CN202053155U - Tool used for laser gyro cavity optical processing - Google Patents
Tool used for laser gyro cavity optical processing Download PDFInfo
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- CN202053155U CN202053155U CN2011200596721U CN201120059672U CN202053155U CN 202053155 U CN202053155 U CN 202053155U CN 2011200596721 U CN2011200596721 U CN 2011200596721U CN 201120059672 U CN201120059672 U CN 201120059672U CN 202053155 U CN202053155 U CN 202053155U
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- installing hole
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- axially extending
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Abstract
The utility model belongs to the technical field of processing tools, particularly designs a tool used for laser gyro cavity optical processing and aims at providing a tool for realizing the optical processing of a laser gyro cavity by matching with the existing working machine. The tool comprises a supporting screw (1), a pressing plate (2), a compression screw (3), a lower plate (4), an upper plate (5), a flange (6), a coupling screw (7), a spring (9), a spring pin (10) and an adjusting screw (12). The benefits are as follows: the tool adopts the upper plate, the lower plate, the adjusting screw and the coupling screw, and the upper end surface of the upper plate can be accurately adjusted to be horizontal, thus ensuring that the processed surface of a processed part is horizontal. By adopting the pressing plate, the supporting screw and the compression screw, the tool can conveniently adjust the processed surface of the processed part, realize processing of different surfaces of the processed part and finally realize the processing of the high precision laser gyro cavity on the existing abrasive polishing machine.
Description
Technical field
The utility model belongs to the processing tool technical field, a kind of laser gyro cavity of specific design optics tool for processing.
Background technology
The laser gyro cavity is the main body of laser gyro, bearing the transmission and the revolution task of laser optical path, so its optics processing should guarantee the angle of each optical cement face, face shape, requirements such as beauty defects, realize the stable optical cement of substrate and cavity, guarantee the registration and the angle requirement in each optical cement face and cavity loop simultaneously again, realize the transmission and the revolution of light path.
Based on above laser gyro cavity optics processing request, want to finish the optics processing of laser gyro cavity, must realize the adjusting of the X-Y direction of cavity in horizontal plane.And existing machining tool is traditional polisher lapper, and such lathe does not possess the processing work of adjusting horizontal functional, the optics processing of the laser gyro cavity that can't finish.
The utility model content
The purpose of this utility model provides a kind of laser gyro cavity optics tool for processing that can cooperate existing machining tool to realize the processing of laser gyro cavity optics.
The utility model is achieved in that
A kind of laser gyro cavity optics tool for processing comprises studdle, pressing plate, clamping screw, lower plate, upper plate, flange, attachment screw, spring, spring catch and adjustment screw; Lower plate is a metal rounding dish, and it is installed in by flange on the main shaft of lathe, has flange connecting hole, adjustment screw installing hole, attachment screw installing hole and spring mounting hole on the lower plate; Upper plate is a metal rounding dish, and it is installed on the lower plate, and with the coaxial installation of lower plate, upper plate has adjustment screw installing hole, attachment screw installing hole, spring mounting hole and clamping screw installing hole; Studdle is installed in the studdle installing hole of upper plate; Pressing plate is that to have a stainless steel of two axially extending bores that parallel rectangular-shaped, and its front end is a hook-shape structure, and it passes studdle and clamping screw, is installed in the upper plate top; Clamping screw is installed on the upper plate; Flange connects machine tool chief axis and lower plate; Attachment screw installing hole, top that attachment screw passes upper plate penetrate the threaded insert middle part; Spring catch be installed in the spring mounting hole of the lower surface of spring mounting hole of lower plate and upper plate the upper surface, be connected with both ends of the spring; The two ends of spring are separately fixed on lower plate and spring catch upper plate; Adjustment screw is passed in the adjustment screw installing hole of upper plate, the adjustment screw installing hole that the top penetrates lower plate.
Have 6 axially extending bores on the aforesaid lower plate; Wherein, the 1st axially extending bore is the flange connecting hole, and it opens the center in lower plate; 2-6 axially extending bore opened at disk near outer peripheral part; Wherein, the distance at axially extending bore center, 2-5 axially extending bore Center-to-Center place equates; Wherein, 2-3 axially extending bore is the adjustment screw installing hole, and they are positioned on the diameter of lower plate upper surface; 4-5 axially extending bore is the attachment screw installing hole, and their center is an axial symmetry with above-mentioned diameter, the line at their axially extending bore center, Center-to-Center place be 30-60 degree angle with this diameter respectively; The 6th axially extending bore is spring mounting hole, and its center is on the line at 1-3 axially extending bore center, near the attachment screw installing hole, away from the adjustment screw installing hole.
Aforesaid upper plate has 5 axially extending bores; Wherein, 1-4 axially extending bore opened in the close outer peripheral part of disk, and its through hole center equates with the distance of disc centre; Wherein, 1-2 axially extending bore drops on the diameter of upper plate upper surface, is the adjustment screw installing hole; 3-4 axially extending bore is the attachment screw installing hole, and their center is an axial symmetry with above-mentioned diameter, the line at their axially extending bore center, Center-to-Center place be 30-60 degree angle with this diameter respectively; The 5th axially extending bore is spring mounting hole, and its center is on the line at 1-3 axially extending bore center, near the attachment screw installing hole, away from the adjustment screw installing hole; Also have 3 screwed holes on the upper plate, 3 screwed holes are the clamping screw installing hole.
Also have 3 shallow slots on the described upper plate, 3 shallow slots are the studdle mounting groove, the fixed installation studdle.
It also comprises threaded insert, and threaded insert is that cross section is the step-like stainless steel rounding tubular of " T " font, and its middle part has full thread, the attachment screw installing hole interference fit of its bottom and lower plate.
It also comprises the fulcrum inserts, and the fulcrum inserts is that cross section is the step-like stainless steel rounding tubular of " T " font, has a taper hole at its top center place, the terminal taper fit of tapering and adjustment screw, the adjustment screw installing hole interference fit of its bottom and lower plate.
It also comprises the fulcrum inserts, and the fulcrum inserts is that cross section is the step-like stainless steel rounding tubular of " T " font, has a taper hole at its top center place, the terminal taper fit of tapering and adjustment screw, the adjustment screw installing hole interference fit of its bottom and lower plate.
Aforesaid metal is aluminium, steel or stainless steel.
The center of aforesaid attachment screw installing hole is an axial symmetry with above-mentioned diameter, the line at their axially extending bore center, Center-to-Center place with respectively with this diameter be 30,45 or 60 the degree angles.
The beneficial effects of the utility model are:
The utility model adopts upper plate 5, lower plate 4, adjustment screw, attachment screw, can accurately adjust upper plate 5 upper surface levels, thereby guarantees that the part to be processed machined surface is in level.The utility model adopts pressing plate, studdle 1 and clamping screw, can conveniently regulate the machined surface of part to be processed, has realized the processing of part to be processed different surfaces, finally is implemented in the laser gyro cavity of machining high-precision on the existing grinding and polishing lathe.
Description of drawings
Fig. 1 is the left view of a kind of laser gyro cavity of the utility model optics tool for processing;
Fig. 2 is the front view after a kind of laser gyro cavity of the utility model optics tool for processing is removed part;
Fig. 3 is the vertical view of a kind of laser gyro cavity of the utility model optics tool for processing;
Fig. 4 is the structural representation of the pressing plate of a kind of laser gyro cavity of the utility model optics tool for processing;
Fig. 5 is the structural representation of the lower plate of a kind of laser gyro cavity of the utility model optics tool for processing;
Fig. 6 is the structural representation of the upper plate of a kind of laser gyro cavity of the utility model optics tool for processing;
Fig. 7 is the structural representation of the flange of a kind of laser gyro cavity of the utility model optics tool for processing;
Fig. 8 is the structural representation of the threaded insert of a kind of laser gyro cavity of the utility model optics tool for processing;
Fig. 9 is the structural representation of the fulcrum inserts of a kind of laser gyro cavity of the utility model optics tool for processing;
Among the figure: 1. studdle, 2. pressing plate, 3. clamping screw, 4. lower plate, 5. upper plate, 6. flange, 7. attachment screw, 8. threaded insert, 9. spring, 10. spring catch, 11. fulcrum inserts, 12. adjustment screw.
The specific embodiment
Below in conjunction with drawings and Examples a kind of laser gyro cavity optics tool for processing of the present utility model is introduced:
As shown in Figure 1, a kind of laser gyro cavity optics tool for processing comprises studdle 1, pressing plate 2, clamping screw 3, lower plate 4, upper plate 5, flange 6, attachment screw 7, threaded insert 8, spring 9, spring catch 10, fulcrum inserts 11 and adjustment screw 12.
Studdle 1 is stainless steel screw rod, and it is installed in the studdle installing hole of upper plate 5.
Clamping screw 3 is stainless steel screw rod, and it is installed in the clamping screw mounting groove of upper plate 5.
Threaded insert 8 is the step-like stainless steel rounding tubular of " T " font for cross section, and its middle part has full thread, the attachment screw installing hole interference fit of its bottom and lower plate 4.
Attachment screw 7 is made by stainless steel, and attachment screw installing hole, top that it passes upper plate 5 penetrate threaded insert 8 middle parts.Have 2 mutual vertical and disjoint through holes at attachment screw 7 tops, it is used to screw attachment screw.By screwing attachment screw, compress upper plate and lower plate, regulate both gaps.
Spring 9 is formed from steel, and it passes the spring mounting hole of upper plate 5 and lower plate 4, and its two ends are separately fixed on lower plate 4 and the spring catch 10 upper plate 5, are used to strain lower plate 4 and upper plate 5.
During installation, threaded insert 8 and fulcrum inserts 11 are installed in respectively in the installing hole of upper plate 5 and lower plate 4 correspondences.Then spring 9 is installed in the spring mounting hole of upper plate 5 and lower plate 4 by spring catch 10.Afterwards flange 6 is threaded with lower plate 4.Subsequently, attachment screw 7 and adjustment screw 12 are screwed in the installing hole of upper plate 5 and lower plate 4 correspondences.The through hole that studdle 1 is passed pressing plate 2 afterbodys pushes up in the studdle mounting groove of upper plate 4 upper surfaces, and clamping screw 3 passes the through hole of pressing plate 2 front ends, the clamping screw screwed hole of precession upper plate 4.By adjusting attachment screw 7 and adjustment screw 12, can accurately regulate upper plate 5 upper surface levels, control height and the pitching thereof of pressing plate by regulating studdle 1 and clamping screw 3 apart from upper plate 4.At last, described frock is installed on the machine tool chief axis by flange 6.
During work, part to be processed is fixed on the upper plate 5 by pressing plate 2, regulates the level of part to be processed machined surface by regulating studdle 1 and clamping screw 3 then, thus the processing of the optics of the laser gyro cavity of finishing.
In other embodiment of the present utility model, upper plate 5 and lower plate 4 can adopt other metals such as steel, stainless steel to make, at this moment, the adjustment screw installing hole of upper plate 5 and the attachment screw installing hole of lower plate 4 are screwed hole, and described frock can be saved threaded insert 8 and fulcrum inserts 11.
The utility model adopts upper plate 5, lower plate 4, adjustment screw, attachment screw, can accurately adjust upper plate 5 upper surface levels, thereby guarantees that the part to be processed machined surface is in level.The utility model adopts pressing plate, studdle 1 and clamping screw, can conveniently regulate the machined surface of part to be processed, has realized the processing of part to be processed different surfaces, finally is implemented in the laser gyro cavity of machining high-precision on the existing grinding and polishing lathe.
Claims (9)
1. laser gyro cavity optics tool for processing, it is characterized in that: it comprises studdle (1), pressing plate (2), clamping screw (3), lower plate (4), upper plate (5), flange (6), attachment screw (7), spring (9), spring catch (10) and adjustment screw (12); Lower plate (4) is a metal rounding dish, and it is installed on the main shaft of lathe by flange (6), has flange connecting hole, adjustment screw installing hole, attachment screw installing hole and spring mounting hole on the lower plate (4); Upper plate (5) is a metal rounding dish, and it is installed on the lower plate (4), and with the coaxial installation of lower plate (4), upper plate (5) has adjustment screw installing hole, attachment screw installing hole, spring mounting hole and clamping screw installing hole; Studdle (1) is installed in the studdle installing hole of upper plate (5); Pressing plate (2) is rectangular-shaped for the stainless steel that has two axially extending bores that parallel, and its front end is a hook-shape structure, and it passes studdle (1) and clamping screw (3), is installed in upper plate (5) top; Clamping screw (3) is installed on the upper plate (5); Flange (6) connects machine tool chief axis and lower plate (4); Attachment screw installing hole, top that attachment screw (7) passes upper plate (5) penetrate threaded insert (8) middle part; Spring catch (10) be installed in the lower surface of spring mounting hole of lower plate (4) and the spring mounting hole of upper plate (5) the upper surface, be connected with spring (9) two ends; The two ends of spring (9) are separately fixed on the spring catch (10) lower plate (4) and upper plate (5); Adjustment screw installing hole, top that adjustment screw (12) is passed upper plate (5) penetrate in the adjustment screw installing hole of lower plate (4).
2. a kind of laser gyro cavity optics tool for processing according to claim 1 is characterized in that: have 6 axially extending bores on the described lower plate (4); Wherein, the 1st axially extending bore is the flange connecting hole, and it opens the center in lower plate (4); 2-6 axially extending bore opened at disk near outer peripheral part; Wherein, the distance at axially extending bore center, 2-5 axially extending bore Center-to-Center place equates; Wherein, 2-3 axially extending bore is the adjustment screw installing hole, and they are positioned on the diameter of lower plate (4) upper surface; 4-5 axially extending bore is the attachment screw installing hole, and their center is an axial symmetry with above-mentioned diameter, and the line at their axially extending bore center, Center-to-Center place is 30-60 degree angle with this diameter respectively; The 6th axially extending bore is spring mounting hole, and its center is on the line at 1-3 axially extending bore center, near the attachment screw installing hole, away from the adjustment screw installing hole.
3. a kind of laser gyro cavity optics tool for processing according to claim 1, it is characterized in that: described upper plate (5) has 5 axially extending bores; Wherein, 1-4 axially extending bore opened in the close outer peripheral part of disk, and its through hole center equates with the distance of disc centre; Wherein, 1-2 axially extending bore drops on the diameter of upper plate (5) upper surface, is the adjustment screw installing hole; 3-4 axially extending bore is the attachment screw installing hole, and their center is an axial symmetry with above-mentioned diameter, and the line at their axially extending bore center, Center-to-Center place is 30-60 degree angle with this diameter respectively; The 5th axially extending bore is spring mounting hole, and its center is on the line at 1-3 axially extending bore center, near the attachment screw installing hole, away from the adjustment screw installing hole; Also have 3 screwed holes on the upper plate (5), 3 screwed holes are the clamping screw installing hole.
4. a kind of laser gyro cavity optics tool for processing according to claim 3, it is characterized in that: also have 3 shallow slots on the described upper plate (5), 3 shallow slots are the studdle mounting groove, fixed installation studdle (1).
5. according to any one described a kind of laser gyro cavity optics tool for processing of claim 1-4, it is characterized in that: it also comprises threaded insert (8), threaded insert (8) is the step-like stainless steel rounding tubular of " T " font for cross section, its middle part has full thread, the attachment screw installing hole interference fit of its bottom and lower plate (4).
6. according to any one described a kind of laser gyro cavity optics tool for processing of claim 1-4, it is characterized in that: it also comprises fulcrum inserts (11), fulcrum inserts (11) is the step-like stainless steel rounding tubular of " T " font for cross section, have a taper hole at its top center place, the terminal taper fit of tapering and adjustment screw (12), the adjustment screw installing hole interference fit of its bottom and lower plate (4).
7. a kind of laser gyro cavity optics tool for processing according to claim 5, it is characterized in that: it also comprises fulcrum inserts (11), fulcrum inserts (11) is the step-like stainless steel rounding tubular of " T " font for cross section, have a taper hole at its top center place, the terminal taper fit of tapering and adjustment screw (12), the adjustment screw installing hole interference fit of its bottom and lower plate (4).
8. a kind of laser gyro cavity optics tool for processing according to claim 1, it is characterized in that: described metal is aluminium, steel or stainless steel.
9. according to claim 2 or 3 described a kind of laser gyro cavity optics tool for processing, it is characterized in that: the center of described attachment screw installing hole is an axial symmetry with above-mentioned diameter, and the line at their axially extending bore center, Center-to-Center place is 30,45 or 60 degree angles with this diameter respectively.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN2011200596721U CN202053155U (en) | 2011-03-08 | 2011-03-08 | Tool used for laser gyro cavity optical processing |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN2011200596721U CN202053155U (en) | 2011-03-08 | 2011-03-08 | Tool used for laser gyro cavity optical processing |
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CN202053155U true CN202053155U (en) | 2011-11-30 |
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CN2011200596721U Expired - Lifetime CN202053155U (en) | 2011-03-08 | 2011-03-08 | Tool used for laser gyro cavity optical processing |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103350355A (en) * | 2013-06-25 | 2013-10-16 | 健雄职业技术学院 | Rapid pressing mechanism for small-sized curved surface |
CN107283309A (en) * | 2017-08-16 | 2017-10-24 | 天津津航技术物理研究所 | A kind of spatial triaxial laser gyro cavity Global Macros method |
CN108045456A (en) * | 2017-12-25 | 2018-05-18 | 上海诺力智能科技有限公司 | A kind of laser sensor levelling gear suitable for AGV |
CN112276481A (en) * | 2020-09-22 | 2021-01-29 | 天津津航技术物理研究所 | Gyro cavity hole path processing method based on passive laser gyroscope |
-
2011
- 2011-03-08 CN CN2011200596721U patent/CN202053155U/en not_active Expired - Lifetime
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103350355A (en) * | 2013-06-25 | 2013-10-16 | 健雄职业技术学院 | Rapid pressing mechanism for small-sized curved surface |
CN107283309A (en) * | 2017-08-16 | 2017-10-24 | 天津津航技术物理研究所 | A kind of spatial triaxial laser gyro cavity Global Macros method |
CN107283309B (en) * | 2017-08-16 | 2019-04-19 | 天津津航技术物理研究所 | A kind of spatial triaxial laser gyro cavity Global Macros method |
CN108045456A (en) * | 2017-12-25 | 2018-05-18 | 上海诺力智能科技有限公司 | A kind of laser sensor levelling gear suitable for AGV |
CN112276481A (en) * | 2020-09-22 | 2021-01-29 | 天津津航技术物理研究所 | Gyro cavity hole path processing method based on passive laser gyroscope |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CX01 | Expiry of patent term | ||
CX01 | Expiry of patent term |
Granted publication date: 20111130 |