CN207178539U - Electric card suitable for vehicle electric mechanical type brake system clamps - Google Patents
Electric card suitable for vehicle electric mechanical type brake system clamps Download PDFInfo
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- CN207178539U CN207178539U CN201720733286.3U CN201720733286U CN207178539U CN 207178539 U CN207178539 U CN 207178539U CN 201720733286 U CN201720733286 U CN 201720733286U CN 207178539 U CN207178539 U CN 207178539U
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Abstract
The utility model discloses a kind of electric card pincers suitable for vehicle electric mechanical type brake system, including braking clamp body, brake(-holder) block and it is arranged in the braking clamp body and convert rotational motion is in line and move so that the brake(-holder) block does the planet roller screw mechanism to move along a straight line.The electric card that the utility model is suitable to vehicle electric mechanical type brake system clamps, and transmission efficiency is higher, and heating is few, small volume, is easy to the arrangement of vehicle, and the life-span is high, and motor part and running part can maintenance-frees.
Description
Technical field
The utility model belongs to motor vehicle braking system technical field, specifically, the utility model is related to one kind and is suitable to car
The electric card pincers of mechanical type brake system electric.
Background technology
Mechanical type brake system electric, is also EMB, and English full name is Electro Mechanical Braking
System, it drives brake(-holder) block using electric energy as energy source, by torque motor, produces brake force.Electronic mechanical braking system
System (EMB) has the electrification such as ABS, TCS, ESP, ACC and intelligent functions concurrently, increasingly by the skill such as active safety, unmanned
Art is valued.
Mechanical type brake system electric thinks that consumed energy is big early stage in braking procedure, and 12V battery can not meet
EMB requirement, but with the development of battery, automobile batteries has gradually excessively to become from 12V to the even more high-tension development of 48V
Gesture, the capacity of battery are increasingly able to the requirement for meeting mechanical type brake system electric.
New-energy automobile needs vavuum pump in braking simultaneously, and vavuum pump needs interrupted work, so as to keep vacuum,
EMB is more than to battery consumption, EMB turns into a kind of optimal path for saving the energy on the contrary.Occur Electric booster of course simultaneously,
Even booster, ESC are combined, EHB (EHB) occur, the principle of these mechanisms is to pass through motor driven
Hydraulic pressure, then again with the hydraulic braking of transmission.It is with the obvious advantage relative to EHB, EMB.EMB is simple in construction, only controller and electricity
Clamp form, integrated height, are easy to dock with other controllers, can give it is in-car save maximum space, increasingly by
Favor, it is anticipated that traditional hydraulic pressure (air) brake will be finally replaced in mechanical type brake system electric (EMB), turns into future
The developing direction of motor vehicle braking system.
The electric card jaw mechanism of existing mechanical type brake system electric is complicated, often inside and outside adds planetary gears in clamp
And ball screw, assembly difficulty is big, and transmission efficiency is low, but also there is bearing capacity is poor, short life, bulky defect,
These defects turn into an obstacle of EMB development.
Utility model content
The utility model is intended at least solve one of technical problem present in prior art.Therefore, the utility model carries
Clamped for a kind of electric card suitable for vehicle electric mechanical type brake system, it is therefore an objective to improve transmission efficiency, bearing capacity and using the longevity
Life.
To achieve these goals, the technical scheme that the utility model is taken is:Suitable for vehicle electric brake system
The electric card pincers of system, including braking clamp body and brake(-holder) block, in addition to be arranged in the braking clamp body and by convert rotational motion into
Linear motion is so that the brake(-holder) block does the planet roller screw mechanism to move along a straight line.
The planet roller screw mechanism is circulating planet roller screw mechanism.
The planet roller screw mechanism includes leading screw, moved along a straight line and for promoting the piston of the brake(-holder) block, protecting
Frame and the roller engaged with leading screw and piston are held, roller is circumferentially more in the toroidal cavity between piston and leading screw
It is individual.
The leading screw has external screw thread, and the piston has internal thread, and the roller has the internal thread and silk with piston
The annular tooth of the external screw thread engagement of thick stick.
The pitch of the internal thread of the piston is equal with the externally threaded pitch of the leading screw.
Needle bearing or taper roll bearing are provided between the braking clamp body and the leading screw.
The planet roller screw mechanism is non-circulating type planet roller screw mechanism.
The planet roller screw mechanism is the imported planetary roller screw mechanism of screw mandrel, the imported planetary rolling of nut
Post screw mechanism or PWG type differential type planet roller screw mechanisms.
The planet roller screw mechanism includes leading screw, moved along a straight line and for promoting the piston of the brake(-holder) block, setting
The nut being placed in piston and the roller engaged with leading screw and nut, edge in toroidal cavity of the roller between nut and leading screw
It is circumferentially multiple.
The leading screw has external screw thread, and the nut has annular tooth, and the roller has to be engaged with the internal thread of nut
Annular tooth and the external screw thread that is engaged with the external screw thread of leading screw.
Externally threaded tip diameter on the roller is more than the tooth top diameter of a circle of annular tooth.
Annular tooth on the roller is arranged at externally threaded both sides.
The planet roller screw mechanism also includes two flanges being arranged in the nut, the both ends point of the roller
It is not arranged on the flange of corresponding end.
The planet roller screw mechanism also includes the jump ring being arranged in the nut, and two flanges are located at two
Between jump ring.
Needle bearing or taper roll bearing are provided between the braking clamp body and the leading screw.
The described electric card pincers suitable for vehicle electric mechanical type brake system also include and the planet roller screw mechanism
Connection and the executing agency for producing the power for operating planet roller screw mechanism.
The executing agency is arranged at the outside or inside of the braking clamp body.
The executing agency includes motor and the gear drive machine being connected with motor and the planet roller screw mechanism
Structure.
The helical pitch of the planet roller screw mechanism is less than or equal to 5mm.
The helical pitch of the planet roller screw mechanism is less than or equal to 3mm.
The electric card that the utility model is suitable to vehicle electric mechanical type brake system clamps, and transmission efficiency is higher, and heating is few, volume
It is small, it is easy to the arrangement of vehicle, and also the life-span is high, and motor part and running part can maintenance-frees.
Brief description of the drawings
This specification includes the following drawings, and shown content is respectively:
Fig. 1 is the sectional view of first embodiment;
Fig. 2 is the sectional view of second embodiment;
Fig. 3 is the sectional view of 3rd embodiment;
Fig. 4 is the sectional view of fourth embodiment;
Fig. 5 is the explosive view of PWG type differential type planet roller screw mechanisms;
Fig. 6 is the explosive view of circulating planet roller screw mechanism;
In figure mark for:
1st, executing agency;2nd, brake caliper assy;3rd, braking clamp body;4th, needle bearing;
5th, circulating planet roller screw mechanism;
51st, retainer;52nd, leading screw;53rd, roller;54th, piston;
6th, PWG types differential type planet roller screw mechanism;
61st, jump ring;62nd, nut;63rd, flange;64th, packing ring;65th, leading screw;66th, roller;661st, external screw thread;662nd, it is annular
Tooth;67th, key;68th, piston;
7th, dust-proof, water-proof cover;8th, the first brake(-holder) block;9th, brake disc;10th, the second brake(-holder) block;11st, brake-caliper support.
Embodiment
Below against accompanying drawing, by the description to embodiment, specific embodiment of the present utility model is made further detailed
Thin explanation, it is therefore an objective to help those skilled in the art have to design of the present utility model, technical scheme it is more complete, accurate and
Deep understanding, and contribute to its implementation.
As shown in Figures 1 to 4, the utility model provides a kind of electric card suitable for vehicle electric mechanical type brake system
Pincers, including braking clamp body 3, brake-caliper support 11, brake(-holder) block and be arranged in braking clamp body 3 and by convert rotational motion Cheng Zhi
Line is moved so that brake(-holder) block does the planet roller screw mechanism to move along a straight line.Brake(-holder) block sets two, and two brake(-holder) blocks are relative
The first brake(-holder) block 8 and the second brake(-holder) block 10 set, brake disc 9 are being made between the first brake(-holder) block 8 and the second brake(-holder) block 10
During dynamic, the first brake(-holder) block 8 and the second brake(-holder) block 10 are engaged for clamping brake disc 9.
As shown in Figures 1 to 4, electric card pincers of the present utility model also include being connected with planet roller screw mechanism and for producing
The executing agency 1 of the raw power for operating planet roller screw mechanism, executing agency 1 can be arranged at the outside of braking clamp body 3
It is or internal.As well known in the skilled person, executing agency 1 converts electrical energy into rotation to the structure of executing agency 1
Kinetic energy, it mainly includes motor and the gear drive being connected with motor and planet roller screw mechanism, gear drive machine
Structure is used to power caused by motor being transferred to planet roller screw mechanism, operates planet roller screw mechanism, finally makes system
Moving plate is moved linearly relative to brake disc 9 along the direction parallel with the axial direction of brake disc 9, with clamping or take-off the brake disk
9。
Planet roller screw mechanism is circulating planet roller screw mechanism or non-circulating type planet roller screw mechanism, non-
Circulating planet roller screw mechanism is the imported planetary roller screw mechanism of screw mandrel, the imported planetary roller screw of nut
Mechanism or PWG type differential type planet roller screw mechanisms etc..The helical pitch of planet roller screw mechanism is less than or equal to 5mm, preferably
It is shorter less than or equal to 3mm, the identical turnning circle of executing agency 1, the distance of piston linear motion, determined according to the conservation of energy
Rule, by caused bigger thrust, more disclosure satisfy that the needs of brake force.Planet roller screw mechanism and ball screw arrangement phase
Seemingly, almost it is not different with ball-screw in efficiency, but is calculated according to Hertzian pressure law, its bearing capacity is ball-screw
3 times, the life-span is 15 times of ball-screw, greatly meets EMB carrying and life requirements.
As shown in Figures 1 to 4, in order to ensure the transmission accuracy of planet roller screw mechanism, electric card of the present utility model clamps
Also include being arranged in braking clamp body 3 and being used for the dust-proof, water-proof cover 7 for ensureing grease cleaning.
Embodiment one
As shown in figure 1, the planet roller screw mechanism that the electric card pincers of the present embodiment use is circulating planetary roller screw
Mechanism, its mainly include leading screw 52, move along a straight line and for promote the piston 54 of brake(-holder) block, retainer 51 and with leading screw 52
The roller 53 engaged with piston 54.The end of screw mandrel is connected with executing agency 1, receives driving force caused by executing agency 1, and do
Rotary motion.Piston 54 is the cylindrical structural of one end open, other end closing and inner hollow, and leading screw 52 is opened from piston 54
To be coaxially disposed in mouthful end insertion piston 54 and with piston 54, the first brake(-holder) block 8 be arranged at the outside of piston 54 and with piston 54
Blind end it is adjacent.Retainer 51 is arranged in the inner chamber of piston 54.Annular of the roller 53 between piston 54 and leading screw 52 is empty
Circumferentially multiple in chamber, retainer 51 ensures the spacing of roller 53, has in the annular side wall of retainer 51 and accommodates rolling
The groove of post 53 and the length of the groove are slightly larger than the length of roller 53, to ensure that roller 53 can move axially in piston 54.It is anti-
Dirt bucker 7 is arranged between braking clamp body 3 and piston 54, for ensureing grease cleaning.
As shown in figures 1 to 6, leading screw 52 has external screw thread, and piston 54 has internal thread, and roller 53 has and piston 54
The annular tooth of the external screw thread of internal thread and leading screw 52 engagement, does not have screw thread on roller 53, and the annular tooth on roller 53 is by rolling
Around setting and being formed in the groove of annular on the periphery of post 53, the annular tooth on roller 53 is evenly arranged more vertically
It is individual, it is a groove between two neighboring annular tooth, groove vertical is in the axis of leading screw 52.The pitch of internal thread on piston 54
It is equal with the externally threaded pitch on leading screw 52, the spacing on roller 53 between two neighboring annular tooth and the interior spiral shell on piston 54
The pitch size of line is equal.
The operation principle of circulating planet roller screw mechanism is identical with prior art, and executing agency 1 operates, and drives silk
Thick stick 52 rotates, and the frictional force of leading screw 52 and roller 53 drives roller 53 to do along own axes rotation and around the revolution of the axis of leading screw 52
Planetary motion, roller 53 rotates in piston 54 simultaneously, while piston 54 is moved along a straight line vertically.Leading screw 52 often rotates 1
Circle, the roller 53 of circular form planetary roller screw are shifted onto relative to piston 54 axially by two cams set by the end of piston 54
Initial position, two cams are respectively arranged at one end of piston.It is in detailed process:During initial position is returned to,
The screw thread of piston 54 is outwards fluted, when roller 53 is rolled into 54 groove of piston, can depart from leading screw 52, while in the work of axial cam
With the lower working cycles completed axial movement and playback, complete a roller 53, in the continuous course of work, each roller 53
This circulation will be undergone.Here the groove on retainer 51 is slightly longer than roller 53, to ensure that roller 53 moves axially in piston 54.
As shown in figure 1, the inside of braking clamp body 3 has the accommodating cavity for accommodating planet roller screw mechanism, braking clamp body 3
End has the end cap for closing the accommodating cavity, and executing agency 1 is arranged at the outside of braking clamp body 3 and is fixedly connected with the end cap,
The end of leading screw is fixedly connected with the power output shaft of the gear drive of executing agency 1.As preferable, braking clamp body 3
End cap and leading screw between be provided with bearing, bearing is needle bearing 4, and needle bearing 4 primarily serves the effect axially supported, avoided
The axial force of leading screw 52 is directly delivered in executing agency 1 and causes executing agency 1 to be failed.
Axial force promotion piston 54 caused by planet roller screw mechanism operating, movement of the piston 54 in braking clamp body 3,
And the first brake(-holder) block 8 is promoted, while axial force also promotes braking clamp body 3 to move axially, and the axial movement of braking clamp body 3 causes the
One brake(-holder) block 8 and the second brake(-holder) block 10 produce clamping force, the first brake(-holder) block 8 and the second brake(-holder) block to the pinching action of brake disc 9
10 are fixed in chute set on brake-caliper support 11, and brake-caliper support 11 is fixedly connected with automobile frame, is also corresponded to
First brake(-holder) block 8, the second brake(-holder) block 10 and vehicle are fixed.When brake disc 9 has the trend of rotation, there has also been with two brake(-holder) blocks
The trend of relative rotation, it is exactly brake force to produce stiction and kinetic force of friction, these frictional force, directly with motor-driven side
Formula completes service brake.
The helical pitch of the planet roller screw mechanism of the present embodiment is less than or equal to 5mm, preferably lower than or equal to 3mm.
Leading screw 52 rotates one week, piston 54 and the helical pitch of the relative displacement position planet roller screw mechanism of leading screw 52, helical pitch
Represented with S;
In formula:L is the stroke of piston;
R is the rotational angle of input leading screw;
V is the speed of piston movement;
ω is the angular speed of input leading screw.
Braking procedure is to allow wheel to slow down or stop operating, it is necessary to very big piston thrust, it is contemplated that loss in efficiency
Condition is as follows:
P=T ω=Fv (2)
In formula:P is the power of input leading screw;
T is the torque for being input to leading screw;
ω is the angular speed of input leading screw;
F is the thrust of piston;
V is the speed of piston movement.
It can be drawn from above-mentioned formula (1) and formula (2):If it is considered that transmission efficiency, if transmission effect
Rate is η, then
As can be seen that the thrust and helical pitch of piston are in inverse ratio, if same Motor torque, in order to obtain larger work
Thrust is filled in, helical pitch is the smaller the better, and system helical pitch is designed into less than or equal to 3.The moment of torsion of motor often compares in the prior art
Small, rotating speed is often bigger than normal, and electric card pincers need to increase reducing gear, according to formulaWhen helical pitch is less than or equal to 3
When can give planetary roller screw to input less moment of torsion, such executing agency and reducing gear can simplify or even can be with
Reducing gear is omitted, so can not only reduce cost, also reduces the weight of product.
Embodiment two
As shown in Fig. 2 the electric card planet roller screw mechanism that uses of pincers of the present embodiment is follows with the identical of embodiment one
The difference that ring type planet roller screw mechanism, the electric card pincers of the present embodiment and the electric card of embodiment one clamp essentially consists in planet rolling
Needle bearing 4 is not provided between the leading screw 52 and braking clamp body 3 of post screw mechanism, and braking clamp body 3 is not provided with end cap, by holding
The bearing set in row mechanism 1 can also play a part of axially supporting, if motor bearings is taper roll bearing.
The helical pitch of the planet roller screw mechanism of the present embodiment is less than or equal to 5mm, preferably lower than or equal to 3mm.
Leading screw 52 rotates one week, piston 54 and the helical pitch of the relative displacement position planet roller screw mechanism of leading screw 52, helical pitch
Represented with S;
In formula:L is the stroke of piston;
R is the rotational angle of input leading screw;
V is the speed of piston movement;
ω is the angular speed of input leading screw.
Braking procedure is to allow wheel to slow down or stop operating, it is necessary to very big piston thrust, it is contemplated that loss in efficiency
Condition is as follows:
P=T ω=Fv (4)
In formula:P is the power of input leading screw;
T is the torque for being input to leading screw;
ω is the angular speed of input leading screw;
F is the thrust of piston;
V is the speed of piston movement.
It can be drawn from above-mentioned formula (3) and formula (4):If it is considered that transmission efficiency, if transmission effect
Rate is η, then
As can be seen that the thrust and helical pitch of piston are in inverse ratio, if same Motor torque, in order to obtain larger work
Thrust is filled in, helical pitch is the smaller the better, and system helical pitch is designed into less than or equal to 3.The moment of torsion of motor often compares in the prior art
Small, rotating speed is often bigger than normal, and electric card pincers need to increase reducing gear, according to formulaWhen helical pitch is less than or equal to 3
When can give planetary roller screw to input less moment of torsion, such executing agency and reducing gear can simplify or even can be with
Reducing gear is omitted, so can not only reduce cost, also reduces the weight of product.
Embodiment three
As shown in Figure 3 and Figure 5, the planet roller screw mechanism that the electric card pincers of the present embodiment use is PWG type differential type row
Star roller screw mechanism, it mainly includes leading screw 65, moved along a straight line and for promoting the piston 68 of brake(-holder) block, being arranged at piston
Nut 62, the roller 66 engaged with leading screw 65 and nut 62 in 68 and two flanges 63 being arranged in nut 62, roller
It is circumferentially multiple in 66 toroidal cavity between nut 62 and leading screw 65.The end of screw mandrel is connected with executing agency 1, is connect
By driving force caused by executing agency 1, and rotate.Piston 68 is one end open, other end closing and inner hollow
Cylindrical structural, leading screw 65 are to be coaxially disposed from the openend of piston 68 insertion piston 68 and with piston 68, the first brake(-holder) block 8
It is arranged at the outside of piston 68 and adjacent with the blind end of piston 68.Flange 63 is cirque structure, and the center of flange 63 has
The manhole for allowing leading screw 65 to pass through, roller 66 is circumferentially multiple in the toroidal cavity between nut 62 and leading screw 65,
The both ends of roller 66 are respectively arranged on the flange 63 of corresponding end, are accordingly provided with flange 63 and are uniformly distributed circumferentially and use
In the manhole for allowing the end of roller 66 to insert, so that roller 66 is in the shape parallel with the axis of leading screw 65 and piston 68
State.Dust-proof, water-proof cover 7 is arranged between braking clamp body 3 and piston 68, for ensureing grease cleaning.
As shown in Figure 3 and Figure 5, nut 62 is fixedly installed in the inner chamber of piston 68 and both are coaxial, and leading screw 65 has outer
Screw thread, the internal face of nut 62 are provided with annular tooth, and roller 66 has the annular tooth engaged with the annular tooth of nut 62 and and leading screw
The external screw thread of 65 external screw thread engagement, the annular tooth on roller 66 is arranged at externally threaded both sides, i.e., along the axial direction of roller 66, ring
The both sides of shape tooth are respectively arranged one section of external screw thread, annular tooth and the middle position on the length direction of roller 66.Roller 66
On annular tooth be by the periphery of roller 66 around setting and formed in the groove of annular, the annular tooth on roller 66
It is evenly arranged vertically multiple, is a groove between two neighboring annular tooth, groove vertical is in the axis of leading screw 65.
As shown in Figure 3 and Figure 5, nut 62 is cirque structure, and annular tooth is set on the ring-shaped inner wall face of nut 62.Make
To be preferable, nut 62 sets two inside piston 68, and two nuts 62 are oppositely arranged and separated among the two with packing ring 64,
Annular tooth engages with the annular tooth on each nut 62 respectively at two be arranged on roller 66.Two nuts 62 pass through key 67
Connection causes roller 66 to tilt to prevent the two from circumferentially opposed motion occurs, the outside wall surface of key 67 while embedded two nuts 62
In upper set keyway.Two flanges 63 are respectively arranged in the inner chamber of a nut 62, and planet roller screw mechanism also includes
Between two jump rings 61, two jump rings 61 are respectively arranged at a nut for two jump rings 61, two flanges 63 and roller 66
In 62, one is accordingly surrounded with the internal face of nut 62 and allows jump ring 61 to be embedded in and in the groove of annular.
The operation principle of PWG type differential type planet roller screw mechanisms is identical with prior art, and executing agency 1 operates,
Drive leading screw 65 to rotate, the frictional force coordinated by leading screw 65 and the screw thread of roller 66 drive roller 66 do along own axes rotation and
Around the planetary motion of the axis of leading screw 65 revolution, nut 65 and piston 68 are fixed together, nut 62 and work in whole process
Plug 68 does not rotate, but is driven by leading screw 65 and do axial linear motion.
The part of roller 66 coordinated with nut 62 is annular tooth, during work, 62 axial phase of roller 66 and nut
It is zero to displacement.Roller 66 forms stable support at the both ends engaged with nut 62, when roller 66 is run with planetary mode
When axis all the time with the diameter parallel of nut 62, will not run-off the straight.
As shown in figure 3, the inside of braking clamp body 3 has the accommodating cavity for accommodating planet roller screw mechanism, braking clamp body 3
End has the end cap for closing the accommodating cavity, and executing agency 1 is arranged at the outside of braking clamp body 3 and is fixedly connected with the end cap,
The end of leading screw is fixedly connected with the power output shaft of the gear drive of executing agency 1.As preferable, braking clamp body 3
End cap and leading screw between be provided with bearing, bearing is needle bearing 4, and needle bearing 4 primarily serves the effect axially supported, avoided
The axial force of leading screw 65 is directly delivered in executing agency 1 and causes executing agency 1 to be failed.
Axial force promotion piston 68 caused by planet roller screw mechanism operating, movement of the piston 68 in braking clamp body 3,
And the first brake(-holder) block 8 is promoted, while axial force also promotes braking clamp body 3 to move axially, and the axial movement of braking clamp body 3 causes the
One brake(-holder) block 8 and the second brake(-holder) block 10 produce clamping force, the first brake(-holder) block 8 and the second brake(-holder) block to the pinching action of brake disc 9
10 are fixed in chute set on brake-caliper support 11, and brake-caliper support 11 is fixedly connected with automobile frame, is also corresponded to
First brake(-holder) block 8, the second brake(-holder) block 10 and vehicle are fixed.When brake disc 9 has the trend of rotation, there has also been with two brake(-holder) blocks
The trend of relative rotation, it is exactly brake force to produce stiction and kinetic force of friction, these frictional force, directly with motor-driven side
Formula completes service brake.
The helical pitch of the planet roller screw mechanism of the present embodiment is less than or equal to 5mm, preferably lower than or equal to 3mm.
Leading screw 65 rotates one week, nut 62 and the helical pitch of the relative displacement position planet roller screw mechanism of leading screw 65, helical pitch
Represented with S;
In formula:L is the stroke of piston;
R is the rotational angle of input leading screw;
V is the speed of piston movement;
ω is the angular speed of input leading screw.
Braking procedure is to allow wheel to slow down or stop operating, it is necessary to very big piston thrust, it is contemplated that loss in efficiency
Condition is as follows:
P=T ω=Fv (6)
In formula:P is the power of input leading screw;
T is the torque for being input to leading screw;
ω is the angular speed of input leading screw;
F is the thrust of piston;
V is the speed of piston movement.
It can be drawn from above-mentioned formula (5) and formula (6):If it is considered that transmission efficiency, if transmission effect
Rate is η, then
As can be seen that the thrust and helical pitch of piston are in inverse ratio, if same Motor torque, in order to obtain larger work
Thrust is filled in, helical pitch is the smaller the better, and system helical pitch is designed into less than or equal to 3.The moment of torsion of motor often compares in the prior art
Small, rotating speed is often bigger than normal, and electric card pincers need to increase reducing gear, according to formulaWhen helical pitch is less than or equal to 3
Can inputs less moment of torsion to planetary roller screw, and such executing agency and reducing gear can simplify or can even omit
Reducing gear is removed, so can not only reduce cost, also reduces the weight of product.
Example IV
As shown in figure 4, the electric card planet roller screw mechanism that uses of pincers of the present embodiment for the identical PWG of embodiment three
The difference that type differential type planet roller screw mechanism, the electric card pincers of the present embodiment and the electric card of embodiment three clamp essentially consists in row
Needle bearing 4 is not provided between the leading screw 65 and braking clamp body 3 of star roller screw mechanism, and is not provided with end cap, by the machine of execution
The bearing set in structure 1 can also play a part of axially supporting, if motor bearings is taper roll bearing.
The helical pitch of the planet roller screw mechanism of the present embodiment is less than or equal to 5mm, preferably lower than or equal to 3mm.
Leading screw 65 rotates one week, nut 62 and the helical pitch of the relative displacement position planet roller screw mechanism of leading screw 65, helical pitch
Represented with S;
In formula:L is the stroke of piston;
R is the rotational angle of input leading screw;
V is the speed of piston movement;
ω is the angular speed of input leading screw.
Braking procedure is to allow wheel to slow down or stop operating, it is necessary to very big piston thrust, it is contemplated that loss in efficiency
Condition is as follows:
P=T ω=Fv (8)
In formula:P is the power of input leading screw;
T is the torque for being input to leading screw;
ω is the angular speed of input leading screw;
F is the thrust of piston;
V is the speed of piston movement.
It can be drawn from above-mentioned formula (7) and formula (8):If it is considered that transmission efficiency, if transmission effect
Rate is η, then
As can be seen that the thrust and helical pitch of piston are in inverse ratio, if same Motor torque, in order to obtain larger work
Thrust is filled in, helical pitch is the smaller the better, and system helical pitch is designed into less than or equal to 3.The moment of torsion of motor often compares in the prior art
Small, rotating speed is often bigger than normal, and electric card pincers need to increase reducing gear, according to formulaWhen helical pitch is less than or equal to 3
Can inputs less moment of torsion to planetary roller screw, and such executing agency and reducing gear can simplify or can even omit
Reducing gear is removed, so can not only reduce cost, also reduces the weight of product.
The utility model is exemplarily described above in association with accompanying drawing.Obviously, the utility model implements not
Limited by aforesaid way.As long as employ the various unsubstantialities that methodology and technical scheme of the present utility model are carried out
Improvement;Or it is not improved, above-mentioned design of the present utility model and technical scheme are directly applied into other occasions, at this
Within the protection domain of utility model.
Claims (20)
1. the electric card suitable for vehicle electric mechanical type brake system clamps, including braking clamp body and brake(-holder) block, it is characterised in that:Also wrap
Include to be arranged in the braking clamp body and convert rotational motion is in line and move so that the brake(-holder) block does the row to move along a straight line
Star roller screw mechanism.
2. the electric card according to claim 1 suitable for vehicle electric mechanical type brake system clamps, it is characterised in that:The row
Star roller screw mechanism is circulating planet roller screw mechanism.
3. the electric card according to claim 2 suitable for vehicle electric mechanical type brake system clamps, it is characterised in that:The row
Star roller screw mechanism includes leading screw, moved along a straight line and for promoting the piston, retainer and and leading screw of the brake(-holder) block
It is circumferentially multiple in the toroidal cavity between piston and leading screw with the roller of piston engagement, roller.
4. the electric card according to claim 3 suitable for vehicle electric mechanical type brake system clamps, it is characterised in that:The silk
Thick stick has external screw thread, and the piston has internal thread, and the roller has to be engaged with the internal thread of piston and the external screw thread of leading screw
Annular tooth.
5. the electric card according to claim 4 suitable for vehicle electric mechanical type brake system clamps, it is characterised in that:The work
The pitch of the internal thread of plug is equal with the externally threaded pitch of the leading screw.
6. the electric card according to claim 5 suitable for vehicle electric mechanical type brake system clamps, it is characterised in that:The system
Needle bearing or taper roll bearing are provided between moving caliper and the leading screw.
7. the electric card according to claim 1 suitable for vehicle electric mechanical type brake system clamps, it is characterised in that:The row
Star roller screw mechanism is non-circulating type planet roller screw mechanism.
8. the electric card according to claim 7 suitable for vehicle electric mechanical type brake system clamps, it is characterised in that:The row
Star roller screw mechanism be the imported planetary roller screw mechanism of screw mandrel, the imported planetary roller screw mechanism of nut or
PWG type differential type planet roller screw mechanisms.
9. the electric card according to claim 7 suitable for vehicle electric mechanical type brake system clamps, it is characterised in that:The row
Star roller screw mechanism includes leading screw, moved along a straight line and for promoting piston, the spiral shell being arranged in piston of the brake(-holder) block
Roller that is female and being engaged with leading screw and nut, roller are circumferentially multiple in the toroidal cavity between nut and leading screw.
10. the electric card according to claim 9 suitable for vehicle electric mechanical type brake system clamps, it is characterised in that:It is described
Leading screw has an external screw thread, and the nut has an annular tooth, the roller have the annular tooth that is engaged with the internal thread of nut and with
The external screw thread of the external screw thread engagement of leading screw.
11. the electric card according to claim 10 suitable for vehicle electric mechanical type brake system clamps, it is characterised in that:It is described
Externally threaded tip diameter on roller is more than the tooth top diameter of a circle of annular tooth.
12. the electric card according to claim 10 suitable for vehicle electric mechanical type brake system clamps, it is characterised in that:It is described
Annular tooth on roller is arranged at externally threaded both sides.
13. being clamped according to any described electric card suitable for vehicle electric mechanical type brake system of claim 9 to 12, its feature exists
In:The planet roller screw mechanism also includes two flanges being arranged in the nut, and the both ends of the roller are set respectively
It is placed on the flange of corresponding end.
14. the electric card according to claim 13 suitable for vehicle electric mechanical type brake system clamps, it is characterised in that:It is described
Planet roller screw mechanism also includes the jump ring being arranged in the nut, and two flanges are between two jump rings.
15. the electric card according to claim 14 suitable for vehicle electric mechanical type brake system clamps, it is characterised in that:It is described
Needle bearing or taper roll bearing are provided between braking clamp body and the leading screw.
16. the electric card according to any one of claims 1 to 12 suitable for vehicle electric mechanical type brake system clamps, its feature exists
In:Also include being connected with the planet roller screw mechanism and for producing holding for the power for operating planet roller screw mechanism
Row mechanism.
17. the electric card according to claim 16 suitable for vehicle electric mechanical type brake system clamps, it is characterised in that:It is described
Executing agency is arranged at the outside or inside of the braking clamp body.
18. the electric card according to claim 16 suitable for vehicle electric mechanical type brake system clamps, it is characterised in that:It is described
Executing agency includes motor and the gear drive being connected with motor and the planet roller screw mechanism.
19. the electric card according to claim 1 suitable for vehicle electric mechanical type brake system clamps, it is characterised in that:It is described
The helical pitch of planet roller screw mechanism is less than or equal to 5mm.
20. the electric card according to claim 19 suitable for vehicle electric mechanical type brake system clamps, it is characterised in that:It is described
The helical pitch of planet roller screw mechanism is less than or equal to 3mm.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720733286.3U CN207178539U (en) | 2017-06-22 | 2017-06-22 | Electric card suitable for vehicle electric mechanical type brake system clamps |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201720733286.3U CN207178539U (en) | 2017-06-22 | 2017-06-22 | Electric card suitable for vehicle electric mechanical type brake system clamps |
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CN207178539U true CN207178539U (en) | 2018-04-03 |
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CN201720733286.3U Expired - Fee Related CN207178539U (en) | 2017-06-22 | 2017-06-22 | Electric card suitable for vehicle electric mechanical type brake system clamps |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107120369A (en) * | 2017-06-22 | 2017-09-01 | 芜湖伯特利汽车安全系统股份有限公司 | Electric card suitable for vehicle electric mechanical type brake system is clamped |
CN108791653A (en) * | 2018-06-20 | 2018-11-13 | 营口市飞龙碳纤维电动车有限公司 | The fixed fastening system of Straddle riding type two front wheels motor vehicle tiltable suspension |
CN110701270A (en) * | 2019-09-20 | 2020-01-17 | 宝鸡法士特齿轮有限责任公司 | Planet differential type automatic torque-changing electric control device |
WO2023169412A1 (en) * | 2022-03-07 | 2023-09-14 | 芜湖伯特利汽车安全系统股份有限公司 | Electromechanical dry-type brake caliper |
-
2017
- 2017-06-22 CN CN201720733286.3U patent/CN207178539U/en not_active Expired - Fee Related
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107120369A (en) * | 2017-06-22 | 2017-09-01 | 芜湖伯特利汽车安全系统股份有限公司 | Electric card suitable for vehicle electric mechanical type brake system is clamped |
CN108791653A (en) * | 2018-06-20 | 2018-11-13 | 营口市飞龙碳纤维电动车有限公司 | The fixed fastening system of Straddle riding type two front wheels motor vehicle tiltable suspension |
CN110701270A (en) * | 2019-09-20 | 2020-01-17 | 宝鸡法士特齿轮有限责任公司 | Planet differential type automatic torque-changing electric control device |
WO2023169412A1 (en) * | 2022-03-07 | 2023-09-14 | 芜湖伯特利汽车安全系统股份有限公司 | Electromechanical dry-type brake caliper |
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Granted publication date: 20180403 Termination date: 20180622 |