CN201195273Y - Auxiliary aligning device for optical lens - Google Patents

Abstract

The utility model discloses an optical lens auxiliary alignment apparatus which comprises a base. The lower part of the base is provided with a lower bottom surface, a placement surface and an alignment part are arranged on the base along the longitudinal direction, the placement surface inclines upwards and faces sideward to the alignment part, the space between the placement surface and the alignment part is a lens placement space, and the base and two ends of the lens placement space are all provided with gaps. When a plurality of lenses are rounded, the operation is more convenient and rapid, all the lenses have good alignment effect, and the product quality is high.

Description

Optical mirror slip secondary alignment device

Technical field

The utility model relates to a kind of optical mirror slip processing auxiliary equipment, is specifically related to a kind of optical mirror slip secondary alignment device.

Background technology

In the process of existing optical mirror slip, need the optical mirror slip of former rectangle or other shape is processed into circle, its process generally is, a plurality of optical mirror slips are stacked together, a plurality of eyeglasses that will stack together then place between two thimbles of machining tool, the pressure of the thimble by both sides is clamped stacked a plurality of eyeglasses, afterwards, a plurality of eyeglass roundings that on machining tool, will stack together, in the prior art, want a plurality of eyeglass alignment are sandwiched between two thimbles, operation is extremely inconvenient; Also can't guarantee dimensional accuracy and outer diametric plane quality that rounding machines, the quality that is to say whole rounding machining lens is unsettled.

Summary of the invention

The purpose of this utility model is to provide a kind of optical mirror slip secondary alignment device, adopt this device after, more convenient operation is rapid, rounding adds the better effects if in man-hour.

The utility model is achieved through the following technical solutions:

A kind of optical mirror slip secondary alignment device, this secondary alignment device comprises a pedestal, the pedestal bottom is provided with bottom surface, on pedestal, be provided with along the longitudinal direction placed side and alignment part, the placed side tilts up and the side direction alignment part, space between placed side and the alignment part is the eyeglass placement space, on pedestal, the two ends of eyeglass placement space are equipped with breach.

During use, be stacked and placed on a plurality of optical mirror slips in the eyeglass placement space and be close to placed side and alignment part, a plurality of eyeglasses are alignd along alignment part.After stacked a plurality of eyeglasses alignment, the utility model that a plurality of eyeglasses are housed is placed between two thimbles, just two thimbles are respectively through the both sides to eyeglass, the breach top at two ends.Adopt after the utility model, can rapidly a plurality of eyeglasses be alignd and be sandwiched between two thimbles, easy to operate, can guarantee rapidly that center of lens overlaps with the thimble centre of gyration.Add man-hour carrying out rounding, the high conformity of each eyeglass, the product quality height, the lens periphery abrasive wear is few, reduced raw and auxiliary material consumption and improved production efficiency.

Further structure of the present utility model is:

Described pedestal is a strip, along the longitudinal direction of described placed side and alignment part.Pedestal can be made as strip, to enlarge the longitudinal length of eyeglass placement space, so that a plurality of eyeglasses of disposable placement improve working (machining) efficiency.

Described placed side and alignment part are the plane, and these two planes form " V " shape groove; During placement, a plurality of eyeglasses are stacked and placed in this " V " shape groove, and wherein two limits of eyeglass contact with placed side and alignment part respectively and each eyeglass is alignd mutually.Further, the angle between two planes of described placed side and alignment part is the right angle, and distinguishes vertical plane symmetry longitudinally.

The breach that the secondary alignment device is put both sides makes things convenient for heading into of both sides thimble, concrete structure can be: the eyeglass placement space directly forms described breach to the extension of end, two ends, perhaps, on described pedestal, the two ends of eyeglass placement space are equipped with the end step, two ends " V " v notch v is located at respectively on the step of end.In the alignment procedure, placed side and alignment part form " V " shape loading end and are used to place eyeglass, thimble is against two ends " V " v notch v and forms on another loading end, and the center of aligning eyeglass, distance between two loading ends has guaranteed that by the end step at two ends the center of each eyeglass and the centre of gyration of rounding equipment thimble overlap by the lens dimension decision of different size exactly; When concrete the making, can make the secondary alignment device of all size, the eyeglass of different size is selected the secondary alignment device of different size for use.

On described pedestal, the bottom of eyeglass placement space is provided with chip pocket; The cross section of this chip pocket is a rectangle.The assorted bits that produced in the process of eyeglass can collect and are stored in the chip pocket, avoid assorted bits to reside in the eyeglass placement space and cause eyeglass to align, and the existence of chip pocket simultaneously can avoid also not that the wedge angle of rounding eyeglass causes eyeglass to align.

Description of drawings

Fig. 1 is the vertical view of the utility model embodiment one;

Fig. 2 is the end view of Fig. 1;

Fig. 3 is the schematic diagrames of a plurality of eyeglasses when clamping by thimble;

Fig. 4 is the structure chart of the utility model embodiment two;

Fig. 5 is the end view of Fig. 4;

Fig. 6 is the structure chart of the utility model embodiment three;

Description of reference numerals:

1. placed side, 2. alignment part, 3. breach, 4. bottom surface, 5. end step, 6. eyeglass, 7. thimble, 8. chip pocket.

The specific embodiment

Embodiment one

Extremely shown in Figure 2 as Fig. 1, a kind of optical mirror slip secondary alignment device, this secondary alignment device comprises the pedestal of strip, the pedestal bottom is provided with bottom surface 4, on pedestal, be provided with along the longitudinal direction placed side 1 and alignment part 2, placed side 1 tilts up and side direction alignment part 2, and the space between placed side 1 and the alignment part 2 is the eyeglass placement space, on pedestal, the two ends of eyeglass placement space are equipped with breach 3.

In the present embodiment, placed side 1 and alignment part 2 are the plane, and these two planes form " V " shape groove, and angle therebetween is the right angle, and these two planes are the vertical plane symmetry longitudinally; On pedestal, the bottom of eyeglass placement space is provided with chip pocket 8, the cross section that chip pocket 8 is is a rectangle, on pedestal, the two ends of eyeglass placement space are equipped with end step 5, end step 5 all is " Y " shape, its lower end is inserted respectively in the chip pocket 8 and is installed and fixed, and the cross section of the breach 3 on the end step 5 is all V-shaped;

As shown in Figure 3, during use, be stacked and placed on a plurality of optical mirror slips 6 in the eyeglass placement space and be close to placed side 1 and alignment part 2, make a plurality of eyeglasses 6 along alignment part 2 alignment, after stacked a plurality of eyeglasses 6 alignment, the secondary alignment device that a plurality of eyeglasses 6 are housed is placed between two thimbles 7, and just two thimbles 7 are respectively through the both sides to eyeglass 6, breach 3 tops at two ends; After adopting present embodiment, can be easily with a plurality of eyeglasses 6 alignment and be sandwiched between two thimbles 7, easy to operate, eyeglass 6 alignment effect are good, add man-hour, the high conformity of each eyeglass 6, product quality height carrying out rounding; In the present embodiment, placed side 1 and alignment part 2 form " V " shape loading end and are used to place eyeglass 6, two " V " v notch vs 3 on end, the two ends step 5 form on another loading end, thimble 7 is against on this loading end and aims at the center of eyeglass 6, distance between two loading ends is by the eyeglass 6 sizes decision of different size, present embodiment has guaranteed that exactly the centre of gyration of the center of each eyeglass 6 and rounding equipment thimble 7 overlaps, and eyeglass 6 peripheral abrasive wear are few, reduced raw and auxiliary material consumption and improved production efficiency; When making, can make the secondary alignment device of all size simultaneously, when processing the eyeglass 6 of different size, select the secondary alignment device of different size respectively for use.

Embodiment two

Shown in Fig. 4,5, in the present embodiment, the setting of end, two ends step 5 is slightly different, and promptly end step 5 is wholely set with pedestal, and in the use, the alignment principle of eyeglass 6 is identical with embodiment one.

Embodiment three

As shown in Figure 6, in the present embodiment, described eyeglass placement space directly extends and formation breach 3 to the end, two ends.Present embodiment processing is simpler.

Claims (10)

1. optical mirror slip secondary alignment device, it is characterized in that, this secondary alignment device comprises a pedestal, the pedestal bottom is provided with bottom surface, on pedestal, be provided with along the longitudinal direction placed side and alignment part, the placed side tilts up and the side direction alignment part, and the space between placed side and the alignment part is the eyeglass placement space, on pedestal, the two ends of eyeglass placement space are equipped with breach.

2. optical mirror slip secondary alignment device according to claim 1 is characterized in that described pedestal is a strip, along the longitudinal direction of described placed side and alignment part.

3. optical mirror slip secondary alignment device according to claim 1 is characterized in that described placed side and alignment part are the plane, and these two planes form " V " shape grooves.

4. as optical mirror slip secondary alignment device as described in the claim 3, it is characterized in that two planes of described placed side and alignment part are the vertical plane symmetry longitudinally.

5. as optical mirror slip secondary alignment device as described in the claim 3, it is characterized in that the angle between two planes of described placed side and alignment part is the right angle.

6. as optical mirror slip secondary alignment device as described in each in the claim 1 to 5, it is characterized in that described eyeglass placement space directly extends and forms described breach to the end, two ends.

7. as optical mirror slip secondary alignment device as described in each in the claim 1 to 5, it is characterized in that on described pedestal, the two ends of eyeglass placement space are equipped with the end step, the described breach at two ends is located at respectively on the step of end.

8. as optical mirror slip secondary alignment device as described in the claim 7, it is characterized in that the cross section of the described breach at two ends is V-shaped.

9. as optical mirror slip secondary alignment device as described in each in the claim 1 to 5, it is characterized in that, on described pedestal, the bottom of eyeglass placement space is provided with chip pocket.

10. as optical mirror slip secondary alignment device as described in the claim 9, it is characterized in that the cross section of described chip pocket is a rectangle.

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