CN113955935A

CN113955935A - Full-automatic energy-conserving LOW-E glass-cutting machine

Info

Publication number: CN113955935A
Application number: CN202111341150.5A
Authority: CN
Inventors: 唐道会
Original assignee: Anhui Qianhui Energy Glass Technology Co ltd
Current assignee: Anhui Qianhui Energy Glass Technology Co ltd
Priority date: 2021-11-12
Filing date: 2021-11-12
Publication date: 2022-01-21

Abstract

The invention discloses a full-automatic energy-saving LOW-E glass cutting machine, which comprises a cutting box, wherein a support frame is fixed in the cutting box in a hanging manner, the front end and the rear end of the support frame are fixed on the inner side wall of the cutting box, support rods which are parallel to each other are fixed on the support frame, a gas circuit and an adapter are arranged in each support rod, the gas circuit is connected with a support assembly on each support rod, a vertical moving plate is connected in the inner wall of the rear side of the cutting box in a sliding manner, the upper end of the vertical moving plate is connected with an upper telescopic frame, the front end of the upper telescopic frame is connected with a vertical telescopic frame, a laser cutting assembly is arranged at the lower end of the vertical telescopic frame, and a synchronous seat is arranged under the laser cutting assembly. The problem of the pleasing to the eye that the temperature difference is too big when avoiding cutting leads to.

Description

Full-automatic energy-conserving LOW-E glass-cutting machine

Technical Field

The invention relates to the technical field of glass cutting, in particular to a full-automatic energy-saving LOW-E glass cutting machine.

Background

Coated glass (refictiveglass) is also known as reflective glass. The coated glass is prepared by coating one or more layers of metal, alloy or metal compound films on the surface of glass to change the optical performance of the glass and meet certain specific requirements. The coated glass can be divided into the following types according to different characteristics of products: heat reflective glass, Low emissivity glass (Low-E), conductive film glass, and the like.

Glass belongs to fragile products, Chinese patent discloses a safe and efficient cutting machine for LOW-E glass, (No. CN211999473U of grant publication), the technology of the patent enables the LOW-E glass to be more stable when being placed on a supporting table for cutting through a fixing component, the quality of the film surface of the finished product LOW-E glass is not affected, however, in the cutting process, because the temperature of the cutting part is LOW due to heat generation, the temperature difference is large, the cutting effect is easily affected, and the appearance is affected. On the other hand, the processed glass is large in size, supporting points are few, so that supporting force is concentrated, glass deformation is easily caused, the cutting effect is affected, after cutting, the glass is cooled slowly, and the production efficiency is reduced. Accordingly, those skilled in the art have provided a fully automatic energy-saving LOW-E glass cutting machine to solve the problems set forth in the background art.

Disclosure of Invention

In order to solve the technical problem, the invention provides a full-automatic energy-saving LOW-E glass cutting machine which comprises a cutting box, wherein a feeding roller is arranged on the front side of the cutting box, a discharge hole is formed in the rear side of the cutting box, positioning plates are symmetrically arranged in the cutting box in the left-right direction, a temperature monitor is installed in the cutting box and electrically connected with a master controller, a supporting frame is fixedly suspended in the cutting box, the front end and the rear end of the supporting frame are fixed on the inner side wall of the cutting box, supporting rods which are parallel to each other are fixed on the supporting frame, a distance measuring device is arranged on each supporting rod and used for detecting the height and the level of glass, and a plurality of supporting components are uniformly fixed at the upper ends of the supporting rods;

the cutting incasement is equipped with the removal subassembly, and the laser cutting subassembly is installed to the lower extreme of removing the subassembly, is equipped with synchronous seat under the laser cutting subassembly, is equipped with heat-conduction subassembly in the synchronous seat.

Preferably: the cross-section of locating plate is the U type, all rotates on the bottom plate of U template and the roof and is connected with the gyro wheel, and electric putter is installed to the curb plate of U template, and electric putter's tip rotates and is connected with the catch wheel, through the feed roll feeding back, and glass gets into between the locating plate, transports through the gyro wheel, and the back that targets in place drives the catch wheel through electric putter and removes, adjusts glass's position, makes things convenient for the later stage cutting for the cutting is more accurate.

Preferably: be equipped with out the material wheel between the supporting component, the discharging wheel is connected with power, the upside that goes out the material wheel is less than the supporting component for can transport out through the discharge gate after the processing, be equipped with gas circuit and adapter in the bracing piece, air pump and pressure gauge are connected to one side of gas circuit, and the opposite side passes through the supporting component on the adapter difference joint support pole, makes the atmospheric pressure on the single pole unanimous, can control alone.

Preferably: the support assembly comprises a fixed cylinder and a movable cylinder which slides on the inner side, the lower side of the movable cylinder is communicated with a gas circuit, a sucker is arranged at the top of the movable cylinder, the lower side of the sucker is connected with a piston cylinder, a piston and a piston rod are connected in the piston cylinder in a sliding mode, a rack on the piston rod is connected with a rack on a fixed column through a gear, the gear is connected onto the fixed cylinder in a rotating mode, the fixed column is fixedly connected onto a supporting rod, a plurality of elastic support columns are distributed on the outer side of the sucker in a circumferential mode, direct contact of glass with the movable cylinder is avoided, damage is caused, when gas is filled in the gas circuit, glass is placed on the sucker, the movable cylinder is driven to move downwards, the piston is driven to move downwards through the gear, the piston rod and the fixed column, negative pressure is formed in the sucker, and the glass is stabilized.

Preferably: the movable assembly comprises a vertical movable plate sliding in the inner wall of the rear side of the cutting box, an upper telescopic frame is connected to the upper end of the vertical movable plate, a second electric telescopic rod is connected to the lower end of the vertical movable plate, a lower telescopic frame is fixedly connected to a machine base of the second electric telescopic rod, a third electric telescopic rod is connected to the front end of the lower telescopic frame, and a vertical telescopic frame is connected to the front end of the upper telescopic frame.

Preferably: the utility model discloses a laser cutting assembly, including base, synchronous seat, last expansion bracket, sliding sleeve, gag lever post, electric telescopic handle, synchronous seat, last expansion bracket and last expansion bracket, the expansion bracket is connected down through the roating seat rotation, the axis of roating seat and the coincidence of laser cutting assembly's laser line, go up the expansion bracket and constitute by reciprocal lead screw, sliding sleeve and gag lever post with lower expansion bracket, and reciprocal lead screw rotates in step for synchronous seat and laser cutting assembly move together, vertical movable plate and the handing-over department and the three equal rotations of electric telescopic handle of last expansion bracket are connected on reciprocal lead screw, and reciprocal lead screw is connected with synchronous machine, drives reciprocal lead screw through the motor and rotates, and then drives expansion bracket and lower expansion bracket synchronous motion, drives synchronous seat shift position.

Preferably: the rear side of laser cutting subassembly is fixed with the clearance board, and the rear side of clearance board is equipped with the spraying subassembly, and the spraying subassembly passes through the hose connection condenser, becomes warm liquid with the gas condensation, and the condenser passes through the aspiration pump and collects the mouth and connects the cutting case, the shower nozzle orientation of spraying subassembly keeps away from one side of laser cutting subassembly, the clearance board is the U type, and the width is greater than the laser line of laser cutting subassembly, and the scraper blade is connected to the lower extreme of clearance board, clears up both sides with the spraying on the glass, the left and right sides of clearance board is equipped with the collection medium plate of splayed, and the collection medium plate is concentrated near the incision after the cutting with the spraying, accelerates glass's cooling through liquid evaporation.

Preferably: the heat conduction assembly comprises a heat pipe assembly in the synchronous seat, a radiating fin is arranged at the rear end of the heat pipe assembly and located on the rear side of the spraying assembly, the front end of the heat pipe assembly is connected with a heat conduction ring, a reflection seat is fixed in the heat conduction ring, and the reflection seat is located right below the laser cutting assembly.

Preferably: the reflector comprises a reflector, a lamp holder and a heat conducting plate, wherein the reflector turns laser and guides the laser to the lamp holder, the lamp holder disperses punctiform laser to form a surface and guides the laser to glass to be cut, the glass is preheated, and meanwhile, heat lost in conduction is conducted to the heat conducting ring by the heat conducting plate and is conducted out through the heat pipe assembly.

The invention also provides a cutting method of the LOW-E glass, which comprises the following steps:

s1, before cutting: when the cutting device is used, the cutting process is controlled through the master controller, the temperature monitor monitors that the internal temperature is in a preset range, and the cutting device is not suitable for heating through the existing air heater or heating wire

S2, feeding process: send into the glass of treating the cutting through the feed roller, glass gets into between the locating plate, drives the impeller through electric putter and removes, and adjustment glass's position is aerifyd the gas circuit through the air pump again for movable section of thick bamboo rises under the drive of atmospheric pressure, inhales on glass through the sucking disc, closes the gas circuit in each bracing piece through the adapter.

S3, cutting process: the laser cutting assembly and the synchronous seat are driven to move together through the reciprocating lead screw, laser is shot on the reflecting seat, meanwhile, the spraying assembly sprays liquid, the upper expansion bracket drives the laser to move, and the part to be cut is preheated through the reflecting seat and the heat pipe assembly.

When one end is cut to the head, the laser cutting assembly is closed, the electric telescopic rod extends for two times, the electric telescopic rod shortens for three times, the next cutting line is moved through the reciprocating screw rod, the operation is reversed again, the rotating seat drives the synchronous seat to rotate for a half circle, and the cutting is continued.

S4, discharging: gas in the gas circuit on this bracing piece is emitted through the adapter for the bottom falls down to the activity section of thick bamboo, and the discharging wheel supports glass, transports out through the discharge gate, accomplishes glass's cutting.

The invention has the technical effects and advantages that:

1. according to the invention, through the arrangement of the supporting component, the glass is supported at multiple points, and the supporting force is adjusted by adjusting the air pressure, so that the supporting force on the glass is more uniform.

2. According to the invention, through refraction of the laser after cutting, the energy of the laser preheats the part to be cut, and the heat is driven to move by using the circulating heat pipe, so that the problem of beauty caused by overlarge temperature difference during cutting is avoided.

3. According to the invention, through the arrangement of the spraying assembly, the cleaning plate and the middle collecting plate, the distribution of liquid is reasonably controlled, glass is preheated, the cutting is cooled rapidly, and the cutting efficiency is improved.

Drawings

FIG. 1 is a schematic illustration of an explosive structure of the present application;

FIG. 2 is a schematic view of the structure of the synchronizer ring in the present application;

FIG. 3 is a cross-sectional view of the support assembly of the present application;

FIG. 4 is a sectional view of the positioning plate of the present application;

FIG. 5 is a schematic diagram of the construction of the spray assembly of the present application;

FIG. 6 is a schematic top view of the present application;

in the figure: 1. cutting the box; 2. a feed roll; 3. positioning a plate; 4. a first electric telescopic rod; 5. a roller; 6. a push wheel; 7. a support frame; 8. a support assembly; 9. a discharging wheel; 10. a discharge port;

11. a reciprocating screw rod; 12. an upper telescopic frame; 13. a lower telescopic frame; 14. a vertical telescopic frame; 15. a laser cutting assembly; 16. a spray assembly; 17. cleaning the plate; 18. collecting the medium plate; 19. a synchronization seat; 20. a reflection seat;

21. a heat pipe assembly; 22. a rotating base; 23. vertically moving the plate; 241. a second electric telescopic rod; 242. a third electric telescopic rod; 25. a collection port; 26. a condenser; 27. a hose;

81. a fixed cylinder; 82. a movable barrel; 83. a gas circuit; 84. fixing a column; 85. a gear; 86. a piston rod; 87. a suction cup; 88. an elastomeric support column.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Referring to fig. 1 to 6, in the embodiment, a full-automatic energy-saving LOW-E glass cutting machine is provided, and includes a cutting box 1, a feeding roller 2 is disposed on the front side of the cutting box 1, a discharge port 10 is disposed on the rear side of the cutting box 1, positioning plates 3 are symmetrically disposed in the cutting box 1 from left to right, the cross sections of the positioning plates 3 are U-shaped, rollers 5 are rotatably connected to a bottom plate and a top plate of the U-shaped plate, electric push rods are mounted on side plates of the U-shaped plate, ends of the electric push rods are rotatably connected with pushing wheels 6, after the glass is fed through the feeding roller 2, the glass enters between the positioning plates 3 and is transported through the rollers 5, and after the glass is in place, the pushing wheels 6 are driven to move through the electric push rods, so that the position of the glass is adjusted, and the later-stage cutting is facilitated, and the cutting is more accurate;

a temperature monitor is arranged in the cutting box 1 and is electrically connected with a master controller, a supporting frame 7 is fixed in the cutting box 1 in a hanging way, the front end and the rear end of the supporting frame 7 are fixed on the inner side wall of the cutting box 1, supporting rods which are parallel to each other are fixed on the supporting frame 7, a distance measuring device is arranged on the supporting rods, used for detecting the height and the levelness of the glass, a plurality of supporting components 8 are uniformly fixed at the upper end of the supporting rod, a discharging wheel 9 is arranged between the supporting components 8, the discharging wheel 9 is connected with power, the upper side of the discharging wheel 9 is lower than the supporting component 8, so that the processed material can be conveyed out through the discharging port 10, the supporting rod is internally provided with an air passage 83 and an adapter, one side of the air passage 83 is connected with an air pump and a pressure gauge, and the other side of the air passage 83 is respectively connected with the supporting components 8 on the supporting rod through the adapter, so that the air pressure on a single rod is consistent and can be independently controlled;

the cutting box 1 is internally provided with a moving assembly, the moving assembly comprises a vertical moving plate 23 sliding in the inner wall of the rear side of the cutting box 1, the upper end of the vertical moving plate 23 is connected with an upper telescopic frame 12, the lower end of the vertical moving plate 23 is connected with a second electric telescopic rod 241, a base of the second electric telescopic rod 241 is fixedly connected with a lower telescopic frame 13, the front end of the lower telescopic frame 13 is connected with a third electric telescopic rod 242, the front end of the upper telescopic frame 12 is connected with a vertical telescopic frame 14, the lower end of the moving assembly is provided with a laser cutting assembly 15, a synchronizing seat 19 is arranged under the laser cutting assembly 15, the synchronizing seat 19 is rotatably connected with the lower telescopic frame 13 through a rotating seat 22, the axis of the rotating seat 22 is superposed with the laser line of the laser cutting assembly 15, the upper telescopic frame 12 and the lower telescopic frame 13 are respectively composed of a reciprocating screw rod, a sliding sleeve and a limiting rod, and the reciprocating screw rod synchronously rotates to enable the synchronizing seat 19 and the laser cutting assembly 15 to move together, the joint of the vertical moving plate 23 and the upper telescopic frame 12 and the electric telescopic rod three 242 are rotatably connected to the reciprocating screw rod 11, the reciprocating screw rod 11 is connected with a synchronous motor, the motor drives the reciprocating screw rod 11 to rotate, and further drives the upper telescopic frame 12 and the lower telescopic frame 13 to synchronously move, and drives the synchronous seat 19 to move;

the heat conduction assembly comprises a heat pipe assembly 21 in a synchronous seat 19, a radiating fin is arranged at the rear end of the heat pipe assembly 21 and is positioned at the rear side of the spraying assembly 16, the front end of the heat pipe assembly 21 is connected with a heat conduction ring, a reflecting seat 20 is fixed in the heat conduction ring, the reflecting seat 20 is positioned right below the laser cutting assembly 15, the reflecting seat 20 consists of a reflecting plate, a lamp holder and a heat conduction plate, the reflecting plate turns laser to the lamp holder and guides the laser to the lamp holder, the lamp holder disperses the punctiform laser to form a surface and guides the laser to glass to be cut to preheat the glass, and meanwhile, heat lost in conduction is conducted to the heat conduction ring by the heat conduction plate and is conducted out through the heat pipe assembly 21;

a cleaning plate 17 is fixed on the rear side of the laser cutting assembly 15, a spraying assembly 16 is arranged on the rear side of the cleaning plate 17, the spraying assembly 16 is connected with a condenser 26 through a hose 27 to condense gas into warm liquid, the condenser 26 is connected with the cutting box 1 through an air suction pump and a collecting port 25, a spray head of the spraying assembly 16 faces one side far away from the laser cutting assembly 15, the cleaning plate 17 is U-shaped and has a width larger than a laser line of the laser cutting assembly 15, a scraper is connected to the lower end of the cleaning plate 17 to clean the spraying on the glass to two sides, splayed collecting plates 18 are arranged on the left side and the right side of the cleaning plate 17, the collecting plates 18 collect the spraying to the positions near the cut openings, and the cooling of the glass is accelerated through liquid evaporation;

the supporting assembly 8 comprises a fixed cylinder 81 and a movable cylinder 82 sliding on the inner side, the lower side of the movable cylinder 82 is communicated with an air passage 83, a sucking disc 87 is arranged at the top of the movable cylinder 82, the lower side of the sucking disc 87 is connected with a piston cylinder, a piston and a piston rod 86 are slidably connected in the piston cylinder, a rack on the piston rod 86 is connected with a rack on the fixed cylinder 84 through a gear 85, the gear 85 is rotatably connected on the fixed cylinder 81, the fixed cylinder 84 is fixedly connected on a supporting rod, a plurality of elastic supporting columns 88 are circumferentially distributed on the outer side of the sucking disc 87, so that glass is prevented from directly contacting with the movable cylinder 82 to cause damage, when air is inflated in the air passage 83, the glass is placed on the sucking disc 87, the movable cylinder 82 is driven to move downwards, the piston is driven to move downwards through the gear 85, the piston rod 86 and the fixed cylinder 84, and the sucking disc 87 is in negative pressure to help stabilize the glass.

s1, before cutting: when the cutting device is used, the cutting process is controlled through the master controller, the temperature monitor monitors the internal temperature in a preset range, and the internal temperature is not properly heated through the existing air heater or heating wire.

S2, feeding process: send into the glass of treating the cutting through feed roller 2, glass gets into between the locating plate 3, transport through gyro wheel 5, after targetting in place, drive catch wheel 6 through electric putter and remove, adjust glass's position, make it aim at the bracing piece, and through electric telescopic handle 4 and range unit, put glass the level, aerify gas circuit 83 through the air pump again, make movable cylinder 82 rise under the drive of atmospheric pressure, inhale on glass through sucking disc 87, and through gear 85, piston rod 86 and fixed column 84 drive the piston and move down, make and be the negative pressure in the sucking disc 87, help stabilizes glass, support glass, the gas circuit 83 in each bracing piece is closed to the rethread adapter, can evenly support.

S3, cutting process: during the cutting, drive laser cutting subassembly 15 and synchronous seat 19 through reciprocal lead screw and remove together for laser beats the fixed position at reflection seat 20, spray assembly 16 will warm liquid blowout to the position that will cut simultaneously, through the removal of last expansion bracket 12, drive the laser and remove, cut, before the cutting, clearance board 17 disperses liquid to both sides, make the cutting position do not have liquid, after the cutting, concentrate board 18 to concentrate the incision department with the liquid of both sides, accelerate the cooling through the evaporation of liquid.

Shine after the laser cutting on reflector seat 20, the reflecting plate turns to laser and leads to the lamp stand, and the lamp stand is the face with punctiform laser dispersion to on the glass that the direction will be cut, preheat glass, the heat of loss is conducted on the heat-conducting ring by the heat-conducting plate in the conduction simultaneously, conducts away through heat pipe subassembly 21, preheats the position that will cut, the aesthetic problem that the too big difference in temperature leads to when avoiding cutting.

When one end is cut to the head, the laser cutting assembly 15 is closed, the electric telescopic rod 241 extends, and the electric telescopic rod 242 shortens, so that the synchronous seat 19 and the lower telescopic frame 13 move downwards into a cavity below the support frame 7, the next cutting line is moved through the reciprocating screw rod 11, the operation is reversed, and the rotary seat 22 drives the synchronous seat 19 to rotate for a half circle to continue cutting.

S4, discharging: to the glass after the cutting, gas in the gas circuit 83 on this bracing piece is discharged through the adapter for movable cylinder 82 falls to the bottom, and discharging wheel 9 supports glass, can transport out through discharge gate 10, accomplishes glass's cutting, and the glass that does not cut need not readjust owing to receive even holding power, can directly continue the cutting.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by one of ordinary skill in the art and related arts based on the embodiments of the present invention without any creative effort, shall fall within the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific recitation or limitation.

Claims

1. A full-automatic energy-saving LOW-E glass cutting machine comprises a cutting box (1), wherein a feeding roller (2) is arranged on the front side of the cutting box (1), a discharge hole (10) is formed in the rear side of the cutting box (1), and the full-automatic energy-saving LOW-E glass cutting machine is characterized in that positioning plates (3) are symmetrically arranged in the cutting box (1) in a left-right mode, a temperature monitor is installed in the cutting box (1) and is electrically connected with a master controller, a supporting frame (7) is fixed in the cutting box (1) in a hanging mode, the front end and the rear end of the supporting frame (7) are fixed on the inner side wall of the cutting box (1), supporting rods which are parallel to each other are fixed on the supporting frame (7), a distance measuring device is arranged on each supporting rod, and a plurality of supporting assemblies (8) are uniformly fixed at the upper ends of the supporting rods;

be equipped with the removal subassembly in cutting case (1), laser cutting subassembly (15) are installed to the lower extreme of removal subassembly, are equipped with synchronous seat (19) under laser cutting subassembly (15), are equipped with heat-conduction assembly in synchronous seat (19).

2. The full-automatic energy-saving LOW-E glass cutting machine according to claim 1, characterized in that the cross section of the positioning plate (3) is U-shaped, the bottom plate and the top plate of the U-shaped plate are both rotatably connected with rollers (5), the side plate of the U-shaped plate is provided with an electric push rod, and the end part of the electric push rod is rotatably connected with a push wheel (6).

3. The full-automatic energy-saving LOW-E glass cutting machine according to claim 1, characterized in that a discharging wheel (9) is arranged between the supporting components (8), the discharging wheel (9) is connected with power, the upper side of the discharging wheel (9) is lower than the supporting components (8), a gas circuit (83) and an adapter are arranged in the supporting rods, one side of the gas circuit (83) is connected with a gas pump and a pressure gauge, and the other side of the gas circuit is respectively connected with the supporting components (8) on the supporting rods through the adapter.

4. The full-automatic energy-saving LOW-E glass cutting machine according to claim 3, characterized in that the supporting component (8) comprises a fixed cylinder (81) and a movable cylinder (82) sliding on the inner side, the lower side of the movable cylinder (82) is communicated with an air passage (83), a sucking disc (87) is arranged at the top of the movable cylinder (82), the lower side of the sucking disc (87) is connected with a piston cylinder, a piston and a piston rod (86) are connected in the piston cylinder in a sliding manner, a rack on the piston rod (86) is connected with a rack on the fixed cylinder (84) through a gear (85), the gear (85) is rotatably connected on the fixed cylinder (81), the fixed cylinder (84) is fixedly connected on the supporting rod, and a plurality of elastic supporting columns (88) are circumferentially distributed on the outer side of the sucking disc (87).

5. The full-automatic energy-saving LOW-E glass cutting machine according to claim 1, characterized in that the moving assembly comprises a vertical moving plate (23) sliding in the inner wall of the rear side of the cutting box (1), the upper end of the vertical moving plate (23) is connected with an upper telescopic frame (12), the lower end of the vertical moving plate (23) is connected with a second electric telescopic rod (241), the base of the second electric telescopic rod (241) is fixedly connected with a lower telescopic frame (13), the front end of the lower telescopic frame (13) is connected with a third electric telescopic rod (242), and the front end of the upper telescopic frame (12) is connected with a vertical telescopic frame (14).

6. The full-automatic energy-saving LOW-E glass cutting machine according to claim 1, characterized in that the synchronous base (19) is rotatably connected with the lower telescopic frame (13) through a rotary base (22), the axis of the rotary base (22) coincides with the laser line of the laser cutting assembly (15), the upper telescopic frame (12) and the lower telescopic frame (13) are composed of a reciprocating lead screw, a sliding sleeve and a limiting rod, the reciprocating lead screw synchronously rotates, the joint of the vertical moving plate (23) and the upper telescopic frame (12) and the electric telescopic rod III (242) are rotatably connected to the reciprocating lead screw (11), and the reciprocating lead screw (11) is connected with a synchronous motor.

7. The full-automatic energy-saving LOW-E glass cutting machine according to claim 6, characterized in that a cleaning plate (17) is fixed at the rear side of the laser cutting assembly (15), a spraying assembly (16) is arranged at the rear side of the cleaning plate (17), the spraying assembly (16) is connected with a condenser (26) through a hose (27), the condenser (26) is connected with the cutting box (1) through a suction pump and a collecting port (25), a spray head of the spraying assembly (16) faces to the side far away from the laser cutting assembly (15), the cleaning plate (17) is U-shaped and has a width larger than the laser line of the laser cutting assembly (15), a scraper is connected at the lower end of the cleaning plate (17) to clean the spray on the glass to two sides, and splayed collecting plates (18) are arranged at the left side and the right side of the cleaning plate (17).

8. The full-automatic energy-saving LOW-E glass cutting machine according to claim 1, characterized in that the heat conduction assembly comprises a heat pipe assembly (21) in a synchronous seat (19), a heat sink is arranged at the rear end of the heat pipe assembly (21), the heat sink is positioned at the rear side of the spray assembly (16), the front end of the heat pipe assembly (21) is connected with a heat conduction ring, a reflection seat (20) is fixed in the heat conduction ring, and the reflection seat (20) is positioned right below the laser cutting assembly (15).

9. The full-automatic energy-saving LOW-E glass cutting machine according to claim 8, characterized in that the reflector base (20) is composed of a reflector plate, a lamp holder and a heat conducting plate.

10. A cutting method of LOW-E glass is characterized by comprising the following steps:

s1, before cutting: controlling the internal temperature so that the internal temperature is within a predetermined range;

s2, feeding process: glass to be cut is fed in through the feeding roller (2), the glass enters between the positioning plates (3), the electric push rod drives the pushing wheel (6) to move, the position of the glass is adjusted, the air pump inflates the air passage (83), the movable cylinder (82) is driven by air pressure to ascend, the sucking disc (87) sucks the glass, and the air passage (83) in each supporting rod is closed through the adapter;

s3, cutting process: the laser cutting component (15) and the synchronous seat (19) are driven to move together through the reciprocating lead screw, laser is irradiated on the reflecting seat (20), meanwhile, the spraying component (16) sprays liquid, the upper telescopic frame (12) drives the laser to move, and the part to be cut is preheated through the reflecting seat (20) and the heat pipe component (21);

when one end of the cutting head is cut, the laser cutting assembly (15) is closed, the electric telescopic rod II (241) is extended, the electric telescopic rod III (242) is shortened, the cutting head moves to the next cutting line through the reciprocating screw rod (11), the operation is performed in the reverse direction, and the rotating seat (22) drives the synchronous seat (19) to rotate for half a circle to continue cutting;

s4, discharging: gas in the gas circuit (83) on with this bracing piece is emitted through the adapter for movable cylinder (82) fall to the bottom, and ejection of compact wheel (9) support glass transports out through discharge gate (10), accomplishes glass's cutting.