CN116789356A - Optical glass cutting and processing machine - Google Patents

Abstract

The invention provides an optical glass cutting processing machine, which relates to the technical field of glass cutting and comprises a laser cutting station and a travelling rail, wherein a separating station and a discharging station are sequentially arranged at the upper end of the travelling rail, and the separating station is positioned below the laser cutting station. The fixing part is used for fixing the glass sheet and supporting the bottom, the glass sheet is ensured to be in a stable state in the process of receiving laser cutting, high-quality cutting and forming are realized, meanwhile, the glass sheet is pre-adsorbed and fixed before being cut by the ejection part, preparation is made for the round glass and glass sheet waste material formed by follow-up separation, after cutting is finished, the ejection part synchronously pushes the round glass formed by the ejection upwards, the glass sheet waste material is kept still under the limit of the fixing part, and then the timely separation of the round glass and the glass sheet waste material is completed, and the round glass is taken down without time and labor waste.

Description

Optical glass cutting and processing machine

Technical Field

The invention relates to the technical field of glass cutting, in particular to an optical glass cutting processing machine.

Background

The optical glass is glass capable of changing the propagation direction of light and changing the relative spectral distribution of ultraviolet, visible or infrared light, and can be used for manufacturing lenses, prisms, reflectors, windows and the like in optical instruments. The component made of optical glass is a critical element in optical instruments. The optical glass can be cut into various shapes such as a circle, a polygon and the like, and cutting, forming and processing are usually carried out by adopting laser cutting equipment.

When the round optical glass (hereinafter referred to as round glass for short) is cut by laser, a plurality of round glass can be formed by a single optical glass sheet (hereinafter referred to as glass sheet for short), after cutting is finished, the formed round glass is not timely separated from glass sheet waste, and the round glass is required to be manually scratched to be separated, so that the working efficiency is low, the working efficiency is required to be improved, meanwhile, the hand of a worker is easy to be accidentally injured by the cutting edge of the round glass, and the safety of processing production is low.

Disclosure of Invention

The invention provides an optical glass cutting machine which solves the problems in the related art.

The invention provides an optical glass cutting and processing machine which comprises a laser cutting station and a travelling rail, wherein a separating station and a discharging station are sequentially arranged at the upper end of the travelling rail, and the separating station is positioned below the laser cutting station.

The separation station comprises fixed part and liftout portion, the fixed part is used for fixed glass board, and the fixed part includes the bottom plate, and a plurality of liftout logical grooves have evenly been seted up to equidistant on the bottom plate upper end, and the foundation plate is installed to the one end that the station of unloading was kept away from to the bottom plate upper end, and foundation plate lower extreme symmetry is provided with two side fixed plates, and side fixed plate upper end middle part equal threaded connection has the axostylus axostyle, and axostylus axostyle mid-mounting has the upper limit board, and the extension board is installed to the one end that the axostylus axostyle is close to the station of unloading.

The utility model provides a glass frame, including the bottom plate, the bottom plate is provided with the cavity frame that takes out the gas pocket, the cavity frame upper end evenly is provided with a plurality of absorption pieces, the absorption piece comprises sucking disc and the siphunculus that sucking disc lower extreme is connected with the cavity frame, siphunculus and the inside intercommunication of cavity frame, the inside sliding connection of cavity frame has the flat board that is located the venthole top, the montant that runs through cavity frame lower extreme is installed to the flat board lower extreme from top to bottom in the slip, be connected with electric putter through the connecting plate jointly between the montant lower extreme, electric putter installs at U-shaped frame horizontal segment, be connected with the horizontal electric slider who is connected with the vertical section of U-shaped frame between the one end of cavity frame lower extreme homonymy, be connected with vertical track between horizontal electric slider looks remote one end and the base upper end.

The unloading station is including evenly being provided with the supporting plate of a plurality of through grooves of passing, and the terminal surface is located the bottom plate top under the supporting plate, and the supporting plate passes through the horizontal axis and rotates to install between two supports, and the support symmetry sets up in advancing the track both sides, and through groove and liftout through groove one-to-one are passed through the one end that the groove is close to the fixed part and are the opening form, and the long limit place of through groove all is provided with the limiting plate of fixed mounting in the supporting plate upper end, is connected with electric impeller between one side that the fixed part was kept away from to the supporting plate lower extreme and advancing the track upper end, and electric impeller's pushing end is inconsistent with the terminal surface under the supporting plate.

Still including holding the material station, it is located the one side that the separation station was kept away from to the station of unloading to hold the material station, holds the material station including spacing slidable mounting at the vertical electronic slider of going on track upper end, and the upper end grafting of vertical electronic slider has put the flitch, and the one end that puts the flitch and is close to the bearing board has offered the groove of dodging electronic impeller, and it has branch to put sliding connection between flitch lower extreme and the track side of marcing, puts the flitch upper end and installs the foam-rubber cushion.

In one possible implementation, one of the side fixing plates is slidably connected with the base plate and is connected with the base plate by a gear tooth condition, and the other side fixing plate is fixedly connected with the base plate and the distance between the two side fixing plates is adjusted by the gear tooth condition.

In a possible implementation manner, two rubber rods are installed at the ends, close to each other, of the limiting plates on two sides of the through groove, one end, far away from the limiting plates, of each rubber rod is located above the through groove, an expansion plate located below the extension plate is installed at one end, close to the unloading station, of each side fixing plate, and a horn area with a large-caliber end facing the unloading station is formed between the two expansion plates.

In one possible implementation manner, two sets of rolling elements are arranged between the adjacent limiting plates, the through grooves between the adjacent limiting plates are arranged between the two sets of rolling elements, each set of rolling elements comprises rolling shafts which are uniformly and equidistantly arranged, and the rolling shafts are rotatably arranged at the upper ends of the bearing plates.

In one possible implementation mode, the two ends of the horizontal shaft are symmetrically provided with the following plates, the limiting plates fixedly arranged at the side ends of the support are arranged above the following plates, and when the lower ends of the limiting plates are in contact with the upper ends of the following plates, the supporting plates are in a horizontal state.

In one possible implementation, the through pipe is connected with the upper end of the hollow frame through threads, and after the through pipe at the corresponding position is separated from the upper end of the hollow frame, the through pipe is connected with the hollow frame through a plug connected with the upper end of the hollow frame through threads.

The invention has the beneficial effects that: 1. according to the optical glass cutting processing machine provided by the embodiment of the invention, the fixing part is used for fixing and supporting the bottom of the glass sheet, so that the glass sheet is in a stable state in the process of receiving laser cutting, high-quality cutting and forming are realized, meanwhile, the glass sheet is pre-adsorbed and fixed by the liftout part before being cut, the preparation is carried out on round glass and glass sheet waste material which are formed by subsequent separation and forming, after the cutting is finished, the liftout part synchronously lifts the formed round glass upwards, the glass sheet waste material is kept motionless under the limit of the fixing part, the timely separation of the round glass and the glass sheet waste material is further finished, the round glass is not required to be taken down manually and time-wasting and labor-wasting, the whole cutting processing efficiency is improved, the situation that the hands of workers are accidentally injured by the round glass cutting surface is avoided, and the processing production safety is improved.

2. According to the optical glass cutting processing machine provided by the embodiment of the invention, the rapid separation between the round glass and the adsorption piece is realized by utilizing the cooperation of the unloading station and the ejection part, so that the round glass is stably arranged at the upper end of the supporting plate, the formed round glass is placed in a row, the round glass is convenient to collect in a subsequent mode, a plurality of limiting plates at the upper end of the supporting plate form a plurality of limiting areas, the round glass is in the limiting areas formed by the limiting plates at two sides of the limiting plates, and the round glass between the rows cannot collide.

3. According to the optical glass cutting processing machine provided by the embodiment of the invention, the glass sheet is preliminarily adsorbed by the sucker in the adsorption piece, and then the vacuum pumping operation is implemented by the cooperation of the electric push rod, the flat plate and the hollow frame, so that the adsorption firmness between the sucker and the glass sheet is further improved, and the subsequent stable separation of round glass and the carrying of round glass movement are facilitated.

4. According to the optical glass cutting processing machine provided by the embodiment of the invention, the distance between the two side fixing plates is adjusted in advance according to the size of the glass sheet, the number of round glass which can be formed by the glass sheets with different sizes is different, the number of absorbing parts is adjusted according to the size of the glass sheet, and after the through pipe at the corresponding position is separated from the upper end of the hollow frame, the through pipe is connected with the hollow frame instead of the through pipe through a plug which is connected with the upper end of the hollow frame through threads.

Drawings

Fig. 1 is a schematic perspective view of an optical glass cutting machine according to an embodiment of the present invention when applying a glass sheet.

Fig. 2 is a schematic top plan view of fig. 1.

Fig. 3 is a schematic perspective view of a material ejection portion of an optical glass cutting machine according to an embodiment of the present invention.

Fig. 4 is a schematic cross-sectional view of a separating station of an optical glass cutting machine according to an embodiment of the present invention.

Fig. 5 is a schematic perspective view of a fixing portion of an optical glass cutting machine according to an embodiment of the present invention.

Fig. 6 is an enlarged schematic view of the Y region of fig. 5 according to the present invention.

Fig. 7 is a schematic perspective view of a side fixing plate, an upper limit plate and an expansion plate of an optical glass cutting machine according to an embodiment of the present invention.

Fig. 8 is a schematic perspective view of a discharging station of an optical glass cutting machine according to an embodiment of the present invention.

Fig. 9 is an enlarged schematic view of the structure of the X area in fig. 8 according to the present invention.

In the figure: 1. a laser cutting station; 2. a separation station; 3. a discharge station; 4. a material bearing station; 11. a travel track; 21. a fixing part; 22. a material ejection part; 210. a bottom plate; 211. jacking through grooves; 212. a base plate; 213. a side fixing plate; 214. an upper limit plate; 215. an extension plate; 216. gear tooth condition; 217. a round bar; 218. an expansion board; 221. a base; 222. a hollow frame; 223. an absorbing member; 224. a flat plate; 225. a vertical rod; 226. an electric push rod; 227. a horizontal electric slider; 228. a vertical rail; 231. blocking; 31. a bearing plate; 32. a horizontal axis; 33. a through groove is penetrated; 34. a limiting plate; 35. an electric pusher; 36. a rubber rod; 321. a follower plate; 322. a rotation limiting plate; 341. a roller; 41. a vertical electric sliding block; 42. a material placing plate; 43. a sponge cushion.

Detailed Description

In order that the above objects, features and advantages of the invention will be readily understood, a more particular description of the invention will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. The invention may be embodied in many other forms than described below and similarly modified by those skilled in the art without departing from the spirit or scope of the invention, which is therefore not limited to the specific embodiments disclosed below.

Referring to fig. 1 and 2, an optical glass cutting processing machine comprises a laser cutting station 1 and a travelling rail 11, wherein a separating station 2 and a discharging station 3 are sequentially arranged at the upper end of the travelling rail 11, and the separating station 2 is positioned below the laser cutting station 1; the laser cutting station 1 moves left and right, and the laser cutting head in the laser cutting station 1 can move back and forth and rotate circumferentially.

Referring to fig. 1, 3, 4, 5, 6 and 7, the separation station 2 is composed of a fixing portion 21 and a material ejection portion 22, the fixing portion 21 is used for fixing a glass plate, the fixing portion 21 includes a bottom plate 210, a plurality of material ejection through grooves 211 are uniformly formed at equal intervals on the upper end of the bottom plate 210, a base plate 212 is mounted at one end of the upper end of the bottom plate 210 far away from the unloading station 3, two side fixing plates 213 are symmetrically disposed at the lower end of the base plate 212, shafts are respectively and threadably connected at the middle parts of the upper ends of the side fixing plates 213, an upper limit plate 214 is mounted at the middle part of the shafts, and an extension plate 215 is mounted at one end of the shafts close to the unloading station 3; one of the side fixing plates 213 is slidably connected with the base plate 212, a gear tooth condition 216 is connected between the side fixing plates 213 and the base plate 212, the other side fixing plate 213 is fixedly connected with the base plate 212, the distance between the two side fixing plates 213 is adjusted through the gear tooth condition 216, as shown in fig. 6, the gear tooth condition 216 comprises a round rod 217 with a spline, a gear with a spline groove is rotatably arranged in the inner ring of the middle of the base plate 212, a rack is connected at the lower end of the gear in a meshed mode, the side fixing plate 213 slidably connected with the base plate 212 is connected with the rack, the spline on the surface of the round rod 217 is matched with the spline groove, one end of the round rod 217 far away from the gear is in threaded connection with a vertical plate, and the vertical plate is arranged at the side end of the bottom plate 210.

Referring to fig. 3 and 4, the material ejection portion 22 is configured to separate formed round glass and glass sheet waste, and includes a base 221 mounted at an upper end of the travelling rail 11 in a sliding manner, a bottom plate 210 is mounted at an upper end of the base 221 through a mounting column, a hollow frame 222 with air holes on a side surface is disposed right below the material ejection through groove 211, a plurality of absorbing members 223 are uniformly disposed at an upper end of the hollow frame 222, the absorbing members 223 are composed of suction cups and a through pipe with a lower end connected with the hollow frame 222, the through pipe is communicated with an inside of the hollow frame 222, a flat plate 224 located above the air outlet is slidingly connected inside the hollow frame 222, a vertical rod 225 vertically penetrating through a lower end of the hollow frame 222 is mounted at a lower end of the flat plate 224, an electric push rod 226 is connected between lower ends of the vertical rod 225 together through a connecting plate, the electric push rod 226 is mounted at a horizontal section of the U-shaped frame, a horizontal electric slide 227 connected with a vertical section of the U-shaped frame is connected between one end of a lower end surface of the hollow frame 222, and a vertical rail 228 is connected between one end far from the horizontal electric slide 227 and an upper end of the base 221.

The distance between the two side fixing plates 213 is adjusted in advance according to the size of the glass sheet, the round rod 217 is manually rotated to drive the gear to rotate, and the gear is meshed with the rack, so that the rack drives the side fixing plates 213 connected with the gear to horizontally move, and the distance between the two side fixing plates 213 is adjusted. After the adjustment is finished, the glass sheet is placed at the upper end of the bottom plate 210, one end of the glass sheet is abutted against the side end of the base plate 212, the other end of the glass sheet is abutted against the side fixing plates 213 which are fixedly installed, the glass sheet is fixed between the two side fixing plates 213, at this time, the center of the first round glass to be formed on the glass sheet and the center of the sucking disc at the initial position are positioned on the same vertical line, the upper limit plate 214 is driven to rotate by the shaft rod through the rotation extension plate 215, the upper limit plate 214 is abutted against the upper end of the glass sheet, then the U-shaped frame, the electric push rod 226, the hollow frame 222 and the sucking piece 223 are driven to move upwards through the horizontal electric slide block 227 until the sucking disc is abutted against the lower end of the glass sheet, at this time, the sucking disc is used for further improving the adsorption firmness between the sucking disc and the glass sheet, so that the round glass is stably separated later, the sucking disc is further sucked by the sucking disc is further through the sucking disc, and the sucking disc is further driven by the electric push rod 226 to move the flat plate 224 downwards to form a vacuuming action, and then the sucking disc is further sucked by the sucking disc through the electric push rod 225, and then the round glass is finished by the cutting station 1. After the integral cutting forming is finished, the U-shaped frame, the electric push rod 226, the hollow frame 222 and the adsorbing piece 223 are driven to move upwards together through the horizontal electric slide block 227, the adsorbing piece 223 synchronously pushes up the formed round glass, the glass sheet waste is kept motionless under the limit of the upper limit plate 214 and the side fixing plate 213, and then the timely separation of the round glass and the glass sheet waste is completed, the round glass is not required to be taken down manually, time and labor are wasted, the integral cutting processing efficiency is improved, the situation that the hands of workers are accidentally injured by the round glass cutting surface is avoided, and the processing production safety is improved.

Referring to fig. 8 and 9, the unloading station 3 includes a supporting plate 31 with a plurality of through grooves 33 uniformly arranged, the lower end surface of the supporting plate 31 is located above the bottom plate 210, the supporting plate 31 is rotatably mounted between two brackets through a horizontal shaft 32, the brackets are symmetrically arranged at two sides of the travelling rail 11, the through grooves 33 are in one-to-one correspondence with the top material through grooves 211, one end of the through grooves 33 close to the fixing portion 21 is in an open shape, the long sides of the through grooves 33 are all provided with limiting plates 34 fixedly mounted at the upper end of the supporting plate 31, an electric pushing member 35 is connected between one side of the lower end of the supporting plate 31 far away from the fixing portion 21 and the upper end of the travelling rail 11, and the pushing end of the electric pushing member 35 is in contact with the lower end surface of the supporting plate 31; two rubber rods 36 are installed at the ends, close to each other, of the limiting plates 34 on the two sides of the through groove 33, one ends, far away from the limiting plates 34, of the rubber rods 36 are located above the through groove 33, the rubber rods 36 are distributed from left to right along the limiting plates 34, and the distance between the two adjacent rubber rods 36 distributed left to right is larger than the diameter of formed round glass.

Referring to fig. 1, the glass collecting device further comprises a material bearing station 4, the formed round glass is collected intensively by the material bearing station 4, the round glass does not need to be picked up manually one by one, the material bearing station 4 is located at one side of the unloading station 3 away from the separation station 2, the material bearing station 4 comprises a vertical electric sliding block 41 which is installed at the upper end of the travelling rail 11 in a limiting sliding manner, a material placing plate 42 is inserted at the upper end of the vertical electric sliding block 41, a avoiding groove for avoiding the electric pushing member 35 is formed in one end, close to the supporting plate 31, of the material placing plate 42, a supporting rod is connected between the lower end of the material placing plate 42 and the side end of the travelling rail 11 in a sliding manner, and a sponge pad 43 is installed at the upper end of the material placing plate 42.

After the round glass and the glass sheet waste are separated, the separating station 2 integrally moves towards the discharging station 3, the adsorbing piece 223 adsorbing the round glass enters the through groove 33 and moves along the through groove, the round glass synchronously moves above the supporting plate 31, the round glass is positioned in the limiting range of the limiting plate 34, after all the round glass is positioned in the supporting range of the supporting plate 31, the adsorbing piece 223 is driven by the horizontal electric sliding block 227 to move down, when the lower end of the round glass is in contact with the upper end of the supporting plate 31, the flat plate 224 is downwards moved to the lower part of the air outlet hole through the electric push rod 226, the vacuum state in the hollow frame 222 is relieved, meanwhile, the round glass is quickly separated from the sucking disc by utilizing the interaction force between the round glass and the upper end face of the supporting plate 31, the round glass is positioned between the limiting plates 34, then the separating station 2 is reset rightwards and the glass sheet waste is taken down, the supporting plate 31 is enabled to downwards rotate through the electric push piece 35, the round glass can not collide with the round glass in the limiting area formed by the limiting plates 34 at two sides of the round glass downwards along the inclined supporting plate 31, meanwhile, the two symmetrical supporting plates 36 are arranged in the same limiting area, the two round glass rods are prevented from being directly collided with each other along the right side surface of the round supporting plate, and the round glass is prevented from being directly collided with the round supporting plate 36, and the left surface is prevented from being damaged, and the collision and the left glass is prevented from being directly collided with the supporting rod and the round glass rod and the right surface, and the supporting rod is prevented from being directly caused. When the first row of round glass counted from left to right just contacts with the upper end of the material placing plate 42, the vertical electric sliding block 41 drives the material placing plate 42 to move leftwards, so that a plurality of rows of round glass are sequentially placed at the upper end of the material placing plate 42, and the round glass is buffered and protected by the sponge cushion 43, so that rigid collision in the round glass transferring process is avoided.

Referring to fig. 5 and 7, an expansion plate 218 located below the extension plate 215 is installed at one end of the side fixing plate 213 near the unloading station 3, and a horn area with a large caliber end facing the unloading station 3 is formed between the two expansion plates 218, so that the glass sheet can be quickly and accurately placed between the side fixing plates 213 by means of the horn area.

Referring to fig. 8 and 9, two sets of rolling elements are disposed between two adjacent limiting plates 34, and the through grooves 33 between two adjacent limiting plates 34 are located between the two sets of rolling elements, as shown in fig. 9, each set of rolling elements includes rolling shafts 341 uniformly and equidistantly arranged from left to right, and the rolling shafts 341 are rotatably mounted at the upper ends of the supporting plates 31. In the process that the round glass slides downwards along the inclined material placing plate 42, the friction resistance of the round glass is reduced by using the roller 341, so that the conveying efficiency of the round glass is improved, and the whole working efficiency is improved.

With continued reference to fig. 8 and 9, the follower plates 321 are symmetrically mounted at two ends of the horizontal shaft 32, and a rotation limiting plate 322 fixedly mounted at a side end of the bracket is disposed above the follower plates 321, and when the lower end of the rotation limiting plate 322 abuts against the upper end of the follower plates 321, the supporting plate 31 is in a horizontal state, so as to further ensure the accuracy of resetting the supporting plate 31 from an inclined state to a horizontal state.

Referring to fig. 3 and 4, the through pipe is screwed with the upper end of the hollow frame 222, the number of round glass pieces that can be formed by different sizes of glass pieces is different, and when the size of the glass pieces is changed, the number of the absorbing parts 223 is required to be adjusted accordingly. After the pipe at the corresponding position is separated from the upper end of the hollow frame 222, the pipe is connected with the hollow frame 222 by a plug 231 which is connected with the upper end of the hollow frame 222 in a threaded manner.

In embodiments of the invention, unless expressly specified and limited otherwise, a first feature "up" or "down" on a second feature may be that the first and second features are in direct contact, or that the first and second features are in indirect contact via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is level higher than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is less level than the second feature.

In the description of the present invention, it should also be noted that, unless explicitly specified and limited otherwise, the terms "disposed," "connected," "mounted," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, integrally connected, or slidably connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances.

The embodiments of the present invention are all preferred embodiments of the present invention, and are not intended to limit the scope of the present invention in this way, therefore: all equivalent changes in structure, shape and principle according to the present invention should be covered in the protection scope of the present invention.

Claims (7)

1. An optical glass cutting processing machine comprises a laser cutting station (1) and a travelling rail (11), and is characterized in that: the upper end of the travelling rail (11) is sequentially provided with a separation station (2) and a discharge station (3), wherein the separation station (2) is positioned below the laser cutting station (1);

the separation station (2) consists of a fixing part (21) and a material ejection part (22), wherein the fixing part (21) is used for fixing a glass plate, the fixing part (21) comprises a bottom plate (210), a plurality of material ejection through grooves (211) are uniformly formed in the upper end of the bottom plate (210) at equal intervals, a base plate (212) is arranged at one end, far away from the unloading station (3), of the upper end of the bottom plate (210), two side fixing plates (213) are symmetrically arranged at the lower end of the base plate (212), a shaft rod is connected with the middle part of the upper end of the side fixing plates (213) in a threaded manner, an upper limit plate (214) is arranged in the middle of the shaft rod, and an extension plate (215) is arranged at one end, close to the unloading station (3), of the shaft rod;

the circular glass and glass sheet waste material separating and forming device is characterized in that the material ejecting part (22) is used for separating and forming circular glass and glass sheet waste material and comprises a base (221) which is arranged at the upper end of a travelling rail (11) in a limiting sliding manner, a bottom plate (210) is arranged at the upper end of the base (221) through a mounting column, a hollow frame (222) with an air outlet hole is arranged right below a material ejecting through groove (211), a plurality of absorbing parts (223) are uniformly arranged at the upper end of the hollow frame (222), the absorbing parts (223) are formed by sucking discs and through pipes, the lower ends of the sucking discs are connected with the hollow frame (222), the through pipes are communicated with the inside of the hollow frame (222), a flat plate (224) which is arranged above the air outlet hole is in a sliding manner, vertical rods (225) which penetrate through the lower end of the hollow frame (222) in a sliding manner are arranged at the lower end of the flat plate (224), electric push rods (226) are connected through connecting plates together, the electric push rods (226) are arranged at the horizontal section of the U-shaped frame, one ends of the same side of the lower end face of the hollow frame (222) are connected with a horizontal electric slide block (227) which is connected with the vertical section of the U-shaped frame, and one end of the horizontal electric slide block (227) is far away from the upper end of the base (228);

the unloading station (3) comprises a supporting plate (31) which is uniformly provided with a plurality of through grooves (33), the lower end face of the supporting plate (31) is positioned above a bottom plate (210), the supporting plate (31) is rotatably arranged between two supports through a horizontal shaft (32), the supports are symmetrically arranged on two sides of a traveling track (11), the through grooves (33) are in one-to-one correspondence with jacking through grooves (211), one ends of the through grooves (33) close to a fixing part (21) are in an opening shape, limiting plates (34) fixedly arranged at the upper ends of the supporting plate (31) are arranged at the positions of long sides of the through grooves (33), an electric pushing piece (35) is connected between one side of the lower end of the supporting plate (31) far away from the fixing part (21) and the upper end of the traveling track (11), and the pushing end of the electric pushing piece (35) is in contact with the lower end face of the supporting plate (31);

before the glass plate in the fixed state is cut by laser, the adsorbing piece (223) is adsorbed at the lower end of the glass plate, after the round glass is formed, the adsorbing piece (223) drives the formed round glass to move upwards, and the glass sheet waste is separated from the round glass under the limit of the fixing part (21).

2. An optical glass cutting machine according to claim 1, wherein: still including holding material station (4), hold material station (4) and be located the one side that separation station (2) was kept away from to unloading station (3), hold material station (4) including spacing slidable mounting in the vertical electronic slider (41) of track (11) upper end, the upper end grafting of vertical electronic slider (41) has put flitch (42), put flitch (42) and be close to the one end of bearing board (31) and offered the groove of dodging electronic impeller (35), put sliding connection has branch between flitch (42) lower extreme and the track (11) side of marcing.

3. An optical glass cutting machine according to claim 1, wherein: one side fixed plate (213) is in sliding connection with the base plate (212) and is connected with a gear tooth condition (216) between the base plate (212), the other side fixed plate (213) is fixedly connected with the base plate (212), and the distance between the two side fixed plates (213) is adjusted through the gear tooth condition (216).

4. An optical glass cutting machine according to claim 1, wherein: two rubber rods (36) are arranged at one ends, close to each other, of the limiting plates (34) at two sides of the through groove (33), and one ends, far away from the limiting plates (34), of the rubber rods (36) are located above the through groove (33);

one end of the side fixing plate (213) close to the unloading station (3) is provided with an expansion plate (218) positioned below the extension plate (215), and a horn area with a large-caliber end facing the unloading station (3) is formed between the two expansion plates (218).

5. An optical glass cutting machine according to claim 1, wherein: two groups of rolling elements are arranged between the adjacent limiting plates (34), the through grooves (33) between the adjacent limiting plates (34) are located between the two groups of rolling elements, each group of rolling elements comprises rolling shafts (341) which are evenly distributed at equal intervals, and the rolling shafts (341) are rotatably arranged at the upper ends of the bearing plates (31).

6. An optical glass cutting machine according to claim 1, wherein: the two ends of the horizontal shaft (32) are symmetrically provided with following plates (321), a rotation limiting plate (322) fixedly arranged at the side end of the bracket is arranged above the following plates (321), and when the lower end of the rotation limiting plate (322) is in contact with the upper end of the following plates (321), the supporting plate (31) is in a horizontal state.

7. An optical glass cutting machine according to claim 1, wherein: the through pipe is connected with the upper end of the hollow frame (222) through threads, and after the through pipe at the corresponding position is separated from the upper end of the hollow frame (222), the through pipe is connected with the hollow frame (222) through a plug (231) connected with the upper end of the hollow frame (222) through threads instead of the through pipe.