CN101653703B - Dispergation device and dispergation method thereof - Google Patents

Abstract

The invention provides a dispergation device, which is used for being placed in dispergation solvent to remove the bonding glue between multiple optical lens groups. The dispergation device comprises a rotary device and a load bearing device, wherein the load bearing device is fixed on the rotary device and is used for bearing the optical lens groups to ensure that the rotary device can drive the optical lens groups to rotate. The dispergation device in the invention utilizes the rotary device to drive the load bearing device which accommodates the optical lens groups to rotate in the dispergation solvent. The thermal motion of the dispergation solvent is enlarged due to the motion of the rotary device, thus greatly improving the dispergation speed; and the rotary device is always in a rotary state in the dispergation process, thus being capable of preventing the residue stain of the glue body from sedimentating on the optical lens groups; in addition, the dispergation device has simple structure and low assembly cost and does not need to utilize parts with high cost.

Description

Dispergation device and dispergation method thereof

Technical field

The present invention relates to a kind of Dispergation device and dispergation method thereof that is used for the optical mirror slip group.

Background technology

Along with the fast development of photoelectricity industry, the optical mirror slip group is designed to different shape to satisfy the needs of different product.The process technology of optical mirror slip group is also developed rapidly, and people can obtain needed optical mirror slip group through different processing modes.(seeing also " Precision Machining of optical mirror plane ", manufacturing technology and lathe, 1998 the 6th phases)

In the plurality of applications occasion, need be processed into circle to the optical mirror slip group usually, for example the eyeglass of the eyeglass of camera, glasses, magnifier and telescopical eyeglass etc.Present spheronization technique is carried out round as a ball processing to the square optical mirror slip group of initial moulding exactly, makes the optical mirror slip group have circular edge to satisfy optical applications.

In the round as a ball process of optical mirror slip group, in order to improve round as a ball efficient and large-scale production needs, usually with adhesive glue such as ultraviolet hardening resin a plurality of treat round as a ball optical mirror slip group be attached on carry out together round as a ball.So after round as a ball, these optical mirror slip groups still are that bonded glue tightly sticks, and are difficult to separately.The general at present supersonic oscillations of using make solvent get into the gap between these optical mirror slip groups, and the transmission wave of oscillation make adhesive glue break away from the optical mirror slip group.Utilize ultrasonic instrument can improve dispergation efficient, but cost is higher, and increases easily that the optical mirror slip group is vibrated and the probability that damages.

In addition, when using the ultrasound wave dispergation, optical mirror slip group and colloid all are statically placed in the solvent for a long time, make the residual stain of colloid might pollute the optical mirror slip group once more, cause dispergation bad.

Summary of the invention

There is mirror so, is necessary to provide a kind of have preferable dispergation effect and low Dispergation device and the dispergation method thereof of cost.

A kind of Dispergation device, it is used for being placed on the adhesive glue of separating between the peptizator releasing multi-disc optical mirror slip group.Said Dispergation device comprises a whirligig and a bogey, and said bogey is fixed on the said whirligig.Said bogey is used to carry said optical mirror slip group, makes said whirligig can drive said optical mirror slip group rotation.

A kind of dispergation method, it is used to remove the adhesive glue between the multi-disc optical mirror slip group, and said method comprises the steps: to provide one the accepting groove of separating peptizator is housed; An above-mentioned Dispergation device is provided; The optical mirror slip group of treating dispergation is positioned in the said Dispergation device, and is immersed in said separating in the peptizator simultaneously with said Dispergation device; Open said Dispergation device and drive said optical mirror slip group in that to separate the peptizator transfer moving.

Compared with prior art, Dispergation device of the present invention utilizes whirligig to drive the bogey of accommodating the optical mirror slip group and in separating peptizator, rotates.Because the motion of whirligig makes the thermal motion of separating peptizator increase, thereby has improved dispergation speed greatly.And whirligig is in rotation status always in the dispergation process, thereby the residual stain that can prevent colloid is deposited on the optical mirror slip group.In addition, said Dispergation device is simple in structure, and need not use expensive part, and assembly cost is low.

Description of drawings

The exploded view of the Dispergation device that Fig. 1 provides for embodiment of the present invention;

Fig. 2 is the assembly drawing of the Dispergation device of Fig. 1;

The process flow diagram of the dispergation method that Fig. 3 provides for embodiment of the present invention.

Embodiment

To combine accompanying drawing that the present invention is done one below specifically introduces.

Please consult Fig. 1 and Fig. 2 in the lump, a kind of Dispergation device 100 that embodiment of the present invention provides, it is used for being placed on the adhesive glue of separating between the peptizator releasing optics lens set 200.Said Dispergation device 100 comprises a whirligig 10 and a bogey 20.Said bogey 20 is used to carry said optical mirror slip group 200.Said bogey 20 is fixed on the said whirligig 10, makes said whirligig 10 can drive said bogey 20 rotations.

The said peptizator of separating is organic solvent or water.In this embodiment, the said peptizator of separating is a water.

Said whirligig 10 comprises a turning axle 11 and a rotational shell 12.Said turning axle 11 is provided with a rotation motor 110, and said rotation motor 110 can drive said turning axle 11 rotations.Said rotational shell 12 is the cylindric of end sealing; One end of said rotational shell 12 sealings is provided with a screw 120; Said turning axle 11 is spirally connected fixing through said screw 120 and said rotational shell 12, make said turning axle 11 can drive said rotational shell 12 rotations.

Said bogey 20 comprises a loading plate 22, and said loading plate 22 is provided with one first spacer 24 and one second spacer 26.Be provided with a slide block that can move back and forth 28 between said first spacer 24 and second spacer 26, said slide block 28 is connected with said first spacer 24 through an elastic component 30.Distance between said slide block 28 and said second spacer 26 can be regulated through said elastic component 30, makes said bogey 20 can carry the optical mirror slip group 200 of different length.In this embodiment, said elastic component 30 is a spring.Said slide block 28 comprises first end 280 and the second end 282, and said first end 280 is fixedly connected with said elastic component 30, offers a groove 284 on the said the second end 282.When said optical mirror slip group 200 being placed on 20 last times of said bogey, an end of said optical mirror slip group 200 is contained in the said groove 284, the other end and said second spacer, 26 butts.Said groove 284 can prevent that said optical mirror slip group 200 from coming off in rotary course.One end of said loading plate 22 is provided with a latch 21; Said rotational shell 12 is provided with a plurality of jacks 121 that are complementary with said latch 21 respectively, said bogey 20 through said latch 21 and said jack 121 matching and fixing on said rotational shell 12.In this embodiment, said latch 21 and said loading plate 22 are orthogonal, make the end face of said latch 21 and the end face of said loading plate 22 form a cross, and the lateral dimension of said cross and the longitudinal size of said cross are inequality.Concrete, at least one is unequal in the longitudinal length of the lateral length of said cross or width and said cross or the width.In said latch 21 is housed in said jack 121 and after rotating to an angle, said latch 21 can be fastened on the sidewall of said jack 121, makes said bogey 20 can be fixed on the said rotational shell 12.When starting said whirligig 10, said Dispergation device 100 can keep rotation status always in the dispergation process, thereby has avoided the glue stain to be deposited on the optical mirror slip group 200.Said a plurality of jack 121 can be fixed a plurality of bogeys 20 simultaneously, makes said Dispergation device 100 to carry out dispergation to many groups optical mirror slip group 200 simultaneously, improves dispergation efficient greatly.

As shown in Figure 3, dispergation method provided by the invention, it is used to remove the adhesive glue between the multi-disc optical mirror slip group 200, and said method comprises the steps:

Step S401 provides one the accepting groove 300 of separating peptizator is housed.The said peptizator of separating is organic solvent or water.In this embodiment, the said peptizator of separating is a water.

Step S403 provides an above-mentioned Dispergation device 100.

Step S405 is positioned over the optical mirror slip group 200 of treating dispergation in the said bogey 20, and is immersed in said separating in the peptizator simultaneously with said Dispergation device 100.

Step S407 opens said whirligig 10, makes it drive said optical mirror slip group 200 in that to separate the peptizator transfer moving.

Dispergation device 100 of the present invention and dispergation method thereof utilize whirligig 10 to drive the bogey 20 of accommodating optical mirror slip group 200 and in separating peptizator, rotate.Because the motion of whirligig 10 makes the thermal motion of separating peptizator increase, thereby has improved dispergation speed greatly.And whirligig 10 is in rotation status always in the dispergation process, thereby the residual stain that can prevent colloid is deposited on the optical mirror slip group 200.In addition, said Dispergation device 100 is simple in structure, and need not use expensive part, and assembly cost is low.

In addition, those skilled in the art also can do other variation in spirit of the present invention, and certainly, these all should be included within the present invention's scope required for protection according to the variation that the present invention's spirit is done.

Claims (7)

1. a Dispergation device is used for being placed on the adhesive glue of separating between the peptizator releasing multi-disc optical mirror slip group, it is characterized in that; Said Dispergation device comprises a whirligig and a bogey, and said bogey is fixed on the said whirligig, and said bogey is used to carry said optical mirror slip group; Make said whirligig can drive said optical mirror slip group rotation; Said bogey comprises a loading plate, and said loading plate is provided with one first spacer and one second spacer, is provided with a slide block that can move back and forth between said first spacer and second spacer; Said slide block is fixed on first spacer through an elastic component; Said optical mirror slip group can be placed between the said slide block and second spacer and compress said elastic component, and said slide block comprises first end and the second end, and said first end is connected with said elastic component; Offer a groove on the said the second end, said groove is used to accommodate an end of said optical mirror slip group.

2. Dispergation device as claimed in claim 1 is characterized in that, the said peptizator of separating is organic solvent or water.

3. Dispergation device as claimed in claim 1; It is characterized in that; Said whirligig comprises a turning axle and a rotational shell; Said rotational shell is the cylindric of end sealing, and an end of said rotational shell sealing is provided with a screw, and said turning axle is spirally connected fixing through said screw and said rotational shell.

4. Dispergation device as claimed in claim 1 is characterized in that, said elastic component is a spring.

5. Dispergation device as claimed in claim 3; It is characterized in that; One end of said bogey is provided with a latch; Said rotational shell be provided with a plurality of respectively with the jack of said latch coupling, on said rotational shell, said a plurality of jacks can be fixed a plurality of bogeys to said bogey simultaneously through said latch and said jack matching and fixing.

6. Dispergation device as claimed in claim 5; It is characterized in that; Said latch and said loading plate are orthogonal, make the end face of said latch and the end face of said loading plate form a cross, and the lateral dimension of said cross and the longitudinal size of said cross are inequality; In said latch is housed in said jack and after rotating to an angle, said bogey can be fixed on the said rotational shell.

7. dispergation method, it is used to remove the adhesive glue between the multi-disc optical mirror slip group, and said method comprises the steps:

Provide one the accepting groove of separating peptizator is housed;

Provide one like claim 1 to 6 each described Dispergation device;

The optical mirror slip group of treating dispergation is positioned in the said Dispergation device, and is immersed in said separating in the peptizator simultaneously with said Dispergation device;

Open said Dispergation device, and drive said optical mirror slip group in that to separate the peptizator transfer moving.

Images