently replaced when damaged; the shell formed by enclosing the front side plate, the rear side plate, the left side plate and the right side plate is opened at the upper end and the lower end, the upper end is used for air outlet, and the lower end is used for air inlet. The air guide plates of the guide grids of the air outlet plate assembly at the upper end of the frame body are provided with inclined air guide surfaces, and the air guide surfaces can change the heat dissipation direction of the electric radiator to generate heat so that the electric radiator can dissipate heat better; or the inner wall of the outer end of the air outlet on the air outlet plate assembly is arc-shaped, the inner end of the air outlet inclines outwards and forms an included angle N with the vertical direction, and the value range of N is 1-5 degrees, so that hot air is more smooth and smooth when being discharged from the air outlet, the air circulation is good, and the quick heat dissipation is convenient.

2. The electric radiator adopts the heating module, so that the electric radiator has high radiating speed, high radiating efficiency and low energy consumption; the heating temperature of the heating body of each heating module of the electric heating piece is lower than 99 ℃, so that the heat dissipation temperature on the surface of the electric heating piece is about 45 ℃, and therefore low-temperature heating is realized, scalding is not easy to occur, the safety is high, and the service life is long; and the air quality near the electric radiator is good.

3. Every module that generates heat of this electric heater piece's the module that generates heat all adopts the mode of pegging graft with the slot to install, and the module that generates heat when pegging graft into the slot, and the bayonet joint of its bottom is accomplished with the socket and is pegged graft the electricity of getting, consequently makes the installation, the maintenance or the change module that generates heat of electric heater piece all simple, convenient.

4. The temperature control module can control any one or any number of heating modules to work, and can select the working quantity of the heating modules and select which position to work on the heating modules according to the indoor temperature requirement, so that the electric radiator achieves the purposes of energy conservation and environmental protection.

5. The arrangement of the air guide holes on the rear side plate of the electric radiator can increase air inlet at the bottom of the electric radiator, enhance convection, improve heat circulation speed and prevent supports from being overheated; moreover, due to the arrangement of the two heat insulation plates in the shell, the heat generated by the heating module has a heat insulation effect, so that the shell of the electric radiator is prevented from being scalded due to overhigh temperature; the heat insulation reflective films on the two heat insulation plates can insulate and reflect heat generated by the heating module, so that the heat can be quickly distributed out through the air outlet plate assembly, and the heat dissipation efficiency is further improved.

Drawings

Fig. 1 is a schematic structural diagram of a heat generating module according to the present invention.

Fig. 2 is a transverse partial sectional view of a heat generating module of the present invention.

Fig. 3 is an assembly structure diagram of the heat generating module of the present invention.

FIG. 4 is a schematic structural diagram of a heat generating module according to the present invention.

FIG. 5 is a schematic cross-sectional view of an air outlet plate assembly of the electric radiator.

FIG. 6 is a schematic view of an assembly structure of the heat generating module of the present invention.

Fig. 7 is a schematic view of an installation structure of a heat generating module of the present invention.

Fig. 8 is a schematic structural view of a vertical plate of the heating module of the present invention.

FIG. 9 is a schematic front view of the electric radiator of the present invention.

FIG. 10 is a schematic view of a back structure of the electric radiator.

FIG. 11 is a schematic view of an assembly structure of the electric radiator of the present invention.

Fig. 12 is a schematic cross-sectional view of another embodiment of the outlet plate assembly of the electric radiator of the present invention.

As shown in the figure:

1. the heat-generating module comprises a heat-generating module, 100, a first heat-generating fin, 101, a second heat-generating fin, 102, a containing groove, 103, a containing channel, 104, an outer frame, 2, a heat-generating body, 200, a conductive end, 3, a plug connector, 4, a support frame, 400, a vertical plate, 401, a slot, 5, a front side plate, 500, a rear side plate, 501, a left side plate, 502, a right side plate, 503, an air outlet plate component, 504, an air guide hole, 505, a connecting part, 506, an air outlet, 507, a frame body, 508, a guide grid, 509, a guide vane, 510, an air guide surface, 6, a socket, 7, a heat-insulating plate, 700, a heat-insulating.

Detailed Description

The invention is described in further detail below with reference to the figures and specific examples.

Referring to fig. 1 to 3, a heating module 1 of the present invention includes a heating body 2 having a conductive terminal 200; the heating element 2 is a product in the prior art, can be a heating wire made of a nickel-chromium alloy wire, can also be a heating membrane, a PTC heating element and the like, and can generate heat when the conductive end 200 is electrified. Two oppositely disposed fins: the heat dissipation plate comprises a first heat dissipation plate 100 and a second heat dissipation plate 101, wherein the first heat dissipation plate 100 and the second heat dissipation plate 101 are made of aluminum plates with good heat conductivity, and the heat dissipation plate can also be made of mica plates, gypsum boards and the like and used for heat dissipation. The opposite inner side walls of the first heat radiating fin 100 and the second heat radiating fin 101 are both provided with concave accommodating grooves 102, and the accommodating grooves 102 on the first heat radiating fin 100 and the second heat radiating fin 101 form accommodating channels 103; in other words, the opposite inner side walls of the first heat sink 100 and the second heat sink 101 are respectively provided with a semi-arc concave receiving groove 102, and when the first heat sink 100 and the second heat sink 101 are attached to each other, the semi-arc receiving grooves 102 on the first heat sink 100 and the second heat sink 101 are aligned to form a closed receiving channel 103 or a receiving channel with a circular cross section. The heating element 2 is arranged in the accommodating channel 103, and the outer side wall of the heating element 2 is tightly attached to the inner wall of the accommodating channel 103; that is, the radian of the accommodating groove 102 is matched with the radian of the outer side wall of the heating element 2, and when the heating element 2 is placed in the accommodating groove 102, the outer side wall of the heating element 2 is completely attached to the inner wall of the accommodating groove 102 for heat conduction. The heating module has the advantages of high radiating speed, high radiating efficiency and low heat loss, and can adopt low-temperature heating to ensure that the heating temperature of the heating body is lower than 99 ℃, so that the heating module has good safety and small electricity consumption, the temperature of the heating module accessories is lower, oxygen deficiency nearby the heating module accessories can not be caused, the indoor air quality is ensured, and the heating module is energy-saving and environment-friendly.

And the plug 3 is arranged on the outer side of the radiating fin, is electrically connected with the conductive end 200 of the heating body 2 and is used for connecting a power plug to get electricity. The plug 3 can be plugged into an indoor power socket to get electricity.

The heat dissipation structure further comprises an outer frame 104, wherein the outer frame 104 covers the outer side walls of the two heat dissipation fins, and the plug connectors 3 are arranged on the outer side walls of the outer frame 104. The outer frame 104 is made of aluminum alloy or made of heat-conducting insulating material, and the outer frame can seal the outer side walls of the two radiating fins, so that water or dust is prevented from entering the space between the two radiating fins, and the service life of the radiating fins is prolonged.

Referring to fig. 3, the receiving grooves 102 of the first heat sink 100 and the second heat sink 101 are symmetrically arranged winding-shaped receiving grooves, the receiving grooves 102 are uniformly distributed on the first heat sink 100 and the second heat sink 101, and the heating element 2 is a winding-shaped heating element with a shape matching the shape of the receiving grooves 102. The containing grooves 102 on the two radiating fins are circuitous containing grooves, the placing channel 103 formed by the containing grooves 102 on the two radiating fins is also a circuitous placing channel, and the heating body 2 is also a circuitous heating body matched with the circuitous placing channel; moreover, the heating elements 2 are uniformly distributed on the first and second heat radiation fins 100 and 101; therefore, the heat dissipation speed and the heat dissipation efficiency of the heating module are further improved. The circuitous containing groove is a U-shaped containing groove communicated end to end, the containing groove is provided with two free ends, and the two free ends are both arranged on the outer side wall of the radiating fin in an extending manner.

Another specific implementation of the heat sink of this embodiment is: the outer side walls of the two radiating fins are uniformly distributed with a plurality of convex or concave radiating parts. That is, the heat dissipation part can be a plurality of salient points or a plurality of grooves arranged on the outer side walls of the two heat dissipation fins, and the heat dissipation part has the function of increasing the heat dissipation area of the heat dissipation fins and further improving the heat dissipation speed and the heat dissipation efficiency of the heat dissipation fins.

Referring to figures 4 and 6 to 8,

the invention relates to a heating module, which comprises a support frame 4, wherein the support frame 4 is provided with at least two vertical plates 400 which are oppositely arranged, at least one group of slots 401 which are opposite in opening and extend along the length direction of the vertical plates 400 are arranged on two opposite inner side walls of every two adjacent vertical plates 400, a heating module 1 is inserted in each group of slots 401, and the heating module 1 is the heating module in the embodiment. The heating module is characterized by further comprising sockets 6 in one-to-one correspondence with the heating modules 1, the sockets 6 are correspondingly arranged on the support frame 4 below each group of slots 401, and when the heating modules 1 are inserted into the slots 401, the plug connectors 3 on the heating modules 1 are inserted into the sockets 6 corresponding to the heating modules 1 to obtain electricity. The vertical plate 400 is formed by punching a metal plate, a plurality of slots 401 are punched on two side walls of the vertical plate 400, and an opening of each slot 401 is arranged outwards. The heating module 1 can be inserted into the slot 401 between the adjacent vertical plates 400 of the support frame to complete the assembly of the heating module, and the installation of the heating module does not need to be carried out by means of a hand tool, so that the assembly efficiency of the heating module is high, and the installation is convenient and labor-saving. Secondly, this module that generates heat still is provided with the socket that supplies the bayonet joint grafting of every module that generates heat to get the electricity, also when the module that generates heat is pegged graft in the slot, the bayonet joint on the module that generates heat is pegged graft with the corresponding socket of the module that generates heat, consequently need not to use the wire to connect and get the electricity again, like this when changing the module that generates heat, only need take off the module that generates heat of damage, peg graft into the slot with new module that generates heat and make bayonet joint and socket can. The circuits among the heating modules 1 are in parallel connection, a user can set the control circuit to control any one or any number of heating modules to work, and the working quantity of the heating modules and the position of the heating module can be selected to work according to the indoor temperature requirement, so that the purposes of energy conservation and environmental protection are achieved. In addition, the number of the heating modules can be selected according to the user requirements or the size of a room, or the size of the heating module is selected, so that the flexibility of selection is high, and the requirements of different users are met.

Referring to figures 5 and 9 to 12,

the invention relates to an electric radiator, which is connected to a support, wherein the support is a wall, a screen and the like and comprises a heating module; that is, the heating module comprises a supporting frame 4, the supporting frame 4 is provided with at least two vertical plates 400 which are oppositely arranged, a plurality of slots 401 are arranged on two opposite inner side walls of every two adjacent vertical plates 400, the heating module 1 is inserted into the slots 401, and a plug connector on the heating module is inserted into a socket 6 of the heating module, so that the installation and the circuit connection of the heating module are completed; the user can set the control circuit to control any one or any plurality of heating modules 1 to work, and can select the working quantity of the heating modules and select the heating module at which position to work according to the indoor temperature requirement, so as to achieve the purposes of energy conservation and environmental protection. In addition, the number of the heating modules can be selected according to the user requirements or the size of a room, or the size of the heating module is selected, so that the flexibility of selection is high, and the requirements of different users are met.

Referring to fig. 9 to 11, the housing covers and is connected to the outer side of the heat generating module; the shell comprises a front side plate 5, a rear side plate 500, a left side plate 501 and a right side plate 502, wherein the front side plate 5, the rear side plate 500, the left side plate 501 and the right side plate 502 are detachably connected with the front side wall, the rear side wall, the left side wall and the right side wall of the support frame 4 of the heating module respectively; preceding curb plate 5, posterior lateral plate 500, left side board 501 and right side board 502 enclose to establish and form the casing that both ends all opened the setting from top to bottom, and the upper end of casing opens the department and connects an air-out board subassembly 503. Preceding curb plate 5 and posterior lateral plate 500 accessible screw and 4 detachable connections of support frame, also can make preceding curb plate 5 and posterior lateral plate 500 be connected with the support frame through the cooperation of pin and jump ring, the cooperation of pin and jump ring indicates that the pin free end passes preceding curb plate 5 and support frame 4 or posterior lateral plate 500 and support frame 4 in proper order, and is equipped with the ring channel that supplies the jump ring joint on the pin free end, the jump ring joint in the ring channel of pin, utilize the elasticity of self to make preceding curb plate and support frame or posterior lateral plate and support frame connect, its simple to operate, laborsaving, quick. Because preceding curb plate, posterior lateral plate, left side board and right side board all with support frame detachable connection, all independently the change when arbitrary one of preceding curb plate, posterior lateral plate, left side board and right side board damages. The rear plate 500 is provided with a connecting portion 505 connected to a support, and a plurality of air guide holes 504 are formed at a lower portion of the rear plate 500. The connecting part 505 is a hanging hole arranged on the rear side plate 500 and is used for hanging a hook on a support such as a wall; the air guide holes 504 are formed by downward openings, air inlet at the bottom of the electric radiator can be increased, convection is enhanced, the heat circulation speed is increased, and a support is prevented from being overheated.

The temperature control module 8 is electrically connected with the power-on circuit of the heating module, and is used for controlling the heating temperature of the heating module; the temperature control module 8 is electrically connected with the power-on circuit of the heating module and is used for controlling the heating temperature of the heating module and controlling one or more heating modules 1 to work, and the working quantity of the heating modules and the position of the heating module 1 can be selected to work according to the indoor temperature requirement. The temperature control module 8 in this embodiment is a temperature control circuit, and includes control circuit, temperature sensor, temperature detect switch, display element etc. control circuit is used for controlling the heating of the module that generates heat, and temperature sensor is used for detecting the heating temperature or the indoor temperature of the module that generates heat, and the display element is the display screen promptly for show the heating temperature or the indoor temperature etc. of the module that generates heat.

Referring to fig. 11, two heat insulation plates 7 are connected in the housing, the two heat insulation plates 7 are respectively disposed at two sides of the heating module, and a heat insulation reflective film 700 is disposed on one side wall of each heat insulation plate 7 close to the heating module. The heat insulation plate 7 is an aluminum alloy plate, and the heat insulation reflective film 700 may be a metal film, such as an aluminum film, a stainless steel film, or chrome plating; the heat insulation reflecting film 700 on the two heat insulation plates 7 can keep warm and reflect the heat generated by the heating module, so that the heat can be quickly dissipated out through the air outlet plate component 503, and the heat dissipation efficiency is further improved.

Referring to fig. 5, an embodiment of the air outlet plate assembly 503 is shown: the air outlet plate assembly 503 comprises a frame body 507, wherein a flow guide grid 508 consisting of a plurality of flow guide sheets 509 is connected in the frame body 507; and an air guide surface 510 is obliquely arranged on the upper portion of each guide vane 509. The air guide surface 510 can change the heat dissipation direction of the electric radiator to better dissipate heat; the guide vanes 509 of the guide grid 508 may be arranged to be swingable, and the angle of the guide vanes may be manually adjusted.

Referring to fig. 12, another embodiment of the outlet plate assembly 503 is shown: go out aerofoil subassembly 503 including going out the aerofoil, the play aerofoil on the equipartition have a plurality of air outlets 506, the outer end inner wall of air outlet 506 sets up to circular-arcly, the inner of air outlet 506 leans out and forms contained angle N with vertical direction, and the value range of N is 1 ~ 5 degrees. The arrangement makes the hot air discharged from the air outlet smoother, the air circulation is good, and the quick heat dissipation is facilitated.

The above description is only for the specific embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention are included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (12)

1. A heat generating module, characterized by: it comprises

A heating element having a conductive end;

two oppositely disposed fins: the heating body is arranged in the accommodating channel, and the outer side wall of the heating body is tightly attached to the inner wall of the accommodating channel;

the plug is arranged on the outer side of the radiating fin, electrically connected with the conductive end of the heating body and used for connecting a power plug to get electricity.

2. The heat generating module of claim 1, wherein: the heat dissipation structure further comprises an outer frame, the outer frame covers the outer side walls of the two heat dissipation fins, and the plug connector is arranged on the outer side wall of the outer frame.

3. The heat generating module of claim 1, wherein: the containing grooves on the first radiating fin and the second radiating fin are roundabout containing grooves which are symmetrically arranged, the containing grooves are uniformly distributed on the first radiating fin and the second radiating fin, and the heating body is a roundabout heating body of which the shape is matched with that of the containing grooves.

4. The heat generating module of claim 1, wherein: the outer side walls of the two radiating fins are uniformly distributed with a plurality of convex or concave radiating parts.

5. The utility model provides a module generates heat which characterized in that: the heating module comprises a supporting frame, wherein the supporting frame is provided with at least two vertical plates which are oppositely arranged, at least one group of slots which are opposite in opening and extend along the length direction of the vertical plates are arranged on two opposite inner side walls of every two adjacent vertical plates, a heating module is inserted into each group of slots, and the heating module is the heating module as claimed in any one of claims 1 to 4.

6. The heat generation module of claim 5, wherein: the heating module is characterized by further comprising sockets in one-to-one correspondence with the heating modules, the sockets are correspondingly arranged on the support frame below each group of slots, and when the heating modules are inserted into the slots, the plug connectors on the heating modules are inserted into the sockets corresponding to the heating modules to obtain electricity.

7. An electric radiator comprises

A heating module;

the shell is covered and connected with the outer side of the heating module;

the temperature control module is electrically connected with the power-on circuit of the heating module and used for controlling the heating temperature of the heating module; the method is characterized in that: the heating module set is as claimed in any one of claims 5 to 6.

8. The electric radiator of claim 7, wherein: the shell is internally connected with two heat insulation plates which are respectively arranged at two sides of the heating module, and a heat insulation reflection film is arranged on one side wall of each heat insulation plate close to the heating module.

9. The electric radiator of claim 7, wherein: the shell comprises a front side plate, a rear side plate, a left side plate and a right side plate, wherein the front side plate, the rear side plate, the left side plate and the right side plate are detachably connected with a front side wall, a rear side wall, a left side wall and a right side wall of a support frame of the heating module respectively; preceding curb plate, posterior lateral plate, left side board and right side board enclose to establish and form the casing that both ends all opened the setting from top to bottom, and the upper end of casing opens the department and connects an air-out board subassembly.

10. The electric radiator of claim 9, wherein: the air outlet plate assembly comprises a frame body, and a flow guide grid consisting of a plurality of flow guide sheets is connected in the frame body; and the upper part of each guide vane is provided with an air guide surface which is obliquely arranged.

11. The electric radiator of claim 9, wherein: go out the aerofoil subassembly including going out the aerofoil, the play aerofoil on the equipartition have a plurality of air outlets, the outer end inner wall of air outlet sets up to circular-arcly, the inner of air outlet lean out and form contained angle N with vertical direction, and the value range of N is 1 ~ 5 degrees.

12. The electric radiator of claim 9, wherein: the rear side plate is provided with a connecting part connected with the support, and the lower part of the rear side plate is provided with a plurality of air guide holes.

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