CN207930474U - A kind of outer circle precision edge polisher - Google Patents

Abstract

The utility model discloses a kind of outer circle precision edge polishers, including：Rack, displacement compensating mechanism, rotary shaft, frosted disk, displacement detecting mechanism and object disposing platform, the rack epimere is provided with displacement compensating mechanism, the displacement compensating mechanism center is provided with rotary shaft, described rotary shaft one end is provided with frosted disk, the frosted disk surrounding is provided with displacement detecting mechanism, and the displacement detecting mechanism is set in rack；The rack hypomere is provided with object disposing platform.It makes it not shift, ensures that workpiece can obtain higher dimensional accuracy, to improve the quality of workpiece by detecting the position of grinding and ensureing that grinding is fixed.

Description

A kind of outer circle precision edge polisher

Technical field

The utility model belongs to grinding apparatus field, more particularly to a kind of outer circle precision edge polisher.

Background technology

In the photoelectric device production industry of China, edge polisher is this kind of can to carry out body surface in smooth machine, can To say that be production just need equipment, need to be required to such as quartz, ceramic, metal in manufacture photoelectric device edge polisher into Row processing.With the arriving of information age, photoelectron element industry is grown rapidly with the gesture set a prairie fire, while having driven related production The development and progress of industry.Although and domestic photoelectron element industry starting evening, development speed is exceedingly fast, compared to foreign countries More mature product and technology, the present market in China show the case where a hundred flowers blossom, and Related product is just like stars in the sky. It can be seen that the growth momentum of photoelectron element industry is violent.

However, in present opto-electronic industry, each enterprise seizes the market share, and competitive pressure is very big, leads to some enterprises For control cost, it is unwilling to put into substantial contribution in innovation, this is unfavorable for the development of industry.In order to give The economic development and scientific and technological progress of motherland bring fresh blood, constantly to the innovation ability of O-E Products and its production equipment It is the right way.And as the pith in industrial chain, improvement and optimization to edge polisher have very high importance and necessity. Based on existing edge polisher technology it can be found that edge polisher that there is also production precision is not high, working efficiency is low, security performance Not high shortcoming, the application are innovated and have been improved with regard to the not high disadvantage of edge polisher production precision.

Present edge polisher, the main problems are as follows：

1, present edge polisher can only meet basic polishing demand mostly, cannot control the precision after polishing well, It is easy to damage workpiece size simultaneously, leads to waste product occur.

2, present edge polisher does not have outstanding protective and safety mostly, is easy to damage staff, Safety accident occurs.

Invention content

Goal of the invention：In order to overcome the above deficiency, the purpose of this utility model to be to provide a kind of outer circle precision edge polisher, By detecting the position of grinding and ensureing that grinding is fixed, so that it is not shifted, ensure that workpiece can obtain higher size essence Degree, to improve the quality of workpiece.

Technical solution：To achieve the goals above, the utility model provides a kind of outer circle precision edge polisher, including：Machine Frame, displacement compensating mechanism, rotary shaft, frosted disk, displacement detecting mechanism and object disposing platform, the rack epimere are provided with displacement benefit Mechanism is repaid, the displacement compensating mechanism center is provided with rotary shaft, and described rotary shaft one end is provided with frosted disk, the frosted disk Surrounding is provided with displacement detecting mechanism, and the displacement detecting mechanism is set in rack；It is flat that the rack hypomere is provided with glove Platform.

The setting of edge polisher described in the utility model by detecting the displacement of frosted disk, and compensates displacement, protects It demonstrate,proves frosted disk and is in situ always, to ensure the precision of workpiece size, improve the quality of workpiece.

Displacement compensating mechanism described in the utility model includes pedestal, motor, gear-box, the first output shaft, second defeated Shaft, third output shaft and universal driving shaft, the pedestal are set in rack, and the base central is provided with through-hole, the through-hole Inside it is provided with rotary shaft；Motor is provided on the pedestal, described motor one end is provided with gear-box, and the gear-box is far from electricity One end of machine is provided with the first output shaft, the second output shaft and universal driving shaft, connects between first output shaft and the second output shaft It is connected to third output shaft, the third output shaft is connected with rotary shaft, third output shaft one end and universal driving shaft one end Connection；First output shaft is mutually parallel with the second output shaft, and first output shaft is parallel with universal driving shaft, and described first is defeated Shaft is mutually perpendicular to third output shaft.

The setting of displacement compensating mechanism described in the utility model drives the position of frosted disk by mobile rotary shaft, To ensure that frosted disk remains in situ, to improve the precision of workpiece size, higher workpiece quality and enterprise are obtained Industry competitiveness.

The first sliding block and the second sliding block, first sliding block and rotation are provided in rotary shaft described in the utility model Axis is connected by bearing, and second sliding block is connect with third output shaft by bearing；It is provided with first in first sliding block Threaded hole is connected with third output shaft in first threaded hole, is provided with the second threaded hole in second sliding block, and described The first output shaft and the second output shaft are connected in two threaded holes；First output shaft, the second output shaft and third output shaft Substantially it is threaded rod.

The setting of first sliding block and the second sliding block described in the utility model, which solve the direction transfer problems of power.

It is provided with stabilizing ring in rotary shaft described in the utility model, is fixed on bit shift compensation machine on the outside of the stabilizing ring On structure, it is provided with spring on the inside of the stabilizing ring, the spring one end is provided with ball, and the ball engagement is connected to rotary shaft On.

The setting of stabilizing ring described in the utility model, one side increase the supporting point of rotary shaft, to improve The stability of frosted disk；On the other hand the rigid connection for utilizing stabilizing ring and integral device, limits shake and the portion of rotary shaft Displacement component equally improves the stability of frosted disk.

Displacement detecting mechanism described in the utility model includes optical transmitting set, screen and optical inductor, the light emitting Device is set to frosted disk side, and the optical transmitting set is set in rack, and the optical transmitting set is provided with grid far from rack side Plate, the frosted disk other side are provided with optical inductor, and the optical inductor is similarly provided in rack.

The setting of displacement detecting mechanism described in the utility model is bit shift compensation by detecting the displacement of frosted disk Mechanism keeps the fixation of frosted disk to provide prerequisite；It is exaggerated light using the diffraction phenomena of light simultaneously, improves displacement inspection Survey the susceptibility of mechanism so that displacement detecting mechanism can make a response to small displacement, reduce frosted disk displacement, from And improve the workpiece size precision of abrasive disk.

Fast pulley is provided on object disposing platform described in the utility model, the fast pulley is set to object disposing platform two Side, the fast pulley are set to above object disposing platform, and the fast pulley outer side edges are provided with cushion rubber layer, and the fast pulley connects It is connected to dynamical system, the fast pulley direction of rotation is opposite.

On the one hand the setting of fast pulley described in the utility model can play the role of fixed and restraint of liberty degree, separately One side fast pulley can drive workpiece to rotate, and be convenient for the work of equipment.

It is provided with elevating lever on fast pulley described in the utility model.

The setting of elevating lever described in the utility model can facilitate feeding, blanking action, accelerate feeding, discharge, to Improve the working efficiency of equipment.

Above-mentioned technical proposal can be seen that the utility model and have the advantages that：

1, a kind of outer circle precision edge polisher described in the utility model drives the position of frosted disk by mobile rotary shaft Set, to ensure that frosted disk remains in situ, to improve the precision of workpiece size, obtain higher workpiece quality and Enterprise competitiveness.

2, on the one hand a kind of outer circle precision edge polisher described in the utility model is increased by the setting of stabilizing ring The supporting point of rotary shaft, to improving the stability of frosted disk；On the other hand the rigidity of stabilizing ring and integral device is utilized Connection, limits shake and the partial dislocation of rotary shaft, equally improves the stability of frosted disk.

3, a kind of outer circle precision edge polisher described in the utility model is displacement by detecting the displacement of frosted disk Compensation mechanism keeps the fixation of frosted disk to provide prerequisite；It is exaggerated light using the diffraction phenomena of light simultaneously, improves position Move the susceptibility of testing agency so that displacement detecting mechanism can make a response to small displacement, reduce frosted disk displacement Amount, to improve the workpiece size precision of abrasive disk.

4, on the one hand a kind of outer circle precision edge polisher described in the utility model can by the setting of fast pulley Play the role of fixed workpiece and limitation freedom of workpiece, another aspect fast pulley can drive workpiece to rotate, and be convenient for equipment Work.

Description of the drawings

Fig. 1 is the overall structure diagram of the utility model；

Fig. 2 is the structural schematic diagram of the utility model displacement compensating mechanism；

Fig. 3 is the structural schematic diagram of the utility model displacement detecting mechanism；

In figure：Rack -1, displacement compensating mechanism -2, pedestal -21, motor -22, gear-box -23, the first output shaft -24, Two output shafts -25, third output shaft -26, universal driving shaft -27, rotary shaft -3, frosted disk -4, displacement detecting mechanism -5, light emitting Device -51, screen -52, optical inductor -53, object disposing platform -6, the first sliding block -7, the second sliding block -8, stabilizing ring -9, fast pulley - 10, cushion rubber layer -11, elevating lever -12.

Specific implementation mode

In the following with reference to the drawings and specific embodiments, the utility model is furtherd elucidate.

Embodiment 1

A kind of outer circle precision edge polisher as shown in Figure 1, including：Rack 1, displacement compensating mechanism 2, rotary shaft 3, frosted disk 4, displacement detecting mechanism 5 and object disposing platform 6,1 epimere of the rack are provided with displacement compensating mechanism 2, the displacement compensating mechanism 2 Center is provided with rotary shaft 3, and 3 one end of the rotary shaft is provided with frosted disk 4, and 4 surrounding of frosted disk is provided with displacement detecting Mechanism 5, the displacement detecting mechanism 5 are set in rack 1；1 hypomere of the rack is provided with object disposing platform 6.

Displacement compensating mechanism 2 described in the present embodiment include pedestal 21, motor 22, gear-box 23, the first output shaft 24, Second output shaft 25, third output shaft 26 and universal driving shaft 27, the pedestal 21 are set in rack 1, and 21 center of the pedestal is set It is equipped with through-hole, rotary shaft 3 is provided in the through-hole；Motor 22, the setting of 22 one end of the motor are provided on the pedestal 21 There are gear-box 23, the one end of the gear-box 23 far from motor 22 to be provided with the first output shaft 24, the second output shaft 25 and linkage Axis 27, is connected with third output shaft 26 between first output shaft, 24 and second output shaft 25, the third output shaft 26 with Rotary shaft 3 is connected, and described 26 one end of third output shaft is connect with 27 one end of universal driving shaft；First output shaft 24 and second Output shaft 25 is mutually parallel, and first output shaft 24 is parallel with universal driving shaft 27, first output shaft 24 and third output shaft 26 are mutually perpendicular to.

The first sliding block 7 and the second sliding block 8, first sliding block 7 and rotation are provided in rotary shaft 3 described in the present embodiment Shaft 3 is connected by bearing, and second sliding block 8 is connect with third output shaft 26 by bearing；Setting in first sliding block 7 There is the first threaded hole, third output shaft 26 is connected in first threaded hole, the second screw thread is provided in second sliding block 8 Hole is connected with the first output shaft 24 and the second output shaft 25 in second threaded hole；First output shaft 24, second exports Axis 25 and third output shaft 26 are substantially threaded rod.

Stabilizing ring 9 is provided in rotary shaft 3 described in the present embodiment, bit shift compensation is fixed in 9 outside of the stabilizing ring In mechanism 2,9 inside of the stabilizing ring is provided with spring, and the spring one end is provided with ball, and the ball engagement is connected to rotation In shaft 3.

Displacement detecting mechanism 5 described in the present embodiment includes optical transmitting set 51, screen 52 and optical inductor 53, the light Transmitter 51 is set to 4 side of frosted disk, and the optical transmitting set 51 is set in rack 1, and the optical transmitting set 51 is far from rack 1 Side is provided with screen 52, and 4 other side of frosted disk is provided with optical inductor 53, and the optical inductor 53 is similarly provided at machine On frame 1.

Fast pulley 10 is provided on object disposing platform 6 described in the present embodiment, the fast pulley 10 is set to object disposing platform 6 Both sides, the fast pulley 10 are set to 6 top of object disposing platform；10 outer side edges of the fast pulley are provided with cushion rubber layer 11, institute It states fast pulley 10 and is connected with dynamical system, 10 direction of rotation of the fast pulley is opposite.

It is provided with elevating lever 12 on fast pulley 10 described in the present embodiment.

Embodiment 2

A kind of outer circle precision edge polisher as shown in Figure 2, including：Rack 1, displacement compensating mechanism 2, rotary shaft 3, frosted disk 4, displacement detecting mechanism 5 and object disposing platform 6,1 epimere of the rack are provided with displacement compensating mechanism 2, the displacement compensating mechanism 2 Center is provided with rotary shaft 3, and 3 one end of the rotary shaft is provided with frosted disk 4, and 4 surrounding of frosted disk is provided with displacement detecting Mechanism 5, the displacement detecting mechanism 5 are set in rack 1；1 hypomere of the rack is provided with object disposing platform 6.

Displacement compensating mechanism 2 described in the present embodiment include pedestal 21, motor 22, gear-box 23, the first output shaft 24, Second output shaft 25, third output shaft 26 and universal driving shaft 27, the pedestal 21 are set in rack 1, and 21 center of the pedestal is set It is equipped with through-hole, rotary shaft 3 is provided in the through-hole；Motor 22, the setting of 22 one end of the motor are provided on the pedestal 21 There are gear-box 23, the one end of the gear-box 23 far from motor 22 to be provided with the first output shaft 24, the second output shaft 25 and linkage Axis 27, is connected with third output shaft 26 between first output shaft, 24 and second output shaft 25, the third output shaft 26 with Rotary shaft 3 is connected, and described 26 one end of third output shaft is connect with 27 one end of universal driving shaft；First output shaft 24 and second Output shaft 25 is mutually parallel, and first output shaft 24 is parallel with universal driving shaft 27, first output shaft 24 and third output shaft 26 are mutually perpendicular to.

The first sliding block 7 and the second sliding block 8, first sliding block 7 and rotation are provided in rotary shaft 3 described in the present embodiment Shaft 3 is connected by bearing, and second sliding block 8 is connect with third output shaft 26 by bearing；Setting in first sliding block 7 There is the first threaded hole, third output shaft 26 is connected in first threaded hole, the second screw thread is provided in second sliding block 8 Hole is connected with the first output shaft 24 and the second output shaft 25 in second threaded hole；First output shaft 24, second exports Axis 25 and third output shaft 26 are substantially threaded rod.

Embodiment 3

A kind of outer circle precision edge polisher as shown in Figure 3, including：Rack 1, displacement compensating mechanism 2, rotary shaft 3, frosted disk 4, displacement detecting mechanism 5 and object disposing platform 6,1 epimere of the rack are provided with displacement compensating mechanism 2, the displacement compensating mechanism 2 Center is provided with rotary shaft 3, and 3 one end of the rotary shaft is provided with frosted disk 4, and 4 surrounding of frosted disk is provided with displacement detecting Mechanism 5, the displacement detecting mechanism 5 are set in rack 1；1 hypomere of the rack is provided with object disposing platform 6.

Displacement detecting mechanism 5 described in the present embodiment includes optical transmitting set 51, screen 52 and optical inductor 53, the light Transmitter 51 is set to 4 side of frosted disk, and the optical transmitting set 51 is set in rack 1, and the optical transmitting set 51 is far from rack 1 Side is provided with screen 52, and 4 other side of frosted disk is provided with optical inductor 53, and the optical inductor 53 is similarly provided at machine On frame 1.

The above is only the preferred embodiment of the utility model, it is noted that for the common skill of the art For art personnel, without departing from the principle of this utility model, several improvement can also be made, these improvement also should be regarded as The scope of protection of the utility model.

Claims (7)

1. a kind of outer circle precision edge polisher, it is characterised in that：Including：Rack（1）, displacement compensating mechanism（2）, rotary shaft（3）, mill Emery disc（4）, displacement detecting mechanism（5）And object disposing platform（6）, the rack（1）Epimere is provided with displacement compensating mechanism（2）, institute State displacement compensating mechanism（2）Center is provided with rotary shaft（3）, the rotary shaft（3）One end is provided with frosted disk（4）, the mill Emery disc（4）Surrounding is provided with displacement detecting mechanism（5）, the displacement detecting mechanism（5）It is set to rack（1）On；The rack （1）Hypomere is provided with object disposing platform（6）.

2. a kind of outer circle precision edge polisher according to claim 1, it is characterised in that：The displacement compensating mechanism（2） Including pedestal（21）, motor（22）, gear-box（23）, the first output shaft（24）, the second output shaft（25）, third output shaft（26） And universal driving shaft（27）, the pedestal（21）It is set to rack（1）On, the pedestal（21）Center is provided with through-hole, the through-hole Inside it is provided with rotary shaft（3）；The pedestal（21）On be provided with motor（22）, the motor（22）One end is provided with gear-box （23）, the gear-box（23）Far from motor（22）One end be provided with the first output shaft（24）, the second output shaft（25）And connection Moving axis（27）, first output shaft（24）With the second output shaft（25）Between be connected with third output shaft（26）, the third Output shaft（26）With rotary shaft（3）It is connected, the third output shaft（26）One end and universal driving shaft（27）One end connects；It is described First output shaft（24）With the second output shaft（25）It is mutually parallel, first output shaft（24）With universal driving shaft（27）It is parallel, institute State the first output shaft（24）With third output shaft（26）It is mutually perpendicular to.

3. a kind of outer circle precision edge polisher according to claim 2, it is characterised in that：The rotary shaft（3）Upper setting There is the first sliding block（7）With the second sliding block（8）, first sliding block（7）With rotary shaft（3）It is connected by bearing, described second slides Block（8）With third output shaft（26）It is connected by bearing；First sliding block（7）Inside it is provided with the first threaded hole, described first Third output shaft is connected in threaded hole（26）, second sliding block（8）Inside it is provided with the second threaded hole, second threaded hole Inside it is connected with the first output shaft（24）With the second output shaft（25）；First output shaft（24）, the second output shaft（25）With Three output shafts（26）Substantially it is threaded rod.

4. a kind of outer circle precision edge polisher according to claim 1, it is characterised in that：The rotary shaft（3）Upper setting There is stabilizing ring（9）, the stabilizing ring（9）Displacement compensating mechanism is fixed in outside（2）On, the stabilizing ring（9）Inside is provided with Spring, the spring one end are provided with ball, and the ball engagement is connected to rotary shaft（3）On.

5. a kind of outer circle precision edge polisher according to claim 1, it is characterised in that：The displacement detecting mechanism（5） Including optical transmitting set（51）, screen（52）And optical inductor（53）, the optical transmitting set（51）It is set to frosted disk（4）Side, The optical transmitting set（51）It is set to rack（1）On, the optical transmitting set（51）Far from rack（1）Side is provided with screen （52）, the frosted disk（4）The other side is provided with optical inductor（53）, the optical inductor（53）It is similarly provided at rack（1） On.

6. a kind of outer circle precision edge polisher according to claim 1, it is characterised in that：The object disposing platform（6）On set It is equipped with fast pulley（10）, the fast pulley（10）It is set to object disposing platform（6）Both sides, the fast pulley（10）It is flat to be set to glove Platform（6）Top；The fast pulley（10）Outer side edges are provided with cushion rubber layer（11）, the fast pulley（10）It is connected with dynamical system System, the fast pulley（10）Direction of rotation is opposite.

7. a kind of outer circle precision edge polisher according to claim 6, it is characterised in that：The fast pulley（10）Upper setting There is elevating lever（12）.