CN208132630U - A kind of processing unit (plant) for optical glass - Google Patents

Abstract

This patent is related to glass processing field, specifically disclose a kind of processing unit (plant) for optical glass, including clamping device and workpiece polishing mechanism, workpiece polishing mechanism includes in semi-annular shape and horizontally disposed first polishing ring, the second polishing ring, the first sanding block and the second sanding block, and first polishing ring and second polishing ring in be equipped with annular groove, first sanding block and the second sanding block are separately mounted in the annular groove of the first polishing ring and the second polishing ring, and the first polishing ring is detachably connected with the second polishing ring；Clamping device includes the first sucker, the second sucker, the slide bar being vertically arranged, motor and guide rail, and guide rail level is fixedly mounted on the surface of workpiece polishing mechanism, and sliding bar is mounted on guide rail, and the first sucker level is fixedly mounted on the lower end of slide bar；Second sucker is opposite with the first polishing ring and the second polishing lower surface of ring.This programme can efficiently polish to the section of the circular optical glass after cutting.

Description

A kind of processing unit (plant) for optical glass

Technical field

The utility model belongs to glass processing field, and in particular to a kind of processing unit (plant) for optical glass.

Background technique

Optical glass is the glass material for manufacturing the lens of optical instrument or mechanical system, prism, reflecting mirror, window etc. Material.It transmits light by refraction, reflection, through mode or changes the intensity or spatial distribution of light by absorbing, and has and stablizes Optical property and Possessing high optical uniformity.

During the manufacture and use of optical glass, generally requires and cutting processing is carried out to the optical glass of bulk, cut It is usually that upper scratch is drawn into using diamond in the surface of monolith when cutting, is then breaking folding along scratch, realizing the cutting of glass, cutting The cutting section of glass is not smooth enough afterwards, and remains the soft flocks of glass on the section；When the optical glass of round is being cut Afterwards, since the profile of glass is cambered, it is difficult to directly polish the radian of circular glass, adding for optical glass can be greatly reduced Work precision.

Utility model content

The utility model is intended to provide a kind of processing unit (plant) for optical glass, to the circular optical glass after cutting Section efficiently polished.

In order to achieve the above object, the base case of the utility model is as follows：A kind of processing unit (plant) for optical glass, Including clamping device and workpiece polishing mechanism, the workpiece polishing mechanism includes the first polishing ring, the second polishing ring, the first sanding block and second Sanding block, the first polishing ring, the second polishing ring, the first sanding block and the second sanding block is in semi-annular shape and equal level is set It sets, and is equipped with annular groove on the inner wall of the first polishing ring and the second polishing ring, first sanding block is mounted on the first polishing In the annular groove of ring, the second sanding block is mounted in the annular groove of the second polishing ring, one end and second of the first polishing ring One end of polishing ring is detachably connected, and the other end of the first polishing ring and the other end of the second polishing ring are detachably connected；It is described Clamping device includes the first sucker, the second sucker, the slide bar being vertically arranged, motor and guide rail, the fixed peace of the guide rail level Mounted in the surface of workpiece polishing mechanism, the upper end of the slide bar is slidably mounted on guide rail, and slide bar is fixedly mounted in the first sucker level Lower end on；The motor is fixedly mounted on the lower section of workpiece polishing mechanism, and the second sucker level is fixedly mounted on the dynamic of motor On power output end, and the second sucker is opposite with the first polishing ring and the second polishing lower surface of ring.

The principle of base case：When operation, slide bar drives the first sucker to move along sliding rail, when the first sucker is moved to cutting When at optical glass afterwards, the first sucker draws the upper surface of optical glass, and then slide bar drives light to be polished It is mobile to the direction of workpiece polishing mechanism to learn glass, when circular optical glass is moved at workpiece polishing mechanism, by the first polishing ring and The cutting section of optical glass, is then mounted on the annular groove of the first polishing ring and the second polishing ring by the second polishing ring separation Interior, the section of optical glass is contacted with the first sanding block and the second sanding block at this time.

Then the second sucker is opposite with the center point of optical glass, and the second sucker inhales the center point of optical glass It is attached, optical glass is fixed；The first sucker loosens optical glass simultaneously；Open motor at this time, motor drives the Optical glass rotation on two suckers, the first polishing ring and the second polishing ring are opposing stationary at this time, and the second sucker drives optics glass The surrounding of glass rotation, optical glass is polished by the first sanding block and the second sanding block；After the completion of optical glass is polished, close Motor, the first sucker draw optical glass, while the second sucker decontrols optical glass, disassembly first polishing ring and Second polishing ring, then removes optical glass.

The advantages of base case：1, the first sucker can cooperate with slide bar and guide rail, be transmitted to optical glass, and being convenient for will Optical glass is sent at workpiece polishing mechanism, while the first sucker can adsorb the upper surface of optical glass, allows optical glass It is constantly in horizontality, and then convenient for allowing optical glass to be mounted in the first polishing ring and the second polishing ring；2, the first polishing It is equipped with annular groove on the inner wall of ring and the second polishing ring, the first sanding block is mounted in the annular groove of the first polishing ring, and second Sanding block is mounted in the annular groove of the second polishing ring, convenient for installing in a ring groove optical glass, while in annular groove First sanding block and the second sanding block can contact with optical glass, polish convenient for the section to optical glass, and optics Glass stability of rotation in a ring groove；3, the second sucker is opposite with the first polishing ring and the second polishing lower surface of ring, works as optics When glass is by the second sucker suction, the second sucker can cooperate with motor, and then drive optical glass rotation, realize optical glass Polishing.

It further, further include collecting box, the lower section of workpiece polishing mechanism, and collecting box and the first polishing is arranged in the collecting box Ring and the second polishing ring are opposite.When the first sanding block and the second sanding block polish to the section of optical glass, can not keep away The meeting exempted from generates some scrap, and scrap can be fallen in collecting box, and collecting box is collected it, can reduce glass in air Glass scrap amount.

Further, the collecting box is annular in shape, and motor is mounted in the inner ring of collecting box.Collecting box with merge after The shape of first polishing ring and the second polishing ring is adapted, and glass scrap can be dropped into adequately in collecting box, while will be electric Motivation is mounted in the inner ring of collecting box, can effectively improve the integrated level of whole device, convenient for carrying out cloth to whole device It sets.

Further, one end of the first polishing ring and one end of the second polishing ring are hinged, the other end of the first polishing ring The first mounting blocks are equipped with, the other end of the second polishing ring is equipped with the second mounting blocks, first mounting blocks and the second installation Through-hole is equipped on block, and the through-hole on the through-hole and the second mounting blocks on the first mounting blocks can be located on same axis.It needs When treating the optical glass of polishing and being polished, around the first polishing ring and the second polishing ring the first polishing ring of hinge joint rotation and Second polishing ring, keeps the first mounting blocks and the second mounting blocks opposite, and on the through-hole and the second mounting blocks on the first mounting blocks Through-hole can be located on same axis, and the through-hole on the through-hole and the second mounting blocks on the first mounting blocks is then passed through with bolt, right The relative position of first polishing ring and the second polishing ring is quickly limited, and is realized and is polished the temperature of optical glass.

Further, the lateral surface of the collecting box is equipped with slag notch.Convenient for passing through slag notch to the glass in collecting box Scrap is collected.

Detailed description of the invention

Fig. 1 is structural schematic diagram of the utility model for the processing unit (plant) of optical glass；

Fig. 2 is the cross-sectional view in Fig. 1 at A-A.

Specific embodiment

Below by the further details of explanation of specific embodiment：

Appended drawing reference in Figure of description includes：First polishing ring 101, second polish ring 102, the first sanding block 103, Second sanding block 104, annular groove 105, the first mounting blocks 106, the second mounting blocks 107, through-hole 108, the first sucker 201, second Sucker 202, slide bar 203, motor 205, guide rail 206, collecting box 30, slag notch 301, optical glass 40.

Embodiment is substantially as shown shown in Figure 1 and Figure 2：A kind of processing unit (plant) for optical glass 40, including clamping machine Structure, workpiece polishing mechanism.

Workpiece polishing mechanism includes the first polishing polishing of ring 101, second ring 102, the first sanding block 103 and the second sanding block 104, First polishing ring 101, second polishes ring 102, the first sanding block 103 and the second sanding block 104 in semi-annular shape and equal level Setting, and annular groove 105, the installation of the first sanding block 103 are equipped on the inner wall of the first polishing ring 101 and the second polishing ring 102 In the annular groove 105 of the first polishing ring 101, the second sanding block 104 is mounted in the annular groove 105 of the second polishing ring 102.

As shown in Fig. 2, the right end of the first polishing ring 101 and the right end of the second polishing ring 102 are hinged, the first polishing ring 101 With second polishing ring 102 one end it is hinged, first polishing ring 101 left end be equipped with the first mounting blocks 106, second polishing ring 102 left end is equipped with the second mounting blocks 107, is equipped with through-hole 108 on the first mounting blocks 106 and the second mounting blocks 107, and the The through-hole 108 on through-hole 108 and the second mounting blocks 107 on one mounting blocks 106 can be located on same axis.

Clamping device includes the first sucker 201, the second sucker 202, the slide bar 203 being vertically arranged, motor 205 and guide rail 206,206 level of guide rail is welded on the surface of workpiece polishing mechanism, and the upper end of slide bar 203 is slidably mounted on guide rail 206, and first inhales On the lower end of the horizontal welding slide bar 203 of disk 201；Motor 205 is welded on the lower section of workpiece polishing mechanism, 202 horizontal welding of the second sucker It connects on the power output end of motor 205, and the following table of the second sucker 202 and the first polishing ring 101 and the second polishing ring 102 Face is opposite.

In addition, further include collecting box 30 annular in shape, collecting box 30 is arranged in the lower section of workpiece polishing mechanism, and collecting box 30 with First polishing ring 101 and the second polishing ring 102 are opposite；And motor 205 is mounted in the inner ring of collecting box 30；Collecting box 30 Lateral surface is equipped with slag notch 301.

When in use, slide bar 203 drives 201 edge of the first sucker to the processing unit (plant) for optical glass 40 in the present embodiment Sliding rail is mobile, and when at the optical glass 40 after the first sucker 201 is moved to cutting, the first sucker 201 is to optical glass 40 Upper surface is drawn, and then slide bar 203 drives optical glass 40 to be polished to the movement of the direction of workpiece polishing mechanism, works as circle Optical glass 40 when being moved at workpiece polishing mechanism, the first polishing ring 101 and the second polishing ring 102 are in discrete state；Then First polishing ring 101 and the second polishing ring 102 are rotated around hinge joint, make 107 phase of the first mounting blocks 106 and the second mounting blocks It is right, and the through-hole 108 on the through-hole 108 and the second mounting blocks 107 on the first mounting blocks 106 can be located on same axis, then The through-hole 108 on the through-hole 108 and the second mounting blocks 107 on the first mounting blocks 106 is passed through with bolt, to the first polishing ring 101 It is quickly limited with the relative position of the second polishing ring 102, at this time the section of optical glass 40 and the first sanding block 103 and the The contact of two sanding blocks 104.

Then the second sucker 202 is opposite with the center point of optical glass 40, the center of circle of second sucker 202 to optical glass 40 Place is adsorbed, and optical glass 40 is fixed；The first sucker 201 loosens optical glass 40 simultaneously；It opens at this time electronic Machine 205, motor 205 drive the optical glass 40 on the second sucker 202 to rotate, at this time the first polishing ring 101 and the second polishing Ring 102 is opposing stationary, and the second sucker 202 drives optical glass 40 to rotate, and the surrounding of optical glass 40 is by 103 He of the first sanding block The polishing of second sanding block 104；While polishing, glass scrap is fallen in collecting box 30, the glass scrap mistake in collecting box 30 When more, glass scrap is collected by slag notch 301.

After the completion of optical glass 40 is polished, motor 205 is closed, the first sucker 201 inhales optical glass 40 It takes, while the second sucker 202 decontrols optical glass 40, then the first polishing ring 101 of disassembly and the second polishing ring 102 are removed Optical glass 40.

Above-described is only the embodiments of the present invention, the common sense such as well known specific structure and/or characteristic in scheme It does not describe excessively herein.It should be pointed out that for those skilled in the art, before not departing from the utility model structure It puts, several modifications and improvements can also be made, these also should be considered as the protection scope of the utility model, these all will not shadow Ring effect and patent practicability that the utility model is implemented.This application claims protection scope should be in its claim Subject to appearance, the records such as specific embodiment in specification can be used for explaining the content of claim.

Claims (5)

1. a kind of processing unit (plant) for optical glass, which is characterized in that including clamping device and workpiece polishing mechanism, the sander Structure includes the first polishing ring, the second polishing ring, the first sanding block and the second sanding block, the first polishing ring, the second polishing ring, First sanding block and the second sanding block are in semi-annular shape and are horizontally disposed with, and the inner wall of the first polishing ring and the second polishing ring On be equipped with annular groove, first sanding block is mounted in the annular groove of the first polishing ring, and the second sanding block is mounted on second It polishes in the annular groove of ring, one end of the first polishing ring and one end of the second polishing ring are detachably connected, the first polishing ring The other end and second polishing ring the other end be detachably connected；The clamping device includes the first sucker, the second sucker, vertical Slide bar, motor and the guide rail of setting, the guide rail level are fixedly mounted on the surface of workpiece polishing mechanism, the upper end of the slide bar It is slidably mounted on guide rail, the first sucker level is fixedly mounted on the lower end of slide bar；The motor is fixedly mounted on sander The lower section of structure, the second sucker level are fixedly mounted on the power output end of motor, and the second sucker and first polishing ring and The lower surface of second polishing ring is opposite.

2. the processing unit (plant) according to claim 1 for optical glass, which is characterized in that it further include collecting box, it is described The lower section of workpiece polishing mechanism is arranged in collecting box, and collecting box is opposite with the first polishing ring and the second polishing ring.

3. the processing unit (plant) according to claim 2 for optical glass, which is characterized in that the collecting box is annular in shape, And motor is mounted in the inner ring of collecting box.

4. the processing unit (plant) according to claim 1 for optical glass, which is characterized in that the one of the first polishing ring End with second polishing ring one end it is hinged, first polishing ring the other end be equipped with the first mounting blocks, second polish ring it is another End is equipped with the second mounting blocks, is equipped with through-hole on first mounting blocks and the second mounting blocks, and logical on the first mounting blocks Through-hole on hole and the second mounting blocks can be located on same axis.

5. the processing unit (plant) according to claim 3 for optical glass, which is characterized in that the lateral surface of the collecting box It is equipped with slag notch.