CN217561767U - Processing device for double-light-path flat-field concave grating - Google Patents

Abstract

The utility model discloses a processingequipment of two light path flat field concave grating relates to grating processing technology field, and for solving current grating processing mechanism, it is not high that the grating precision that the shock attenuation effect leads to processing does not possess, and fixture lacks the problem of the effect of adjusting the centre gripping size in addition. The grating processing equipment comprises a processing operation table component; the supporting and damping assembly is connected to the lower end of the machining operation table component through a flange; the flange is fixedly connected to the upper end of the machining operation table component; the longitudinal slide rail component is fixedly connected to the upper end of the slide rail component, a sliding sleeve component is connected to the longitudinal slide rail component in a sleeved mode, and a servo motor component is connected to one side of the sliding sleeve component in a flange mode; a transverse connecting rod member flanged to the other side of the sliding sleeve assembly; the grating nicking device is fixedly connected to the transverse connecting rod component; and the processing and placing fixed platform is fixedly connected with the processing operation table component.

Description

Processing device for double-light-path flat-field concave grating

Technical Field

The utility model relates to a grating processing technology field specifically is a processingequipment of two light path flat field concave surface gratings.

Background

An optical device consisting of a large number of parallel slits of equal width and equal spacing is called a grating; the common grating is made by etching a large number of parallel notches on a glass sheet, the notches are opaque parts, and the smooth part between the two notches can transmit light, which is equivalent to a slit. Such a grating utilizing diffraction of transmitted light is called a transmission grating, and also a grating utilizing diffraction of reflected light between two scores, such as a grating in which a plurality of parallel scores are engraved on a surface coated with a metal layer and a smooth metal surface between two scores can reflect light, is called a reflection grating.

The patent number is as follows: 202020615505.X, named: an arrayed waveguide grating fabrication apparatus, the apparatus comprising: the device comprises a frame, a workbench, an image acquisition mechanism, an arrayed waveguide grating first device feeding mechanism and an arrayed waveguide grating second device adjusting mechanism; the workbench is arranged on the frame, and an industrial personal computer is arranged at the bottom of the workbench; the first device feeding mechanism comprises a driving air cylinder and a first material clamp, the driving air cylinder is installed on the workbench and electrically connected with the industrial personal computer, and the first material clamp is installed on the driving air cylinder; the second device adjusting mechanism comprises a six-axis motion mechanism which is arranged on the workbench and electrically connected with the industrial personal computer and a second material clamp which is arranged on the six-axis motion mechanism; image acquisition mechanism includes first industry camera and second industry camera with industrial computer electric connection, and first industry camera is located directly over the workstation, and second industry camera is located the side top of workstation for overlook and look sideways at and gather first device and second device graphic information when aiming at, the user of effectively being convenient for observes.

However, the existing grating processing mechanism does not have a damping effect, so that the processing precision of the grating is not high, and in addition, the clamping mechanism lacks an effect of adjusting the clamping size; therefore, the existing requirements are not met, and a processing device of the double-optical-path flat-field concave grating is provided for the processing device.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a processingequipment of two light path flat field concave grating to solve the current grating processing agency who proposes in the above-mentioned background art, it is not high to possess the grating precision that the shock attenuation effect leads to processing, and fixture lacks the problem of the effect of adjusting the centre gripping size in addition.

In order to achieve the above object, the utility model provides a following technical scheme: a processing device of a double-light-path flat-field concave grating comprises grating processing equipment, wherein the grating processing equipment comprises a processing operation table component;

further comprising:

the supporting and damping assembly is connected to the lower end of the machining operation table component through a flange;

the gear tooth assembly structure is connected to the upper end of the machining operation table component through a flange;

the flange is fixedly connected to the upper end of the machining operation table component, a slide rail component is connected in a nesting and sliding mode in a slide groove of the slide rail structure, an installation seat structure is fixedly connected to one side of the slide rail component, and a driving motor component is connected in the installation seat structure in an embedded mode;

the sliding rail component is fixedly connected to the upper end of the sliding rail component, the sliding sleeve component is connected to the longitudinal sliding rail component in a sleeved mode, and a servo motor component is connected to one side of the sliding sleeve component in a flange mode;

a transverse connecting rod member flanged to the other side of the sliding sleeve assembly;

the grating nicking device is fixedly connected to the transverse connecting rod component;

and the processing and placing fixed platform is fixedly connected with the processing operation table component.

Preferably, the support shock-absorbing assembly comprises a fixed connection mechanism.

Preferably, the support shock-absorbing assembly comprises two parts, namely a shock-absorbing support member and a fixed base member, the shock-absorbing support member is internally provided with a damping shock-absorbing structure, the damping shock-absorbing structure is fixedly connected with the inside of the shock-absorbing support member, one end of the damping shock-absorbing structure is provided with a connecting structure, the connecting structure is connected with one end of the damping shock-absorbing structure through a flange, the fixed base member is provided with a fixed bolt member, the fixed bolt member is connected with the fixed base member in a penetrating manner, the fixed bolt member is provided with a gasket member, the gasket member is connected with the fixed bolt member in a ring sleeve manner, and a bolt member is arranged above the gasket member and connected with the fixed bolt member in a ring sleeve manner.

Preferably, the both sides of grating nick device all are provided with the gyro wheel structure, and the both sides flange of gyro wheel structure and grating nick device inlays to be inserted and is connected, processing is placed and is provided with the gyro wheel groove on the fixed platform, and the gyro wheel groove is placed fixed platform with processing and is passed through milling cutter and wash and mill and form, fixed platform's upper end is placed in processing is provided with fixed centre gripping component, and fixed platform's upper end fixed connection is placed with processing to fixed centre gripping component, fixed platform's both ends are all provided with heterotypic fixed block in processing.

Preferably, one end of the fixed clamping member is provided with a nylon block, one side of the nylon block is provided with a connecting rod member, the connecting rod member is fixedly connected with one side of the nylon block, a sleeve member is arranged inside the fixed clamping member and fixedly connected with the inside of the fixed clamping member, a spring member is arranged in the sleeve member, and the spring member is embedded and connected with the sleeve member.

Preferably, the teeth of a cogwheel subassembly structurally contains the structural frame, the upper end of structural frame is provided with gear engagement track structure, and gear engagement track structure and structural frame's upper end fixed connection.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the utility model discloses a fixed clamping component, the shock attenuation supporting member, connection structure, damping structure's setting, through setting aside nylon piece and the connecting rod component of connecting on the fixed clamping component, make the connecting rod component move to fixed direction, extrude the spring component simultaneously, later place glass, loose the power that extrudees nylon piece and the connecting rod component of connecting, the spring component is not being extruded and is being pushed connecting rod component and nylon piece to fixed direction, until supporting against glass, therefore can know processing place the fixed platform and can centre gripping different sizes glass and carry out the grating processing, the sleeve pipe component in the fixed clamping component lets the spring component be extruded along fixed direction in addition, prevent the dislocation;

the connecting structure on the shock absorption supporting member plays a role in conduction and connection, when the device runs to generate shock, the connecting structure transmits the shock to the damping shock absorption structure, the spring sleeved outside the damping shock absorption structure absorbs the shock, but the spring can also perform reciprocating motion after absorbing the shock, and the damping shock absorption structure can inhibit the shock when the spring rebounds after absorbing the shock, so that the shock absorption effect is achieved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the supporting and shock-absorbing assembly of the present invention;

FIG. 3 is a schematic structural view of the grating notching device and the processing, placing and fixing platform of the present invention;

FIG. 4 is a schematic structural view of a fixed clamping member of the present invention;

FIG. 5 is a schematic view of the gear tooth assembly of the present invention;

in the figure: 1. a grating processing device; 2. machining a console member; 3. supporting the shock absorbing assembly; 4. a gear tooth assembly structure; 5. a slideway structure; 6. a slide rail member; 7. a mounting base structure; 8. a drive motor member; 9. a longitudinal ramp member; 10. a sliding sleeve assembly; 11. a servo motor member; 12. a transverse tie member; 13. a grating scoring device; 1301. a fixed connection mechanism; 14. processing, placing and fixing the platform; 15. a shock-absorbing support member; 16. a stationary base member; 17. a connecting structure; 18. a damping structure; 19. a securing pin member; 20. a bolt female member; 21. a shim member; 22. a roller structure; 23. a roller groove; 24. a fixed clamping member; 25. a special-shaped fixed block; 26. nylon blocks; 27. a connecting rod member; 28. a sleeve member; 29. a spring member; 30. a structural frame; 31. the gears engage the track structure.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-5, the present invention provides an embodiment: a processing device of a double-light-path flat-field concave grating comprises grating processing equipment 1, wherein the grating processing equipment 1 comprises a processing operation table component 2;

further comprising:

a support damping component 3 which is connected with the lower end of the processing operation table component 2 through a flange;

a gear tooth assembly structure 4, which is connected with the upper end of the processing operation platform component 2 through a flange;

the flange of the slideway structure 5 is fixedly connected with the upper end of the processing operation table component 2, the slideway component 6 is connected in a nested and sliding way in the chute of the slideway structure 5, one side of the slideway component 6 is fixedly connected with an installation seat structure 7, and a driving motor component 8 is embedded and connected in the installation seat structure 7;

the longitudinal slideway component 9 is fixedly connected to the upper end of the sliding rail component 6, the longitudinal slideway component 9 is connected with a sliding sleeve component 10 in a sleeving manner, and a servo motor component 11 is connected to one side of the sliding sleeve component 10 in a flange manner;

a transverse connecting rod member 12 flanged to the other side of the sliding sleeve assembly 10;

a grating nicking device 13 fixedly connected to the transverse connecting rod component 12;

and a processing placing and fixing platform 14 fixedly connected to the processing operation table component 2.

Referring to fig. 2, the support shock assembly 3 includes a fixing connection mechanism 1301, and the fixing connection mechanism 1301 is used to connect the shock support member 15 and the fixed base member 16.

Referring to fig. 2, the supporting shock-absorbing assembly 3 includes two parts, which are a shock-absorbing support member 15 and a fixed base member 16, respectively, a damping shock-absorbing structure 18 is disposed inside the shock-absorbing support member 15, the damping shock-absorbing structure 18 is fixedly connected to the inside of the shock-absorbing support member 15, a connecting structure 17 is disposed at one end of the damping shock-absorbing structure 18, the connecting structure 17 is flange-connected to one end of the damping shock-absorbing structure 18, a fixing bolt member 19 is disposed on the fixed base member 16, the fixing bolt member 19 is connected to the fixed base member 16 in a penetrating manner, a spacer member 21 is disposed on the fixing bolt member 19, the spacer member 21 is ring-connected to the fixing bolt member 19, a bolt member 20 is disposed above the spacer member 21, the bolt member 20 is ring-connected to the fixing bolt member 19, the connecting structure 17 plays a role in connection, the damping shock-absorbing structure 18 is used for damping vibration, the fixing bolt member 19 plays a role in fixing, and the bolt member 20 and the spacer member 21 play a role in fastening.

Referring to fig. 3, the two sides of the grating nicking device 13 are both provided with roller structures 22, the roller structures 22 are in flange insertion connection with the two sides of the grating nicking device 13, the processing and placing fixed platform 14 is provided with roller grooves 23, the roller grooves 23 and the processing and placing fixed platform 14 are formed by milling through a milling cutter, the upper end of the processing and placing fixed platform 14 is provided with a fixed clamping member 24, the fixed clamping member 24 is fixedly connected with the upper end of the processing and placing fixed platform 14, the two ends of the processing and placing fixed platform 14 are both provided with special-shaped fixed blocks 25, the roller structures 22 and the roller grooves 23 are beneficial to the use of the grating nicking device 13, the fixed clamping member 24 is used for fixedly clamping the processed grating structures, and the special-shaped fixed blocks 25 are used for fixedly processing and placing the fixed platform 14.

Referring to fig. 4, a nylon block 26 is disposed at one end of the fixed clamping member 24, a connecting rod member 27 is disposed at one side of the nylon block 26, the connecting rod member 27 is fixedly connected to one side of the nylon block 26, a sleeve member 28 is disposed inside the fixed clamping member 24, the sleeve member 28 is fixedly connected to the inside of the fixed clamping member 24, a spring member 29 is disposed in the sleeve member 28, the spring member 29 is embedded and connected to the sleeve member 28, the nylon block 26 plays a role of fixing and clamping on the one hand, and plays a role of connecting on the other hand, the connecting rod member 27 plays a role of connecting, the sleeve member 28 plays a role of limiting, and the spring member 29 facilitates clamping and fixing of the fixed clamping member 24.

Referring to fig. 5, the gear tooth assembly structure 4 includes a structural frame 30, a gear engagement track structure 31 is disposed at an upper end of the structural frame 30, the gear engagement track structure 31 is fixedly connected to an upper end of the structural frame 30, the structural frame 30 is used for installation, and the gear engagement track structure 31 is used in cooperation with the driving motor component 8.

The working principle is as follows: when the grating processing device is used, the supporting damping assembly 3 and the grating processing equipment 1 on the supporting damping assembly are fixed on the device through the fixed bolt member 19, the bolt female member 20 and the gasket member 21, then glass is placed on the processing and placing fixed platform 14, the processing and placing fixed platform 14 clamps the glass through the fixed clamping member 24, then the transverse connecting rod member 12 of the grating nicking device 13 is connected, the glass is lifted up and down on the longitudinal slideway member 9 under the driving of the sliding sleeve assembly 10 and the servo motor member 11, the grating nicking device 13 is lowered to cover the processing and placing fixed platform 14, then grating processing is carried out, meanwhile, the driving motor member 8 drives the slideway member 6 and a connected structure on the slideway member to move horizontally, grating processing operation is carried out by matching with the grating nicking device 13, and the roller structures 22 on two sides of the grating nicking device 13 roll in the roller groove 23 during horizontal movement, so that grating processing operation is carried out smoothly.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (6)

1. A processing device of a double-optical-path flat-field concave grating comprises grating processing equipment (1), wherein the grating processing equipment (1) comprises a processing operation table component (2);

the method is characterized in that: further comprising:

the supporting and damping assembly (3) is connected to the lower end of the machining operation table component (2) in a flange mode;

a gear tooth assembly structure (4) flanged to an upper end of the machining operation table member (2);

the flange of the slide rail structure (5) is fixedly connected to the upper end of the machining operation table component (2), a slide rail component (6) is connected to a slide groove of the slide rail structure (5) in a nested and sliding mode, one side of the slide rail component (6) is fixedly connected with an installation seat structure (7), and a driving motor component (8) is connected to the installation seat structure (7) in an embedded mode;

the longitudinal slide way component (9) is fixedly connected to the upper end of the slide rail component (6), the longitudinal slide way component (9) is connected with a sliding sleeve assembly (10) in a surrounding manner, and one side of the sliding sleeve assembly (10) is connected with a servo motor component (11) in a flange manner;

a transverse connecting rod member (12) flanged to the other side of the sliding sleeve assembly (10);

the grating notching device (13) is fixedly connected to the transverse connecting rod component (12);

and the processing and placing fixed platform (14) is fixedly connected to the processing operation table component (2).

2. The apparatus for processing a dual-beam flat-field concave grating as claimed in claim 1, wherein: the supporting shock-absorbing component (3) comprises a fixed connecting mechanism (1301).

3. The apparatus for processing a concave grating with dual optical paths and flat fields according to claim 1, wherein: the supporting and shock-absorbing assembly (3) comprises two parts, namely a shock-absorbing supporting member (15) and a fixed base member (16), a damping and shock-absorbing structure (18) is arranged inside the shock-absorbing supporting member (15), the damping and shock-absorbing structure (18) is fixedly connected with the inside of the shock-absorbing supporting member (15), a connecting structure (17) is arranged at one end of the damping and shock-absorbing structure (18), the connecting structure (17) is connected with one end of the damping and shock-absorbing structure (18) in a flange mode, a fixed bolt member (19) is arranged on the fixed base member (16), the fixed bolt member (19) is connected with the fixed base member (16) in a penetrating mode, a gasket member (21) is arranged on the fixed bolt member (19), the gasket member (21) is connected with the fixed bolt member (19) in a ring sleeve mode, a bolt nut member (20) is arranged above the gasket member (21), and the bolt member (20) is connected with the fixed bolt member (19) in a ring sleeve mode.

4. The apparatus for processing a concave grating with dual optical paths and flat fields according to claim 1, wherein: the both sides of grating nick device (13) all are provided with gyro wheel structure (22), and gyro wheel structure (22) inlays with the both sides flange of grating nick device (13) and inserts and be connected, processing is placed and is provided with gyro wheel groove (23) on fixed platform (14), and gyro wheel groove (23) and processing place fixed platform (14) and wash through milling cutter and mill and form, the upper end that fixed platform (14) were placed in processing is provided with fixed clamping component (24), and fixed clamping component (24) and the upper end fixed connection that fixed platform (14) were placed in processing, the both ends that fixed platform (14) were placed in processing all are provided with heterotypic fixed block (25).

5. The apparatus for processing a concave grating with dual optical paths and flat fields according to claim 4, wherein: one end of the fixed clamping component (24) is provided with a nylon block (26), one side of the nylon block (26) is provided with a connecting rod component (27), the connecting rod component (27) is fixedly connected with one side of the nylon block (26), a sleeve component (28) is arranged inside the fixed clamping component (24), the sleeve component (28) is fixedly connected with the inside of the fixed clamping component (24), a spring component (29) is arranged in the sleeve component (28), and the spring component (29) is embedded and connected with the sleeve component (28).

6. The apparatus for processing a concave grating with dual optical paths and flat fields according to claim 1, wherein: gear teeth assembly structure (4) is last to contain structural frame (30), the upper end of structural frame (30) is provided with gear engagement track structure (31), and gear engagement track structure (31) and the upper end fixed connection of structural frame (30).

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