CN204878452U - Brake - Google Patents

Abstract

The utility model discloses a brake, including brake disc and the shaft is connected with the brake disc, still include a drive mechanism and be used for producing when the braking damping force and for damping adjustable magneto rheological damper, magneto rheological damper through a drive mechanism and the wheel hub connection. The utility model discloses a brake utilizes magneto rheological damper to produce and obstructs the rotatory resistance of brake disc, makes the brake disc slow down, and magneto rheological damper and brake disc are the non -contact braking, can effectively alleviate the wearing and tearing of friction disc and brake disc to reduce the noise, effectively prolong the life of friction disc and brake disc, and can improve the reliability and the security of braking.

Description

A kind of break

Technical field

The utility model relates to a kind of break.

Background technique

The break be currently applied on vehicle mainly contains disc type and drum-type, and disk type braker will regularly replace the shortcoming of friction disk, and maintenance cost is high, drum brake system, and parking braking is unstable.And friction plate and brake disc or brake drum produce to rub and realize slowing down and braking, friction not only can produce a lot of harmful dust, also can produce a large amount of noise, and service time is of a specified duration also can be produced a very large impact braking ability, and friction catch exists potential safety hazard.

Model utility content

The utility model provides a kind of break, and object improves braking reliability and Security.

To achieve these goals, the technological scheme that the utility model is taked is: a kind of break, the wheel shaft comprising brake disc and be connected with brake disc, also comprise the first driving mechanism and for producing damping force when braking and be the adjustable MR damper of damping, MR damper is connected with described wheel shaft by the first driving mechanism.

Described MR damper comprises:

Cylinder barrel;

Piston rod;

Piston assembly, to be arranged in cylinder barrel and to be connected with piston rod; And

Damping adjustment device, comprises and is sheathed on piston rod and is positioned at the magnetism shielding hood of cylinder barrel and is connected with magnetism shielding hood and for providing the driving mechanism of the driving force making it rotate.

Described piston assembly comprises the piston only be sheathed on described piston rod, be arranged at the permanent magnet on piston only and be arranged at piston only two ends every disk, permanent magnet at two between disk.

Described is circular every disk, and equal with the outer diameter of described piston only every the outer diameter of disk.

Described damping adjustment device also comprises and is sheathed on described Sealing on disk.

Described damping adjustment device also comprises the magnetism-guiding hood being arranged at described magnetism shielding hood inside, and magnetism-guiding hood inside has the cavity body holding described piston assembly.

The sidewall of described magnetism shielding hood and described magnetism-guiding hood is provided with the through hole allowing magnetic flow liquid pass through.

Described driving mechanism comprises the coupling shaft that is connected with described magnetism shielding hood and provides the first motor of driving force for coupling shaft.

Break of the present utility model, MR damper is utilized to produce the resistance hindering brake disc to rotate, brake disc is slowed down, MR damper and brake disc are contactless braking, can effectively alleviate friction plate and brake disc wear, and reduce noise, effectively extend the working life of friction plate and brake disc, and reliability and the Security of braking can be improved.

Accompanying drawing explanation

This specification comprises the following drawings, shown content respectively:

Fig. 1 is the structural representation of the utility model braking device;

Fig. 2 is the structural representation of cooling unit;

Fig. 3 is the sectional view of damper;

Fig. 4 is A-A sectional view in Fig. 3;

Fig. 5 is B-B sectional view in Fig. 3;

Fig. 6 is the structural representation of damper;

Fig. 7 is the structural representation of magnetism shielding hood;

Fig. 8 is the structural representation of magnetism-guiding hood;

Fig. 9 is the structural representation of Sealing;

Figure 10 is the structural representation of piston assembly;

Figure 11 is the sectional view of the damper after magnetism shielding hood and magnetism-guiding hood 90-degree rotation;

Figure 12 is C-C sectional view in Figure 11;

Figure 13 is the enlarged view at damper piston only place when being in undamped state;

Figure 14 is the enlarged view at damper piston only place when being in damping state;

Be labeled as in figure:

1, brake disc; 2, wheel shaft; 3, camshaft; 4, cylindrical cam; 5, drive link; 6, MR damper; 61, the first motor; 62, the second motor; 63, gear drive; 64, cylinder barrel; 65, piston rod; 66, piston only; 67, magnetism-guiding hood; 671, the first cover body; 672, the first end cap; 673, the first through hole; 68, magnetism shielding hood; 681, the second cover body; 682, the second end cap; 683, the second through hole; 69, Sealing; 691, the 3rd cover body; 692, the 3rd end cap; 693, third through-hole; 610, first every disk; 611, second every disk; 612, permanent magnet; 613, magnet is hindered; 614, sealing plug; 615, hollow outer shaft; 616, interior hollow shaft; 617, nut; 618, nut; 619, nut; 620, nut; 621, key; 7, driving gear; 8, driven gear; 9, generator; 10, the 3rd motor; 11, water pump; 12, water pipe.

Embodiment

Contrast accompanying drawing below, by the description to embodiment, be described in further detail embodiment of the present utility model, object helps those skilled in the art to have more complete, accurate and deep understanding to design of the present utility model, technological scheme, and contribute to its enforcement.

As shown in Figure 1, the utility model provides a kind of break, the wheel shaft 2 comprising brake disc 1 and be coaxially fixedly connected with brake disc 1, also comprise the first driving mechanism and for producing damping force when braking and be the adjustable MR damper 6 of damping, MR damper 6 is connected with wheel shaft 2 by the first driving mechanism.

Specifically, as shown in Figure 3, MR damper 6 comprises cylinder barrel 64, piston rod 65, piston assembly and damping adjustment device, and cylinder barrel 64 is the cylindrical tube of inner hollow, and the internal void of cylinder barrel 64 is divided into the columniform inner chamber body storing magnetic flow liquid.Piston assembly is arranged in the inner chamber body of cylinder barrel 64, and piston rod 65 inserts in cylinder barrel 64 and is fixedly connected with piston assembly, and piston rod 65 also stretches out in outside cylinder barrel 64.Damping adjustment device comprise be sheathed on piston rod 65 and be positioned at cylinder barrel 64 magnetism shielding hood 68 and for providing the driving mechanism of driving force, the driving force that driving mechanism provides makes magnetism shielding hood 68 rotate, to regulate the position of magnetism shielding hood 68.

As shown in Figure 3, as shown in Figure 3, piston assembly comprises the piston only 66 be sheathed on piston rod 65, be arranged at the permanent magnet 612 on piston only 66 and be arranged at piston only 66 two ends every disk, permanent magnet 612 at two between disk.Piston only 66 is the solid of rotation of I shape for cross section, and is cylindrical body, and piston only 66 is also coaxially fixedly connected with piston rod 65.The outer diameter of piston only 66 is less than the inner diameter of cylinder barrel 64.

As shown in Figure 3, the outer wall of piston only 66 is provided with the locating slot for holding permanent magnet 612, and this locating slot is along the annular groove that whole circumference extends to form in the outer wall of piston only 66.Namely permanent magnet 612 embeds in this locating slot fixing.Be arranged at two of piston only 66 end and be respectively first every disk 610 and second every disk 611 every disk, first is identical every the structure of disk 611 with second every disk 610, be disc-shaped structure, and first every disk 610 and second every the outer diameter of disk 611 and the outer diameter equal and opposite in direction of piston only 66, and three is for be coaxially fixedly connected with.The each end of piston only 66 arranges one respectively every disk, at two under the effect of disk, and the direction that piston only 66 will move perpendicular to magnetic flow liquid in damp channel with the magnetic line of force of cylinder barrel 64 part, thus enable damper produce larger damping force.

Traditional MR damper produces magnetic field by built-in electromagnetic coil in damp channel, but the problem such as failure safe and magnetic flow liquid standing sedimentation can be produced, therefore, in order to improve the combination property of MR damper, the MR damper that the utility model break adopts arranges permanent magnet 612 on piston only 66, and have employed magnetism shielding hood 68 permanent magnet 612 is covered, just magnetic field is not had in such damp channel, so without damping force, adopt damping adjusting power size in such a way.

As shown in Figure 3, damping adjustment device also comprises the magnetism-guiding hood 67 being arranged at magnetism shielding hood 68 inside, and the inside of magnetism-guiding hood 67 has the cavity body holding piston assembly, and the sidewall of magnetism shielding hood 68 and magnetism-guiding hood 67 is also provided with the through hole allowing magnetic flow liquid pass through.As shown in Figure 8, magnetism-guiding hood 67 is cylindrical body, and the first cover body 671 and discoid first end cap 672, first end cap 672 that comprise ring are connected with the end winding support of the first cover body 671, and the inside of the first cover body 671 is the cavity holding piston assembly.As shown in Figure 7, magnetism shielding hood 68 is cylindrical body, comprise the second cover body 681 of ring and discoid second end cap 682, second end cap 682 is connected with the end winding support of the second cover body 681, the inside of the second cover body 681 is the cavity holding magnetism-guiding hood 67, the diameter of the cavity in magnetism shielding hood 68 and the outer diameter equal and opposite in direction of the first cover body 671, the periphery of the first cover body 671 and the inner headed face of the second cover body 681 fit, the exterior edge face of the first end cap 672 and the interior edge face of the second end cap 682 fit, and make magnetism-guiding hood 67 and magnetism shielding hood 68 for be coaxially fixedly connected with.Acting as of magnetism-guiding hood 67 is set: if do not have magnetism-guiding hood 67, when magnetism shielding hood 68 covers on permanent magnet 612, because the magnetic line of force must return to S pole from N pole, so the magnetic line of force just likely drains to damp channel place from magnetism shielding hood 68 gap etc., and produces damping force; After employing magnetism-guiding hood 67 in magnetism shielding hood 68, just owing to there being the magnetic conduction effect of magnetism-guiding hood 67 in magnetism shielding hood 68, just magnetic confining field can be produced around permanent magnet 612, so under the effect of magnetism shielding hood 68, its internal magnetic field can not leak into outside magnetism shielding hood 68, as shown in figure 13.Generally speaking, magnetism-guiding hood 67 is to make magnetism shielding hood 68 better every magnetic, preventing magnetic dispersion.

As shown in Fig. 4 and Figure 10, permanent magnet 612 is the tile like structure of circular arc, and be circumferentially evenly equipped with multiple in the locating slot of piston only 66, and in the locating slot of piston only 66 and be provided with resistance magnet 613, resistance magnet 613 is arranged between two adjacent permanent magnets 612, resistance magnet 613 is also the tile like structure of circular arc, identical with permanent magnet 612 structure.Permanent magnet 612 is identical with the thickness of resistance magnet 613, and each end end face of resistance magnet 613 is fitted with the end face of the permanent magnet 612 of both sides respectively.As shown in Figure 8, the outer surface of magnetism-guiding hood 67 is provided with the first through hole 673 allowing magnetic flow liquid pass through, first through hole 673 is extend on the end face of the first end cap 672 of the other end along the first cover body axial direction from the end face of first end cap 672 of one end, and the first through hole 673 also forms the opening of rectangle on the sidewall of the first cover body 671; As shown in Figure 7, the outer surface of magnetism shielding hood 68 is provided with the second through hole 683 allowing magnetic flow liquid pass through, second through hole 683 is extend on the end face of the second end cap 682 of the other end along the second cover body axial direction from the end face of second end cap 682 of one end, and the second through hole 683 also forms the opening of rectangle on the sidewall of the second cover body 681; The aligned in position of the first through hole 673 and the second through hole 683 and size of two through holes is identical, first through hole 673 and the second through hole 683 are circumferentially evenly equipped with multiple respectively on the sidewall of the first cover body 671 and the second cover body 681, and identical with the number of permanent magnet 612 with resistance magnet 613.Make the first through hole 673 and the second through hole 683 when magnetism shielding hood 68 and magnetism-guiding hood 67 rotate and hinder magnet 613 aligned in position, when being positioned on same radial line, resistance magnet 613 makes the first through hole 673 and the second through hole 683 close, and plays every magnetic effect.When making resistance magnet 613 between two adjacent first through holes 673 when magnetism shielding hood 68 and magnetism-guiding hood 67 rotate, first through hole 673 and the second through hole 683 and permanent magnet 612 aligned in position, when being positioned on same radial line, the magnetic line of force can pass from the first through hole 673 and the second through hole 683.Through hole on magnetism shielding hood 68 and magnetism-guiding hood 67 for run through setting vertically, thus can form the damp channel allowing magnetic flow liquid pass through around piston assembly, and damp channel enables the upper chamber of inner cavity of cylinder body be communicated with lower chambers.The effect being arranged at the resistance magnet 613 of each permanent magnet 612 both sides has been separated magnetic effect, prevents magnetic from revealing, and all magnetic lines of force are all passed through in damp channel.

As shown in Figure 3, damping adjustment device also comprises the Sealing 69 be sheathed on magnetism shielding hood 68, the seal 69 produces the gap that magnetic flow liquid can be allowed to pass through for avoiding between magnetism shielding hood 68 and cylinder barrel 64 inwall, guarantees that magnetic flow liquid passes from the second through hole 683 magnetism shielding hood 68.As shown in Figure 8, the seal 69 is cylindrical body, comprise the 3rd cover body 691 of ring and discoid 3rd end cap 692, the inside of the 3rd cover body 691 is the cavity holding magnetism shielding hood 68,3rd end cap 692 is connected with the end winding support of the 3rd cover body 691, and the 3rd end cap 692 is by the closed at both ends of the 3rd cover body 691.3rd cover body 691 of Sealing 69 is clipped between the second cover body 681 and the internal face of cylinder barrel, plays sealing effect.In addition, the outer surface of Sealing 69 is provided with the third through-hole 693 allowing magnetic flow liquid pass through, third through-hole 693 is extend on the end face of the 3rd end cap 692 of the other end along the 3rd cover body axial direction from the end face of the 3rd end cap 692 of one end, and third through-hole 693 also forms the opening of rectangle on the sidewall of the 3rd cover body 691; Third through-hole 693 is identical with the number of the second through hole 683 and size that is two through holes is identical, each third through-hole 693 respectively with the aligned in position of second through hole 683.

As shown in figures 1 and 3, driving mechanism comprises the coupling shaft that is connected with magnetism shielding hood 68 and provides the first motor 61 of driving force for coupling shaft.When MR damper 6 works, piston rod 65 moves linearly vertically, and the magnetic line of force will, with the magnetorheological liquid phase effect in cylinder barrel 64, therefore need magnetism shielding hood 68, magnetism-guiding hood 67 and Sealing 69 are rotated, and the through hole on it is staggered with resistance magnet 613.Coupling shaft comprises the interior hollow shaft 616 be sheathed on piston rod 65 and the hollow outer shaft 615 be sheathed on interior hollow shaft 616, and hollow outer shaft 615 one end is inserted in cylinder barrel 64, and the other end stretches out in outside cylinder barrel 64.Hollow outer shaft 615 and interior hollow shaft 616 are the circular shaft of both ends open, inner hollow, and the external part of hollow outer shaft 615 is connected with the first outside motor 61 by gear drive 63, and the first motor 61 drives hollow outer shaft 615 to rotate.Interior hollow shaft 616 is slidably connected by key 621 and hollow outer shaft 615, and hollow outer shaft 615 drives interior hollow shaft 616 synchronous axial system by key 621, and interior hollow shaft 616 also can move linearly by hollow outer shaft 615 relatively vertically.Magnetism shielding hood 68, magnetism-guiding hood 67 are with Sealing 69 and be fixedly connected with interior hollow shaft 616, first motor 61 operates, finally can drive magnetism shielding hood 68 and on magnetism-guiding hood 67 and Sealing 69 synchronous axial system, and the running time by controlling the first motor 61 regulates the rotation angle of magnetism shielding hood 68, magnetism-guiding hood 67 and Sealing 69, reach the object regulating shielding magnetic field range.

As shown in Figure 1, in the present embodiment, the gear drive 63 that driving mechanism adopts is cylindrical gear mechanism, comprise the active cylindrical gears be arranged on the first motor 61 and the driven cylindrical gear be arranged on hollow outer shaft 615, hollow outer shaft 615 only can rotate on cylinder barrel 64, and interior hollow shaft 616 only can relatively rotate with piston rod 65.

As shown in Figure 7 to 9, the two ends of the first cover body 671 are closed by first end cap 672 respectively, and first end cap 672 of one end are arranged the hole allowing interior hollow shaft 616 pass, and the first end cap 672 of the other end are arranged the hole allowing piston rod 65 pass; The two ends of the second cover body 681 are closed by second end cap 682 respectively, and second end cap 682 of one end are arranged the hole allowing interior hollow shaft 616 pass, and the second end cap 682 of the other end are arranged the hole allowing piston rod 65 pass; The two ends of the 3rd cover body 691 are closed by the 3rd end cap 692 respectively, and the 3rd end cap 692 of one end are arranged the hole allowing interior hollow shaft 616 pass, and the 3rd end cap 692 of the other end are arranged the hole allowing piston rod 65 pass.As shown in Figure 1, the assembly that magnetism-guiding hood 67, magnetism shielding hood 68 and Sealing 69 are formed is fixed by nut 617,618, and nut 617 is arranged on interior hollow shaft 616, and nut 618 is arranged on piston rod 65.As shown in Figure 1, piston assembly is fixed by nut 619,620 on piston rod 65, nut 619,620 is arranged on piston rod 65, and nut 619 at interior hollow shaft 616 and first between disk 610, nut 620 at magnetism-guiding hood 67 and second between disk 611.

In the present embodiment, as shown in Fig. 4, Fig. 7 to Fig. 9, permanent magnet 612 and the resistance magnet 613 of piston assembly are equipped with four, and corresponding first through hole 673, second through hole 683 and third through-hole 693 are also equipped with four.

As preferably, as shown in Figure 3, the cylinder barrel 64 of MR damper 6 is provided with two, and piston rod 65 is provided with one.The structure of two cylinder barrels 64 is identical, and piston rod 65 is through two cylinder barrels 64, and the two ends of piston rod 65 are stretched out respectively from a cylinder barrel 64, and piston rod 65 is symplex structure.Be respectively arranged with a piston assembly in each cylinder barrel 64, corresponding damping adjustment device also arranges two, arranges a magnetism-guiding hood 67, magnetism shielding hood 68 and Sealing 69 in cylinder barrel 64 respectively.Two motors are that the first motor 61 and the second motor 62, first motor 61 are connected with the coupling shaft on a cylinder barrel 64 by gear drive 63, and the second motor 62 is connected with the coupling shaft on another cylinder barrel 64 by another gear drive 63.MR damper 6 is by arranging two cylinder barrels 64 and corresponding parts, form Multi-stage damping adjustable damper, by control two motors regulate respectively in each cylinder barrel 64 every disk and on magnetism-guiding hood 67 and the rotation angle of Sealing 69, thus the damp adjustable range of MR damper 6 can be made wider.

When needs damping adjusting power, can be rotated to an angle by driving mechanism, regulate the position of two magnetism shielding hoods 68, magnetism shielding hood 68 is made to drive magnetism-guiding hood 67 to rotate, when the second through hole 683 on magnetism shielding hood 68 and magnetism-guiding hood 67 and the first through hole 673 and each hinder magnet positions align time, now magnetism shielding hood 68 and magnetism-guiding hood 67 are in the closure between adjacent two through holes and each permanent magnet 612 aligned in position, the magnetic field conductively-closed that permanent magnet 612 produces, can not to the magnetic flow liquid generation effect outside magnetism shielding hood 68, so damping force reduces or does not produce damping.

By the setting of driving mechanism, the second through hole 683 on two magnetism shielding hoods 68 and permanent magnet 612 can be made to be in and to partly overlap or completely overlapping state, the magnetic field that permanent magnet 612 produces can not conductively-closed, and now the damping force that produces of MR damper is maximum, as shown in figure 12 with shown in Figure 14; Also the closure on two magnetism shielding hoods 68 and permanent magnet 612 can be made to be in completely overlapping state, the complete conductively-closed in magnetic field that permanent magnet 612 produces, the damping force of this now MR damper generation is minimum, close to zero, as shown in fig. 4 and 13.

As shown in Figure 1, the axis of the piston rod 65 of MR damper 6 and the axis perpendicular of wheel shaft 2, MR damper 6 and wheel shaft 2 are positioned at the same side of brake disc 1.Brake disc 1 is in rotation process, wheel shaft 2 synchronous axial system thereupon, MR damper 6 is connected with wheel shaft 2 by the first driving mechanism, the power of wheel shaft 2 is passed to MR damper 6 through the first driving mechanism, because MR damper 6 provides the damping force of motion, the rotating speed of brake disc 1 can be made to reduce gradually.As preferably, as shown in Figure 1, the drive link 5 that first driving mechanism comprises cylindrical cam 4 and matches with cylindrical cam 4, one end of drive link 5 is connected with piston rod 65 is vertical, and the other end of drive link 5 inserts in the track groove of annular set on the periphery of cylindrical cam 4.Cylindrical cam 4 matches with drive link 5 and piston rod 65, form straight push cylindrical cam 4 mechanism, the axis of cylindrical cam 4 parallels with the axis of piston rod 65, the axis perpendicular of drive link 5 and cylindrical cam 4 and piston rod 65, when cylindrical cam 4 rotates, drive piston rod 65 along its axial moving linearly by drive link 5, MR damper 6 is worked, damping force is provided.

As shown in Figure 1, drive link 5 is connected with piston rod 65 between two cylinder barrels 64.First driving mechanism also comprises a bevel gear mechanism, and cylindrical cam 4 is connected with wheel shaft 2 by this bevel gear mechanism, forms power transmission line.The center, end of cylindrical cam 4 arranges a camshaft 3, the drive bevel gear of bevel gear mechanism is arranged on wheel shaft 2, the driven wheel of differential engaged with drive bevel gear is arranged on camshaft 3, when wheel shaft 2 rotates, drives cylindrical cam 4 synchronous axial system by this bevel gear mechanism.

As variant embodiment, first driving mechanism can adopt pinion and rack, the gear of pinion and rack is arranged on wheel shaft 2, and tooth bar is arranged to parallel with piston rod 65, and is positioned at the side of MR damper 6, tooth bar is connected with piston rod 65 by connecting rod, when wheel shaft 2 rotates, moved by gear driven rack linear, tooth bar drives piston rod 65 along its axial moving linearly by connecting rod, also MR damper 6 can be made to work, damping force is provided.

When needs MR damper 6 provides damping force, the second through hole 683 on magnetism shielding hood 68 need be made to turn to corresponding permanent magnet 612 position place; When not needing MR damper 6 to provide damping force, the second through hole 683 on magnetism shielding hood 68 need be made to turn to corresponding resistance magnet 613 position place.Therefore, when the motor that need control driving mechanism by control system operates, when stops.Control system comprises sensor for gathering brake signal and controller, controller is connected with the first motor 61, second motor 62 of sensor and driving mechanism, the signal that controller receiving sensor sends, then send signal to the first motor 61 or the second motor 62 by controller, and control rotating speed and the running time of motor.In addition, can also be connected respectively by magnetic clutch with gear drive 63 at the first motor 61, second motor 62, magnetic clutch is connected with controller, control the break-make of transmission of power between the first motor 61, second motor 62 and gear drive 63, interfere when avoiding the first motor 61, second motor 62 to operate.

As depicted in figs. 1 and 2, as preferably, this break also comprises the cooling unit for lowering the temperature to brake disc 1, the water pipe 12 that cooling unit comprises water pump 11, the 3rd motor 10 be connected with the main shaft of water pump 11 and is connected with the water outlet of water pump 11, the water outlet of water pipe 12 is towards brake disc 1,3rd motor 10 drives water pump 11 to operate, cooling water is delivered to water pipe 12 by water pump 11, the water outlet of water pipe 12 is sprayed water towards brake disc 1, thus can lower the temperature to brake disc 1, prevent brake disc 1 from producing heat fade phenomenon and causing braking ability to decline.Energy when braking in order to brake disc 1 can be utilized, the generator 9 that driving mechanism is connected with wheel shaft 2 can be arranged through, this driving mechanism comprises the driving gear 7 be arranged on wheel shaft 2 and the driven gear 8 engaged with driving gear 7, driven gear 8 can directly be arranged on generator 9, or also can be connected with generator 9 by another gear, when wheel shaft 2 rotates, generated electricity by driving mechanism drive electrical generators 9 running.Generator 9 is also connected with storage battery, realizes power storage and utilizes.Storage battery is connected with the first motor 61, second motor 62 and the 3rd motor 10, provides the electric energy of motor rotation.

Break of the present utility model can use as the disk type braker on vehicle, and when using as the disk type braker on vehicle, brake disc 1 is arranged on wheel shaft 2, and is engaged in the hydraulic brake caliper of brake disc 1 both sides setting, realizes car brakeing.

Below by reference to the accompanying drawings the utility model is exemplarily described.Obviously, the utility model specific implementation is not subject to the restrictions described above.As long as have employed the improvement of the various unsubstantialities that method of the present utility model is conceived and technological scheme is carried out; Or without improvement, above-mentioned design of the present utility model and technological scheme directly applied to other occasion, all within protection domain of the present utility model.

Claims (8)

1. a break, the wheel shaft comprising brake disc and be connected with brake disc, it is characterized in that, also comprising the first driving mechanism and for producing damping force when braking and be the adjustable MR damper of damping, MR damper is connected with described wheel shaft by the first driving mechanism.

2. break according to claim 1, is characterized in that, described MR damper comprises:

Cylinder barrel;

Piston rod;

Piston assembly, to be arranged in cylinder barrel and to be connected with piston rod; And

Damping adjustment device, comprises and is sheathed on piston rod and is positioned at the magnetism shielding hood of cylinder barrel and is connected with magnetism shielding hood and for providing the driving mechanism of the driving force making it rotate.

3. break according to claim 2, it is characterized in that, described piston assembly comprises the piston only be sheathed on described piston rod, be arranged at the permanent magnet on piston only and be arranged at piston only two ends every disk, permanent magnet at two between disk.

4. break according to claim 3, is characterized in that, described is circular every disk, and equal with the outer diameter of described piston only every the outer diameter of disk.

5. break according to claim 4, is characterized in that, described damping adjustment device also comprises and is sheathed on described Sealing on disk.

6. according to the arbitrary described break of claim 2 to 5, it is characterized in that, described damping adjustment device also comprises the magnetism-guiding hood being arranged at described magnetism shielding hood inside, and magnetism-guiding hood inside has the cavity body holding described piston assembly.

7. break according to claim 6, is characterized in that, the sidewall of described magnetism shielding hood and described magnetism-guiding hood is provided with the through hole allowing magnetic flow liquid pass through.

8. break according to claim 7, is characterized in that, described driving mechanism comprises the coupling shaft that is connected with described magnetism shielding hood and provides the first motor of driving force for coupling shaft.