CN107116444A - Polishing control method for electromagnetic shielding thin plate of electric vehicle - Google Patents

Abstract

The invention discloses a polishing control method for an electromagnetic shielding thin plate of an electric vehicle, which comprises the step of polishing a workpiece by using polishing equipment. The polishing equipment comprises a first base, a second base, a polishing wheel, a first transmission system, a second transmission system, a first sensor, a second sensor and a power source. The polishing wheel has a spindle having opposite first and second ends. The first transmission system is arranged on the first seat body to control the first end to lift. The second transmission system is arranged on the second seat body to control the second end to lift. The first sensor is arranged on the first transmission system to sense the downward pressure applied to the workpiece by the part, close to the first end, of the polishing wheel. The second sensor is arranged on the second transmission system to sense the downward pressure applied to the workpiece by the part of the polishing wheel close to the second end. The power source is configured to drive the polishing wheel. The polishing control method of the electromagnetic shielding thin plate of the electric vehicle can adjust the contact force between the polishing wheel and the processed part according to the surface shape of the processed part so as to improve the polishing quality.

Description

Motor vehicle electromagnetic shields thin plate Throwing light control methods

Technical field

The invention relates to a kind of motor vehicle electromagnetic shielding thin plate Throwing light control methods, and can in particular to one kind Adapt to the motor vehicle electromagnetic shielding thin plate Throwing light control methods of various work piece surface shapes.

Background technology

During polishing is typically used in product finishing, for removing the oxide layer or flash of product surface, To lift the surface tactile sensation of product.However, for more complex-curved product, or the product being fabricated to precious materials For, if not controlling the lower pressure of polishing wheel, the destruction original surface configuration of product can be caused or product is excessively removed The precious materials on surface.

Furthermore, if polishing wheel uses through long-time and offsets its axle center, or the making defect of polishing wheel in itself, also can Influence quality of finish.Therefore, the target that quality of finish has actively been made great efforts into presently relevant dealer how is lifted.

The content of the invention

Therefore, a purpose of the invention is to provide a kind of motor vehicle electromagnetic shielding thin plate Throwing light control methods, and it can be In polishing process, the contact force between polishing wheel and workpiece is adjusted at any time in response to the surface configuration of workpiece, to lift polishing Quality and the service life that polishing wheel can be extended.

According to the above-mentioned purpose of the present invention, a kind of motor vehicle electromagnetic shielding thin plate Throwing light control methods are proposed.This electric car Electromagnetic shielding thin plate Throwing light control methods, which are included, uses a kind of polissoir polishing part.This polissoir includes First Body, the second pedestal, polishing wheel, the first transmission system, the second transmission system, first sensor, second sensor and power source. Second pedestal is located at one of the first pedestal side.Polishing wheel is located between the first pedestal and the second pedestal, and polishing wheel has main shaft, And main shaft has relative first end and the second end.First transmission system is arranged on the first pedestal, and the master of connection polishing wheel The first end of axle.First transmission system is arranged to control first end lifting.Second transmission system is arranged on the second pedestal, and Connect the second end of the main shaft of polishing wheel.Second transmission system is arranged to control the lifting of the second end.First sensor is arranged on In first transmission system, it is configured to sense the first time pressure that polishing wheel puts on workpiece close to the part of first end, and By first time pressure force feedback to the first transmission system.Second sensor is arranged in the second transmission system, is configured to sense Survey polishing wheel and put on second time pressure of workpiece close to the part at the second end, and by second time pressure force feedback to second Transmission system.Power source has the main shaft of drive shaft connection polishing wheel, and power source is configured to driving polishing wheel and rotated.

According to one embodiment of the invention, the first above-mentioned transmission system is passed comprising the first sliding block, the first cylinder pressure and first Dynamic source.First sliding block is connected to first end.First cylinder pressure is arranged on the first pedestal, and the first cylinder pressure connects with the first output shaft Connect the first sliding block.First transmission power source connects the first cylinder pressure, the power of the first cylinder pressure work is configurable to provide, so that the first cylinder pressure The first sliding block is controlled to lift.

According to another embodiment of the present invention, the second above-mentioned transmission system includes the second sliding block, the second cylinder pressure and second Transmission power source.Second sliding block is connected to the second end.Second cylinder pressure is arranged on the second pedestal, and the second cylinder pressure has the second output shaft Connect the second sliding block.Second transmission power source connects the second cylinder pressure, is configurable to provide the power of the second cylinder pressure work, so that the second pressure Cylinder controls the lifting of the second sliding block.

According to further embodiment of this invention, the first above-mentioned pedestal has the first slide rail, and the first sliding block is movably set Put on the first slide rail.Second pedestal has the second slide rail, and the second sliding block is movably disposed on the second slide rail.

According to yet another embodiment of the invention, the transmission system of each above-mentioned first and the second transmission power source be pneumatic supply and/ Or oil pressure source.

According to yet another embodiment of the invention, the first above-mentioned transmission system includes the first motor, the first screw rod and first Sliding block.First motor is arranged on the first pedestal.First screw rod connects the first motor.First sliding block is connected to first end, and One motor is configured to driving the first screw rod rotation so that the first sliding block is lifted along the first screw rod.

According to yet another embodiment of the invention, the second above-mentioned transmission system includes the second motor, the second screw rod and second Sliding block.Second motor is arranged on the second pedestal.Second screw rod connects the second motor.Second sliding block is connected to the second end, and Two motor is configured to driving the second screw rod rotation so that the second sliding block is lifted along the second screw rod.

According to yet another embodiment of the invention, the first above-mentioned pedestal has the first slide rail, and the first sliding block is movably set Put on the first slide rail.Second pedestal has the second slide rail, and the second sliding block is movably disposed on the second slide rail.

According to yet another embodiment of the invention, above-mentioned polissoir also includes universal joint.This universal joint is connected to dynamic Between the drive shaft in power source and the main shaft of polishing wheel.

According to yet another embodiment of the invention, above-mentioned polishing wheel is metallic brush or polymer brush.

From the foregoing, the motor vehicle electromagnetic shielding thin plate Throwing light control methods of the present invention can be in polishing process, in real time Measure polishing wheel both sides and put on the lower pressure of workpiece, and be fed back to the first transmission system and the second transmission system at any time, with The first transmission system and the second transmission system is set to adjust the relative position of polishing wheel and work piece surface at any time, to make polishing wheel There is average contact force between workpiece.Whereby, polishing wheel can be maintained to work piece surface in appropriate removal quantity, it is to avoid Excessively remove the material of work piece surface and cause waste of materials or influence the shape of workpiece.

Furthermore, by controlling the contact force between polishing wheel and work piece surface, polishing wheel can be also avoided because of set location It is incorrect, or polishing effect is influenceed because of the manufacturing defect of polishing wheel in itself, and then the service life of polishing wheel can be extended, and can Lift quality of finish.

Brief description of the drawings

Understand embodiment and its advantage in order to more complete, description below is done referring now to and with reference to accompanying drawing, wherein：

Fig. 1 is to illustrate a kind of motor vehicle electromagnetic shielding thin plate Throwing light control methods institute according to one embodiment of the present invention The schematic device of the polissoir used；

Fig. 2 is to illustrate a kind of motor vehicle electromagnetic shielding thin plate Throwing light control methods institute according to one embodiment of the present invention The workflow schematic diagram of the polissoir used；

Fig. 3 is to illustrate a kind of motor vehicle electromagnetic shielding thin plate Throwing light control methods institute according to one embodiment of the present invention The use state schematic diagram of the polissoir used；

Fig. 4 is to illustrate a kind of motor vehicle electromagnetic shielding thin plate Throwing light control methods institute according to one embodiment of the present invention Another use state schematic diagram of the polissoir used.

Embodiment

Fig. 1 is refer to, it is to illustrate to shield thin plate Throwing light according to a kind of motor vehicle electromagnetic of one embodiment of the present invention The schematic device of polissoir used in control method.The motor vehicle electromagnetic shielding thin plate Throwing photocontrol sides of present embodiment Method includes the workpiece W that the polissoir 100 used comes in polishing station 200.Polissoir 100 comprising the first pedestal 110, Second pedestal 120, polishing wheel 130, the first transmission system 140, the second transmission system 150, first sensor 160, second are sensed Device 170 and power source 180.As shown in figure 1, the second pedestal 120 is arranged on the side of the first pedestal 110, and polishing wheel 130 is then It is provided between the first pedestal 110 and the second pedestal 120.In one embodiment, the first pedestal 110 is distinguished with the second pedestal 120 Positioned at the opposite sides of workbench 200, and polishing wheel 130 is then the top for the workpiece W being located on workbench 200.At some In embodiment, polishing wheel 130 can be metallic brush or polymer brush (such as nylon fiber brush or non-woven fabric brush).

Continue referring to Fig. 1, polishing wheel 130 has a main shaft 131, and main shaft 131 has relative first end 131a and the Two end 131b.First transmission system 140 is arranged on the first pedestal 110, and the first end of the main shaft 131 of connection polishing wheel 130 131a.First transmission system 140 is to be arranged to control first end 131a liftings.Second transmission system 150 is arranged on second On body 120, and the second end 131b of the main shaft 131 of connection polishing wheel 130.Second transmission system 150 is to be arranged to control Two end 131b are lifted.It follows that controlling the of main shaft 131 respectively by the first transmission system 140 and the second transmission system 150 One end 131a and the second end 131b position, can control the main shaft 131 of polishing wheel 130 with respect to workbench 200 (or workpiece W) Horizontal level and inclined degree.

As shown in figure 1, the first pedestal 110 has the first slide rail 111.In addition, the first transmission system 140 includes the first sliding block 141st, the first cylinder pressure 143 and the first transmission power source 145.Wherein, the first sliding block 141 is movably disposed at the first slide rail 111 On, and the first end 131a of the main shaft 131 of polishing wheel 130 is arranged on the first sliding block 141.First cylinder pressure 143 is arranged on first On pedestal 110, and the first cylinder pressure 143 has first the first sliding block of output shaft 143a connections 141.First transmission power source 145 connection the One cylinder pressure 143, the first transmission power source 145 is configurable to provide the power of the first cylinder pressure 143 work, so that the of the first cylinder pressure 143 One output shaft 143a controls the first sliding block 141 along the lifting moving of the first slide rail 111.In certain embodiments, the of main shaft 131 One end 131a is to be arranged on by universal joint 132 in the first sliding block 141, therefore when the first sliding block 141 is lifted, main shaft 131 can Tilted with respect to the first sliding block 141.In certain embodiments, the first transmission power source 145 can be pneumatic supply and/or oil pressure source.

Second pedestal 120 has the second slide rail 121.Moreover, the second transmission system 150 is pressed comprising the second sliding block 151, second The transmission power source 155 of cylinder 153 and second.Wherein, the second sliding block 151 is movably disposed on the second slide rail 121, and polishing wheel Second end 131b of 130 main shaft 131 is arranged on the second sliding block 151.Second cylinder pressure 153 is arranged on the second pedestal 120, and Second cylinder pressure 153 has second the second sliding block of output shaft 153a connections 151.Second transmission power source 155 connects the second cylinder pressure 153, the Two transmission power sources 155 are configurable to provide the power of the second cylinder pressure 153 work, so that the second output shaft 153a of the second cylinder pressure 153 The second sliding block 151 is controlled along the lifting moving of the second slide rail 121.In certain embodiments, the second end 131b of main shaft 131 is logical Universal joint 133 is crossed to be arranged in the second sliding block 151, therefore when the second sliding block 151 is lifted, main shaft 131 can be with respect to the second sliding block 151 tilt.In certain embodiments, the second transmission power source 155 can be pneumatic supply and/or oil pressure source.

Fig. 1 is continued referring to, power source 180 has the main shaft 131 of the connection polishing wheel 130 of drive shaft 181.Power source 180 System is configured to driving polishing wheel 130 and rotated.In one embodiment, power source 180 can be motor.In certain embodiments, drive Moving axis 181 can connect the main shaft 131 of polishing wheel 130 by universal joint 182, to ensure that power source 180 is defeated by drive shaft 181 The power gone out is sent to the main shaft 131 of polishing wheel 130, and makes the stable rotation of polishing wheel 130.

Continue referring to and be respectively equipped with first sensor 160 in Fig. 1, the first transmission system 140 and the second transmission system 150 And second sensor 170.First sensor 160 be configured to sensing polishing wheel 130 it is right close to first end 131a part The first time pressure that workpiece W applies, and by first time pressure force feedback to the first transmission system 140, the first transmission system 140 can adjust the first end 131a positions of the main shaft 131 of polishing wheel 130 according to the information of first time received pressure. Second sensor 170 is configured to sense polishing wheel 130 second to be pushed close to what the second end 131b part applied to workpiece W Power, and by second time pressure force feedback to the second transmission system 150, the second transmission system 150 can be according to received The information of two times pressure adjusts the second end 131b positions of the main shaft 131 of polishing wheel 130.

Separately referring to Fig. 1 and Fig. 2, wherein Fig. 2 systems illustrate a kind of electric car according to one embodiment of the present invention It is electromagnetically shielded the workflow schematic diagram of polissoir used in thin plate Throwing light control methods.In the polissoir of the present embodiment In the workflow 300 of equipment, step 301 is carried out first, starts power source 180 so that polishing wheel 130 rotates.Then, carry out Step 302, mobile work platform 200, workpiece W are carried to the predeterminated position of correspondence polishing wheel 130.Then, it is synchronous to carry out Step 303 and 304, the first transmission system 140 and the second transmission system 150 control the first of the main shaft 131 of polishing wheel 130 respectively 131a and the second end 131b is held to lift.

Then, synchronous to carry out step 305 and 306, step 305 is close by the sensing polishing wheel 130 of first sensor 160 The first time pressure that first end 131a part applies to workpiece W, and by first time pressure force feedback to the first power train System 140.Step 306 is to sense polishing wheel 130 by second sensor 170 to apply workpiece W close to the second end 131b part Plus second time pressure, and by second time pressure force feedback to the second transmission system 150.

Next, carrying out step 307, compare first time pressure and whether second time pressure is equal to preset value.If comparing As a result it is yes, then carries out step 308, starts polishing.If comparison result, which is second time pressure, is equal to preset value, and first pushes When power is not equal to preset value, then step 303 is returned to, so that the of the main shaft 131 of the first transmission system 140 control polishing wheel 130 One end 131a is lifted.If comparison result is not equal to preset value for first time pressure equal to preset value, and second time pressure, then return To step 304, so that the second end 131b liftings of the main shaft 131 of the second transmission system 150 control polishing wheel 130.Until comparing When being as a result equal to preset value for first time pressure and second time pressure, step 308 is just carried out, to start polishing.

Whereby, referring to Fig. 1, Fig. 3 and Fig. 4, wherein Fig. 3 and Fig. 4 are to illustrate the implementation according to the present invention respectively The different use state schematic diagrames of polissoir used in a kind of motor vehicle electromagnetic shielding thin plate Throwing light control methods of mode. , can be with by first sensor 160 and second sensor 170 when workpiece W surface is inclined-plane or yo-yo face When sensing polishing wheel 130 and workpiece W surface between contact force.Moreover, the first transmission system 140 and the second transmission system 150 can adjust position and the gradient of polishing wheel 130 according to the contact force between polishing wheel 130 and workpiece W surface, so as to throw Halo 130 can reach good polishing effect uniformly in contact with workpiece W surface.

It should be noted that in the embodiment shown in fig. 1, the first transmission system 140 and the second transmission system 150 are gas Pressure and/or hydraulic type transmission system are only that demonstration explanation is used, and are not used to the limitation present invention.In other embodiments, first pass Dynamic system is alternatively the transmission system of motor and guide screw rod type with the second transmission system.A kind of electric car of another embodiment It is electromagnetically shielded polissoir structure used in thin plate Throwing light control methods generally identical with the polissoir 100 shown in Fig. 1, Difference is only that the first transmission system of polissoir and the second transmission system is motor and the transmission system of guide screw rod type.

Reference picture 1, the of polissoir used in the motor vehicle electromagnetic shielding thin plate Throwing light control methods of the present embodiment One transmission system includes the first motor, the first screw rod and the first sliding block.First motor is arranged on the first pedestal.First screw rod The first motor is connected, and the first motor can drive the first screw rod to rotate.First sliding block spiral shell is located at the first screw rod, and movably sets Put on the first slide rail 111, and the first end 131a of the main shaft 131 of polishing wheel 130 is arranged on the first sliding block.Whereby, pass through First motor drives the mode of the first screw rod, can drive the first sliding block along the first screw rod lifting moving.Similarly, the second transmission System includes the second motor, the second screw rod and the second sliding block.Second motor is arranged on the second pedestal 120.Second screw rod connects The second motor is connect, and the second motor can drive the second screw rod to rotate.Second sliding block spiral shell is located at the second screw rod, and is movably disposed On the second slide rail 121, and the second end 131b of the main shaft 131 of polishing wheel 130 is arranged on the second sliding block.Whereby, is passed through Two motor drives the mode of the second screw rod, can drive the second sliding block along the second screw rod lifting moving.Whereby, the first transmission is passed through System and the second transmission system can reach with identical effect of polissoir 100 shown in Fig. 1, therefore repeated no more in this. In some embodiments, the first screw rod and the second screw rod can be ball guide screw, but be not limited.

From the invention described above embodiment, motor vehicle electromagnetic shielding thin plate Throwing light control methods of the invention can thrown In photoreduction process, real-time measurement polishing wheel both sides put on the lower pressure of workpiece, and are fed back to the first transmission system and the at any time Two transmission systems, so that the first transmission system can adjust the relative position of polishing wheel and work piece surface at any time with the second transmission system Put, to make there is average contact force between polishing wheel and workpiece.Whereby, polishing wheel can be maintained to work piece surface appropriate Removal quantity, it is to avoid excessively remove work piece surface material and cause waste of materials or influence workpiece shape.

Furthermore, by controlling the contact force between polishing wheel and work piece surface, polishing wheel can be also avoided because of set location It is incorrect, or polishing effect is influenceed because of the manufacturing defect of polishing wheel in itself, and then the service life of polishing wheel can be extended, and can Lift quality of finish.

Although the present invention is disclosed as above with embodiment, so it is not limited to the present invention, any art In those skilled in the art, without departing from the spirit and scope of the present invention, when a little variation and retouching can be made, therefore of the invention Protection domain when depending on being defined that claim is defined.

Claims (10)

1. a kind of motor vehicle electromagnetic shields thin plate Throwing light control methods, comprising a kind of polissoir polishing part is used, it is special Levy and be, the polissoir is included：

First pedestal；

Second pedestal, located at the side of first pedestal；

Polishing wheel, between first pedestal and second pedestal, wherein the polishing wheel has main shaft, and the master Axle has relative first end and the second end；

First transmission system, is arranged on first pedestal and connects the first end, wherein the first transmission system quilt Configure to control the first end to lift；

Second transmission system, is arranged on second pedestal and connects second end, wherein the second transmission system quilt Configure to control second end to lift；

First sensor, is arranged in first transmission system, is configured to sense the polishing wheel close to the first end Part put on first time pressure of the workpiece, and by the first time pressure force feedback to first power train System；

Second sensor, is arranged in second transmission system, is configured to sense the polishing wheel close to second end Part put on second time pressure of the workpiece, and by the second time pressure force feedback to second power train System；And

Power source, the main shaft of the polishing wheel is connected with drive shaft, and the power source is configured to drive the polishing Wheel is rotated.

2. motor vehicle electromagnetic as claimed in claim 1 shields thin plate Throwing light control methods, it is characterised in that first transmission System is included：

First sliding block, is connected to the first end；

First cylinder pressure, is arranged on first pedestal, and there is first cylinder pressure the first output shaft to connect first sliding block； And

First transmission power source, connects first cylinder pressure, is configurable to provide the power of the first cylinder pressure work, so that described the One cylinder pressure controls the first sliding block lifting.

3. motor vehicle electromagnetic as claimed in claim 2 shields thin plate Throwing light control methods, it is characterised in that second transmission System is included：

Second sliding block, is connected to second end；

Second cylinder pressure, is arranged on second pedestal, and there is second cylinder pressure the second output shaft to connect second sliding block； And

Second transmission power source, connects second cylinder pressure, is configurable to provide the power of the second cylinder pressure work, so that described the Two cylinder pressures control the second sliding block lifting.

4. motor vehicle electromagnetic as claimed in claim 3 shields thin plate Throwing light control methods, it is characterised in that

First pedestal has the first slide rail, and first sliding block is movably disposed on first slide rail；And

Second pedestal has the second slide rail, and second sliding block is movably disposed on second slide rail.

5. motor vehicle electromagnetic as claimed in claim 3 shields thin plate Throwing light control methods, it is characterised in that each described first Transmission power source is pneumatic supply or oil pressure source with second transmission power source.

6. motor vehicle electromagnetic as claimed in claim 1 shields thin plate Throwing light control methods, it is characterised in that first transmission System is included：

First motor, is arranged on first pedestal；

First screw rod, connects first motor；

First sliding block, is connected to the first end, and first motor be configured to driving first screw rod rotate so that First sliding block is lifted along first screw rod.

7. motor vehicle electromagnetic as claimed in claim 6 shields thin plate Throwing light control methods, it is characterised in that second transmission System is included：

Second motor, is arranged on second pedestal；

Second screw rod, connects second motor；

Second sliding block, is connected to second end, and second motor be configured to driving second screw rod rotate so that Second sliding block is lifted along second screw rod.

8. motor vehicle electromagnetic as claimed in claim 7 shields thin plate Throwing light control methods, it is characterised in that

First pedestal has the first slide rail, and first sliding block is movably disposed on first slide rail；And

Second pedestal has the second slide rail, and second sliding block is movably disposed on second slide rail.

9. motor vehicle electromagnetic as claimed in claim 1 shields thin plate Throwing light control methods, it is characterised in that polissoir is also wrapped Containing universal joint, it is connected between the drive shaft of the power source and the main shaft of the polishing wheel.

10. motor vehicle electromagnetic as claimed in claim 1 shields thin plate Throwing light control methods, it is characterised in that the polishing wheel For metallic brush or polymer brush.