CN221135053U - Edge milling clamp for VR glasses - Google Patents

Abstract

The utility model discloses an edge milling clamp for VR glasses, which comprises a movable table, wherein fixed rods are fixedly arranged on the front side and the rear side of the movable table, rotating rods are movably arranged in the fixed rods, clamping seats are movably arranged at one ends of the rotating rods, VR glasses lenses are movably clamped between the two clamping seats, a rotating shaft is fixedly arranged in the movable table, and a lens feeding table is arranged below the movable table. According to the utility model, through the cooperation of the sliding groove and the fixing plate, when the device clamps the VR glasses lens through the suckers, the clamping seat can slide along the direction of the sliding groove through the elasticity of the compression spring, so that the clamping seat drives the suckers to be tightly attached to the two side surfaces of the VR glasses lens, the VR glasses lens is clamped, the distance between the two suckers can be randomly adjusted, and the device is suitable for clamping the VR glasses lens with different thicknesses.

Description

Edge milling clamp for VR glasses

Technical Field

The utility model relates to the technical field of VR (virtual reality) glasses processing, in particular to a milling clamp for VR glasses.

Background

VR glasses are VR head display, virtual reality head-mounted display device. Because the concept of head display is not displayed in the early stage, non-professional calling such as VR glasses, VR eyeshields, VR helmets and the like are generated according to the appearance, and when VR glasses lenses in the VR glasses are processed, the lenses are usually required to be subjected to edge milling to adjust the sizes of the lenses;

Aiming at the prior patent number: CN202223319976.4, patent name: a lens mill anchor clamps, it has adopted the electric telescopic handle that starts the mounting bracket both sides to stretch out and draw back and adjust to adjust the angle of polishing the lens on the pillar, and then overcome the fixed chuck on the current mill and can only the horizontal fixed lens, can not adjust the angle of centre gripping lens, but its device is when using, is difficult to realize automatic unloading operation on the VR lens, needs the manual placing of people and takes off.

The edge milling clamp of the existing VR glasses is difficult to adapt to lenses with different thicknesses for clamping when in use, and automatic feeding operation of the lenses is difficult to realize; therefore, the existing requirements are not met, and for this reason we propose a milling fixture for VR glasses.

Disclosure of utility model

The utility model aims to provide a milling clamp for VR glasses, which solves the problems that the milling clamp for VR glasses lenses provided in the background art is difficult to be matched with lenses with different thicknesses for clamping during use, and the automatic feeding operation of the lenses is difficult to be realized.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a milling edge anchor clamps of VR glasses, includes the movable table, the equal fixed mounting in front and back both sides of movable table has the dead lever, the equal movable mounting in inside of dead lever has the dwang, the equal movable mounting of one end of dwang has the grip slipper, two the activity presss from both sides between the grip slipper has the VR glasses lens, the inside fixed mounting of movable table has the pivot, the below of movable table is equipped with the lens feeding platform, the surface of lens feeding platform is equipped with a plurality of VR glasses lenses, the grip slipper is close to the equal fixed mounting of one end of VR glasses lens has the sucking disc.

Preferably, the surface of dwang all is equipped with two sliding trays, the outside of grip slipper all is equipped with the outside groove of grip slipper, the inside of the outside groove of grip slipper is all inserted to the equal activity of one end of dwang, the equal fixed mounting of inner wall surface in the outside groove of grip slipper has two fixed plates, the inside of sliding tray is all inserted in the fixed plate, equal movable mounting has compression spring between dwang and the inside of the outside groove of grip slipper.

Preferably, a feeding table top groove is formed in the top surface of the lens feeding table, an arc-shaped baffle plate is movably mounted in the feeding table top groove, and a bending spring is movably mounted between the arc-shaped baffle plate and the feeding table top groove.

Preferably, the servo motor is fixedly installed on the outer side of the fixing rod, the output end of the servo motor is connected with one end of the rotating rod through a coupler, the rotating motor is fixedly installed on one end of the rotating shaft, and the output end of the rotating motor is connected with one end of the rotating shaft through the coupler.

Preferably, the below of lens feeding platform is equipped with the lens collecting box, the equal movable mounting in both ends of pivot has the supporting seat, the equal movable mounting in both ends of lens feeding platform has the support frame, the surface and the laminating of support frame of lens collecting box, the inside of lens collecting box is equipped with the flexible pad, the inside of sucking disc all is connected with the air circulation pipe.

Preferably, the baffle is all fixed mounting on both sides surface around the lens feeding platform, the equal fixed mounting of surface of sucking disc has the trapezoidal bulge loop, the outside surface of trapezoidal bulge loop all is equipped with the chute, the top of grip slipper is equipped with the push plate, the top fixed mounting of push plate has electric putter, electric putter's output and push plate fixed connection, the equal fixed mounting of both sides has the bracing piece around the electric putter.

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

1. According to the utility model, through the cooperation of the sliding groove and the fixed plate, when the device clamps the VR glasses lens through the suckers, the clamping seat can slide along the direction of the sliding groove through the elasticity of the compression spring, so that the clamping seat drives the suckers to be tightly attached to the two side surfaces of the VR glasses lens, the VR glasses lens is clamped, the device can randomly adjust the interval between the two suckers, and the clamping of the VR glasses lens with different thicknesses is adapted;

2. according to the utility model, through the cooperation of the lens feeding table and the arc baffle, when the device is used, the VR glasses can be transported to the position of the arc baffle through the lens feeding table, the VR glasses can be blocked through the arc baffle when rolling down along the surface of the lens feeding table, the VR glasses can be prevented from directly rolling out of the inside of the lens feeding table, after edge milling processing of the VR glasses clamped by the suckers is completed, the rotating shaft can be driven to rotate by controlling the rotating motor, so that the movable table rotates ninety degrees downwards, the suckers are close to the VR glasses on the surface of the lens feeding table, at the moment, the VR glasses on the surface of the lens feeding table can strike the chute on the surface of the trapezoid convex ring to move the two suckers towards the direction of the rotating rod, so that the VR glasses enter the position between the two suckers, at the moment, air in the suckers can be pumped out through the air flow pipe, the VR glasses can be clamped, at the moment, the rotating shaft is controlled to rotate, the movable table is enabled to rotate, and the movable table to return to the initial position, so that edge milling processing is carried out on the VR glasses clamped by the movable table, and the VR glasses can be automatically loaded;

3. according to the utility model, through the cooperation of the pushing plate and the electric push rod, when the device needs to carry out blanking on the VR glasses with the milled edges, the output end can be driven to descend by controlling the electric push rod, so that the electric pushing plate descends to touch the surface of the VR glasses, at the moment, air can be injected into the sucker through the air flow pipe, so that the suction state between the sucker and the VR glasses is relieved, and then the pushing plate continuously descends to press the VR glasses so that the VR glasses fall into the lens collecting box, so that the device can finish automatic blanking on the VR glasses.

Drawings

FIG. 1 is a schematic view of the overall partial structure of the present utility model;

FIG. 2 is a cross-sectional elevation view of the entirety of the present utility model;

FIG. 3 is a top view, in cross-section, of the entirety of the present utility model;

FIG. 4 is a schematic view of the partial structure of the portion A of the present utility model;

Fig. 5 is a schematic partial structure of the part B of the present utility model.

In the figure: 1. a movable table; 2. a fixed rod; 3. a rotating lever; 4. a clamping seat; 5. VR spectacle lenses; 6. a servo motor; 7. a rotating shaft; 8. a rotating motor; 9. a lens feed station; 10. a lens collection box; 11. a feeding table top groove; 12. an arc baffle; 13. a bending spring; 14. a sliding groove; 15. an outer groove of the clamping seat; 16. a fixing plate; 17. a compression spring; 18. a suction cup; 19. a ladder-shaped convex ring; 20. a pushing plate; 21. an electric push rod.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments.

The electric push rod (model DTZ 1600-50) can be purchased from market or customized.

Referring to fig. 1 to 5, an embodiment of the present utility model provides: the utility model provides a milling edge anchor clamps of VR glasses, including movable table 1, the equal fixed mounting of both sides has dead lever 2 around the movable table 1, the equal movable mounting in inside of dead lever 2 has dwang 3, the equal movable mounting of one end of dwang 3 has grip slipper 4, the activity presss from both sides between two grip slipper 4 has VR glasses lens 5, the inside fixed mounting of movable table 1 has pivot 7, the below of movable table 1 is equipped with lens feeding platform 9, the surface of lens feeding platform 9 is equipped with a plurality of VR glasses lens 5, the equal fixed mounting of one end that grip slipper 4 is close to VR glasses lens 5 has sucking disc 18.

The surface of dwang 3 all is equipped with two sliding tray 14, the outside of grip slipper 4 all is equipped with grip slipper external groove 15, the inside of grip slipper external groove 15 is all inserted to the activity of the one end of dwang 3, the equal fixed mounting of inner wall surface of grip slipper external groove 15 has two fixed plates 16, the inside of sliding tray 14 is all inserted in the equal sliding motion of fixed plate 16, equal movable mounting has compression spring 17 between dwang 3 and the inside of grip slipper external groove 15, cooperation through sliding tray 14 and fixed plate 16, make the device when carrying out the centre gripping to VR eyeglass 5 through sucking disc 18, the elasticity of accessible compression spring 17 makes grip slipper 4 slide along the direction of sliding tray 14, thereby make grip slipper 4 drive sucking disc 18 paste the both sides surface of tight VR eyeglass 5, thereby carry out the centre gripping to VR eyeglass 5, make the device can adjust the interval between two sucking discs 18 at will, thereby the VR eyeglass 5 centre gripping of different thickness of adaptation.

The top surface of lens feed table 9 is equipped with feed table roof groove 11, and feed table roof groove 11's inside movable mounting has arc baffle 12, and movable mounting has crooked spring 13 between arc baffle 12 and the feed table roof groove 11, blocks VR glasses lens 5 through the mode that arc baffle 12 blockked, makes VR glasses lens 5 accessible arc baffle 12 block when rolling along lens feed table 9 surface, prevents that VR glasses lens 5 from directly rolling out the inside of lens feed table 9.

The outside of dead lever 2 is all fixed mounting has servo motor 6, servo motor 6's output all passes through the coupling joint with the one end of dwang 3, the one end fixed mounting of pivot 7 has rotation motor 8, the output of rotation motor 8 passes through the coupling and is connected with the one end of pivot 7, after the VR spectacle lens 5 of sucking disc 18 centre gripping mills limit processing and accomplishes, accessible control rotation motor 8 drive pivot 7 rotation, thereby make movable table 1 rotate ninety degrees downwards, make sucking disc 18 be close to the VR spectacle lens 5 on lens feed table 9 surface, the chute that the VR spectacle lens 5 on lens feed table 9 surface can strike ladder bulge loop 19 surface at this moment moves two sucking discs 18 to the direction of dwang 3, thereby make VR spectacle lens 5 get into the position between two sucking discs 18, this moment the inside air of accessible air flow pipe extraction sucking disc 18, thereby centre gripping VR spectacle lens 5, this moment control rotation motor 8 drive pivot 7 rotates, make movable table 1 turn back initial position, thereby mill limit processing to the VR spectacle lens 5 of new centre gripping, make the device can load onto VR spectacle lens 5 automatically.

The below of lens feed table 9 is equipped with lens collecting box 10, and the equal movable mounting in both ends of pivot 7 has the supporting seat, and the equal movable mounting in both ends of lens feed table 9 has the support frame, and the surface and the laminating of support frame of lens collecting box 10 are equipped with the flexible pad in the inside of lens collecting box 10, and the inside of sucking disc 18 all is connected with the air circulation pipe.

The front and back both sides surface of lens feed table 9 all fixed mounting has the baffle, the surface of sucking disc 18 is all fixed mounting has trapezoidal bulge loop 19, the outside surface of trapezoidal bulge loop 19 all is equipped with the chute, the top of grip slipper 4 is equipped with push plate 20, push plate 20's top fixed mounting has electric putter 21, electric putter 21's output and push plate 20 fixed connection, electric putter 21's front and back both sides all fixed mounting has the bracing piece, through push plate 20 and electric putter 21's cooperation, when the device needs to carry out the unloading with the VR eyeglass lens 5 that mills limit processing was accomplished, the accessible control electric putter 21 drive output decline, thereby electric putter 20 descends to touch the surface of VR eyeglass lens 5, the accessible air flow siphunculus is filled into the inside of sucking disc 18 this moment, thereby release the suction state between sucking disc 18 and the VR eyeglass lens 5, then push plate 20 continues to descend and make VR eyeglass lens 5 drop into the inside of lens collecting box 10, thereby make the device accomplish the automatic unloading to VR eyeglass lens 5.

This milling edge anchor clamps of VR glasses is when using, through the cooperation of sliding tray 14 and fixed plate 16, make the device when carrying out the centre gripping to VR glasses lens 5 through sucking disc 18, the elasticity of accessible compression spring 17 makes grip slipper 4 slide along the direction of sliding tray 14, thereby make grip slipper 4 drive sucking disc 18 paste the both sides surface of VR glasses lens 5, thereby carry out the centre gripping to VR glasses lens 5, make the device can adjust the interval between two sucking discs 18 at will, thereby the VR glasses lens 5 centre gripping of adaptation different thickness

Through the cooperation of lens feed table 9 and arc baffle 12, make the device when using, the accessible lens feed table 9 transportation VR glasses lens 5 to the position of arc baffle 12, make VR glasses lens 5 accessible arc baffle 12 stop when rolling down along lens feed table 9 surface, prevent that VR glasses lens 5 from directly rolling out the inside of lens feed table 9, after the processing of the VR glasses lens 5 milling edge of sucking disc 18 centre gripping is accomplished, accessible control rotation motor 8 drive pivot 7 rotation, thereby make movable table 1 rotate ninety degrees downwards, make sucking disc 18 be close to the VR glasses lens 5 of lens feed table 9 surface, the chute that the VR glasses lens 5 of this moment lens feed table 9 surface can strike trapezoidal bulge loop 19 surface moves two sucking discs 18 towards dwang 3, thereby make VR glasses lens 5 get into the position between two sucking discs 18, this moment, the inside air of accessible air flow siphunculus 18 is taken out this moment, thereby carry out centre gripping to VR glasses lens 5, control rotation motor 8 drive pivot 7 rotates, make movable table 1 change home position, thereby make the VR glasses lens 5 of new centre gripping carry out automatic VR glasses lens 5 and make on the device milling edge can make VR glasses lens 5 to carry out on the milling edge

Through the cooperation of push plate 20 and electric putter 21, when the device needs to carry out the unloading with the VR glasses lens 5 that milling edge processing was accomplished, the accessible control electric putter 21 drive output descends to electric push plate 20 descends to touch the surface of VR glasses lens 5, accessible air current siphunculus is to the inside injection air of sucking disc 18 this moment, thereby releases the tight state of inhaling between sucking disc 18 and the VR glasses lens 5, and then push plate 20 continues to descend and make VR glasses lens 5 fall into the inside of lens collecting box 10 with VR glasses lens 5 pushing down, thereby makes the device accomplish the automatic unloading to VR glasses lens 5.

It will be evident to those skilled in the art that the utility model is not limited to the details of the foregoing illustrative embodiments, and that the present utility model may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the utility model 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. The utility model provides a milling edge anchor clamps of VR glasses, includes movable table (1), its characterized in that: the utility model discloses a pair of adjustable table, including movable table (1), fixed lever (2) are all fixed mounting around movable table (1), the equal movable mounting in inside of fixed lever (2) has dwang (3), the equal movable mounting of one end of dwang (3) has grip slipper (4), two the activity centre gripping has VR spectacle lens (5) between grip slipper (4), the inside fixed mounting of movable table (1) has pivot (7), the below of movable table (1) is equipped with lens feed table (9), the surface of lens feed table (9) is equipped with a plurality of VR spectacle lenses (5), the equal fixed mounting of one end that grip slipper (4) are close to VR spectacle lens (5) has sucking disc (18).

2. The edge milling fixture of VR glasses according to claim 1, wherein: the outer surface of dwang (3) all is equipped with two sliding tray (14), the outside of grip slipper (4) all is equipped with grip slipper external groove (15), the inside of grip slipper external groove (15) is all movably inserted to the one end of dwang (3), the equal fixed mounting of inner wall surface of grip slipper external groove (15) has two fixed plates (16), the inside of sliding tray (14) is all inserted in fixed plate (16) all sliding, equal movable mounting compression spring (17) between dwang (3) and grip slipper external groove (15) inside.

3. The edge milling fixture of VR glasses according to claim 1, wherein: the lens feeding table is characterized in that a feeding table top groove (11) is formed in the top surface of the lens feeding table (9), an arc-shaped baffle plate (12) is movably mounted in the feeding table top groove (11), and a bending spring (13) is movably mounted between the arc-shaped baffle plate (12) and the feeding table top groove (11).

4. The edge milling fixture of VR glasses according to claim 1, wherein: the outer side of dead lever (2) is all fixed mounting has servo motor (6), the output of servo motor (6) is all passed through the coupling joint with the one end of dwang (3), the one end fixed mounting of pivot (7) has rotating motor (8), the output of rotating motor (8) is connected with the one end of pivot (7) through the coupling.

5. The edge milling fixture of VR glasses according to claim 1, wherein: the utility model discloses a lens feeding platform, including lens feeding platform (9), sucking disc (18), lens collecting box (10) are equipped with below lens feeding platform (9), the equal movable mounting in both ends of pivot (7) has the supporting frame, the equal movable mounting in both ends of lens feeding platform (9) has the support frame, the surface and the laminating of support frame of lens collecting box (10), the inside of lens collecting box (10) is equipped with flexible pad, the inside of sucking disc (18) all is connected with the air circulation pipe.

6. The edge milling fixture of VR glasses according to claim 1, wherein: the lens feeding table is characterized in that baffle plates are fixedly installed on the surfaces of the front side and the rear side of the lens feeding table (9), ladder-shaped convex rings (19) are fixedly installed on the outer surfaces of the suckers (18), inclined grooves are formed in the outer side surfaces of the ladder-shaped convex rings (19), pushing plates (20) are arranged above the clamping seats (4), electric push rods (21) are fixedly installed on the top ends of the pushing plates (20), the output ends of the electric push rods (21) are fixedly connected with the pushing plates (20), and supporting rods are fixedly installed on the front side and the rear side of each electric push rod (21).