CN117254636A - Radiating device and method for motor of steering wheel in game - Google Patents

Abstract

The invention relates to the technical field of game operation equipment, in particular to a heat dissipation device and a heat dissipation method for a motor of a game steering wheel, wherein the heat dissipation device comprises a shell, a driving motor and a heat dissipation assembly, a placement cavity is arranged in the shell, and a fixing bracket is arranged in the placement cavity; the driving motor is arranged on the fixed bracket, the output end of the driving motor is connected with an output part, and the output part is connected with a linkage element and a direction control element; the heat dissipation component comprises heat dissipation fan blades connected with the linkage element, and the direction control element is used for controlling the output part to rotate so that the linkage element drives the heat dissipation fan blades to blow and dissipate heat towards the driving motor; the linkage element is symmetrically provided with two groups of radiating fan blades, and the two groups of radiating fan blades are respectively arranged on two sides of the driving motor. According to the invention, two groups of radiating fan blades are used for blowing and radiating air in the radiating cavity and/or taking hot air in the radiating cavity out, so that cold and hot air exchange is formed in the radiating cavity, no redundant noise is generated, and the game experience is better.

Description

Radiating device and method for motor of steering wheel in game

Technical Field

The invention relates to the technical field of game operation equipment, in particular to a heat dissipation device and a heat dissipation method for a motor of a game steering wheel.

Background

The electronic game machine generally comprises a game host and an instruction input device, wherein software is loaded on the game host, then a program is operated according to the instruction of a player, and the game host is connected with a display device to output a picture, so that the player can receive the game picture. On the basis, a player can participate in the game to realize man-machine interaction by inputting a control command through the command input device, and the progress of the game is controlled to advance, so that the player enjoys the virtual world.

Command input devices are of a wide variety, for example, PC players increasingly employ keyboards and mice as command input devices, host games employ gamepads, and in some car simulation games, game steering wheels are employed. The direct-drive force feedback steering wheel uses a single servo motor to transmit various waveform data such as shake, throw, shake and shake generated in the racing scenes in the game to a player through the steering wheel, so that the player generates the feeling of body calendar, but the motor generates heat after long-time working is a standard phenomenon, so that forced heat dissipation by using an external fan is an effective countermeasure, but the cost and noise are limited, and the choice of the fan is also greatly limited.

Disclosure of Invention

In order to solve the problems, the invention adopts two groups of radiating fan blades to blow and radiate air in the radiating cavity and/or take hot air in the radiating cavity out so as to form cold and hot air exchange in the radiating cavity, and the radiating device and the method of the motor of the steering wheel of the game have the advantages of no generation of redundant noise and better game experience.

The technical scheme adopted by the invention is as follows: the heat dissipation device of the motor of the steering wheel for the game comprises a shell, a driving motor and a heat dissipation assembly, wherein a placement cavity is arranged in the shell, and a fixing bracket is arranged in the placement cavity; the driving motor is arranged on the fixed support, the output end of the driving motor is connected with an output part, and the output part is connected with a linkage element and a direction control element; the heat dissipation assembly comprises heat dissipation fan blades connected with the linkage element, and the direction control element is used for controlling the output part to rotate so that the linkage element drives the heat dissipation fan blades to blow and dissipate heat towards the driving motor; the two groups of the linkage elements are symmetrically arranged, the two groups of the linkage elements are synchronously connected with the output part in a transmission manner, the two groups of the heat dissipation fan blades are respectively arranged on two sides of the driving motor, and the two groups of the heat dissipation fan blades are respectively connected with the two groups of linkage elements; the fixed support is provided with a heat dissipation cavity, the driving motor is arranged in the heat dissipation cavity, and the two groups of heat dissipation fan blades are used for blowing and dissipating heat in the heat dissipation cavity and/or taking hot air in the heat dissipation cavity out so as to form cold and hot air exchange in the heat dissipation cavity.

The shell comprises a lower shell body and an upper shell body buckled on the surface of the lower shell body, wherein the placement cavity is formed between the lower shell body and the upper shell body, one side or two sides of the shell body are provided with air channels, and the air channels are used for air intake or exhaust of the radiating fan blades.

According to a further improvement of the scheme, an output fixing portion is arranged at one end of the shell, one end of the output portion extends to the output fixing portion, and the direction control element is arranged in the output fixing portion and connected with the output portion.

The further improvement to above-mentioned scheme does, the fixed bolster is located the both sides in heat dissipation chamber and is equipped with fixed mesa, one side in heat dissipation chamber is equipped with the installation mesa, driving motor's one end is installed on fixed mesa and is in the heat dissipation intracavity, the installation mesa is provided with the curb plate, the installation mesa passes through the curb plate and is connected with fixed mesa, be provided with the heat dissipation on the curb plate and lead to the groove, the one end in heat dissipation leads to the groove and communicates to the heat dissipation chamber, the one end orientation of heat dissipation flabellum the heat dissipation leads to the groove.

The technical scheme is further improved in that the fixed support is provided with fixed table tops at the left side and the right side of the radiating cavity, the front side and the rear side of the fixed support are respectively provided with a connecting table top and a mounting table top, the radiating cavity is positioned between the connecting table top and the mounting table top, and one end of the driving motor is mounted on the mounting table top; the output part of the driving motor extends towards the connecting table top, and the linkage element is arranged on the connecting table top and is in transmission connection with the output part.

The further improvement of the scheme is that the fixed table top is provided with a vertical rod, and the radiating fan blades are arranged on the vertical rod and face the radiating cavity.

The technical scheme is further improved in that the connecting table top and the mounting table top are obliquely arranged on the fixed support.

The heat dissipation cavity is internally provided with a heat dissipation channel, the driving motor is positioned in the heat dissipation channel, air inlets and air outlets are formed in two sides of the heat dissipation channel, and the heat dissipation fan blades face the air inlets and the air outlets.

The heat dissipation channel is formed by two groups of arc guide plates which are symmetrically arranged, each arc guide plate comprises a large arc surface and small arc surfaces which are symmetrically connected to two sides of the large arc surface, and an arc heat dissipation channel is formed between the large arc surface and the small arc surfaces.

The technical scheme is further improved in that a heat dissipation outlet is formed in the connecting table top, and one end of the heat dissipation outlet is communicated with the heat dissipation channel.

The driving motor is an outer rotor direct-drive motor and comprises a base, a stator assembly fixedly connected to the base, a rotating shaft assembly rotatably connected to the base and a rotor shell rotatably connected to the rotating shaft assembly, wherein the rotor shell is covered outside the stator assembly and is provided with a rotor assembly at the inner diameter, and the rotor assembly is used for being matched with the stator assembly; the output portion is connected with the rotor housing.

According to the technical scheme, the rotor shell is integrally formed by metal materials, the outer diameter of the rotor shell is provided with the radiating fins, and wind pressure is generated through the radiating fins when the rotor shell rotates.

The technical scheme is further improved that the radiating fins are turbine-shaped fan blades, and wind pressure is generated by the radiating fins when the rotor shell rotates to exhaust air towards the radiating outlet.

The linkage element comprises an output gear arranged at the output part, a linkage gear meshed with the output gear, a linkage rod connected with the linkage gear, a driving gear connected with the linkage rod and a fan blade gear connected with the driving gear, wherein the fan blade gear is connected with the heat dissipation fan blade.

According to the scheme, when the output part outputs rotation, the output gear is driven to rotate, the fan blade gear is driven to rotate under the action of the linkage rod gear, the linkage rod and the driving gear, and the fan blade gear drives the heat dissipation fan blade to rotate to blow and dissipate heat towards the heat dissipation cavity.

A motor heat dissipation method of a game steering wheel comprises the following steps of a motor heat dissipation device of the game steering wheel; the heat dissipation method of the motor comprises the following steps,

the user is through operating direction control element, and driving motor passes through output connection direction control element, and direction control element is the steering wheel, and driving motor follows output rotation when controlling, drives the linkage element when rotatory and makes the heat dissipation flabellum blow the heat dissipation to the driving motor in the heat dissipation chamber.

The technical scheme is further improved that the driving motor is an outer rotor direct-drive motor, turbine-shaped heat radiation fins are arranged on a rotor shell of the driving motor, and when the rotor shell rotates, turbine wind pressure is generated by driving the heat radiation fins, and the wind pressure is axially discharged from the outer diameter of the driving motor; meanwhile, the radiating fan blades blow air into the radiating cavity, external cold air is blown into the radiating cavity, and then the cold air is brought out by the turbine-shaped radiating fins to form circularly flowing air for radiating.

The invention has the beneficial effects that:

compared with the existing game steering wheel motor for heat dissipation, the invention has the advantages that the output part of the driving motor is connected with the linkage element, when the direction control element is operated, the linkage element is driven to rotate during rotation, meanwhile, the heat dissipation fan blades are driven to blow air to the heat dissipation cavity or discharge internal hot air, and the driving motor in the heat dissipation cavity can be cooled by adopting the design of two groups of fan blades. The problem of current inside driving motor of recreation steering wheel radiating effect when using not good is solved, the condition that leads to breaking down in the recreation experience. The linkage element is connected to the output part of the driving motor, and the linkage element is connected with the heat dissipation fan blade to dissipate heat of the driving motor in the heat dissipation cavity, so that a heat dissipation fan is not required to be additionally designed, and the heat dissipation effect is guaranteed. In the heat dissipation process, the two groups of heat dissipation fan blades are used for blowing and dissipating heat in the heat dissipation cavity and/or taking hot air in the heat dissipation cavity out so as to form cold and hot air exchange in the heat dissipation cavity. Two groups of symmetrical heat dissipation blades are adopted in the heat dissipation process, and the two groups of heat dissipation blades can be designed to exhaust air towards the inside or exhaust air unidirectionally by unidirectional air inlet in the output process, so that the heat dissipation of cold and hot air in the heat dissipation cavity is ensured. Greatly increased is to driving motor's radiating effect, can not produce unnecessary noise moreover, and the recreation is experienced better.

According to the motor heat dissipation method, a user operates a direction control element, a driving motor is connected with the direction control element through an output part, the direction control element is a steering wheel, the driving motor rotates along with the output part during control, and a linkage element is driven during rotation to enable heat dissipation blades to conduct blowing heat dissipation on the driving motor in a heat dissipation cavity; the driving motor is an outer rotor direct-drive motor, a turbine-shaped heat radiation fin is arranged on a rotor shell of the driving motor, and when the rotor shell rotates, the heat radiation fin is driven to generate turbine wind pressure, and the wind pressure is axially discharged from the outer diameter of the driving motor; meanwhile, the radiating fan blades blow air into the radiating cavity, external cold air is blown into the radiating cavity, and then the cold air is brought out by the turbine-shaped radiating fins to form circularly flowing air for radiating. In the invention, two groups of radiating fan blades are adopted to blow air towards the radiating cavity, wind outside the shell is led into the radiating cavity, and then the wind is axially discharged through the turbine-shaped fan blades, so that the purposes of discharging hot wind and radiating in a flowing mode of leading cold wind are achieved, and the radiating of the driving motor is further improved.

Drawings

FIG. 1 is a schematic perspective view of a motor heat sink for a steering wheel in accordance with the present invention;

FIG. 2 is a schematic top view of the heat sink of the steering wheel motor of FIG. 1;

FIG. 3 is a cross-sectional view of A-A of FIG. 2;

FIG. 4 is an exploded schematic view of the heat sink of the steering wheel motor of FIG. 1;

FIG. 5 is an exploded view of the motor heat sink of the game steering wheel of FIG. 1 from another perspective;

FIG. 6 is a schematic diagram of a driving motor and a fixed bracket according to an embodiment of the present invention;

FIG. 7 is a schematic view showing a driving motor and a fixing bracket according to another embodiment of the present invention;

FIG. 8 is a schematic view of the drive motor and stationary bracket of FIG. 7;

FIG. 9 is a schematic top view of the drive motor and stationary bracket of FIG. 7;

fig. 10 is a cross-sectional view of A-A in fig. 9.

Reference numerals illustrate: the housing 1, the lower housing 11, the upper housing 12, the wind tunnel 13, the output fixing portion 14, the driving motor 2, the output portion 21, the linkage element 22, the output gear 221, the linkage gear 222, the linkage rod 223, the driving gear 224, the blade gear 225, the direction control element 23, the base 24, the stator assembly 25, the rotation shaft assembly 26, the rotor housing 27, the heat dissipation fins 271, the rotor assembly 28, the heat dissipation assembly 3, the heat dissipation blade 31, the fixing bracket 4, the heat dissipation cavity 41, the heat dissipation tunnel 411, the air inlet and outlet 412, the arc-shaped guide plate 413, the large arc surface 4131, the small arc surface 4132, the fixing table 42, the upright rod 421, the mounting table 43, the side plate 44, the heat dissipation through groove 441, the connection table 45, and the heat dissipation outlet 451.

Detailed Description

In order that the invention may be readily understood, a more complete description of the invention will be rendered by reference to the appended drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1 to 10, in one embodiment of the present invention, a heat dissipating device for a motor of a steering wheel for a game is provided, which includes a housing 1, a driving motor 2, and a heat dissipating component 3, wherein a placement cavity is provided in the housing 1, and a fixing bracket 4 is installed in the placement cavity; the driving motor 2 is arranged on the fixed support 4, an output end of the driving motor 2 is connected with an output part 21, and the output part 21 is connected with a linkage element 22 and a direction control element 23; the heat dissipation assembly 3 comprises heat dissipation fan blades 31 connected with the linkage element 22, and the direction control element 23 is used for controlling the output part 21 to rotate, so that the linkage element 22 drives the heat dissipation fan blades 31 to blow and dissipate heat towards the driving motor 2; the two groups of linkage elements 22 are symmetrically arranged, the two groups of linkage elements 22 are synchronously connected with the output part 21 in a transmission manner, the two groups of heat dissipation fan blades 31 are arranged, the two groups of heat dissipation fan blades 31 are respectively arranged on two sides of the driving motor 2, and the two groups of heat dissipation fan blades 31 are respectively connected with the two groups of linkage elements 22; the fixing support 4 is provided with a heat dissipation cavity 41, the driving motor 2 is arranged in the heat dissipation cavity 41, and the two groups of heat dissipation fan blades 31 are used for blowing air in the heat dissipation cavity 41 to dissipate heat and/or taking hot air in the heat dissipation cavity 41 out so as to exchange cold air and hot air in the heat dissipation cavity 41. In this embodiment, the output part 21 of the driving motor 2 is connected with the linkage element 22, when the direction control element 23 is operated, the linkage element 22 is driven to rotate when the direction control element 23 is connected with the output part 21, and meanwhile, the heat dissipation fan blades 31 are driven to blow air to the heat dissipation cavity 41 or exhaust hot air inside, and the driving motor 2 in the heat dissipation cavity 41 can be dissipated by adopting a two-group fan blade design. The problem of current inside driving motor 2 of recreation steering wheel radiating effect when using not good is solved, the condition that leads to breaking down in the recreation experience. The output part 21 of the driving motor 2 is connected with the linkage element 22, and the linkage element 22 is connected with the heat dissipation fan blade 31 to dissipate heat of the driving motor 2 in the heat dissipation cavity 41, so that a heat dissipation effect is ensured without additionally designing a heat dissipation fan. In the heat dissipation process, the two sets of heat dissipation fan blades 31 are used for blowing and dissipating heat in the heat dissipation cavity 41 and/or carrying out hot air in the heat dissipation cavity 41 so as to form cold and hot air exchange in the heat dissipation cavity 41. Two groups of symmetry are adopted in the heat dissipation process, and as the two groups of heat dissipation fan blades 31 in the output process can be designed to exhaust air towards the inside or exhaust air unidirectionally by unidirectional air inlet, the heat dissipation of cold and hot air in the heat dissipation cavity 41 is ensured. The heat radiation effect on the driving motor 2 is greatly increased.

The shell 1 comprises a lower shell 11 and an upper shell 12 buckled on the surface of the lower shell 11, wherein a placement cavity is formed between the lower shell 11 and the upper shell 12, one side or two sides of the shell 1 are provided with air channels 13, and the air channels 13 are used for air intake or exhaust of the heat dissipation fan blades 31; the housing 1 is formed by fastening an upper case 12 and a lower case 11, and wind passages 13 are provided at both sides of the housing 1 so as to guide external wind into the heat dissipation chamber 41 through the heat dissipation blades 31 or to discharge hot wind.

One end of the housing 1 is provided with an output fixing portion 14, one end of the output portion 21 extends to the output fixing portion 14, the direction control element 23 is arranged in the output fixing portion 14 and is connected with the output portion 21, the output fixing portion 14 is used for connecting and installing the output portion 21, connection and installation of the direction control element 23 are facilitated, and stability of the structure is guaranteed.

Referring to fig. 6, in one way of the above embodiment, the fixing support 4 is provided with a fixing table surface 42 at two sides of the heat dissipation cavity 41, one side of the heat dissipation cavity 41 is provided with a mounting table surface 43, one end of the driving motor 2 is mounted on the fixing table surface 42 and is located in the heat dissipation cavity 41, the mounting table surface 43 is provided with a side plate 44, the mounting table surface 43 is connected with the fixing table surface 42 through the side plate 44, the side plate 44 is provided with a heat dissipation through groove 441, one end of the heat dissipation through groove 441 is communicated with the heat dissipation cavity 41, and one end of the heat dissipation fan blade 31 faces the heat dissipation through groove 441. And the heat dissipation through groove 441 is used for exhausting and dissipating heat from the heat dissipation fan blade 31.

Referring to fig. 7 to 8, in another way of the above embodiment, a fixed table top 42 is disposed on the left and right sides of the fixed bracket 4 in the heat dissipation cavity 41, a connection table top 45 and a mounting table top 43 are disposed on the front and rear sides of the fixed bracket 4, the heat dissipation cavity 41 is disposed between the connection table top 45 and the mounting table top 43, and one end of the driving motor 2 is mounted on the mounting table top 43; the output part 21 of the driving motor 2 extends towards the connecting table board 45, and the linkage element 22 is arranged on the connecting table board 45 and is in transmission connection with the output part 21; in the present embodiment, the outer rotor direct-drive motor is suitably mounted, the driving portion of the direct-drive motor is fixed by the mounting table 43, and the connection table 45 is used for connection and mounting of the output portion 21. The heat dissipation chamber 41 is provided between the connection mesa 45 and the mounting mesa 43 so that the structure can stably guide ventilation and heat dissipation at the time of heat dissipation.

The fixed table 42 is provided with a vertical rod 421, and the heat dissipation fan blades 31 are arranged on the vertical rod 421 and face the heat dissipation cavity 41; the upright bar 421 is provided for mounting the heat dissipation fan blades 31, and after mounting, the air is blown toward the heat dissipation chamber 41 for heat dissipation.

The connecting table 45 and the mounting table 43 are obliquely arranged on the fixed support 4, and the design of an oblique structure is adopted, so that the operation and the use of the steering wheel for games are convenient.

The heat dissipation cavity 41 is internally provided with a heat dissipation channel 411, the driving motor 2 is positioned in the heat dissipation channel 411, both sides of the heat dissipation channel 411 are provided with air inlet and outlet openings 412, the heat dissipation fan blades 31 face the air inlet and outlet openings 412, specifically, the driving motor 2 is installed through the heat dissipation channel 411 and is subjected to air inlet or air exhaust through the air inlet and outlet openings 412, and the heat dissipation of the air flow in the heat dissipation channel 411 is maintained.

The heat dissipation channel 411 is formed by two groups of arc-shaped guide plates 413 which are symmetrically arranged, the arc-shaped guide plates 413 comprise a large arc surface 4131 and small arc surfaces 4132 which are symmetrically connected to two sides of the large arc surface 4131, and an arc-shaped heat dissipation channel 411 is formed between the large arc surface 4131 and the small arc surfaces 4132; the arc-shaped heat dissipation channel 411 formed by the arc-shaped guide plates 413 is used for guiding and dissipating heat to the circular direct-drive motor housing 1, so that the heat dissipation range of the motor housing 1 is larger and the effect is better when wind is guided to flow. Similarly, heat can be carried out in a larger range, and cold and hot gas exchange can be performed.

Referring to fig. 10, the driving motor 2 is an external rotor direct-drive motor, the driving motor 2 includes a base 24, a stator assembly 25 fixedly connected to the base 24, a rotating shaft assembly 26 rotatably connected to the base 24, and a rotor housing 27 rotatably connected to the rotating shaft assembly 26, the rotor housing 27 is covered outside the stator assembly 25, and a rotor assembly 28 is disposed at an inner diameter, and the rotor assembly 28 is used for matching with the stator assembly 25; the output part 21 is connected with the rotor housing 27; in this embodiment, an outer rotor direct-drive motor is adopted, the stator assembly 25 is a motor coil, the rotor assembly 28 is a magnetic core and is circumferentially distributed on the inner diameter of the rotor housing 27, and under the cooperation of the two, the rotor housing 27 is driven in a rotating manner, and in use, a control element can be designed for steering wheel operation induction, control reading and the like.

Specifically, the connection table 45 is provided with a heat dissipation outlet 451, and one end of the heat dissipation outlet 451 is communicated to the heat dissipation channel 411; the rotor housing 27 is integrally formed by metal materials, the outer diameter of the rotor housing 27 is provided with heat dissipation fins 271, the heat dissipation fins 271 are turbine-shaped fan blades, and when the rotor housing 27 rotates, wind pressure is generated by the heat dissipation fins 271 to exhaust air towards the heat dissipation outlet 451; in this embodiment, the turbine-shaped heat dissipation fins 271 are used, so that the heat can be uniformly conducted out, and meanwhile, wind pressure can be generated to dissipate heat, and flowing gas is formed to dissipate heat under the condition that cold air is introduced by combining the heat dissipation fan blades 31.

The linkage element 22 includes an output gear 221 provided at the output portion 21, a linkage gear 222 engaged with the output gear 221, a linkage rod 223 connected to the linkage gear 222, a driving gear 224 connected to the linkage rod 223, and a blade gear 225 connected to the driving gear 224, the blade gear 225 being connected to the heat dissipation blade 31; in this embodiment, when the output portion 21 outputs rotation, the output gear 221 is driven to rotate, the linkage rod 223 gear, the linkage rod 223 and the driving gear 224 drive the fan blade gear 225 to rotate, and the fan blade gear 225 drives the heat dissipation fan blade 31 to rotate and blow and dissipate heat towards the heat dissipation cavity 41.

According to the motor heat dissipation method, a user operates a direction control element 23, a driving motor 2 is connected with the direction control element 23 through an output part 21, the direction control element is a steering wheel, the driving motor 2 rotates along with the output part 21 during control, and a linkage element 22 is driven during rotation to enable a heat dissipation fan blade 31 to conduct blowing heat dissipation on the driving motor 2 in a heat dissipation cavity 41; the driving motor 2 is an outer rotor direct-drive motor, a turbine-shaped heat dissipation fin 271 is arranged on a rotor housing 27 of the driving motor 2, and when the rotor housing 27 rotates, the heat dissipation fin 271 is driven to generate turbine wind pressure, and the wind pressure is axially discharged from the outer diameter of the driving motor 2; simultaneously, the heat dissipation fan blades 31 blow air into the heat dissipation cavity 41, blow external cold air into the heat dissipation cavity 41, and then are carried out by the turbine-shaped heat dissipation fins 271 to form circularly flowing air for heat dissipation. In the invention, two groups of cooling fan blades 31 are adopted to blow air towards the inside of the cooling cavity 41, wind outside the shell 1 is led into the cooling cavity 41, and then the wind is axially discharged through the turbine-shaped fan blades, so that the purposes of discharging hot wind and cooling in a flowing mode of leading cold wind are achieved, and the cooling of the driving motor 2 is further improved.

The foregoing examples illustrate only a few embodiments of the invention, which are described in detail and are not to be construed as limiting the scope of the invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (10)

1. A kind of game steering wheel dynamo heat dissipating double-fuselage, characterized by that: comprising

The shell is internally provided with a placement cavity, and a fixing bracket is arranged in the placement cavity;

the driving motor is arranged on the fixed support, the output end of the driving motor is connected with an output part, and the output part is connected with a linkage element and a direction control element;

the heat dissipation assembly comprises heat dissipation fan blades connected with the linkage element, and the direction control element is used for controlling the output part to rotate so that the linkage element drives the heat dissipation fan blades to blow and dissipate heat towards the driving motor;

the two groups of the linkage elements are symmetrically arranged, the two groups of the linkage elements are synchronously connected with the output part in a transmission manner, the two groups of the heat dissipation fan blades are respectively arranged on two sides of the driving motor, and the two groups of the heat dissipation fan blades are respectively connected with the two groups of linkage elements; the fixed support is provided with a heat dissipation cavity, the driving motor is arranged in the heat dissipation cavity, and the two groups of heat dissipation fan blades are used for blowing and dissipating heat in the heat dissipation cavity and/or taking hot air in the heat dissipation cavity out so as to form cold and hot air exchange in the heat dissipation cavity.

2. The play steering wheel motor heat sink of claim 1, wherein: the shell comprises a lower shell and an upper shell buckled on the surface of the lower shell, the placement cavity is formed between the lower shell and the upper shell, one side or two sides of the shell are provided with air channels, and the air channels are used for air intake or exhaust of the heat dissipation fan blades;

one end of the shell is provided with an output fixing part, one end of the output part extends to the output fixing part, and the direction control element is arranged in the output fixing part and is connected with the output part.

3. The play steering wheel motor heat sink of claim 1, wherein: the fixed bolster is located the both sides of heat dissipation chamber and is equipped with fixed mesa, one side of heat dissipation chamber is equipped with the installation mesa, driving motor's one end is installed on fixed mesa and is in the heat dissipation intracavity, the installation mesa is provided with the curb plate, the installation mesa passes through the curb plate and is connected with fixed mesa, be provided with the heat dissipation on the curb plate and lead to the groove, the one end in heat dissipation lead to the groove communicates to the heat dissipation chamber, the one end orientation of heat dissipation flabellum the heat dissipation leads to the groove.

4. The play steering wheel motor heat sink of claim 1, wherein: the fixing support is provided with fixing table boards at the left and right sides of the radiating cavity, the front and rear sides of the fixing support are respectively provided with a connecting table board and a mounting table board, the radiating cavity is positioned between the connecting table board and the mounting table board, and one end of the driving motor is mounted on the mounting table board; the output part of the driving motor extends towards the connecting table top, and the linkage element is arranged on the connecting table top and is in transmission connection with the output part.

5. The game steering wheel motor heat sink according to claim 3 or 4, wherein: the fixed table top is provided with a vertical rod, and the radiating fan blades are arranged on the vertical rod and face the radiating cavity;

the connecting table top and the mounting table top are obliquely arranged on the fixed support;

the cooling cavity is internally provided with a cooling channel, the driving motor is positioned in the cooling channel, air inlets and air outlets are formed in two sides of the cooling channel, and the cooling fan blades face the air inlets and the air outlets.

6. The play steering wheel motor heat sink of claim 5 wherein: the heat dissipation channel is formed by two groups of arc-shaped guide plates which are symmetrically arranged, the arc-shaped guide plates comprise a large arc surface and small arc surfaces which are symmetrically connected with two sides of the large arc surface, and an arc-shaped heat dissipation channel is formed between the large arc surface and the small arc surfaces;

and a heat dissipation outlet is formed in the connection table top, and one end of the heat dissipation outlet is communicated with the heat dissipation channel.

7. The play steering wheel motor heat sink of claim 6 wherein: the driving motor is an outer rotor direct-drive motor and comprises a base, a stator assembly fixedly connected to the base, a rotating shaft assembly rotatably connected to the base and a rotor shell rotatably connected to the rotating shaft assembly, wherein the rotor shell is covered outside the stator assembly and is provided with a rotor assembly in an inner diameter, and the rotor assembly is used for being matched with the stator assembly; the output part is connected with the rotor shell;

the rotor shell is integrally formed by metal materials, the outer diameter of the rotor shell is provided with radiating fins, and wind pressure is generated through the radiating fins when the rotor shell rotates.

8. The play steering wheel motor heat sink of claim 7 wherein: the radiating fins are turbine-shaped fan blades, and wind pressure is generated by the radiating fins when the rotor shell rotates to exhaust air towards the radiating outlet.

9. The play steering wheel motor heat sink of claim 1, wherein: the linkage element comprises an output gear arranged at the output part, a linkage gear meshed with the output gear, a linkage rod connected with the linkage gear, a driving gear connected with the linkage rod and a fan blade gear connected with the driving gear, and the fan blade gear is connected with the heat dissipation fan blade;

when the output part outputs rotation, the output gear is driven to rotate, the fan blade gear is driven to rotate under the action of the linkage rod gear, the linkage rod and the driving gear, and the fan blade gear drives the heat dissipation fan blade to rotate to blow and dissipate heat towards the heat dissipation cavity.

10. A motor heat dissipation method of a game steering wheel is characterized in that: a steering wheel motor heat sink comprising the game of any one of claims 1 to 9; the heat dissipation method of the motor comprises the following steps,

the user is through operating the direction control element, and driving motor passes through the output and connects the direction control element, and the direction control element is the steering wheel, and driving motor follows output rotation when controlling, drives the linkage element when rotatory and makes the radiating fan blade carry out the heat dissipation of blowing to the driving motor in the heat dissipation chamber;

the driving motor is an outer rotor direct-drive motor, a turbine-shaped heat radiation fin is arranged on a rotor shell of the driving motor, and when the rotor shell rotates, the heat radiation fin is driven to generate turbine wind pressure, and the wind pressure is axially discharged from the outer diameter of the driving motor; meanwhile, the radiating fan blades blow air into the radiating cavity, external cold air is blown into the radiating cavity, and then the cold air is brought out by the turbine-shaped radiating fins to form circularly flowing air for radiating.