CN220312754U - Unloading structure for optical axis processing centerless grinder - Google Patents

Abstract

The utility model relates to the technical field of optical axis machining, in particular to a blanking structure for an optical axis machining centerless grinder, which can be used for orderly placing an optical axis in a collecting box by arranging the equipment, so that the collecting effect is improved, and the damage of the optical axis caused by collision is avoided; the mechanical claw mechanism is arranged on the centerless grinding machine, the collecting box is arranged on the moving mechanism, the mechanical claw mechanism corresponds to the position of the collecting box, the moving mechanism comprises a mounting frame, a first servo motor, a first screw rod, two groups of limiting rods, two groups of sliding blocks, a connecting plate and a connecting assembly, the two groups of contact switches correspond to the position of the connecting plate, the collecting box is connected with the connecting plate through the connecting assembly, the two groups of contact switches are electrically connected with the first servo motor and the connecting assembly, and the first servo motor is electrically connected with the centerless grinding machine.

Description

Unloading structure for optical axis processing centerless grinder

Technical Field

The utility model relates to the technical field of optical axis machining, in particular to a blanking structure for an optical axis machining centerless grinder.

Background

The linear optical axis is a product with the guiding function of a sliding bearing, and can realize linear motion, the optical axis needs to be sharpened by using a centerless grinder when being processed, the centerless grinder is a grinder which does not need to adopt the axis positioning of a workpiece to grind, and mainly comprises three mechanisms of a grinding wheel, an adjusting wheel and a workpiece support, wherein the grinding wheel is actually used for grinding, the adjusting wheel controls the rotation of the workpiece and controls the feeding speed of the workpiece, and the workpiece support supports the workpiece during grinding, and the three mechanisms can have a plurality of matched methods except that grinding is stopped, and the principle is the same.

The existing process of grinding the optical axis is that the clamping mechanism clamps the optical axis, then the transverse displacement mechanism controls the clamping mechanism to move, so that the optical axis moves between two groups of grinding wheels of the centerless grinder, then the clamping mechanism places the optical axis on a supporting rod of the centerless grinder, then the two groups of grinding wheels on the centerless grinder grind the optical axis, after the optical axis is grinded, the clamping mechanism clamps the optical axis on the supporting rod, then the transverse displacement mechanism drives the clamping mechanism to move to the upper part of the collecting box, then the clamping mechanism loosens the optical axis, and the optical axis falls into the collecting box to be collected.

The optical axis directly falls into the collecting box, so that the optical axis is not only irregularly placed, but also is easy to collide and damage, and the practicability is poor.

Disclosure of Invention

In order to solve the technical problems, the utility model provides the blanking structure for the optical axis processing centerless grinding machine, which can be used for neatly placing the optical axis in the collecting box by arranging the equipment, so that the collecting effect is improved, and the damage to the optical axis caused by collision is avoided.

The utility model relates to a blanking structure for an optical axis machining centerless grinder, which comprises a mechanical claw mechanism, a collecting box and a moving mechanism, wherein the mechanical claw mechanism is arranged on the centerless grinder, the collecting box is arranged on the moving mechanism, the mechanical claw mechanism corresponds to the position of the collecting box, the moving mechanism comprises a mounting frame, a first servo motor, a first screw rod, two groups of limit rods, two groups of sliding blocks, a connecting plate and a connecting component, the first servo motor is arranged on the upper left end of the mounting frame, the first screw rod is rotatably arranged on the upper side of the mounting frame, the output end of the first servo motor passes through the left end of the mounting frame and is connected with the left end of the first screw rod, the two groups of limit rods are symmetrically arranged on the upper front side and the upper rear side in the mounting frame respectively, the middle parts of the two groups of sliding blocks are respectively and are respectively provided with perforations, the two groups of sliding blocks are connected with the two groups of limit rods in a sliding way, the middle parts of the connecting plate are respectively connected with the first screw rod through the threaded holes, the two groups of proximity switches are respectively arranged on the upper left side and the right side of the inner part of the mounting frame, the two groups of proximity switches correspond to the position of the connecting plate, the collecting box is connected with the connecting plate through the connecting component, the two groups of the proximity switches are electrically connected with the first servo motor, and the first servo switch is electrically connected with the centerless grinder.

The utility model relates to a blanking structure for an optical axis machining centerless grinder, which comprises a door-shaped frame, a second servo motor, a second screw rod, a threaded ring, two groups of support plates, four groups of connecting rods, a placing plate and a mounting mechanism, wherein the door-shaped frame is arranged at the top end of the connecting plate, the second servo motor is arranged at the inner top of the door-shaped frame, the top end of the second screw rod is connected with the output end of the second servo motor, the bottom end of the second screw rod is connected with a bearing at the top end of the connecting plate, the threaded ring is in threaded connection with the second screw rod, the two groups of support plates are respectively arranged at the left end and the right end of the threaded ring, the four groups of connecting rods are respectively arranged at the front side and the rear side of the top ends of the two groups of support plates, the left front part, the left rear part, the right front part and the right rear part of the bottom end of a collecting box are respectively communicated and provided with sliding holes, the four groups of connecting rods slide in the four groups of sliding holes of the collecting box, the placing plate is arranged at the top ends of the four groups of connecting rods, the placing plate is connected with the inside of the collecting box in a sliding mode, the placing plate is arranged at the same horizontal plane with the top of the collecting box, the placing plate, the second servo motor is arranged on the door-shaped frame, and the collecting box is electrically connected with two nearly switches.

The utility model relates to a blanking structure for an optical axis machining centerless grinder, which comprises a locking mechanism, wherein the middle part of the bottom end of a collecting box is provided with a clamping groove, the clamping groove is clamped with the top end of a door-shaped frame, the locking mechanism is arranged on the door-shaped frame, and the locking mechanism is connected with the collecting box in a matched manner.

The utility model relates to a blanking structure for an optical axis machining centerless grinder, which comprises rotating shafts, rotating handles and pin pieces, wherein the left upper part and the right upper part of a door-shaped frame are respectively provided with rotating shaft grooves, two groups of rotating shafts are rotatably arranged in the two groups of rotating shaft grooves of the door-shaped frame, the bottom ends of the two groups of rotating shaft grooves of the door-shaped frame are communicated with each other and provided with handle grooves, the two groups of rotating handles are respectively arranged at the bottom ends of the two groups of rotating shafts, the two groups of rotating handles are respectively arranged at the top ends of the two groups of rotating shaft grooves of the door-shaped frame in a communicated manner and provided with rotating grooves, the two groups of pin pieces are respectively arranged at the top ends of the two groups of rotating shaft grooves of the door-shaped frame, the left lower part and the right lower part of a clamping groove are respectively provided with sector grooves, and the two groups of pin pieces are respectively clamped with the two groups of sector grooves in a sliding manner.

The utility model relates to a blanking structure for an optical axis machining centerless grinder, which further comprises two groups of fastening rubber rings, wherein the two groups of fastening rubber rings are respectively sleeved on two groups of rotating shafts.

According to the blanking structure for the optical axis machining centerless grinder, a plurality of groups of arc-shaped placing grooves are longitudinally and uniformly formed in the top end of the placing plate.

The utility model relates to a blanking structure for an optical axis machining centerless grinder, which further comprises two groups of auxiliary rollers, wherein the front end and the rear end of a threaded ring are respectively provided with a mounting groove, the two groups of auxiliary rollers are respectively rotatably mounted in the two groups of mounting grooves of the threaded ring, and the two groups of auxiliary rollers are contacted with the inner side of a door-shaped frame.

Compared with the prior art, the utility model has the beneficial effects that: when the mechanical claw mechanism clamps the optical axis after grinding above the collecting box, the mechanical claw mechanism places the optical axis on the connecting component in the collecting box, then a first servo motor is started, the first servo motor drives a first screw rod to be in threaded connection with a connecting plate, the connecting plate moves rightwards under the constraint of two groups of sliding blocks and two groups of limiting rods, after the first servo motor rotates a specified revolution, the first servo motor is closed, then the mechanical claw mechanism places the optical axis after grinding on the connecting component in the collecting box, the optical axis after grinding is repeatedly placed on the connecting component on the collecting box in sequence, when a right side approach switch senses the connecting plate, the right side approach switch starts the connecting component, the connecting component slides downwards in the collecting box for a specified distance, meanwhile, the right side approach switch transmits reverse signals to the first servo motor, the first screw rod is reversely driven to rotate with the connecting plate in threaded connection in the reverse direction, the constraint of the two groups of sliding blocks and the two groups of limiting rods slides leftwards under the constraint of the connecting plate, after the first servo motor rotates to the specified revolution, then the mechanical claw mechanism closes, the mechanical claw mechanism places the optical axis after the optical axis is repeatedly placed on the connecting component in sequence, the collecting box is prevented from being broken, and the optical axis can be placed inside the collecting box in sequence, and the collecting box is prevented from being broken, and the optical axis is placed inside the collecting box is not broken, and the optical axis is placed inside the collecting box is prevented from being broken.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic diagram of a connecting structure of a limit rod and a slider;

FIG. 3 is a schematic view of the connection of the pin tab and the scallop groove;

the reference numerals in the drawings: 1. a mechanical claw mechanism; 2. a collection box; 3. a mounting frame; 4. a first servo motor; 5. a first screw; 6. a limit rod; 7. a slide block; 8. a connecting plate; 9. a door-shaped frame; 10. a second servo motor; 11. a second screw; 12. a threaded ring; 13. a support plate; 14. a connecting rod; 15. placing a plate; 16. a clamping groove; 17. a rotating shaft; 18. a rotating handle; 19. a pin piece; 20. a fan-shaped groove; 21. fastening a rubber ring; 22. an arc-shaped placing groove; 23. auxiliary rollers.

Detailed Description

The following describes in further detail the embodiments of the present utility model with reference to the drawings and examples. The following examples are illustrative of the utility model and are not intended to limit the scope of the utility model.

As shown in fig. 1 to 3, the blanking structure for the optical axis machining centerless grinder comprises a mechanical claw mechanism 1, a collecting box 2 and a moving mechanism, wherein the mechanical claw mechanism 1 is installed on the centerless grinder, the collecting box 2 is installed on the moving mechanism, the mechanical claw mechanism 1 corresponds to the collecting box 2 in position, the moving mechanism comprises a mounting frame 3, a first servo motor 4, a first screw 5, two groups of limiting rods 6, two groups of sliding blocks 7, a connecting plate 8 and a connecting assembly, the first servo motor 4 is installed on the upper side of the left end of the mounting frame 3, the first screw 5 is rotatably installed on the upper side of the mounting frame 3, the output end of the first servo motor 4 passes through the left end of the mounting frame 3 and is connected with the left end of the first screw 5, the two groups of limiting rods 6 are symmetrically installed on the upper side and the rear upper side in the mounting frame 3 respectively, the middle parts of the two groups of the sliding blocks 7 are all communicated with through holes, the connecting plate 8 is installed between the two groups of sliding blocks 7, the middle part of the connecting plate 8 is communicated with a threaded hole, the connecting plate 8 is connected with the first near-5 through the threaded holes, the connecting plate is connected with the first near-5 through the connecting plate 4 and the connecting assembly through the two near-to the first servo motor 4, and the near-end 8 is connected with the connecting assembly through the near-to the first connecting assembly and the near-end 4; when the mechanical claw mechanism 1 clamps the optical axis after sharpening to the upper part of the collecting box 2, the mechanical claw mechanism 1 sequentially stacks the optical axis on the connecting component in the collecting box 2, then the first servo motor 4 is started, the first servo motor 4 drives the first screw 5 to be in threaded connection with the connecting plate 8, the connecting plate 8 moves rightwards under the restraint of the two groups of sliding blocks 7 and the two groups of limiting rods 6, after the first servo motor 4 rotates a specified revolution, the first servo motor 4 is closed, then the mechanical claw mechanism 1 sequentially stacks the optical axis after sharpening to the connecting component in the collecting box 2 by repeating the operation, when the right side approach switch senses the connecting plate 8, the connecting component is started to slide downwards in the collecting box 2 by the specified distance, meanwhile, the right side approach switch transmits reverse signals to the first servo motor 4, the first screw 5 is reversely driven to rotate, the first screw 5 is reversely in threaded connection with the connecting plate 8, the two groups of sliding blocks 7 and the two groups of limiting rods 6 are closed, after the optical axis is repeatedly stacked on the connecting plate 8, the optical axis is sequentially stacked on the connecting component in the collecting box 2, the optical axis is prevented from being damaged by the optical axis is completely placed inside the collecting box 2 by the limiting devices, and the optical axis is prevented from being damaged by the optical axis is completely placed inside the collecting box 2 by the limiting devices after the optical axis is repeatedly stacked.

The utility model relates to a blanking structure for an optical axis machining centerless grinder, which comprises a door-shaped frame 9, a second servo motor 10, a second screw rod 11, a threaded ring 12, two groups of supporting plates 13, four groups of connecting rods 14, a placing plate 15 and a mounting mechanism, wherein the door-shaped frame 9 is arranged at the top end of a connecting plate 8, the second servo motor 10 is arranged at the inner top of the door-shaped frame 9, the top end of the second screw rod 11 is connected with the output end of the second servo motor 10, the bottom end of the second screw rod 11 is in bearing connection with the top end of the connecting plate 8, the threaded ring 12 is in threaded connection with the second screw rod 11, the two groups of supporting plates 13 are respectively arranged at the left end and the right end of the threaded ring 12, the four groups of connecting rods 14 are respectively arranged at the front side and the rear side of the top ends of the two groups of the supporting plates 13, the left front part, the left rear part, the right front part and the right rear part of the bottom end of a collecting box 2 are respectively communicated with slide holes, the four groups of connecting rods 14 are arranged in the four groups of slide holes of the collecting box 2, the placing plate 15 is arranged at the top ends of the four groups of connecting rods 14, the placing plate 15 is in sliding connection with the inside the collecting box 2, the top end of the placing plate 15 and the collecting box 2 is in sliding connection with the top of the collecting box 2, the connecting plate 15 is in the same horizontal plane, and the same motor 2 and is arranged on the second servo motor through the door-shaped frame 9 and close to the connecting mechanism; through setting up door type frame 9, second servo motor 10, second screw rod 11, screwed ring 12, backup pad 13, connecting rod 14, place board 15 and installation mechanism, install collecting box 2 on door type frame 9 through installation mechanism, when proximity switch sensed connecting plate 8, proximity switch then control second servo motor 10 start, second servo motor 10 then drives second screw rod 11 and rotates, second screw rod 11 then with screwed ring 12 threaded connection, screwed ring 12 then drives two sets of backup pads 13 downward movement, two sets of backup pads 13 then drive through four sets of connecting rods 14 and place board 15 and slide downwards in collecting box 2, after second servo motor 10 rotates to appointed revolution, second servo motor 10 then closes, play the key effect of putting the optical axis order.

The utility model relates to a blanking structure for an optical axis machining centerless grinder, which comprises a locking mechanism, wherein the middle part of the bottom end of a collecting box 2 is provided with a clamping groove 16, the clamping groove 16 is clamped with the top end of a door-shaped frame 9, the locking mechanism is arranged on the door-shaped frame 9, and the locking mechanism is connected with the collecting box 2 in a matched manner; by providing the clamping groove 16 and the locking mechanism, the collecting box 2 is fixed on the door-shaped frame 9.

The utility model relates to a blanking structure for an optical axis machining centerless grinder, which comprises rotating shafts 17, rotating handles 18 and pin pieces 19, wherein the left upper part and the right upper part of a door-shaped frame 9 are respectively provided with rotating shaft grooves, two groups of rotating shafts 17 are rotatably arranged in two groups of rotating shaft grooves of the door-shaped frame 9, the bottom ends of the two groups of rotating shaft grooves of the door-shaped frame 9 are communicated with each other and provided with handle grooves, the two groups of rotating handles 18 are respectively arranged at the bottom ends of the two groups of rotating shafts 17, the two groups of rotating handles 18 slide in the two groups of handle grooves of the door-shaped frame 9, the top ends of the two groups of rotating shaft grooves of the door-shaped frame 9 are communicated with each other and provided with rotating grooves, the two groups of pin pieces 19 slide in the two groups of rotating grooves of the door-shaped frame 9, and the left lower part and the right lower part of a clamping groove 16 are respectively provided with fan-shaped grooves 20, and the two groups of pin pieces 19 slide and are clamped with the two groups of fan-shaped grooves 20; through setting up two sets of axis of rotation 17, two sets of changers 18, two sets of round pin piece 19 and two sets of fan-shaped groove 20, with the draw-in groove 16 and the door type frame 9 clamping of collection box 2 bottom, then rotate two sets of axis of rotation 17 through two sets of changers 18, two sets of axis of rotation 17 then drive two sets of round pin piece 19 rotation, two sets of round pin piece 19 then with two sets of fan-shaped groove 20 clamping to fix collection box 2, play the effect of fixing collection box 2 on door type frame 9, be convenient for carry out dismouting to collection box 2.

The utility model relates to a blanking structure for an optical axis machining centerless grinder, which further comprises two groups of fastening rubber rings 21, wherein the two groups of fastening rubber rings 21 are respectively sleeved on two groups of rotating shafts 17; by arranging the fastening rubber ring 21, the friction force of the rotating shaft 17 and the rotating shaft groove of the door frame 9 can be increased, and the rotating shaft 17 is prevented from rotating automatically.

According to the blanking structure for the optical axis machining centerless grinder, a plurality of groups of arc-shaped placing grooves 22 are longitudinally and uniformly formed in the top end of the placing plate 15; by arranging the arc-shaped placing grooves 22, the optical axis limiting function on the placing plate 15 can be achieved, so that the optical axis is orderly placed on the placing plate 15.

The utility model relates to a blanking structure for an optical axis machining centerless grinder, which further comprises two groups of auxiliary rollers 23, wherein the front end and the rear end of a threaded ring 12 are respectively provided with a mounting groove, the two groups of auxiliary rollers 23 are respectively rotatably mounted in the two groups of mounting grooves of the threaded ring 12, and the two groups of auxiliary rollers 23 are contacted with the inner side of a door-shaped frame 9; by providing the auxiliary roller 23, the stability of the movement of the screw ring 12 can be improved, thereby improving the stability of the placement plate 15.

The utility model relates to a blanking structure for an optical axis machining centerless grinder, which is characterized in that when in operation, a clamping groove 16 at the bottom of a collecting box 2 is clamped with a door-shaped frame 9, then two groups of rotating shafts 17 are rotated by two groups of rotating handles 18, the two groups of rotating shafts 17 drive two groups of pin sheets 19 to rotate, the two groups of pin sheets 19 are clamped with two groups of fan-shaped grooves 20 so as to fix the collecting box 2, when a mechanical claw mechanism 1 clamps the optical axis after grinding above the collecting box 2, the mechanical claw mechanism 1 places the optical axis in an arc-shaped placing groove 22 at the rightmost top end of a placing plate 15, then a first servo motor 4 is started, the first servo motor 4 drives a first screw rod 5 to be in threaded connection with a connecting plate 8, the connecting plate 8 moves rightwards under the constraint of two groups of sliding blocks 7 and two groups of limiting rods 6, after the first servo motor 4 rotates for a specified revolution, the first servo motor 4 is closed, then the mechanical claw mechanism 1 places the optical axis after sharpening in the second arc-shaped placing groove 22 on the right side of the top end of the placing plate 15, the optical axis after sharpening is sequentially stacked in a plurality of groups of arc-shaped placing grooves 22 on the top end of the placing plate 15 by repeating the above operation, when a right side approach switch senses the connecting plate 8, the right side approach switch starts the second servo motor 10, the second servo motor 10 drives the second screw 11 to rotate, the second screw 11 is connected with the thread ring 12 in a threaded manner, the thread ring 12 drives the two groups of supporting plates 13 to move downwards, the two groups of supporting plates 13 drive the placing plate 15 to slide downwards in the collecting box 2 through the four groups of connecting rods 14, when the second servo motor 10 rotates to a specified revolution, the second servo motor 10 is closed, and meanwhile, the right side approach switch transmits a reverse signal to the first servo motor 4, the first servo motor 4 drives the first screw 5 to rotate reversely, the first screw 5 is in reverse threaded connection with the connecting plate 8, the connecting plate 8 slides leftwards under the constraint of the two groups of sliding blocks 7 and the two groups of limiting rods 6, after the first servo motor 4 rotates to the specified revolution, the first servo motor 4 is closed, then the gripper mechanism 1 places the clamped optical axis between the two groups of optical axes at the bottommost layer at the top end of the placing plate 15, and then the operation is repeated to place the optical axis on the placing plate 15 in the collecting box 2.

The blanking structure for the optical axis machining centerless grinder has the advantages that the installation mode, the connection mode or the setting mode of the blanking structure are common mechanical modes, and the blanking structure can be implemented as long as the beneficial effects of the blanking structure can be achieved; the first servo motor 4 and the second servo motor 10 of the blanking structure for the optical axis machining centerless grinder are purchased in the market, and can be installed and operated by a person skilled in the art according to the attached use instructions.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims (7)

1. The utility model provides a blanking structure for optical axis processing centerless grinder, including mechanical claw mechanism (1), collecting box (2) and mobile mechanism, mechanical claw mechanism (1) is installed on centerless grinder, collecting box (2) are installed on mobile mechanism, mechanical claw mechanism (1) and collecting box (2) position correspond, a serial communication port, mobile mechanism includes mounting bracket (3), first servo motor (4), first screw rod (5), two sets of gag lever post (6), two sets of slider (7), connecting plate (8) and coupling assembling, first servo motor (4) are installed in mounting bracket (3) left end upside, first screw rod (5) are rotated and are installed in mounting bracket (3) upside, first servo motor (4) output passes mounting bracket (3) left end and first screw rod (5) left end connection, two sets of gag lever post (6) are installed in front upside and back upside in mounting bracket (3) respectively symmetrically, two sets of slider (7) middle part intercommunication are provided with the perforation, two sets of slider (7) are connected with two sets of gag lever post (6) through the perforation, slider (8) are installed in two sets of slider (8) and are connected with two sets of slider (8) sliding connection, two sets of slider (8) are connected with two sets of slider (8) through the screw thread hole (8) and are connected between two sets of slider (8) and the connecting plate (8) nearly connect through the screw hole, the two groups of contact switches correspond to the connecting plate (8) in position, the collecting box (2) is connected with the connecting plate (8) through a connecting component, the two groups of contact switches are electrically connected with the first servo motor (4) and the connecting component, and the first servo motor (4) is electrically connected with the centerless grinder.

2. The blanking structure for an optical axis machining centerless grinder according to claim 1, wherein the connecting component comprises a door-shaped frame (9), a second servo motor (10), a second screw rod (11), a threaded ring (12), two groups of supporting plates (13), four groups of connecting rods (14), a placing plate (15) and a mounting mechanism, the door-shaped frame (9) is mounted at the top end of the connecting plate (8), the second servo motor (10) is mounted at the inner top of the door-shaped frame (9), the top end of the second screw rod (11) is connected with the output end of the second servo motor (10), the bottom end of the second screw rod (11) is connected with the top end bearing of the connecting plate (8), the threaded ring (12) is in threaded connection with the second screw rod (11), the two groups of supporting plates (13) are respectively mounted at the left end and the right end of the threaded ring (12), the four groups of connecting rods (14) are respectively mounted at the front side and the rear side of the top ends of the two groups of the supporting plates (13), the left front part, the left rear part, the right front part and the right rear part of the bottom end of the collecting box (2) are respectively communicated with the sliding holes, the four groups of connecting rods (14) are respectively provided with the top ends of the collecting box (15) and the four groups of connecting rods (14) are mounted in the same horizontal plane with the top end of the collecting plate (15), the collecting box (2) is arranged on the door-shaped frame (9) through a mounting mechanism, and the second servo motor (10) is electrically connected with the two sets of contact switches.

3. The blanking structure for the optical axis machining centerless grinding machine according to claim 2, wherein the mounting mechanism comprises a locking mechanism, a clamping groove (16) is formed in the middle of the bottom end of the collecting box (2), the clamping groove (16) is clamped with the top end of the door-shaped frame (9), the locking mechanism is mounted on the door-shaped frame (9), and the locking mechanism is connected with the collecting box (2) in a matched mode.

4. A blanking structure for an optical axis machining centerless grinding machine as claimed in claim 3, characterized in that the locking mechanism comprises a rotating shaft (17), rotating handles (18) and pin pieces (19), the upper left part and the upper right part of the door-shaped frame (9) are respectively provided with rotating shaft grooves, the two rotating shafts (17) are rotatably arranged in the two rotating shaft grooves of the door-shaped frame (9), the bottom ends of the two rotating shaft grooves of the door-shaped frame (9) are communicated with each other to form handle grooves, the two rotating handles (18) are respectively arranged at the bottom ends of the two rotating shafts (17), the two rotating handles (18) slide in the two handle grooves of the door-shaped frame (9), the top ends of the two rotating shaft grooves of the door-shaped frame (9) are communicated with each other to form rotating grooves, the two pin pieces (19) are respectively arranged at the top ends of the two rotating shafts (17), the left lower part and the right lower part of the clamping groove (16) are respectively provided with fan grooves (20), and the two pin pieces (19) and the two fan grooves (20) are respectively arranged in the two rotating grooves.

5. The blanking structure for an optical axis machining centerless grinder of claim 4 further including two sets of fastening rubber rings (21), the two sets of fastening rubber rings (21) being respectively sleeved on the two sets of rotating shafts (17).

6. A blanking structure for an optical axis machining centerless grinder as claimed in claim 5, wherein a plurality of groups of arc-shaped placement grooves (22) are uniformly formed in the top end of the placement plate (15) longitudinally.

7. The blanking structure for the optical axis machining centerless grinder of claim 6 further comprising two sets of auxiliary rollers (23), wherein the front end and the rear end of the threaded ring (12) are provided with mounting grooves, the two sets of auxiliary rollers (23) are rotatably mounted in the two sets of mounting grooves of the threaded ring (12) respectively, and the two sets of auxiliary rollers (23) are in contact with the inner side of the door-shaped frame (9).