CN109877668A - A method of automotive brake pads is made using the producing device of automotive brake pads - Google Patents

Abstract

The invention discloses a kind of methods of producing device production automotive brake pads using automotive brake pads, wherein, the producing device includes polishing pedestal, polishing chamber is provided in the polishing pedestal, the intracavitary rotation of polishing is provided with six groups of workpiece polishing mechanisms, this is described in detail for sentencing one group of left side, and polishing translation slot is provided in the polishing chamber bottom end wall, and what is slided up and down in the polishing translation slot is provided with polishing supporting table；The equipment is more rationally and ingenious in overall structure, installation, maintenance and maintenance are very convenient, the equipment sustainability carries out polishing operation to six groups of brake blocks to be polished, brake block grinding efficiency is improved, reduces brake block cost of manufacture, and grinding effect is stablized, manual work is avoided to cause uncontrollable product quality, guarantee that product quality is consistent, and the equipment has efficient the degree of automation, value for applications with higher in use.

Description

A method of automotive brake pads is made using the producing device of automotive brake pads

Technical field

The present invention relates to part production fields, and in particular to a kind of to be stopped using the producing device production automobile of automotive brake pads The method of vehicle piece.

Background technique

With the development of society, car category continues to introduce new, but automobile primary will by transmission system, driving system, turn To system, suspension and braking system five big systems form, wherein braking system be automobile composition system it is heavy it Weight is the guarantee for guaranteeing vehicle safety travel, wherein the component being commonly used in braking system is automotive brake pads, therefore, Automotive brake pads is also automobile consumption accessory, therefore automotive brake pads demand is huge.

Currently, a large amount of flash will be generated in automotive brake pads manufacturing process, needed before automotive brake pads factory by It casts a large amount of flashes that pressing process generates and carries out grinding process, avoid damaging brake disc in brake process, tradition is stopped Vehicle piece bruting process uses manual work mode, which inefficiency, and grinding effect heavy dependence person works' experience more, It is unfavorable for specification braking automobile quality standard.

Therefore, it is necessary to which the producing device of automotive brake pads in the prior art is further improved, and then improve Automotive brake pads grinding efficiency.

Summary of the invention

The method for the producing device production automotive brake pads that the purpose of the present invention is to provide a kind of using automotive brake pads, The drawbacks described above of the prior art can be overcome.

The method of a kind of producing device production automotive brake pads using automotive brake pads according to the present invention, wherein should Producing device includes polishing pedestal, and polishing chamber is provided in the polishing pedestal, and the intracavitary rotation of polishing is provided with six groups and beats Grinding machine structure, this is described in detail for sentencing one group of left side, and polishing translation slot is provided in the polishing chamber bottom end wall, What is slided up and down in the polishing translation slot is provided with polishing supporting table, and the polishing supporting table bottom end wall is polished flat with described Elasticity is provided with polishing reset spring between shifting trench bottom end wall, and rotation is provided with beating for left and right extension in the polishing supporting table Axis to be ground, is fixedly installed sanding block in the polishing axis outer end wall, the polishing axis left distal end is fixedly installed right set block, Rotation is provided with roll-over table in the polishing pedestal, and holding chamber is provided in the roll-over table, is provided with six in the holding chamber Group brake block rotating mechanism, this is described in detail for sentencing one group of left side, and the brake block rotating mechanism includes clamping Sliding block is provided with rotary power chamber in end wall on the left of the holding chamber, rotates between the rotary power chamber and the holding chamber It is provided with the rotational power axis that left and right extends, the intracavitary rotational power axis left distal end of the rotary power is fixedly installed Driven wheel of differential is rotated, the rotational power axis in the holding chamber is matched with the clamping slider by spline (not marking) It closes, a power device is provided between the brake block rotating mechanism and the workpiece polishing mechanism, the workpiece polishing mechanism is driven to turn It is dynamic while the brake block rotating mechanism being driven slowly to rotate, wherein driving mechanism includes main drive shaft and main drive motor, It is provided with active force chamber on the left of the polishing chamber in end wall, it is intracavitary that the main drive shaft is rotatably dispose in the active force, described Main drive shaft left distal end is connected by power with the main drive motor is fixedly installed on, the driving mechanism and the workpiece polishing mechanism Between be provided with transmission mechanism driving workpiece polishing mechanism rotation；

This method is technically characterized in that driving motor driving main drive shaft rotation, and main drive shaft is beaten by transmission mechanism drive It grinding axis and drives sanding block rotation, sanding block carries out grinding process to brake block, meanwhile, drive rotation dynamic by power device The rotation of power axis, rotational power axis drive clamping slider rotation, and clamping slider drives brake block rotation.

Preferably, rotation is provided with the comprehensive dynamic axis that left and right extends, institute between the active force chamber and the polishing chamber It states and is fixedly installed integrated gear in the intracavitary comprehensive dynamic axis outer end wall of active force, intracavitary described of the active force Main drive shaft right end is fixedly installed active powershift gear, and the active powershift gear is engaged with the active force chamber, described to beat The comprehensive dynamic axis right end in mill chamber is fixedly installed left set block, is driven between the left set block and the right set block It is provided with cross link block, is conducive to drive workpiece polishing mechanism work, the flash polishing on brake block is removed；

It is characterized by: main drive shaft drives the rotation of active powershift gear, active force gear drives integrated gear rotation, integrated gear The rotation of comprehensive dynamic axis is driven, comprehensive dynamic axis drives left set block rotation, and left set block drives the rotation of cross link block, cross connection Block drives right set block rotation, and right set block drives polishing axis rotation, and polishing axis drives sanding block rotation, and sanding block carries out brake block Grinding process.

Preferably, it is provided with lower transmitting chamber on the left of the comprehensive dynamic axis in end wall, intracavitary described comprehensive of the lower transmitting It closes line shaft left distal end and is fixedly installed worm screw, the lower intracavitary rotation of transmitting is provided with the power outrigger shaft that front and back extends, End is fixedly installed worm gear on rear side of the power outrigger shaft, and the worm gear and the worm screw cooperate, before the power outrigger shaft Side end is fixedly installed overturning output bevel gear wheel, is provided with left transmitting chamber, the left biography in the lower transmitting top of chamber end wall It passs rotation between chamber and the lower transmitting chamber and is provided with the overturning transmission axle extended up and down, the intracavitary overturning of the lower transmitting Transmission axle bottom end is fixedly installed overturning drive bevel gear, the overturning drive bevel gear and the overturning output bevel gear wheel Engagement, the intracavitary overturning transmission axle top end of the left transmitting are fixedly installed rotation output bevel gear wheel, the rotation It is provided with right transmitting chamber in power cavity top end wall, rotation sliding cavity is provided in the rotary power top of chamber end wall, it is described Rotation is provided with the rotation splined shaft extended up and down between rotation sliding cavity and the rotary power chamber, the rotation sliding cavity and Rotation is provided with the rotation spline housing axis extended up and down between the right transmitting chamber, and the rotation spline housing axis and the rotation are spent Key axis is cooperated by spline (not marking), and the intracavitary rotation splined shaft bottom end of the rotary power, which is fixedly installed, to be turned Dynamic drive bevel gear, the rotation drive bevel gear are engaged with the rotation driven wheel of differential, the intracavitary volume institute of the right transmitting It states rotation spline housing axis top end and is fixedly installed rotation input bevel gear, between the right transmitting chamber and the left transmitting chamber Rotation is provided with the rotation transmission axle that left and right extends, the intracavitary rotation transmission axle left distal end fixed setting of the left transmitting There is the left transmitting bevel gear of rotation, the left transmitting bevel gear of rotation engages with the rotation output bevel gear wheel, the right transmitting chamber The interior rotation transmission axle right end is fixedly installed the right transmitting bevel gear of rotation, described to rotate right transmitting bevel gear and institute Rotation input bevel gear engagement is stated, is conducive to circumferentially rotate the brake block of clamping, be easy to implement to all sides of brake block It polishes, improves grinding efficiency；

It is characterized by: comprehensive dynamic axis drives worm screw rotation, worm screw drives worm gear rotation, and worm gear drives power outrigger shaft to turn Dynamic, power outrigger shaft drives overturning output bevel gear wheel rotation, and overturning output bevel gear wheel drives overturning drive bevel gear rotation, overturning Drive bevel gear drives overturning transmission axle rotation, and overturning transmission axle drives rotation output bevel gear wheel rotation, rotates output bevel gear wheel It drives and rotates left transmitting bevel gear rotation, rotate left transmitting bevel gear and drive rotation transmission axle rotation, rotation transmission axle band turn Right transmitting bevel gear rotation is moved, right transmitting bevel gear is rotated and drives rotation input bevel gear rotation, rotation input bevel gear drives The rotation of spline housing axis is rotated, rotation spline housing axis drives rotation splined shaft rotation, and rotation splined shaft drives rotation drive bevel gear Rotation, rotation drive bevel gear drive rotation driven wheel of differential rotation, and rotation driven wheel of differential drives the rotation of rotational power axis, turns Dynamic line shaft drives clamping slider rotation, and clamping slider drives brake block rotation.

Preferably, symmetrical in the holding chamber to be provided with the clamping slider to horizontally slip, the clamping slider turns It is dynamic to be set in the clamping slider, be provided with clamping transmitting chamber in the holding chamber top end wall, the clamping transmitting chamber and Rotation is provided with the clamping transmission axle extended up and down, the clamping transmission axle bottom in the holding chamber between the holding chamber End is fixedly installed clamp cam, and the clamp cam and the clamping slider cooperate, and the clamping is transmitted intracavitary described Clamping transmission axle top end is fixedly installed clamping gear, and left and right is slided between the clamping transmitting chamber and the rotation sliding cavity Dynamic is provided with clamping slide bar, is fixedly installed clamping rack gear, the clamping rack gear and institute on end wall on front side of the clamping slide bar Clamping gear engagement is stated, what is horizontally slipped in the rotation sliding cavity is left and right clamp cam set block, and the clamp cam covers block Right side end wall is fixedly connected with the clamping slide bar left distal end, is provided with clamping power in end wall on the right side of the right transmitting chamber Chamber is fixedly installed clamping fan-shaped bevel gear in the clamping power cavity, on the left of the clamping fan-shaped bevel gear end wall with it is described End wall is fixedly connected on the left of left transmitting chamber, and rotation is provided with extension up and down between the clamping power cavity and the rotation sliding cavity Clamping line shaft, the clamping line shaft top end in the clamping power cavity is fixedly installed clamping from mantle tooth Wheel, the clamping driven wheel of differential and the clamping fan-shaped bevel gear, which are detached from, to be cooperated, the folder in the clamping disc cam It holds line shaft bottom end and is fixedly installed clamping disc cam, the clamping disc cam is matched with clamp cam set block It closes；

Wherein, what is horizontally slipped in the rotation sliding cavity is provided with horizontal sliding bar, the horizontal sliding bar right end with it is described End wall is fixedly connected on the left of clamp cam set block, and what is slided up and down in the rotation sliding cavity is provided with longitudinal sliding block, and described turn Dynamic spline housing axis is rotatably dispose in the longitudinal sliding block, and the longitudinal sliding block and the horizontal sliding bar cooperate, and is conducive to fix Brake block to be processed guarantees that brake block is stablized in bruting process, guarantees polishing quality；

It is characterized by: clamping fan-shaped bevel gear drives clamping driven wheel of differential rotation, clamping driven wheel of differential drives clamping dynamic The rotation of power axis, clamping line shaft drive clamping disc cam rotation, and clamping dish-type cam driven clamp cam set block breaks away to the left Dynamic, clamp cam covers block and drives clamping slide bar Slideslip to the left, and clamping slide bar drives clamping rack gear to slide to the left, clamps rack gear The rotation of clamping tooth wheel, the dynamic clamping transmission axle rotation of clamping gear band are driven, clamping transmission axle drives clamp cam rotation, clamps convex Wheel cooperates with clamping slider, and clamp cam drives clamping slider Slideslip to the right, and clamping slider drives clamping slider to break away to the right Dynamic, clamping slider matches to merge with brake block fixes brake block.

Preferably, overturning power cavity is provided on the right side of the left transmitting chamber in end wall, it is described in the overturning power cavity It is fixedly installed overturning sheave in roll-over table outer end wall, overturning transmitting chamber, institute are provided in the left transmitting chamber bottom end wall It states rotation between overturning transmitting chamber and the overturning power cavity and is provided with the overturning line shaft that left and right extends, chamber is transmitted in the overturning It is fixedly installed overturning driven wheel of differential in the interior overturning transmission axle outer end wall, intracavitary described turn over is transmitted in the overturning Rotatory force axis left distal end is fixedly installed overturning input bevel gear, the overturning input bevel gear and the overturning from mantle tooth Wheel engagement, the overturning line shaft right end overturn in power cavity are fixedly installed overturning thumb wheel, and the overturning is dialled Wheel cooperates with the overturning sheave, and be conducive to polish the brake block submitting finished, and brake block to be polished is sent into, and improves The equipment grinding efficiency；

It is characterized by: overturning transmission axle drives overturning driven wheel of differential rotation, overturning driven wheel of differential drives overturning input cone Gear rotation, overturning input bevel gear drive overturning line shaft rotation, and overturning line shaft drives overturning thumb wheel rotation, overturns thumb wheel The rotation of turning groove wheel is driven, turning groove wheel drives roll-over table rotation.

The beneficial effects of the present invention are: the equipment is more rationally and ingenious in overall structure, installation, maintenance and maintenance Very convenient, which carries out polishing operation to six groups of brake blocks to be polished, and improves brake block grinding efficiency, drop Low brake block cost of manufacture, and grinding effect is stablized, and manual work is avoided to cause uncontrollable product quality, guarantees product quality Unanimously, and the equipment has efficient the degree of automation, value for applications with higher in use.

Detailed description of the invention

It, below will be to embodiment or existing in order to illustrate more clearly of inventive embodiments or technical solution in the prior art Attached drawing needed in technical description is briefly described, it should be apparent that, the accompanying drawings in the following description is only to invent Some embodiments for those of ordinary skill in the art without creative efforts, can also basis These attached drawings obtain other attached drawings.

Fig. 1 is a kind of overall structure diagram of the producing device of automotive brake pads of the invention；

Fig. 2 is the structural schematic diagram of A in Fig. 1.

Specific embodiment

All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive Feature and/or step other than, can combine in any way.

Any feature disclosed in this specification (including any accessory claim, abstract and attached drawing), except non-specifically chatting It states, can be replaced by other alternative features that are equivalent or have similar purpose.That is, unless specifically stated, each feature is only It is an example in a series of equivalent or similar characteristics.

In the description of the present invention, it is to be understood that, term " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " up time The orientation or positional relationship of the instructions such as needle ", " counterclockwise " is based on attached orientation or positional relationship shown in FIG. 1, merely to just In description the present invention and simplify description, rather than the equipment of indication or suggestion meaning or element must have a particular orientation, with Specific orientation construction and operation, therefore be not considered as limiting the invention.

As shown in Figs. 1-2, the method for a kind of producing device production automotive brake pads using automotive brake pads of the invention, Including pedestal 111 of polishing, polishing chamber 172 is provided in the polishing pedestal 111, rotation is provided with six in the polishing chamber 172 Group workpiece polishing mechanism, this is described in detail for sentencing one group of left side, is provided with polishing in 172 bottom end wall of polishing chamber Slot 146 is translated, what is slided up and down in the polishing translation slot 146 is provided with polishing supporting table 148, the polishing supporting table 148 Elasticity is provided with polishing reset spring 147, the polishing support between bottom end wall and polishing translation 146 bottom end wall of slot Rotation is provided with the polishing axis 143 that left and right extends in platform 148, is fixedly installed sanding block in 143 outer end wall of polishing axis 145,143 left distal end of polishing axis is fixedly installed right set block 142, and rotation is provided with overturning in the polishing pedestal 111 Platform 112 is provided with holding chamber 200 in the roll-over table 112, six groups of brake block rotating mechanisms is provided in the holding chamber 200, This is described in detail for sentencing one group of left side, and the brake block rotating mechanism includes clamping slider 161, the holding chamber It is provided with rotary power chamber 158 in 200 left side end walls, setting is rotated between the rotary power chamber 158 and the holding chamber 200 There is the rotational power axis 160 of left and right extension, 160 left distal end of rotational power axis in the rotary power chamber 158 is fixed It is provided with rotation driven wheel of differential 159, the rotational power axis 160 and the clamping slider 161 in the holding chamber 200 are logical Spline (not marking) cooperation is crossed, a power device is provided between the brake block rotating mechanism and the workpiece polishing mechanism, is driven It moves the workpiece polishing mechanism rotation while the brake block rotating mechanism being driven slowly to rotate, wherein driving mechanism includes main driving Axis 138 and main drive motor 137 are provided with active force chamber 135, the main drive shaft in the 172 left side end wall of polishing chamber 138 are rotatably dispose in the active force chamber 135,138 left distal end of main drive shaft and are fixedly installed on the main driving Motor 137 is connected by power, and transmission mechanism driving workpiece polishing mechanism rotation is provided between the driving mechanism and the workpiece polishing mechanism.

In the following, the specific implementation for realizing workpiece polishing mechanism rotation will be introduced in detail, wherein the master Rotation is provided with the comprehensive dynamic axis 134 that left and right extends, the active force chamber 135 between power cavity 135 and the polishing chamber 172 It is fixedly installed integrated gear 136 in interior 134 outer end wall of comprehensive dynamic axis, it is described in the active force chamber 135 138 right end of main drive shaft is fixedly installed active powershift gear 139, the active powershift gear 139 and the active force chamber 135 Engagement, 134 right end of comprehensive dynamic axis polished in chamber 172 are fixedly installed left set block 140, the left set block Transmission is provided with cross link block 141 between 140 and the right set block 142, is conducive to drive workpiece polishing mechanism work, by brake block On flash polishing remove.

Valuably, the brake block rotating mechanism of the application is introduced in detail with reference to Fig. 1-Fig. 2, wherein the synthesis is dynamic Lower transmitting chamber 133, the 134 left side end of the comprehensive dynamic axis in the lower transmitting chamber 133 are provided in 134 left side end wall of power axis End is fixedly installed worm screw 132, and rotation is provided with the power outrigger shaft 131 that front and back extends in the lower transmitting chamber 133, described dynamic 131 rear side end of power outrigger shaft is fixedly installed worm gear 129, and the worm gear 129 cooperates with the worm screw 132, and the power prolongs It stretches 131 front side end of axis and is fixedly installed overturning output bevel gear wheel 130, be provided with a left side in lower 133 top end wall of transmitting chamber Chamber 114 is transmitted, rotation is provided with the overturning transmission axle extended up and down between the left transmitting chamber 114 and the lower transmitting chamber 133 121, lower 121 bottom end of overturning transmission axle transmitted in chamber 133 is fixedly installed overturning drive bevel gear 128, The overturning drive bevel gear 128 is engaged with the overturning output bevel gear wheel 130, the overturning in the left transmitting chamber 114 121 top end of transmission axle is fixedly installed rotation output bevel gear wheel 118, setting in 158 top end wall of rotary power chamber There is right transmitting chamber 119, rotation sliding cavity 151, the rotation sliding cavity are provided in 158 top end wall of rotary power chamber Rotation is provided with the rotation splined shaft 156 extended up and down, the rotation sliding cavity 151 between 151 and the rotary power chamber 158 Rotation is provided with the rotation spline housing axis 149 extended up and down, the rotation spline housing axis 149 between the right transmitting chamber 119 Cooperated with the rotation splined shaft 156 by spline (not marking), the rotation splined shaft in the rotary power chamber 158 156 bottom ends are fixedly installed rotation drive bevel gear 157, and the rotation drive bevel gear 157 is rotated with described from mantle Gear 159 engages, and it is defeated that rotation 149 top end of spline housing axis described in the volume in the right transmitting chamber 119 is fixedly installed rotation Enter bevel gear 120, rotation is provided with the rotation that left and right extends and transmits between the right transmitting chamber 119 and the left transmitting chamber 114 Axis 116, left 116 left distal end of rotation transmission axle transmitted in chamber 114 are fixedly installed the left transmitting bevel gear of rotation 115, the left transmitting bevel gear 115 of rotation engages with the rotation output bevel gear wheel 118, the institute in the right transmitting chamber 119 It states rotation 116 right end of transmission axle and is fixedly installed the right transmitting bevel gear 117 of rotation, the right transmitting bevel gear 117 of rotation It is engaged with rotation input bevel gear 120, is conducive to circumferentially rotate the brake block of clamping, be easy to implement to brake block All sides are polished, and grinding efficiency is improved.

Valuably, carry out the detailed clamping device for introducing the application with reference to Fig. 1-Fig. 2, wherein left in the holding chamber 200 The right side is symmetrically arranged with the clamping slider 162 to horizontally slip, and the clamping slider 161 is rotatably dispose in the clamping slider 162 It is interior, clamping transmitting chamber 165, the clamping transmitting chamber 165 and the holding chamber are provided in 200 top end wall of holding chamber Rotation is provided with the clamping transmission axle 164 extended up and down between 200,164 bottom of clamping transmission axle in the holding chamber 200 Portion end is fixedly installed clamp cam 163, and the clamp cam 163 cooperates with the clamping slider 162, the clamping transmitting 164 top end of clamping transmission axle in chamber 165 is fixedly installed clamping gear 166, the clamping transmitting chamber 165 and institute State horizontally slip between rotation sliding cavity 151 be provided with clamping slide bar 167, fixation on the 167 front side end wall of clamping slide bar It is provided with clamping rack gear 168, the clamping rack gear 168 is engaged with the clamping gear 166, left in the rotation sliding cavity 151 Right sliding is left and right clamp cam set block 155, and the clamp cam set 155 right side end wall of block and the clamping slide bar 167 are left Side end is fixedly connected, and clamping power cavity 170, the clamping power cavity 170 are provided in the right 119 right side end wall of transmitting chamber Inside it is fixedly installed clamping fan-shaped bevel gear 171, the 171 left side end wall of clamping fan-shaped bevel gear and the left transmitting chamber 114 Left side end wall is fixedly connected, and rotation is provided between the clamping power cavity 170 and the rotation sliding cavity 151 extends up and down Clamp line shaft 152, it is described clamping power cavity 170 in 152 top end of clamping line shaft be fixedly installed clamping from Dynamic bevel gear 169, the clamping driven wheel of differential 169 is detached from the clamping fan-shaped bevel gear 171 to be cooperated, the clamping dish-type 152 bottom end of clamping line shaft in cam 154 is fixedly installed clamping disc cam 154, and the clamping dish-type is convex Wheel 154 cooperates with clamp cam set block 155；

Wherein, what is horizontally slipped in the rotation sliding cavity 151 is provided with horizontal sliding bar 153, the 153 right side end of horizontal sliding bar End is fixedly connected with clamp cam set 155 left side end wall of block, and being provided with for sliding up and down in the rotation sliding cavity 151 is vertical To sliding block 150, the rotation spline housing axis 149 is rotatably dispose in the longitudinal sliding block 150, the longitudinal sliding block 150 and institute The cooperation of horizontal sliding bar 153 is stated, is conducive to fix brake block to be processed, guarantees that brake block is stablized in bruting process, guarantees polishing Quality.

Valuably, carry out the detailed turnover mechanism for introducing the application with reference to Fig. 1-Fig. 2, wherein the left transmitting chamber 114 is right It is provided with overturning power cavity 127 in the wall of side, is fixed in 112 outer end wall of the roll-over table in the overturning power cavity 127 It is provided with overturning sheave 113, overturning transmitting chamber 123 is provided in left 114 bottom end wall of transmitting chamber, chamber is transmitted in the overturning Rotation is provided with the overturning line shaft 126 that left and right extends between 123 and the overturning power cavity 127, and chamber 123 is transmitted in the overturning Overturning driven wheel of differential 125 is fixedly installed in interior 121 outer end wall of overturning transmission axle, chamber 123 is transmitted in the overturning Interior 126 left distal end of overturning line shaft is fixedly installed overturning input bevel gear 124, and the overturning inputs bevel gear 124 engage with the overturning driven wheel of differential 125,126 right end of overturning line shaft in the overturning power cavity 127 It is fixedly installed overturning thumb wheel 122, the overturning thumb wheel 122 and the overturning sheave 113 cooperation, being conducive to will to polish finishes Brake block is sent out, and brake block to be polished is sent into, and improves the equipment grinding efficiency.

In the following, applicant will be with reference to a kind of using automotive brake pads of attached drawing 1-2 and the application described above The method of producing device production automotive brake pads is introduced in detail: firstly, when original state, the overturning thumb wheel 122 and The overturning sheave 113 cooperates, and the horizontal sliding bar 153 is detached from the longitudinal sliding block 150 to be cooperated, and the clamp cam covers block 155 are located at 151 right side of rotation sliding cavity to greatest extent, and the clamp cam 163 is matched with the clamping slider 162 disengaging It closes, the clamping slider 161 is detached from brake block to be cooperated；

When the device is in use, brake block to be processed is put into the holding chamber 200 by operator, the main drive motor 137 start to work, and the main drive motor 137 drives the main drive shaft 138 to rotate, and the main drive shaft 138 drives described Active powershift gear 139 rotates, and the active powershift gear 139 drives the integrated gear 136 to rotate, 136 band of integrated gear It moves the comprehensive dynamic axis 134 to rotate, the comprehensive dynamic axis 134 drives the worm screw 132 to rotate, and the worm screw 132 drives The worm gear 129 rotates, and the worm gear 129 drives the power outrigger shaft 131 to rotate, and the power outrigger shaft 131 drives institute It states overturning output bevel gear wheel 130 to rotate, the overturning output bevel gear wheel 130 drives the overturning drive bevel gear 128 to rotate, institute Stating overturning drive bevel gear 128 drives the overturning transmission axle 121 to rotate, the overturning transmission axle 121 drive it is described overturn from Dynamic bevel gear 125 rotates, and the overturning driven wheel of differential 125 drives the overturning input bevel gear 124 to rotate, and the overturning is defeated Entering bevel gear 124 drives the overturning line shaft 126 to rotate, and the overturning line shaft 126 drives described 122 turns of overturning thumb wheel Dynamic, the overturning thumb wheel 122 drives the overturning sheave 113 to rotate, and the overturning sheave 113 drives 112 turns of the roll-over table Dynamic, the roll-over table 112 drives the clamping line shaft 152 to rotate around 112 axis of roll-over table, 112 band of roll-over table It moves the clamping line shaft 152 to rotate around 112 axis of roll-over table, the clamping fan-shaped bevel gear 171 drives the clamping Driven wheel of differential 169 rotates, and the clamping driven wheel of differential 169 drives the clamping line shaft 152 to rotate, the clamping power Axis 152 drives the clamping disc cam 154 to rotate, the clamping disc cam 154 drive the clamp cam set block 155 to Left slide, the clamp cam set block 155 drive the clamping slide bar 167 Slideslip to the left, and the clamping slide bar 167 drives Slideslip, the clamping rack gear 168 drive the clamping gear 166 to rotate to the clamping rack gear 168 to the left, the clamping gear 166 drive the clamping transmission axle 164 to rotate, and the clamping transmission axle 164 drives the clamp cam 163 to rotate, the folder It holds cam 163 and the clamping slider 162 cooperates, the clamp cam 163 drives the clamping slider 162 Slideslip to the right, The clamping slider 162 drives the clamping slider 161 Slideslip to the right, and the clamping slider 161, which matches to merge with brake block, incites somebody to action Brake block is fixed, meanwhile, the clamp cam set block 155 drives the horizontal sliding bar 153 Slideslip to the left, the horizontal sliding bar 153 drive 150 upward sliding of longitudinal sliding block, and the longitudinal sliding block 150 drives the rotation spline housing axis 149 to slide up Dynamic, the rotation spline housing axis 149 drives rotation input 120 upward sliding of bevel gear, and the rotation inputs bevel gear 120 It is engaged with the right transmitting bevel gear 117 of rotation, meanwhile, the overturning transmission axle 121 drives the rotation output bevel gear wheel 118 Rotation, the rotation output bevel gear wheel 118 drive the left transmitting bevel gear 115 of rotation to rotate, and tooth is bored in the left transmitting of rotation Wheel 115 drives the rotation transmission axle 116 to rotate, and the rotation transmission axle 116 drives right 117 turns of transmitting bevel gear of the rotation Dynamic, the right transmitting bevel gear 117 of rotation drives the rotation input bevel gear 120 to rotate, and the rotation inputs bevel gear 120 The rotation spline housing axis 149 is driven to rotate, the rotation spline housing axis 149 drives the rotation splined shaft 156 to rotate, described Rotation splined shaft 156 drives the rotation drive bevel gear 157 to rotate, and the rotation drive bevel gear 157 drives the rotation Driven wheel of differential 159 rotates, and the rotation driven wheel of differential 159 drives the rotational power axis 160 to rotate, the rotational power Axis 160 drives the clamping slider 161 to rotate, and the clamping slider 161 drives brake block rotation, simultaneously, the synthesis Line shaft 134 drives the left set block 140 to rotate, and the left set block 140 drives the cross link block 141 to rotate, and described ten Word link block 141 drives the right set block 142 to rotate, and the right set block 142 drives the polishing axis 143 to rotate, the polishing Axis 143 drives sanding block 145 to rotate, and the sanding block 145 carries out grinding process to brake block, in brake block bruting process, Brake block to be polished is put into inside the holding chamber 200 being located above by operator, the overturning thumb wheel after polishing 122 cooperate with the overturning sheave 113, and the overturning thumb wheel 122 drives the overturning sheave 113 to rotate, the overturning sheave 113 drive the roll-over tables 112 to rotate, and the roll-over table 112 drives the clamping line shaft 152 around the roll-over table The rotation of 112 axis, the roll-over table 112 drives the clamping line shaft 152 to rotate around 112 axis of roll-over table, described to turn over Turntable 112 drives the clamping line shaft 152 to rotate around 112 axis of roll-over table, the clamping driven wheel of differential 169 and institute It states clamping fan-shaped bevel gear 171 to cooperate, the clamping fan-shaped bevel gear 171 drives the clamping driven wheel of differential 169 to rotate, institute Stating clamping driven wheel of differential 169 drives the clamping line shaft 152 to rotate, and the clamping line shaft 152 drives the clamping disk Type cam 154 rotates, and the clamping disc cam 154 drives the clamp cam set block 155, and Slideslip, the clamping are convex to the right Wheel case block 155 drives the horizontal sliding bar 153 Slideslip to the left, 150 slide downward of longitudinal sliding block, the longitudinal sliding block 150 drive 149 slide downward of rotation spline housing axis, and the rotation spline housing axis 149 drives the rotation input bevel gear 120 upward slidings, the rotation input bevel gear 120 and the right transmitting bevel gear 117 of rotation are detached from and cooperate, meanwhile, it is described Clamp cam set block 155 drives the clamping slide bar 167 Slideslip to the right, and the clamping slide bar 167 drives the clamping rack gear 168 Slideslips to the right, the clamping rack gear 168 drive the clamping gear 166 to rotate, described in the clamping gear 166 drives Transmission axle 164 is clamped to rotate, the clamping transmission axle 164 drives the clamp cam 163 to rotate, the clamp cam 163 and The clamping slider 162 is detached from cooperation, and Slideslip, the clamping slider 162 drive the clamping to the clamping slider 162 to the left Slideslip, the brake block that the clamping slider 161 is completed with polishing are detached from cooperation to sliding block 161 to the left, and operator will polish Brake block take out, and brake block to be polished is put into the holding chamber 200.

By detailed analysis above it can be seen that clamping brake block to be polished due to being synchronized using six groups of clamping devices It is fixed, therefore grinding efficiency is greatly improved, also, the equipment utilization two sides bruting process time, sustainability will stop wait polish Brake pad replacing is completed in vehicle piece and polishing, realizes the duration operation of bruting process, improves grinding efficiency.

Therefore the present processes are more rationally and ingenious in overall structure, and installation, maintenance and maintenance are very square Just, which carries out polishing operation to six groups of brake blocks to be polished, and improves brake block grinding efficiency, reduces brake block Cost of manufacture, and grinding effect is stablized, and manual work is avoided to cause uncontrollable product quality, guarantees that product quality is consistent, and The equipment has efficient the degree of automation, value for applications with higher in use.

The above, the specific embodiment only invented, but invent protection scope be not limited thereto, it is any without The change or replacement that creative work is expected are crossed, should all be covered within the protection scope of invention.Therefore, the protection scope of invention It should be determined by the scope of protection defined in the claims.

Claims (5)

1. a kind of method of producing device production automotive brake pads using automotive brake pads of the invention, wherein production dress It sets including pedestal of polishing, polishing chamber is provided in the polishing pedestal, intracavitary rotate of the polishing is provided with six groups of workpiece polishing mechanisms, This is described in detail for sentencing one group of left side, and polishing translation slot is provided in the polishing chamber bottom end wall, described to beat Polish move slided up and down in slot be provided with polishing supporting table, the polishing supporting table bottom end wall and polishing translation slot bottom Elasticity is provided with polishing reset spring between portion's end wall, and rotation is provided with the polishing axis that left and right extends in the polishing supporting table, Sanding block is fixedly installed in the polishing axis outer end wall, the polishing axis left distal end is fixedly installed right set block, described Rotation is provided with roll-over table in polishing pedestal, and holding chamber is provided in the roll-over table, six groups of brakes are provided in the holding chamber Vehicle piece rotating mechanism, this is described in detail for sentencing one group of left side, and the brake block rotating mechanism includes clamping slider, It is provided with rotary power chamber in end wall on the left of the holding chamber, rotates and is provided between the rotary power chamber and the holding chamber Left and right extend rotational power axis, the intracavitary rotational power axis left distal end of the rotary power be fixedly installed rotation from Dynamic bevel gear, the rotational power axis and the clamping slider in the holding chamber are described by spline (not marking) cooperation It is provided with a power device between brake block rotating mechanism and the workpiece polishing mechanism, the workpiece polishing mechanism is driven to rotate while driving It moves the brake block rotating mechanism slowly to rotate, wherein driving mechanism includes main drive shaft and main drive motor, the polishing It is provided with active force chamber on the left of chamber in end wall, it is intracavitary that the main drive shaft is rotatably dispose in the active force, the main drive shaft Left distal end is connected by power with the main drive motor is fixedly installed on, and is arranged between the driving mechanism and the workpiece polishing mechanism There is transmission mechanism driving workpiece polishing mechanism rotation；

This method is technically characterized in that driving motor driving main drive shaft rotation, and main drive shaft is beaten by transmission mechanism drive It grinding axis and drives sanding block rotation, sanding block carries out grinding process to brake block, meanwhile, drive rotation dynamic by power device The rotation of power axis, rotational power axis drive clamping slider rotation, and clamping slider drives brake block rotation.

2. one of according to claim 1 using the method for the producing device production automotive brake pads of automotive brake pads, wherein Rotation is provided with the comprehensive dynamic axis that left and right extends, the intracavitary institute of the active force between the active force chamber and the polishing chamber It states and is fixedly installed integrated gear in comprehensive dynamic axis outer end wall, the intracavitary main drive shaft right end of the active force It is fixedly installed active powershift gear, the active powershift gear is engaged with the active force chamber, the intracavitary synthesis of the polishing Line shaft right end is fixedly installed left set block, and transmission is provided with cross connection between the left set block and the right set block Block is conducive to drive workpiece polishing mechanism work, and the flash polishing on brake block is removed；

It is characterized by: main drive shaft drives the rotation of active powershift gear, active force gear drives integrated gear rotation, integrated gear The rotation of comprehensive dynamic axis is driven, comprehensive dynamic axis drives left set block rotation, and left set block drives the rotation of cross link block, cross connection Block drives right set block rotation, and right set block drives polishing axis rotation, and polishing axis drives sanding block rotation, and sanding block carries out brake block Grinding process.

3. one of -2 method for making automotive brake pads using the producing device of automotive brake pads according to claim 1, In, lower transmitting chamber, the intracavitary comprehensive dynamic axis left side of the lower transmitting are provided on the left of the comprehensive dynamic axis in end wall End is fixedly installed worm screw, and the lower intracavitary rotation of transmitting is provided with the power outrigger shaft that front and back extends, and the power extends End is fixedly installed worm gear on rear side of axis, and the worm gear and the worm screw cooperate, and the power outrigger shaft front side end fixation is set Be equipped with overturning output bevel gear wheel, be provided with left transmitting chamber in the lower transmitting top of chamber end wall, the left transmitting chamber with it is described under Rotation is provided with the overturning transmission axle extended up and down, the intracavitary overturning transmission axle bottom end of the lower transmitting between transmitting chamber End is fixedly installed overturning drive bevel gear, and the overturning drive bevel gear is engaged with the overturning output bevel gear wheel, the left side It transmits the intracavitary overturning transmission axle top end and is fixedly installed rotation output bevel gear wheel, rotary power top of chamber end Be provided with right transmitting chamber in wall, be provided with rotation sliding cavity in the rotary power top of chamber end wall, the rotation sliding cavity with Rotation is provided with the rotation splined shaft extended up and down, the rotation sliding cavity and the right transmitting chamber between the rotary power chamber Between rotation be provided with the rotation spline housing axis extended up and down, the rotation spline housing axis passes through spline with the rotation splined shaft (not marking) cooperation, the intracavitary rotation splined shaft bottom end of the rotary power are fixedly installed rotation active conical tooth Wheel, the rotation drive bevel gear are engaged with the rotation driven wheel of differential, rotate spline described in the intracavitary volume of the right transmitting Set axis top end is fixedly installed rotation input bevel gear, rotates and is provided between the right transmitting chamber and the left transmitting chamber The rotation transmission axle that left and right extends, the intracavitary rotation transmission axle left distal end of the left transmitting are fixedly installed the left biography of rotation Pass bevel gear, the left transmitting bevel gear of rotation engages with the rotation output bevel gear wheel, described right to transmit intracavitary described turn Dynamic transmission axle right end is fixedly installed the right transmitting bevel gear of rotation, and the right transmitting bevel gear of rotation and the rotation input Bevel gear engagement, is conducive to circumferentially rotate the brake block of clamping, is easy to implement and polishes all sides of brake block, mention High grinding efficiency；

It is characterized by: comprehensive dynamic axis drives worm screw rotation, worm screw drives worm gear rotation, and worm gear drives power outrigger shaft to turn Dynamic, power outrigger shaft drives overturning output bevel gear wheel rotation, and overturning output bevel gear wheel drives overturning drive bevel gear rotation, overturning Drive bevel gear drives overturning transmission axle rotation, and overturning transmission axle drives rotation output bevel gear wheel rotation, rotates output bevel gear wheel It drives and rotates left transmitting bevel gear rotation, rotate left transmitting bevel gear and drive rotation transmission axle rotation, rotation transmission axle band turn Right transmitting bevel gear rotation is moved, right transmitting bevel gear is rotated and drives rotation input bevel gear rotation, rotation input bevel gear drives The rotation of spline housing axis is rotated, rotation spline housing axis drives rotation splined shaft rotation, and rotation splined shaft drives rotation drive bevel gear Rotation, rotation drive bevel gear drive rotation driven wheel of differential rotation, and rotation driven wheel of differential drives the rotation of rotational power axis, turns Dynamic line shaft drives clamping slider rotation, and clamping slider drives brake block rotation.

4. one of -3 method for making automotive brake pads using the producing device of automotive brake pads according to claim 1, In, symmetrical in the holding chamber to be provided with the clamping slider to horizontally slip, the clamping slider is rotatably dispose in described In clamping slider, be provided with clamping transmitting chamber in the holding chamber top end wall, clamping transmitting chamber and the holding chamber it Between rotation be provided with the clamping transmission axle extended up and down, the fixed setting of the clamping transmission axle bottom end in the holding chamber There is clamp cam, the clamp cam and the clamping slider cooperate, and intracavitary clamping transmission axle top is transmitted in the clamping Portion end is fixedly installed clamping gear, and what is horizontally slipped between the clamping transmitting chamber and the rotation sliding cavity is provided with folder Slide bar is held, is fixedly installed clamping rack gear on end wall on front side of the clamping slide bar, the clamping rack gear is nibbled with the clamping gear It closes, what is horizontally slipped in the rotation sliding cavity is left and right clamp cam set block, end wall and institute on the right side of the clamp cam set block It states clamping slide bar left distal end to be fixedly connected, is provided with clamping power cavity on the right side of the right transmitting chamber in end wall, the clamping is dynamic Power is intracavitary to be fixedly installed clamping fan-shaped bevel gear, end wall and the left transmitting chamber left-hand end on the left of the clamping fan-shaped bevel gear Wall is fixedly connected, and rotation is provided with the clamping line shaft extended up and down between the clamping power cavity and the rotation sliding cavity, The clamping line shaft top end in the clamping power cavity is fixedly installed clamping driven wheel of differential, and the clamping is driven Bevel gear and the clamping fan-shaped bevel gear, which are detached from, to be cooperated, the clamping line shaft bottom end in the clamping disc cam It is fixedly installed clamping disc cam, the clamping disc cam and clamp cam set block cooperation；

Wherein, what is horizontally slipped in the rotation sliding cavity is provided with horizontal sliding bar, the horizontal sliding bar right end with it is described End wall is fixedly connected on the left of clamp cam set block, and what is slided up and down in the rotation sliding cavity is provided with longitudinal sliding block, and described turn Dynamic spline housing axis is rotatably dispose in the longitudinal sliding block, and the longitudinal sliding block and the horizontal sliding bar cooperate, and is conducive to fix Brake block to be processed guarantees that brake block is stablized in bruting process, guarantees polishing quality；

It is characterized by: clamping fan-shaped bevel gear drives clamping driven wheel of differential rotation, clamping driven wheel of differential drives clamping dynamic The rotation of power axis, clamping line shaft drive clamping disc cam rotation, and clamping dish-type cam driven clamp cam set block breaks away to the left Dynamic, clamp cam covers block and drives clamping slide bar Slideslip to the left, and clamping slide bar drives clamping rack gear to slide to the left, clamps rack gear The rotation of clamping tooth wheel, the dynamic clamping transmission axle rotation of clamping gear band are driven, clamping transmission axle drives clamp cam rotation, clamps convex Wheel cooperates with clamping slider, and clamp cam drives clamping slider Slideslip to the right, and clamping slider drives clamping slider to break away to the right Dynamic, clamping slider matches to merge with brake block fixes brake block.

5. one of according to claim 1 using the method for the producing device production automotive brake pads of automotive brake pads, wherein Overturning power cavity is provided on the right side of the left transmitting chamber in end wall, in the roll-over table outer end wall in the overturning power cavity It is fixedly installed overturning sheave, overturning transmitting chamber, the overturning transmitting chamber and institute are provided in the left transmitting chamber bottom end wall It states rotation between overturning power cavity and is provided with the overturning line shaft that left and right extends, intracavitary overturning transmitting is transmitted in the overturning Overturning driven wheel of differential is fixedly installed in axis outer end wall, the intracavitary overturning line shaft left distal end is transmitted in the overturning It is fixedly installed overturning input bevel gear, the overturning input bevel gear engages with the overturning driven wheel of differential, the overturning The overturning line shaft right end in power cavity is fixedly installed overturning thumb wheel, the overturning thumb wheel and the overturning sheave Cooperation, be conducive to polish the brake block submitting finished, and brake block to be polished is sent into, and improves the equipment grinding efficiency；

It is characterized by: overturning transmission axle drives overturning driven wheel of differential rotation, overturning driven wheel of differential drives overturning input cone Gear rotation, overturning input bevel gear drive overturning line shaft rotation, and overturning line shaft drives overturning thumb wheel rotation, overturns thumb wheel The rotation of turning groove wheel is driven, turning groove wheel drives roll-over table rotation.