CN115750636A

CN115750636A - Environment-friendly air-cooled brake of double brake discs

Info

Publication number: CN115750636A
Application number: CN202211239464.9A
Authority: CN
Inventors: 刘海峰; 张文汉
Original assignee: Wuxi Heshen Machinery Technology Co ltd
Current assignee: Wuxi Heshen Machinery Technology Co ltd
Priority date: 2022-10-11
Filing date: 2022-10-11
Publication date: 2023-03-07
Anticipated expiration: 2042-10-11
Also published as: CN115750636B

Abstract

The invention discloses an environment-friendly air-cooled brake with double brake discs, which comprises a rack and brake discs, wherein a support shaft is arranged on the side surface of the rack, a fixing bolt is arranged on the side surface of the support shaft, the fixing bolt penetrates through a fixing disc and is embedded in a fixing frame, a guide cleaning structure is arranged in the fixing bolt, a heat dissipation structure is arranged in the fixing disc, 2 brake discs are arranged on the outer side of the fixing disc, the fixing frame is in a circular truncated cone shape, and a central shaft is arranged at the air inlet end of the fixing frame; vibrations guide structure can seal gas when gaseous outflow to make the atmospheric pressure increase in the device, promote vibrations guide structure after atmospheric pressure increase and remove and make gaseous blowout, thereby avoid the dust to adhere to the inside at the device, and because atmospheric pressure can drive vibrations guide structure and remove so can arouse the inside vibrations of device, further avoid the dust to adhere to the inside at the device, carry out intelligent environmental protection's dust removal to the device.

Description

Environment-friendly air-cooled brake of double brake discs

Technical Field

The invention relates to the technical field of brakes, in particular to an environment-friendly air-cooled brake with double brake discs.

Background

The brake is a device having functions of decelerating, stopping or keeping a moving part or a moving machine in a stopped state, and is a mechanical part for stopping or decelerating the moving part in the machine, and the brake usually converts kinetic energy of the exercise machine into heat energy during use so as to decelerate the exercise machine, but the existing brake has some disadvantages during use, such as:

when the brake is used, the brake is cooled by using air cooling means, and when the brake is used, the contact area between air and the brake is small, and the air flows slowly, so that the cooling effect of the brake is poor, and when the brake is used, in order to improve the cooling effect of the brake, the brake is cooled by using cooling water and the like, so that the waste of water resources is caused, the environment-friendly performance of the device is poor, in the using process of the device, the external air can continuously enter the device, and impurities such as dust and the like can enter the device along with the external air, so that the substances such as dust and the like are attached to the surface of the device, the device is easy to damage, the service life of the device is shortened, and the environment-friendly performance of the device is reduced.

Disclosure of Invention

The invention aims to provide an environment-friendly air-cooled brake with double brake discs, which aims to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme: an environment-friendly air-cooled brake with double brake discs comprises a frame and a brake disc, wherein a support shaft is arranged on the side surface of the frame, a fixing bolt is arranged on the side surface of the support shaft, the fixing bolt penetrates through a fixing disc and is embedded in a fixing frame, a guide cleaning structure is arranged in the fixing bolt, a heat dissipation structure is arranged in the fixing disc, 2 brake discs are arranged on the outer side of the fixing disc, the fixing frame is in a circular table shape, a central shaft is arranged at the air inlet end of the fixing frame, a first blade and a turbulence mechanism are respectively arranged on the outer side of the central shaft, a guide column is arranged at the other end of the central shaft and is embedded in the fixing disc, a vibration guide structure is arranged on the side surface of the fixing frame, calipers are arranged on the side surface of the frame and comprise the frame and the brake disc, the support shaft is arranged on the side surface of the frame, the side surface of the supporting shaft is provided with a fixing bolt, the fixing bolt penetrates through a fixing disc and is installed in a fixing frame in an embedded mode, a guide cleaning structure is arranged in the fixing bolt, a heat dissipation structure is arranged in the fixing disc, 2 brake discs are arranged on the outer side of the fixing disc, the fixing frame is in a circular truncated cone shape, a central shaft is arranged at the air inlet end of the fixing frame, first blades and a turbulence mechanism are respectively arranged on the outer side of the central shaft, a guide column is arranged at the other end of the central shaft, the guide column is installed in the fixing disc in an embedded mode, a vibration guide structure is arranged on the side surface of the fixing frame, calipers are arranged on the side surface of the rack and are located on the outer side of the fixing disc, when the device is installed, the fixing disc firstly penetrates through the fixing bolt, then the calipers are installed, and then the fixing frame and the vibration guide structure are fixed through bolts, then the fixing frame is embedded in the fixing bolt, the fixing bolt and the fixing bolt are fixed by using a nut, thereby the installation of the device is completed, when the device is used, when the device is braked, the caliper can extrude the brake disc so as to provide friction force for the brake disc to prevent the brake disc from rotating, then the device normally operates, in the operation process, external gas flows in the rotating direction under the action of the first blade, then the turbulence mechanism can layer the gas so as to prevent the guide cleaning structure from rotating, so that the guide cleaning structure and the central shaft rotate oppositely, the guide cleaning structure can guide the gas, meanwhile, dust in the gas can be attached with static electricity, the flow speed of the gas is accelerated by using the force of the device, thereby carry out the heat dissipation of energy-conservation nature to the device, can carry out intelligent edulcoration to the inside of device when carrying out the heat dissipation to brake disc and device simultaneously and avoid the problem that the interior dust of device excessively causes the braking effect to descend to appear, and the clean structure of direction can lead to gas, increase the cooling effect of device, vibrations guide structure can seal gas when gaseous outflow, thereby make the atmospheric pressure increase in the device, promote vibrations guide structure to remove and make gaseous blowout when atmospheric pressure increase after, thereby avoid the dust to attach to the inside of device, and because atmospheric pressure can drive vibrations guide structure and remove so can arouse the inside vibrations of device, further avoid the dust to attach to the inside of device, carry out intelligent dust removal to the device.

Further, heat radiation structure includes cooling hole and fixed way, angle settings such as cooling hole are in the inside of fixed disk, the fixed way has been seted up to the inside of brake disc, and when gaseous when flowing, gaseous can pass the cooling hole and cool off the fixed disk, and the fixed way has been seted up to the inside of brake disc simultaneously, and external gaseous can flow in the inside of brake disc through the fixed way, further improves the cooling effect of device.

Further, the clean structure of direction includes the air inlet, strengthens bolt, the gas vent, the air inlet is seted up in the gim peg side, angle settings such as gas vent are in the side of air inlet, the gas vent is located the inside of fixed disk, and the position of gas vent and fixed way overlaps, when the device is using, the air inlet has the effect of supporting to the device, external gas can flow in the inside of air inlet through the air inlet, and the outside of strengthening the bolt is the heliciform, when gaseous with strengthen the bolt contact, strengthen the bolt can lead to gas, thereby make the gas rotation move forward, increase the contact of gas and gim peg, thereby improve the cooling effect of gas to the gim peg, and the gim peg is in the same place with the gim peg, so can be quick through reducing the temperature of gim peg and reduce the temperature of fixed disk, thereby through effectively utilizing gas, the cooling effect of energy-saving's improvement device, strengthen the bolt simultaneously and can support the gim peg, increase the stability of gim peg, avoid the cracked phenomenon to appear in the gim peg.

Further, the inside filter layer that is provided with of inlet end of mount, the inside of filter layer is provided with the center pin, distance between filter layer and the first blade is less than the distance between filter layer and the vortex mechanism, the inside of vortex mechanism is provided with static edulcoration mechanism, can drive first blade when the device rotates and rotate, and first blade can accelerate gaseous flow velocity through its inclined plane when rotatory to make the rotatory inside of external gas remove, and the gas that gets into from the filter layer lower part can rotate and contact with the top of vortex mechanism after the top, and the gas that gets into from the filter layer top can contact with the below of vortex mechanism, and the filter layer can filter the gas that gets into, thereby avoids external impurity to enter into the inside of device.

Further, the vortex mechanism includes turbine wheel frame, turbine blade and guide layer, the turbine wheel frame rotates and sets up the side at the center pin, the side below of turbine wheel frame is provided with the strengthening rib, the equidistance in below of turbine wheel frame is provided with turbine blade, the top of turbine wheel frame is provided with and is curved guide layer, the rear side of vortex mechanism is provided with the guide post that is the round platform shape, when the device was used, the strengthening rib can make the gravity of turbine wheel frame remove downwards, avoid the turbine wheel frame to rotate, can drive turbine blade and carry out the reverse movement when gaseous when passing through turbine blade simultaneously, thereby produce reverse power to turbine blade and turbine wheel frame, thereby the balanced center pin gives the frictional force of turbine wheel frame, make the turbine wheel frame can not take place to rotate, curved guide layer can make the top air current reverse movement that enters into the device, thereby make the top negative pressure in the device reduce, the gas flow of the filter layer below of device can reduce this moment, thereby avoided the device's gas lifting power great, this moment because external gas only enters into the inside of device through the upper end of filter layer, so can make the device produce the downforce, avoid the phenomenon of gravity, and then increase the safety of guide post and can be through the gas and can be fixed bolt.

Further, static edulcoration mechanism includes the frictional layer, the frictional layer sets up the outside at the center pin, and frictional layer and turbine frame are connected for the laminating, can be continuous rub with the frictional layer when the center pin rotates, thereby make turbine frame and turbine blade attach static, can make the granule attach the same race electric charge when granule such as static and dust contacts, because the same race electric charge has the effect of repelling, so can avoid the dust phenomenon of conglomeration to appear, the dust that can attach electric charge simultaneously has absorbent effect to light little impurity, thereby carry out intelligent energy-conserving cleanness to the impurity in the device, thereby improve the dust removal effect of device.

Further, vibrations guide structure includes protective housing and fixed axle, the protective housing block sets up the side at the mount, the protective housing is the ring form, angle such as the interior survey of protective housing is provided with horizontal first direction way, the outside of first direction way is provided with, angle such as the outside of protective housing is provided with fore-and-aft second direction way, with protective housing and mount block, then with protective housing and fixed axle laminating together, use the bolt to pass fixed axle and protective housing in proper order and be connected with the mount, thereby fix the device, when the device rotates, because the outside of protective housing is provided with fore-and-aft second direction way, so can increase the protective housing to gaseous area of contact, further improve device's radiating effect, and first direction way can lead to gas for more gas flow direction fixed disks, thereby improve device's cooling effect.

Further, the fixed axle sets up the side at the protecting crust, the inside of fixed axle is provided with the seal, the seal comprises the gasbag material, so when atmospheric pressure in the device is less, the seal has confined effect to the device, and can drive the seal when atmospheric pressure is great and warp and remove, thereby make the device open, the gas in the device blows off and cleans the inside of device this moment, and can be continuous when gas blowout drive the seal and shake, thereby drive the device and shake, can effectually avoid the dust to adhere to on the inner wall of device when the device shakes.

Compared with the prior art, the invention has the following beneficial effects: in the operation process of the intelligent dust removal device, external air flows into the device in a rotating mode under the action of the first blade, then the turbulence mechanism can layer the air, so that the air prevents the guide cleaning structure from rotating, the guide cleaning structure and the central shaft rotate oppositely, the guide cleaning structure can guide the air and can lead dust in the air to be charged with static electricity, the flowing speed of the air is accelerated by utilizing the force of the device, the energy-saving heat dissipation is carried out on the device, intelligent impurity removal can be carried out on the inner portion of the device while the brake disc and the device are cooled, the problem that the braking effect is reduced due to excessive dust in the device is avoided, the guide cleaning structure can guide the air, the cooling effect of the device is improved, the vibration guide structure can seal the air when the air flows out, the air pressure in the device is increased, the vibration guide structure is pushed to move after the air pressure is increased, the air is sprayed out, the dust is prevented from being attached to the inner portion of the device, and the vibration guide structure is driven to move, so that the dust is prevented from being attached to the inner portion of the device, and the air pressure of the dust removal device is intelligently removed.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic overall front cross-sectional structural view of the present invention;

FIG. 2 is a cross-sectional side view of the mounting bracket and protective case of the present invention;

FIG. 3 is a front cross-sectional structural schematic view of the mounting bracket and mounting plate of the present invention;

FIG. 4 is a schematic view of the internal structure of the flow disturbing mechanism of the present invention;

FIG. 5 is a schematic view of the internal structure of the guiding cleaning structure of the present invention;

FIG. 6 is a schematic perspective view of the protective case of the present invention;

FIG. 7 is a schematic view of a stationary shaft and seal mounting structure of the present invention;

fig. 8 is a schematic gas flow diagram of the present invention.

In the figure: 1. a frame; 2. a support shaft; 3. fixing the disc; 4. a cooling hole; 5. a brake disc; 6. a fixed way; 7. a fixing bolt; 8. an air inlet; 9. a reinforcing plug; 10. an exhaust port; 11. a fixed mount; 12. a filter layer; 13. a central shaft; 14. a first blade; 15. a turbine frame; 16. a turbine blade; 17. reinforcing ribs; 18. a guide layer; 19. a friction layer; 20. a protective shell; 21. a first guide way; 22. a second guide way; 23. a fixed shaft; 24. a sealing layer; 25. a caliper; 26. and a guide post.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 8, the present invention provides a technical solution: an environment-friendly air-cooled brake with double brake discs comprises a frame 1 and brake discs 5, wherein a support shaft 2 is arranged on the side surface of the frame 1, a fixing bolt 7 is arranged on the side surface of the support shaft 2, the fixing bolt 7 penetrates through a fixing disc 3 and is embedded in a fixing frame 11, a guide cleaning structure is arranged in the fixing bolt 7, a heat dissipation structure is arranged in the

fixing disc

3, 2 brake discs 5 are arranged on the outer side of the fixing disc 3, the fixing frame 11 is in a circular truncated cone shape, a central shaft 13 is arranged at the air inlet end of the fixing frame 11, first blades 14 and a turbulence mechanism are respectively arranged on the outer side of the central shaft 13, a guide column 26 is arranged at the other end of the central shaft 13, the guide column 26 is embedded in the fixing disc 3, a vibration guide structure is arranged on the side surface of the fixing frame 11, calipers 25 are arranged on the side surface of the frame 1, the calipers 25 are positioned on the outer side surface of the fixing disc 3, when the device is installed, firstly, the fixed disk 3 penetrates through the fixed bolt 7, then the caliper 25 is installed, then the fixed frame 11 and the vibration guide structure are fixed by using bolts, then the fixed frame 11 is installed in the fixed bolt 7 in an embedded mode, and the fixed frame and the fixed bolt are fixed by using nuts, so that the installation of the device is completed, when the device is used and needs to be braked, the caliper 25 can extrude the brake disk 5, so that friction force is provided for the brake disk 5 to prevent the brake disk 5 from rotating, then the device normally operates, in the operation process, outside air rotates and flows inwards under the action of the first blades 14, then the turbulence mechanism can stratify the air, so that the air is prevented from rotating by the guide cleaning structure, the guide cleaning structure and the central shaft 13 rotate oppositely, and the guide cleaning structure can guide the air, make the dust in the gas attach and take static simultaneously, utilize the power of device itself to accelerate the speed that the gas flows, thereby carry out energy-conserving heat dissipation to the device, simultaneously can carry out intelligent edulcoration to the inside of device when dispelling the heat to brake disc 5 and device and avoid the problem that the dust in the device appears too much and cause the braking effect to descend, and the clean structure of direction can lead to gas, increase the cooling effect of device, vibrations guide structure can seal gas when gas flows out, thereby make the atmospheric pressure increase in the device, promote vibrations guide structure to remove and make gaseous blowout after atmospheric pressure increases, thereby avoid the dust to attach to the inside of device, and because atmospheric pressure can drive vibrations guide structure and remove so can arouse the vibrations of device inside, further avoid the dust to attach to the inside of device, carry out intelligent dust removal to the device.

The heat radiation structure includes cooling hole 4 and fixed way 6, and the angle setting such as cooling hole 4 is in the inside of fixed disk 3, and fixed way 6 has been seted up to the inside of brake disc 5, and when gaseous when flowing, gaseous can pass cooling hole 4 and cool off fixed disk 3, and fixed way 6 has been seted up to the inside of brake disc 5 simultaneously, and external gaseous can flow in the inside of brake disc 5 through fixed way 6, further improves the cooling effect of device.

The clean structure of direction includes air inlet 8, strengthen the bolt 9, gas vent 10, air inlet 8 sets up in the gim peg 7 side, angle settings such as gas vent 10 are in the side of air inlet 8, gas vent 10 is located the inside of gim peg 3, and the position of gas vent 10 and fixed way 6 overlaps, when the device is using, air inlet 8 has the effect of supporting to the device, external gas can flow into the inside of air inlet 8 through air inlet 8, and the outside of strengthening the bolt 9 is the heliciform, when gaseous and strengthening the bolt 9 contact, strengthen the bolt 9 and can lead to gas, thereby make gaseous rotation move forward, increase the contact of gas and gim peg 7, thereby improve the cooling effect of gas to gim peg 7, and gim peg 7 and gim peg 3 are laminated together, so can be quick through reducing the temperature to gim peg 3 of reducing the gim peg 7, thereby through effectively utilizing gas, the cooling effect of the improvement device of energy-conservation nature, strengthen the bolt 9 simultaneously and can support gim peg 7, increase the stability of gim peg 7, avoid the phenomenon that the gim peg 7 appears the fracture.

The inside filter layer 12 that is provided with of inlet end of mount 11, the inside of filter layer 12 is provided with center pin 13, distance between filter layer 12 and the first blade 14 is less than the distance between filter layer 12 and the vortex mechanism, the inside of vortex mechanism is provided with static edulcoration mechanism, can drive first blade 14 when the device rotates and rotate, and first blade 14 can accelerate gaseous flow velocity through its inclined plane when rotatory, thereby make the rotatory inside of external gas remove, and the top contact with vortex mechanism after the gaseous meeting of getting into to the top from filter layer 12 lower part, the gaseous meeting that gets into from filter layer 12 top contacts with the below of vortex mechanism, filter layer 12 can filter the gas that gets into, thereby avoid external impurity to get into the inside of device.

The turbulent flow mechanism comprises a turbine frame 15, turbine blades 16 and a guide layer 18, the turbine frame 15 is rotatably arranged on the side surface of a central shaft 13, reinforcing ribs 17 are arranged below the side surface of the turbine frame 15, the turbine blades 16 are arranged at equal angles below the turbine frame 15, an arc-shaped guide layer 18 is arranged above the turbine frame 15, a guide post 26 in a circular truncated cone shape is arranged on the rear side of the turbulent flow mechanism, when the device is used, the reinforcing ribs 17 can enable the gravity of the turbine frame 15 to move downwards, the turbine frame 15 is prevented from rotating, meanwhile, when gas passes through the turbine blades 16, the turbine blades 16 are driven to move reversely, and therefore reverse force is generated on the turbine blades 16 and the turbine frame 15, so that the friction force given to the turbine frame 15 by the central shaft 13 is balanced, the turbine frame 15 cannot rotate, the arc-shaped guide layer 18 can enable upper airflow entering the device to move reversely, so that upper negative pressure in the device is reduced, at the lower side of a filter layer 12 of the device is reduced, so that the lifting force of the device is prevented from entering the device only through the upper end of the filter layer 12, and further, the phenomenon that the gas flow of the guide post is unstable and the guide post 7 can flow can be increased, and the gas can flow into the device, thereby, and the device can be prevented from flowing into the device, and the device.

Static edulcoration mechanism includes frictional layer 19, frictional layer 19 sets up in the outside of center pin 13, and frictional layer 19 and turbine frame 15 are connected for the laminating, can be continuous when center pin 13 rotates rub with frictional layer 19, thereby make turbine frame 15 and turbine blade 16 attach static, can make the granule attach the same race electric charge when granule such as static and dust contacts, because the same race electric charge has repulsive effect, so can avoid the dust phenomenon that the dust is conglomerated to appear, the dust that can attach electric charge has absorptive effect to light little impurity simultaneously, thereby carry out intelligent energy-conserving cleanness to the impurity in the device, thereby improve the dust removal effect of device.

The vibration guide structure comprises a protective shell 20 and a fixed shaft 23, the protective shell 20 is clamped on the side surface of the fixed frame 11, the protective shell 20 is in a circular ring shape, a transverse first guide channel 21 is arranged at an equal angle on the inner side of the protective shell 20, a longitudinal second guide channel 22 is arranged at an equal angle on the outer side of the protective shell 20, the protective shell 20 is clamped with the fixed frame 11, the protective shell 20 and the fixed shaft 23 are attached together, bolts sequentially penetrate through the fixed shaft 23 and the protective shell 20 to be connected with the fixed frame 11, so that the device is fixed, when the device rotates, the contact area of the protective shell 20 to gas can be increased due to the fact that the longitudinal second guide channel 22 is arranged on the outer side of the protective shell 20, the heat dissipation effect of the device is further improved, the first guide channel 21 can guide the gas, more gas flows to the fixed disc 3, and the cooling effect of the device is improved.

The fixed shaft 23 is arranged on the side face of the protective shell 20, the sealing layer 24 is arranged inside the fixed shaft 23, and the sealing layer 24 is made of air bag materials, so that when the air pressure in the device is small, the sealing layer 24 has a sealing effect on the device, and when the air pressure is large, the sealing layer 24 can be driven to deform and move, the device is opened, at the moment, the air in the device is blown out to clean the inside of the device, and when the air is sprayed out, the sealing layer 24 can be continuously driven to vibrate, the device is driven to vibrate, and dust can be effectively prevented from being attached to the inner wall of the device when the device vibrates.

The working principle of the invention is as follows: in the device operation process, the external gas rotates inwards to flow under the action of the first blade 14, then the turbulence mechanism can stratify the gas, so that the gas prevents the guide cleaning structure from rotating, the guide cleaning structure and the central shaft 13 rotate oppositely, the guide cleaning structure can guide the gas, meanwhile, the dust in the gas can be attached with static electricity, the gas flowing speed is accelerated by utilizing the force of the device, the device is subjected to energy-saving heat dissipation, meanwhile, the brake disc 5 and the device are subjected to heat dissipation and intelligent impurity removal to the inside of the device, so that the problem that the braking effect is reduced due to excessive dust in the device is avoided, the guide cleaning structure can guide the gas, the cooling effect of the device is increased, the vibration guide structure can seal the gas when the gas flows out, the air pressure in the device is increased, the vibration guide structure is pushed to move after the air pressure is increased, so that the gas is sprayed out, the dust is prevented from being attached to the inside of the device, and the vibration guide structure is driven by the air pressure to move, the dust is further prevented from being attached to the inside of the device, and the intelligent dust removal of the device is realized.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, those skilled in the art will understand that various changes, modifications and substitutions can be made without departing from the spirit and scope of the invention as defined by the appended claims. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides an environment-friendly air-cooled brake of dual brake dish, includes frame (1) and brake disc (5), its characterized in that: the side of frame (1) is provided with back shaft (2), the side of back shaft (2) is provided with gim peg (7), gim peg (7) run through the inside of fixed disk (3) embedded installation in mount (11), the inside of gim peg (7) is provided with the clean structure of direction, the inside of fixed disk (3) is provided with heat radiation structure, the outside of fixed disk (3) is provided with 2 brake discs (5), mount (11) are round platform shape, the inlet end of mount (11) is provided with center pin (13), the outside of center pin (13) is provided with first blade (14) and vortex mechanism respectively, the other end of center pin (13) is provided with guide post (26), and guide post (26) embedded installation in the inside of fixed disk (3), the side of mount (11) is provided with vibrations guide structure, the side of frame (1) is provided with calliper (25), calliper (25) are located the outside of fixed disk (3).

2. The environment-friendly air-cooled brake with double brake discs as claimed in claim 1, characterized in that: the heat radiation structure comprises cooling holes (4) and fixing channels (6), wherein the cooling holes (4) are arranged in the fixed disc (3) at equal angles, and the fixing channels (6) are arranged in the brake disc (5).

3. The environment-friendly air-cooled brake with double brake discs as claimed in claim 2, characterized in that: the clean structure of direction includes air inlet (8), strengthens bolt (9), gas vent (10), air inlet (8) are seted up in gim peg (7) side, the angle settings such as gas vent (10) are in the side of air inlet (8), gas vent (10) are located the inside of fixed disk (3), and gas vent (10) and the position of fixed way (6) overlap.

4. The environmentally friendly air-cooled brake with double brake discs as claimed in claim 3, wherein: the utility model discloses a vortex flow filter, including mount (11), inlet end inside of mount (11) is provided with filter layer (12), the inside of filter layer (12) is provided with center pin (13), distance between filter layer (12) and first blade (14) is less than the distance between filter layer (12) and the vortex mechanism, the inside of vortex mechanism is provided with static edulcoration mechanism.

5. The environmentally friendly air-cooled brake with double brake discs as defined in claim 4, wherein: the vortex mechanism includes turbine frame (15), turbine blade (16) and direction layer (18), turbine frame (15) are rotated and are set up the side in center pin (13), the side below of turbine frame (15) is provided with strengthening rib (17), the angle such as below of turbine frame (15) is provided with turbine blade (16), the top of turbine frame (15) is provided with and is curved direction layer (18), the rear side of vortex mechanism is provided with guide post (26) that are round platform shape.

6. The environmentally friendly air-cooled brake with double brake discs as defined in claim 4, wherein: the static impurity removing mechanism comprises a friction layer (19), the friction layer (19) is arranged on the outer side of the central shaft (13), and the friction layer (19) is attached to the turbine frame (15).

7. The environment-friendly air-cooled brake with double brake discs as claimed in claim 1, wherein: vibrations guide structure includes protective housing (20) and fixed axle (23), protective housing (20) block sets up the side in mount (11), protective housing (20) are the ring form, angles such as the interior survey of protective housing (20) are provided with horizontal first direction way (21), the outside of first direction way (21) is provided with, angles such as the outside of protective housing (20) are provided with fore-and-aft second direction way (22).

8. The environmentally friendly air-cooled brake with double brake discs as claimed in claim 7, wherein: the fixed shaft (23) is arranged on the side surface of the protective shell (20), and a sealing layer (24) is arranged inside the fixed shaft (23).