CN215682059U - Caliper generator set with brake disc kinetic energy recovery function - Google Patents

Abstract

The utility model discloses a caliper generator set with a brake disc kinetic energy recovery function, which comprises a brake chuck and a mechanical caliper mechanism, wherein the brake chuck is arranged at the end part of a wheel, the mechanical caliper mechanism is arranged at the outer side of the brake chuck, the caliper generator set also comprises a kinetic energy recovery mechanism, a power generation mechanism, a hydraulic mechanism and a reset mechanism, the kinetic energy recovery mechanism is positioned at the outer side of the brake chuck corresponding to the brake chuck, the power generation mechanism is positioned at one side of the kinetic energy recovery mechanism, the hydraulic mechanism is positioned at the periphery of the kinetic energy recovery mechanism corresponding to the power generation mechanism, the reset mechanism is positioned between the kinetic energy recovery mechanism and the brake chuck corresponding to the brake chuck, the utility model has the advantages that the kinetic energy recovery mechanism is arranged, the brake kinetic energy can be recovered and utilized in the braking process, the power generation mechanism is arranged, the recovered energy is converted into electric energy under the action of the kinetic energy recovery mechanism, the hydraulic mechanism is arranged and drives the kinetic energy recovery mechanism to move before the mechanical caliper mechanism, so that the mechanical caliper mechanism is high in practicability.

Description

Caliper generator set with brake disc kinetic energy recovery function

Technical Field

The utility model relates to the technical field of automobile caliper energy recovery, in particular to a caliper generator set with a brake disc kinetic energy recovery function.

Background

In the prior art, friction materials are abraded in the process of driving and braking of an automobile, and energy generated by the friction materials is dissipated in air and is not utilized, so that energy waste is caused to a certain extent. Nowadays, the automobile brake increasingly adopts epb (electronic Park brake), which is a technology that integrates the temporary brake function during driving and the long-term brake function after parking, and realizes parking brake by an electronic control mode. When parking braking is needed, the EPB button is pressed, a button operation signal is fed back to the electric control unit, the electric control unit supplies power to control the motor and the planetary reduction gear mechanism to work, the left brake caliper, the right brake caliper, the rear brake caliper and the planetary reduction gear mechanism brake, electric energy of the electric control unit is completely from a motor of a vehicle, kinetic energy in a braking process cannot be recovered, and energy is wasted.

The application numbers are: 201721533261.5 discloses a brake caliper with heat recovery function, which comprises a caliper body including a friction block, and a motor and a reduction gear mechanism mounted on the caliper body; the electric controller is connected with the motor and controls the motor and the reduction gear mechanism to work when parking braking is needed; the heat recovery mechanism comprises at least one temperature difference power generation sheet arranged on the back face of the friction block back plate and a micro storage battery connected with an output port of the temperature difference power generation sheet and used for storing electric energy generated by the temperature difference power generation sheet, wherein the output port of the micro storage battery is connected with an electric controller. However, this kind of brake caliper who possesses heat recovery function can only retrieve the heat, can't carry out recycle to brake kinetic energy, and it does not have the lifting power to the braking effect, can't play the quick speed reduction effect, and unable furthest avoids the vehicle at high load, long downhill path and frequent start-stop time tradition dish to stop thermal attenuation effect, has certain accident hidden danger to its braking effect is relatively poor, and the practicality is relatively poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a caliper generator set with a brake disc kinetic energy recovery function.

In order to achieve the purpose, the technical scheme provided by the utility model is as follows:

a caliper generator set with a brake disc kinetic energy recovery function comprises a brake chuck and a mechanical caliper mechanism, brake chuck sets up at the wheel tip, and mechanical caliper mechanism sets up the brake chuck outside, still including the kinetic energy that is used for going on retrieving the brake in-process kinetic energy that produces retrieve the mechanism, be used for retrieving the power generation mechanism that generates electricity under the effect of mechanism at kinetic energy, be used for promoting kinetic energy to retrieve the mechanism and right earlier than mechanical caliper mechanism brake chuck carries out the hydraulic pressure mechanism that kinetic energy retrieved the action and is used for driving the canceling release mechanical system that kinetic energy retrieved the mechanism and resets, and kinetic energy is retrieved the mechanism and is located the brake chuck outside, power generation mechanism are located kinetic energy and retrieve mechanism one side, and hydraulic pressure mechanism corresponds power generation mechanism and is located kinetic energy and retrieve mechanism week portion, and canceling release mechanical system corresponds brake chuck be located kinetic energy retrieve the mechanism with between the brake chuck.

The mechanism is retrieved to kinetic energy includes that calliper, gyro wheel mounting bracket and roller train are retrieved to kinetic energy, calliper setting is retrieved to kinetic energy brake chuck one side, the gyro wheel mounting bracket corresponds brake chuck sets up calliper one side is retrieved to kinetic energy and with calliper sliding connection is retrieved to kinetic energy, the roller train sets up the gyro wheel mounting bracket is close to brake chuck one side and with the gyro wheel mounting bracket rotates to be connected, the roller train runs through calliper is retrieved to kinetic energy, the roller train comprises the circular gyro wheel that a plurality of even interval set up, the gyro wheel mounting bracket can drive the roller train slides.

Calliper corresponds is retrieved to kinetic energy brake chuck is arc calliper, the gyro wheel mounting bracket corresponds calliper is retrieved to kinetic energy is the arc mounting bracket, the circular gyro wheel of a plurality of in the roller train corresponds the gyro wheel mounting bracket is the arc setting.

The power generation mechanism includes power generation gear train and generating set, the power generation gear train corresponds the roller train setting and retrieves calliper opposite side and with roller train fixed connection at kinetic energy, the power generation gear train corresponds the roller train and comprises the power generation gear that the even interval of a plurality of set up, a plurality of power generation gear respectively with the cooperation of the circular gyro wheel of a plurality of, generating set corresponds power generation gear train setting retrieve calliper one side at kinetic energy and with power generation gear train fixed connection, generating set with power generation gear train homonymy sets up, generating set corresponds the power generation gear train and comprises the small generator that the even interval of a plurality of set up, a plurality of small generator respectively with the cooperation of a plurality of power generation gear.

A plurality of power generation gears in the power generation gear set correspond to a plurality of circular idler wheels in the idler wheel set and are arranged in an arc shape, and a plurality of small generators in the generator set correspond to a plurality of power generation gears in the power generation gear set and are arranged in an arc shape.

Hydraulic pressure mechanism includes hydraulic cylinder group and hydraulic piston group, the setting of pneumatic cylinder group correspondence gyro wheel mounting bracket is in the calliper edge outside is retrieved to kinetic energy and calliper fixed connection is retrieved with kinetic energy, the pneumatic cylinder group of hydraulic cylinder comprises the pneumatic cylinder that the even interval of a plurality of set up, hydraulic piston group corresponds the setting of hydraulic cylinder group is in the calliper edge inboard is retrieved to kinetic energy and with pneumatic cylinder group fixed connection, hydraulic piston group comprises the hydraulic piston that the even interval of a plurality of set up.

The edge that a plurality of pneumatic cylinder in the hydraulic cylinder group corresponds kinetic energy and retrieves calliper is the arc setting, the edge that a plurality of hydraulic piston in the hydraulic piston group corresponds kinetic energy and retrieves calliper is the arc setting.

Reset mechanism includes reset spring group, reset spring group has two sets ofly, and is two sets of reset spring group sets up respectively in gyro wheel mounting bracket both sides and its both ends respectively with outside edge and gyro wheel mounting bracket fixed connection of kinetic energy recovery calliper, every group reset spring group comprises a plurality of reset spring, and kinetic energy recovery calliper passes through reset spring group and gyro wheel mounting bracket elastic connection.

Mechanical calliper mechanism includes brake caliper and brake block, brake caliper sets up brake chuck one side just is located the brake chuck outside, the brake block is located brake chuck with between the brake caliper, brake caliper passes through the brake block is right brake chuck carries out the brake operation.

The outer side of the edge of the brake chuck is provided with a concave-convex sawtooth-shaped cross section.

The utility model has the beneficial effects that:

the mechanical caliper mechanism is matched with the kinetic energy recovery mechanism to divide the braking process into two sections, the kinetic energy recovery mechanism is arranged to recycle the braking kinetic energy in the braking process, the power generation mechanism is arranged to convert the recovered energy into electric energy under the action of the kinetic energy recovery mechanism to generate high-power, the mechanical caliper mechanism can be matched to enable the kinetic energy recovery mechanism to produce progressive rolling resistance, huge mechanical potential energy from a brake disc is offset to play a role in rapid speed reduction, the traditional disc brake thermal attenuation effect is avoided to the maximum extent when a vehicle is started and stopped frequently under high load, long downhill and accident potential is eliminated, the hydraulic mechanism is arranged to drive the kinetic energy recovery mechanism to act before the mechanical caliper mechanism, the reset mechanism is arranged, when the hydraulic mechanism does not work, the kinetic energy recovery mechanism is driven to reset, the practicability is strong, and the outer side of the edge of the brake chuck is designed to be a concave-convex wear-resistant carbon ceramic outer layer, is favorable for improving the braking effect.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a working principle diagram of the present invention.

In the figure: 1. a brake chuck; 2. a kinetic energy recovery caliper; 3. a roller mounting frame; 4. a roller set; 5. a power generating gear set; 6. a generator set; 7. a hydraulic cylinder group; 8. a hydraulic piston group; 9. a return spring set; 10. a brake caliper; 11. a brake pad; 12. a saw-tooth shaped cross section.

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings,

a caliper generator set with a brake disc kinetic energy recovery function comprises a brake chuck 1 and a mechanical caliper mechanism, wherein the brake chuck 1 is arranged at the end part of a wheel, the mechanical caliper mechanism is arranged at the outer side of the brake chuck 1, the mechanical caliper mechanism also comprises a kinetic energy recovery mechanism for recovering kinetic energy generated in the braking process, a power generation mechanism for generating power under the action of the kinetic energy recovery mechanism, a hydraulic mechanism for pushing the kinetic energy recovery mechanism to recover the kinetic energy of the brake chuck 1 before the mechanical caliper mechanism, and a reset mechanism for driving the kinetic energy recovery mechanism to reset, the kinetic energy recovery mechanism is arranged at the outer side of the brake chuck 1 corresponding to the brake chuck 1, the power generation mechanism is arranged at one side of the kinetic energy recovery mechanism, the hydraulic mechanism is arranged at the peripheral part of the kinetic energy recovery mechanism corresponding to the power generation mechanism, the reset mechanism is arranged between the kinetic energy recovery mechanism and the brake chuck 1 corresponding to the brake chuck 1, the overall structure of the utility model is schematically shown in figure 1.

The kinetic energy recovery mechanism comprises kinetic energy recovery calipers 2, a roller mounting frame 3 and a roller group 4, the kinetic energy recovery calipers 2 are arranged on one side of a brake chuck 1, the roller mounting frame 3 corresponds to the brake chuck 1 and is arranged on one side of the kinetic energy recovery calipers 2 and is in sliding connection with the kinetic energy recovery calipers 2, the roller group 4 is arranged on one side of the roller mounting frame 3 close to the brake chuck 1 and is in rotating connection with the roller mounting frame 3, the roller group 4 penetrates through the kinetic energy recovery calipers 2, the roller group 4 is composed of seven round roller groups 4 which are uniformly arranged at intervals, the roller mounting frame 3 can drive the roller group 4 to slide, the kinetic energy recovery mechanism is matched with the roller mounting frame 3 and the roller group 4 through the kinetic energy recovery calipers 2 and recovers brake kinetic energy generated in the braking process, wherein the kinetic energy recovery calipers 2 are used for providing mounting support for the roller mounting frame 3 and the roller group 4, the roller mounting frame 3 is used for providing mounting support for the roller group 4, the roller group 4 is used for recovering the braking kinetic energy generated in the braking process.

Calliper 2 is retrieved to kinetic energy corresponds brake chuck 1 and is arc calliper, and calliper 2 is retrieved to the corresponding kinetic energy of gyro wheel mounting bracket 3 is the arc mounting bracket, and seven circular gyro wheels in the roller train 4 correspond gyro wheel mounting bracket 3 and are the arc setting, and wherein, the circular gyro wheel of arc setting can effectively carry out the kinetic energy to brake chuck 1 and retrieve.

The power generation mechanism comprises a power generation gear set 5 and a power generation set 6, the power generation gear set 5 is arranged on the other side of the kinetic energy recovery caliper 2 corresponding to the roller set 4 and is fixedly connected with the roller set 4, the power generation gear set 5 corresponding to the roller set 4 is composed of seven power generation gears which are uniformly arranged at intervals, the seven power generation gears are respectively matched with the seven round rollers, the power generation set 6 corresponding to the power generation gear set 5 is arranged on one side of the kinetic energy recovery caliper 2 and is fixedly connected with the power generation gear set 5, the power generation set 6 is arranged on the same side with the power generation gear set 5, the power generation gear set 6 corresponding to the power generation gear set 5 is composed of seven small power generation sets 6 which are uniformly arranged at intervals, the seven small power generation gears are respectively matched with the seven power generation gears, the power generation mechanism is matched with the power generation gear set 5 and the power generation set 6 to generate power under the action of the kinetic energy recovery mechanism, wherein the power generation gear set 5 is used for rotating under the driving of the roller set 4, the generator set 6 is used for generating electricity under the driving of the generating gear set 5.

Seven power generation gears in the power generation gear group 5 are arranged in an arc shape corresponding to seven circular rollers in the roller group 4, seven small generators in the generator group 6 are arranged in an arc shape corresponding to seven power generation gears in the power generation gear group 5, and the power generation gears and the small generators are arranged in a circular shape corresponding to the circular rollers.

The hydraulic mechanism comprises a hydraulic cylinder group 7 and a hydraulic piston group 8, the hydraulic cylinder group 7 is arranged at the outer side of the edge of the kinetic energy recovery caliper 2 corresponding to the roller mounting frame 3 and is fixedly connected with the kinetic energy recovery caliper 2, the hydraulic cylinder group 7 is composed of four hydraulic cylinder groups 7 which are uniformly arranged at intervals, the hydraulic piston group 8 is arranged at the inner side of the edge of the kinetic energy recovery caliper 2 corresponding to the hydraulic cylinder groups 7 and is fixedly connected with the hydraulic cylinder groups 7, the hydraulic piston group 8 is composed of four hydraulic piston groups 8 which are uniformly arranged at intervals, the hydraulic mechanism is matched with the hydraulic cylinder groups 7 and the hydraulic piston groups 8 to push the roller mounting frame 3 to move towards the brake chuck 1, so as to drive the roller group 4 to move towards the brake chuck 1, wherein the hydraulic cylinder group 7 is used for providing mounting support for the hydraulic piston group 8, the hydraulic piston group 8 is used for pushing the roller mounting frame 3 to move towards the brake chuck 1 under the action of the hydraulic cylinder group 7, thereby driving the roller group 4 to move towards the brake chuck 1.

The edge that four pneumatic cylinders in the hydraulic cylinder group 7 correspond kinetic energy and retrieve calliper 2 is the arc setting, and four hydraulic piston in the hydraulic piston group 8 correspond the edge that kinetic energy retrieves calliper 2 and are the arc setting, and wherein, the pneumatic cylinder and the hydraulic piston that the arc set up can closely cooperate with gyro wheel mounting bracket 3 to guarantee that the power that promotes gyro wheel mounting bracket 3 keeps even, promote electricity generation and braking effect.

Reset mechanism includes reset spring group 9, reset spring group 9 has two sets ofly, two sets of reset spring group 9 set up respectively at 3 both sides of gyro wheel mounting bracket and its both ends respectively with outside edge and the gyro wheel mounting bracket 3 fixed connection of kinetic energy recovery calliper 2, every reset spring group 9 of group comprises a plurality of reset spring group 9, kinetic energy recovery calliper 2 passes through reset spring group 9 and 3 elastic connection of gyro wheel mounting bracket, reset mechanism drives kinetic energy recovery mechanism through reset spring group 9 and resets, wherein, reset spring group 9 can make gyro wheel mounting bracket 3 have the function of kick-backing, thereby drive kinetic energy recovery mechanism and reset when hydraulic pressure mechanism does not do work.

Mechanical calliper mechanism includes brake caliper 10 and brake block 11, brake caliper 10 sets up in 1 one side of brake chuck and is located the 1 outside of brake chuck, brake block 11 is located between brake chuck 1 and the brake caliper 10, brake caliper 10 brakes the operation through brake block 11 to brake chuck 1, mechanical calliper mechanism passes through brake caliper 10 and the cooperation of brake block 11, carry out mechanical braking to brake chuck 1, wherein, brake caliper 10 is used for braking brake chuck 1, brake block 11 is used for promoting the braking effect.

Concave-convex sawtooth-shaped cross section 12 is arranged on the outer side of the edge of the brake chuck 1, wherein the concave-convex sawtooth-shaped cross section 12 can improve the braking effect of the brake chuck 1 in the braking process.

Wherein, can adjust the work level of kinetic energy recovery calliper 2 according to the actual use demand, for example increase generator quantity or improve the generator rotational speed to improve the kinetic energy recovery efficiency of vehicle.

The power generating gear set 5 can be made of wear-resistant and high-temperature-resistant materials on the outer layer of the roller, and the saw-toothed section 12 on the periphery of the brake disc can be made of wear-resistant and high-temperature-resistant materials for increasing resistance.

Wherein, the carbon ceramic brake pads are adopted on both sides of the friction layer between the power generation gear set 5 and the brake chuck 1.

The technology is suitable for all vehicles and all working conditions and environments with application conditions.

The working principle is as follows:

the wheel end structure of the traditional brake system is that a brake chuck 1 is generally matched with a mechanical caliper mechanism to brake, a kinetic energy recovery mechanism is additionally arranged on the basis and is matched with the mechanical caliper mechanism to form a two-section brake system, when a driver steps on a brake pedal, the kinetic energy recovery mechanism acts before the mechanical caliper mechanism to form the first half section of the brake process, when the driver moves to a half or one third stroke, the mechanical caliper mechanism must be triggered to act regardless of the acting state of the kinetic energy recovery mechanism, so that a friction brake disc brakes to ensure the driving safety, and when the mechanical caliper mechanism acts, the roller pressure of the kinetic energy recovery mechanism is kept at the maximum value within a safety range and acts simultaneously with the mechanical caliper mechanism, so that the brake effect is improved.

The working process is as follows:

the working principle diagram of the utility model is shown in fig. 2, wherein A1-A7 are all round rollers and are used for forming rolling friction with the brake chuck 1, and driving the power generation gear set 5 connected with the rollers to generate high rotating speed during light braking so as to drive the small generator to generate power; when the heavy brake is carried out, the small generator is electrified to be changed into a motor, reverse rotation resistance is provided for A1-A7, the speed reduction effect is improved, B1-B4 are all hydraulic pistons, the working principle of the hydraulic pistons is the same as that of a disc brake, balanced pressure is provided for A1-A7 through the roller mounting rack 3, C1 and C2 are return springs, when B1-B4 does not do work, the A1-A7 is driven to be separated from the brake chuck 1 through the roller mounting rack 3, and the arrow direction in the figure is the moving direction of corresponding parts.

When a driver steps on a brake pedal, the kinetic energy recovery caliper 2 firstly acts, the hydraulic mechanism pushes the roller mounting rack 3 with the rebound function, further drives the roller group 4 to be fully meshed with the rough concave-convex structure at the edge of the brake chuck 1 to drive the circular roller to rotate, the circular roller is connected with the power generation gear group 5 with the acceleration capacity to drive the small generator set 6 to generate ultrahigh rotating speed for high-power generation, meanwhile, an electric control system in the braking system applies reverse current to the small generator according to the speed of the vehicle and the stepping force and speed of the brake pedal, so that when the kinetic energy recovery caliper 2 is subjected to large-force and quick braking, the motor characteristic and the torsion amplification effect of a mechanical gear are utilized to form a powerful speed reducing mechanism, a sufficiently strong progressive rolling resistance is produced to offset the huge mechanical potential energy from the brake chuck 1, and a quick speed reducing effect is achieved, the thermal attenuation effect of the traditional disc brake is avoided to the maximum extent when a vehicle is in a high load, a long downhill and frequent starting and stopping, accident potential is eliminated, when a driver treads a brake pedal to 1/3 or 1/2 (system preset value), no matter how the working state of the kinetic energy recovery caliper 2 is, a mechanical caliper mechanism must be triggered to act, braking is performed by the friction brake chuck 1, the driving safety is ensured, when the brake caliper 10 acts, the roller pressure on the kinetic energy recovery caliper 2 is kept at the maximum value in a safety range, the roller pressure and the brake caliper 10 act simultaneously, and the maximization of the braking efficiency is ensured.

The utility model has the advantages that the mechanical caliper mechanism is matched with the kinetic energy recovery mechanism, the braking process is divided into two sections, the kinetic energy recovery mechanism is arranged, the braking kinetic energy can be recovered and utilized in the braking process, the power generation mechanism is arranged, the recovered energy is converted into electric energy under the action of the kinetic energy recovery mechanism, high-power generation is carried out, the mechanical caliper mechanism can be matched to enable the kinetic energy recovery mechanism to produce progressive rolling resistance, huge mechanical potential energy from a brake disc is offset to play a role in rapid speed reduction, the traditional disc brake thermal attenuation effect when a vehicle is started and stopped under high load, long downhill and frequent times is avoided to the greatest extent, the accident potential is eliminated, the hydraulic mechanism is arranged, the kinetic energy recovery mechanism is driven to act before the mechanical caliper mechanism, the reset mechanism is arranged, when the hydraulic mechanism does not work, the kinetic energy recovery mechanism is driven to reset, the practicability is strong, and the outer side of the edge of the brake chuck is designed to be a concave-convex wear-resistant carbon ceramic outer layer, is favorable for improving the kinetic energy recovery and the auxiliary braking effect.

While one embodiment of the present invention has been described in detail, the present invention is only a preferred embodiment of the present invention and should not be construed as limiting the scope of the present invention. All equivalent changes and modifications made within the scope of the present invention shall fall within the scope of the present invention.

Claims (10)

1. The utility model provides a calliper generating set with brake disc kinetic energy retrieves function, includes brake chuck (1) and mechanical calliper mechanism, brake chuck (1) sets up at the wheel tip, and mechanical calliper mechanism sets up brake chuck (1) outside, its characterized in that, still including the kinetic energy that is used for retrieving the kinetic energy that produces in the braking process and retrieves the mechanism, be used for retrieving the power generation mechanism that generates electricity under the effect of mechanism, be used for promoting kinetic energy to retrieve the mechanism earlier than mechanical calliper mechanism to brake chuck (1) carries out the hydraulic means of kinetic energy recovery action and is used for driving the reset mechanism that the mechanism resets of kinetic energy recovery, and the mechanism is retrieved to kinetic energy corresponds brake chuck (1) is located brake chuck (1) outside, power generation mechanism is located kinetic energy recovery mechanism one side, and hydraulic means corresponds power generation mechanism and is located kinetic energy recovery mechanism week portion, the resetting mechanism corresponds to the brake chuck (1) and is positioned between the kinetic energy recovery mechanism and the brake chuck (1).

2. The caliper generator set (6) with the brake disc kinetic energy recovery function according to claim 1, wherein the kinetic energy recovery mechanism comprises a kinetic energy recovery caliper (2), a roller mounting bracket (3) and a roller set (4), the kinetic energy recovery caliper (2) is disposed on one side of the brake chuck (1), the roller mounting bracket (3) is disposed on one side of the kinetic energy recovery caliper (2) corresponding to the brake chuck (1) and is slidably connected with the kinetic energy recovery caliper (2), the roller set (4) is disposed on one side of the roller mounting bracket (3) close to the brake chuck (1) and is rotatably connected with the roller mounting bracket (3), the roller set (4) penetrates through the kinetic energy recovery caliper (2), and the roller set (4) is formed by a plurality of round roller sets (4) which are uniformly spaced, the roller mounting rack (3) can drive the roller group (4) to slide.

3. The caliper generator set (6) with the brake disc kinetic energy recovery function according to claim 2, wherein the kinetic energy recovery caliper (2) is an arc-shaped caliper corresponding to the brake chuck (1), the roller mounting rack (3) is an arc-shaped mounting rack corresponding to the kinetic energy recovery caliper (2), and a plurality of circular rollers in the roller set (4) are arranged in an arc shape corresponding to the roller mounting rack (3).

4. The caliper generator set (6) with the brake disc kinetic energy recovery function according to claim 1, wherein the power generation mechanism comprises a power generation gear set (5) and a generator set (6), the power generation gear set (5) is arranged at the other side of the brake disc kinetic energy recovery caliper (2) corresponding to the roller set (4) and is fixedly connected with the roller set (4), the power generation gear set (5) is formed by a plurality of power generation gear sets (5) which are arranged at uniform intervals, a plurality of power generation gears are respectively matched with a plurality of round rollers, the generator set (6) is arranged at one side of the brake disc kinetic energy recovery caliper (2) corresponding to the power generation gear set (5) and is fixedly connected with the power generation gear set (5), the generator set (6) is arranged at the same side as the power generation gear set (5), the generator set (6) is formed by a plurality of small generator sets (6) which are arranged at uniform intervals corresponding to the power generation gear set (5), the small generators are respectively matched with the power generation gears.

5. The caliper generator set (6) with the brake disc kinetic energy recovery function as claimed in claim 4, wherein a plurality of power generation gears in the power generation gear set (5) are arranged in an arc shape corresponding to a plurality of round rollers in the roller set (4), and a plurality of small generators in the generator set (6) are arranged in an arc shape corresponding to a plurality of power generation gears in the power generation gear set (5).

6. A caliper generator set (6) with brake disc kinetic energy recovery function according to claim 1, characterized in that the hydraulic mechanism comprises a hydraulic cylinder group (7) and a hydraulic piston group (8), the hydraulic cylinder group (7) is arranged outside the edge of the kinetic energy recovery caliper (2) corresponding to the roller mounting bracket (3) and is fixedly connected with the kinetic energy recovery caliper (2), the hydraulic cylinder group (7) is composed of a plurality of hydraulic cylinder groups (7) which are uniformly spaced, the hydraulic piston group (8) is arranged inside the edge of the kinetic energy recovery caliper (2) corresponding to the hydraulic cylinder group (7) and is fixedly connected with the hydraulic cylinder group (7), and the hydraulic piston group (8) is composed of a plurality of hydraulic piston groups (8) which are uniformly spaced.

7. A brake disc kinetic energy recovery equipped caliper generator set (6) as claimed in claim 6, wherein the hydraulic cylinders of the hydraulic cylinder set (7) are disposed in an arc shape corresponding to the edge of the kinetic energy recovery caliper (2), and the hydraulic pistons of the hydraulic piston set (8) are disposed in an arc shape corresponding to the edge of the kinetic energy recovery caliper (2).

8. The caliper generator set (6) with the brake disc kinetic energy recovery function as claimed in claim 1, wherein the reset mechanism comprises two sets of reset spring sets (9), the two sets of reset spring sets (9) are respectively arranged at two sides of the roller mounting rack (3) and two ends of the two sets of reset spring sets (9) are respectively and fixedly connected with the outer edge of the kinetic energy recovery caliper (2) and the roller mounting rack (3), each set of reset spring set (9) is composed of a plurality of reset spring sets (9), and the kinetic energy recovery caliper (2) is elastically connected with the roller mounting rack (3) through the reset spring sets (9).

9. A caliper generator set (6) with a brake disc kinetic energy recovery function according to claim 1, characterized in that the mechanical caliper mechanism comprises a brake caliper (10) and a brake pad (11), the brake caliper (10) is disposed on one side of the brake chuck (1) and located outside the brake chuck (1), the brake pad (11) is located between the brake chuck (1) and the brake caliper (10), and the brake caliper (10) performs a braking operation on the brake chuck (1) through the brake pad (11).

10. Caliper generator set (6) with brake disc kinetic energy recovery according to claim 1, characterized in that the brake chuck (1) is provided with a concave-convex saw-tooth section (12) on the outside of its edge.

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