CN209893523U - Radiating assembly and warmer - Google Patents
Radiating assembly and warmer Download PDFInfo
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- CN209893523U CN209893523U CN201920428837.4U CN201920428837U CN209893523U CN 209893523 U CN209893523 U CN 209893523U CN 201920428837 U CN201920428837 U CN 201920428837U CN 209893523 U CN209893523 U CN 209893523U
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- motor
- thermoelectric generator
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Abstract
The utility model discloses a radiator unit and room heater, wherein, this radiator unit is applied to the room heater, and the room heater includes the casing and locates the heat-generating body in the casing, and radiator unit includes: the thermoelectric generator is connected with the shell and used for receiving heat radiated by the heating element and converting the heat into electric power; the motor is electrically connected with the thermoelectric generator; the fan blade part is connected with the motor, and the motor receives the electric power generated by the thermoelectric generator and drives the fan blade part to rotate. The utility model discloses technical scheme connects thermoelectric generator through the casing at the room heater for accept the heat of the heat-generating body radiation of room heater and convert into electric power, thermoelectric generator gives the motor with electric power transmission, and the motor drive flabellum rotates, and the flow of air reduces the temperature of casing with higher speed, promotes whole room air cycle. This application can produce different electric quantities according to the range of the difference in temperature to realize that wind speed and amount of wind size carry out intelligent regulation according to the calorific capacity of room heater, promote whole heating travelling comfort.
Description
Technical Field
The utility model relates to a room heater technical field, in particular to radiator unit and applied this radiator unit's room heater.
Background
The existing warmer is various in types, most of warmers transmit heat to the surrounding environment through the surface of an air outlet or a shell when working, but the air is not circulated, so that the temperature of the warmer is very high nearby, certain positions are dry and hot for users, and other local heat flows away from the warmer in a room very slowly, so that the warming effect is poor, and extremely uncomfortable experience is brought to the users.
The above is only for the purpose of assisting understanding of the technical solutions of the present application, and does not represent an admission that the above is prior art.
SUMMERY OF THE UTILITY MODEL
The utility model aims at providing a radiator unit aims at realizing carrying out intelligence heat dissipation to the heat that the room heater transmitted, promotes the circulation of cold and hot air, avoids the casing high temperature to lead to scalding the risk.
In order to achieve the above object, the utility model provides a radiator unit is applied to the room heater, the room heater includes the casing and locates heat-generating body in the casing, radiator unit includes:
the thermoelectric generator is connected with the shell and used for receiving heat radiated by the heating element and converting the heat into electric power;
the motor is electrically connected with the thermoelectric generator; and
the fan blade part is connected with the motor, and the motor receives the electric power generated by the thermoelectric generator and drives the fan blade part to rotate.
In an embodiment of this application, thermoelectric generator includes the shell and locates thermoelectric generation spare in the shell, a surface of shell with the casing is connected, the motor is located the shell deviates from a surface of casing, the flabellum portion connect in the motor.
In an embodiment of the application, the motor includes motor main part and connect in motor main part's transmission shaft, motor main part locates a surface of shell, the transmission shaft wears to locate motor main part deviates from a surface of shell, the flabellum connect in the transmission shaft.
In an embodiment of this application, thermoelectric generation spare is including locating first conductive module and second conductive module in the shell, the mutual butt in a surface of first conductive module and second conductive module, first conductive module orientation the heat-generating body sets up, second conductive module dorsad the heat-generating body sets up, the both electrodes end of motor main part respectively with first conductive module with second conductive module connects.
In an embodiment of the present application, the first conductive module and the second conductive module are both semiconductors, and the semiconductor materials used for the first conductive module and the second conductive module are different.
The utility model also provides a room heater, including radiator unit, this radiator unit includes above-mentioned radiator unit.
In an embodiment of the present application, the thermoelectric generator is detachably connected to the housing;
alternatively, the thermoelectric generator is slidably connected to the housing.
In an embodiment of the present application, the connection member between the thermoelectric generator and the casing is a silicone member or a plastic member.
In an embodiment of the present application, the casing is provided with an air outlet, and the thermoelectric generator is disposed adjacent to the air outlet.
In an embodiment of this application, the air outlet is provided with a plurality ofly, a plurality of air outlets are arranged and are formed the air-out region, radiator unit's quantity is a plurality of, radiator unit interval arrange in the regional department of air-out.
The utility model discloses technical scheme connects thermoelectric generator through the casing at the room heater, and thermoelectric generator is used for accepting the heat that the heat-generating body of room heater radiated and converts into electric power, and thermoelectric generator gives the motor with electric power transmission, and the electric power that thermoelectric generator produced and drive the flabellum rotation are accepted to the motor to the flow of air with higher speed reduces the temperature of casing, promotes whole room air cycle. Simultaneously, the thermoelectric generator that this application adopted can produce different electric quantities according to the range of the heat-generating body with outside difference in temperature to realize that wind speed and amount of wind size carry out intelligent regulation according to the calorific capacity of room heater, promote whole heating travelling comfort.
Drawings
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.
FIG. 1 is a schematic structural view of an embodiment of the warmer of the present invention;
fig. 2 is a schematic view of the heater of fig. 1 from another perspective.
The reference numbers illustrate:
| reference numerals | Name (R) | Reference numerals | Name (R) |
| 100 | |
13 | |
| 10 | |
20 | |
| 11 | |
30 | Casing (CN) |
| 111 | |
31 | |
| 12 | |
32 | Control panel |
The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.
It should be noted that all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.
In the present application, unless expressly stated or limited otherwise, the terms "connected" and "fixed" are to be construed broadly, e.g., "fixed" may be fixedly connected or detachably connected, or integrally formed; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.
In addition, descriptions in the present application as to "first", "second", and the like are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit to the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.
The utility model provides a radiator unit 10.
Referring to fig. 1 and 2, in the embodiment of the present invention, the heat dissipation assembly 10 is applied to a heater 100, the heater 100 includes a casing 30 and a heating element 20 disposed in the casing 30, and the heat dissipation assembly 10 includes:
the thermoelectric generator 11 is connected with the casing 30, and the thermoelectric generator 11 is used for receiving heat radiated by the heating element 20 and converting the heat into electric power;
the motor 12, the motor 12 is electrically connected with the thermoelectric generator 11; and
the fan blade part 13, the fan blade part 13 is connected with the motor 12, and the motor 12 receives the electric power generated by the thermoelectric generator 11 and drives the fan blade part 13 to rotate.
In an embodiment of the present invention, a control panel 32 is disposed on the casing 30, a user can adjust the heating power of the heating element 20 of the heater 100 by operating the control panel 32, and when the heating power is increased, the heat transferred to the casing 30 is gradually increased, so that the driving motor 12 with a larger current amount converted by the thermoelectric generator 11 drives the fan blade 13 to rotate faster, the accelerated air flow drives the heat conduction, when the heating power of the heating element 20 of the heater 100 is decreased, the radiated heat is decreased, the current amount converted by the thermoelectric generator 11 is decreased, so that the driving fan blade 13 by the motor 12 is slowed, the air flow is decreased, and thus the wind speed and the wind amount of the fan blade 13 are intelligently adjusted according to the heat generated by the heater 100.
The utility model discloses technical scheme connects thermoelectric generator 11 through casing 30 at room heater 100, and thermoelectric generator 11 is used for accepting the heat that the heat-generating body 20 of room heater 100 radiated and converts into electric power, and thermoelectric generator 11 gives motor 12 with electric power transmission, and motor 12 accepts the electric power that thermoelectric generator 11 produced and drives flabellum portion 13 and rotates to flow of air with higher speed reduces the temperature of casing, promotes whole room air cycle. Simultaneously, the thermoelectric generator 11 that this application adopted can produce different electric quantities according to the range of the heat-generating body with outside difference in temperature to realize that wind speed and wind volume size carry out intelligent regulation according to the calorific capacity of room heater 100, promote whole heating travelling comfort.
The utility model discloses an embodiment, thermoelectric generator 11 includes shell 111 and locates thermoelectric generation spare (not shown) in shell 111, and a surface and casing 30 of shell 111 are connected, and a surface that shell 111 deviates from casing 30 is located to motor 12, flabellum portion 13 connect in motor 12.
Further, motor 12 deviates from casing 30 and sets up and to avoid leading to motor 12 high temperature to damage because of motor 12 is close to casing 30 high temperature department, thermoelectric generation spare both ends form stable voltage because of different electron concentration, and the difference in temperature at thermoelectric generation spare both ends is big more, then the velocity of flow difference increase of its electron, thereby produce great voltage, so with a surface and casing 30 butt of shell 111, it is more obvious to make the difference in temperature of thermoelectric generation spare, motor 12 passes through the wire and is connected with thermoelectric generation spare both ends, flabellum portion 13 reconnection motor 12, thereby can drive flabellum portion 13 rotatory according to the electric quantity driving motor 12 of thermoelectric generation spare real-time conversion, intelligence is adjusted according to the heat that the heat-generating body 20 of casing 30 sent.
Further, the motor 12 includes a main body of the motor 12 and a transmission shaft (not shown) connected to the main body of the motor 12, the main body of the motor 12 is disposed on a surface of the housing 111, the transmission shaft is disposed on a surface of the main body of the motor 12 facing away from the housing 111, and the blade portion 13 is connected to the transmission shaft. For example, flabellum portion 13 includes the main part and encircles the blade that the main part interval set up, and the transmission shaft accessible bearing of motor 12 is connected with the main part, sets up through deviating from shell 111 with the transmission shaft of motor 12 and flabellum portion 13 for can blow to the position of keeping away from casing 30 along with the pivoted air current of flabellum portion 13 behind the casing 30 to the heat that heat-generating body 20 sent, thereby promote air cycle, make space temperature distribution even, promote whole heating travelling comfort.
In an embodiment of the present invention, the thermoelectric power generation element includes a first conductive module (not shown) and a second conductive module (not shown) disposed inside the housing 111, a surface of the first conductive module and a surface of the second conductive module abut against each other, the first conductive module is disposed toward the heating element 20, the second conductive module is disposed opposite to the heating element 20, and two electrode terminals of the main body of the motor 12 are respectively connected to the first conductive module and the second conductive module.
In an embodiment, the first conductive module and the second conductive module can be selected from different metal conductors, such as iron and copper, the different metal conductors have different free electron densities or carrier densities, and when the two different metal conductors are in contact with each other, electrons on the contact surface diffuse from a high concentration to a low concentration. The diffusion rate of the electrons is in direct proportion to the temperature of the contact area, and because the first conductive module is arranged towards the heating body 20 and the second conductive module is arranged back to the heating body 20, the temperature of the first conductive module is higher than that of the second conductive module, if the two conductive modules have temperature difference all the time, the electrons can be continuously diffused, and stable voltage can be formed at the other two endpoints of the two metal conductors.
Further, the first conductive module and the second conductive module are both semiconductors, and the semiconductor materials adopted by the first conductive module and the second conductive module are different.
The utility model discloses an embodiment, in order to be more little at the difference of difference in temperature, when thermoelectric generation spare also can play corresponding effect, then different semiconductor materials, for example silicon and germanium can be chooseed for use to first electrically conductive module and second electrically conductive module for even the difference in temperature of thermoelectric generation spare also can produce voltage at 10 ℃, thereby driving motor 12 drives flabellum portion 13 and rotates, makes the air current, promotes whole room air cycle.
The utility model discloses still provide a room heater 100, this room heater 100 includes radiator unit 10, and the concrete structure of this radiator unit 10 refers to above-mentioned embodiment, because this room heater 100 has adopted the whole technical scheme of above-mentioned all embodiments, consequently has all beneficial effects that the technical scheme of above-mentioned embodiment brought at least, and the repeated description is no longer given here.
Further, the thermoelectric generator 11 is detachably connected to the housing 30; alternatively, the thermoelectric generator 11 may be slidably coupled to the housing 30.
The utility model discloses an embodiment, thermoelectric generator 11 can dismantle the casing 30 of connecting in room heater 100, can be through setting up a connecting portion in thermoelectric generator 11 department and connect in casing 30 through bonding or buckle, can dismantle it when not needing radiator unit 10 or need maintenance radiator unit 10, in addition also can be through setting up the slide in casing 30 department, be provided with the slider at thermoelectric generator 11, it makes radiator unit 10 can slide in casing 30 department through the cooperation between slider and the slide, make to remove the high temperature position of difference and dispel the heat according to the actual conditions of casing 30, realize the intelligent regulation heat dissipation.
Further, the connecting member between the thermoelectric generator 11 and the casing 30 is a silicone member or a plastic member. For example, when the thermoelectric generator 11 needs to be moved, a user needs to operate the thermoelectric generator with a hand, so a connecting member is arranged between the thermoelectric generator 11 and the casing 30, the connecting member is a silica gel member or a plastic member, and the silica gel member and the plastic member are poor in material thermal conductivity, so that the user cannot be scalded due to the overhigh temperature of the connecting member at the connecting part between the thermoelectric generator 11 and the casing 30 during operation.
Further, the casing 30 is provided with an air outlet 31, and the thermoelectric generator 11 is disposed adjacent to the air outlet 31. For example, in an embodiment of the present invention, the heater 100 can be a horizontal heater 100, the air outlet 31 is usually opened to the casing 30 of the horizontal heater 100, and most of the heat is discharged from the air outlet 31, so the temperature of the air outlet 31 is higher, and the thermoelectric generator 11 is disposed near the air outlet 31, so that the heat can be dissipated, and the risk of scalding due to the high temperature of the air outlet 31 is avoided, thereby improving the overall heating comfort.
Further, the air outlets 31 are provided in a plurality, the air outlets 31 are arranged to form an air outlet area, the number of the heat dissipation assemblies 10 is a plurality, and the heat dissipation assemblies 10 are arranged at the air outlet area at intervals. For example, the air outlet region is disposed at the top or front of the casing 30, which facilitates heat transfer, and when the air outlet region is large, multiple sets of heat dissipation assemblies 10 may be disposed at intervals and arranged in the air outlet region, so as to accelerate heat dissipation and promote air circulation.
The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.
Claims (10)
1. The utility model provides a radiator unit, is applied to the room heater, the room heater includes the casing and locates heat-generating body in the casing, its characterized in that, radiator unit includes:
the thermoelectric generator is connected with the shell and used for receiving heat radiated by the heating element and converting the heat into electric power;
the motor is electrically connected with the thermoelectric generator; and
the fan blade part is connected with the motor, and the motor receives the electric power generated by the thermoelectric generator and drives the fan blade part to rotate.
2. The heat dissipating assembly of claim 1, wherein the thermoelectric generator comprises a housing and a thermoelectric generator disposed in the housing, wherein a surface of the housing abuts against the housing, the motor is disposed on a surface of the housing facing away from the housing, and the fan blade portion is connected to the motor.
3. The heat dissipating assembly of claim 2, wherein the motor includes a motor body and a transmission shaft connected to the motor body, the motor body is disposed on a surface of the housing, the transmission shaft is disposed through a surface of the motor body facing away from the housing, and the fan blade portion is connected to the transmission shaft.
4. The heat dissipating assembly according to claim 3, wherein the thermoelectric generation element includes a first conductive module and a second conductive module provided in the housing, one surfaces of the first conductive module and the second conductive module abut against each other, the first conductive module is disposed toward the heat generating element, the second conductive module is disposed away from the heat generating element, and both electrode terminals of the motor main body are connected to the first conductive module and the second conductive module, respectively.
5. The heat dissipation assembly of claim 4, wherein the first conductive module and the second conductive module are both semiconductors, and wherein the semiconductor materials used for the first conductive module and the second conductive module are different.
6. A warmer, comprising the heat dissipating assembly of any one of claims 1 to 5.
7. The warmer of claim 6, wherein said thermoelectric generator is removably connected to said housing;
alternatively, the thermoelectric generator is slidably connected to the housing.
8. The warmer of claim 7, wherein the connection between said thermoelectric generator and said housing is made of silicone or plastic.
9. The warmer of claim 6, wherein the housing defines an air outlet, and the thermoelectric generator is disposed adjacent to the air outlet.
10. The warmer according to claim 9, wherein the plurality of air outlets are arranged to form an air outlet region, the number of the heat dissipation assemblies is plural, and the heat dissipation assemblies are arranged at the air outlet region at intervals.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920428837.4U CN209893523U (en) | 2019-03-29 | 2019-03-29 | Radiating assembly and warmer |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920428837.4U CN209893523U (en) | 2019-03-29 | 2019-03-29 | Radiating assembly and warmer |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN209893523U true CN209893523U (en) | 2020-01-03 |
Family
ID=69018368
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN201920428837.4U Active CN209893523U (en) | 2019-03-29 | 2019-03-29 | Radiating assembly and warmer |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN209893523U (en) |
-
2019
- 2019-03-29 CN CN201920428837.4U patent/CN209893523U/en active Active
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