CN113458920A

CN113458920A - Glass edge slotting system

Info

Publication number: CN113458920A
Application number: CN202110973934.3A
Authority: CN
Inventors: 熊焰宇
Original assignee: Individual
Current assignee: Henan Zhongbo Glass Co ltd
Priority date: 2021-08-24
Filing date: 2021-08-24
Publication date: 2021-10-01
Anticipated expiration: 2041-08-24
Also published as: CN113458920B

Abstract

A glass edge slotting system comprises a base, glass conveying modules, screening mechanisms, knife sharpening moving modules and grinding assemblies, wherein hollow guard plates are arranged on the upper end surfaces of the left side and the right side of the base respectively, first pulley grooves are formed in the upper end surfaces of the guard plates along the glass advancing direction, the knife sharpening moving modules are arranged above the first pulley grooves, the glass conveying mechanisms are arranged above the knife sharpening moving modules, the grinding assemblies are arranged in the knife sharpening moving modules, square cylinders are fixedly arranged on the opposite surfaces of the two guard plates below the grinding assemblies respectively, piston rods are arranged in the square cylinders in a sliding and sealing mode respectively, clamping plates are arranged on the opposite surfaces of the piston rods, and the screening mechanisms are arranged on the sides, where the clamping plates enter, of glass edges of large blocks with different thicknesses, glass powder dust can not be generated during slotting, and workers can be protected.

Description

Glass edge slotting system

Technical Field

The invention belongs to the field of glass grooving devices, and particularly relates to a glass edge grooving system.

Background

The glass groover is one kind of digit control machine tool, and the characteristic of glass cnc engraving and milling machine is: the machine is small, the processing precision is high, the machine is stable, the finished product is fine, the processing speed is high, the production efficiency is high, and the defects of frangibility and easy damage are caused by the processing characteristics of the glass, so that the fine forming of the glass is difficult to realize. When the traditional glass cutting equipment is adopted, the glass is broken and crushed often, and particularly, in the equipment controlled manually, the glass is broken, so that economic loss is caused, and the safety of people can be damaged.

Disclosure of Invention

The present invention is directed to the above-mentioned problems of the prior art and provides a glass edge notching system.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a glass edge fluting system, includes the base, glass transport module, screening mechanism, whets a knife and removes the module, the grinding subassembly, the base left and right sides up end respectively is equipped with hollow backplate, each backplate up end is equipped with first pulley groove along glass advancing direction, each first pulley groove top is equipped with whets a knife and removes the module, it is equipped with glass transport mechanism to whet a knife remove the module top, it is equipped with the grinding subassembly to whet a knife remove the module inside grinding subassembly below, two the backplate opposite face respectively sets firmly square cylinder, each sliding seal is equipped with the piston rod in the square cylinder respectively, each piston rod opposite face is equipped with splint, is at each splint glass gets into one side and is equipped with screening mechanism.

Preferably, the left side of the bottom of the base is provided with a water outlet pipe connector, a vacuum pump air outlet is arranged above the water outlet pipe connector, a screening mechanism is arranged at the glass inlet on the upper end surface of the base, a plurality of conveying rollers are arranged below the screening mechanism along the glass advancing direction, the base is provided with a slag falling groove between the two clamping plates, the bottom of the slag falling groove is provided with a plurality of slag falling holes, a vacuum cavity is arranged in the base below the slag falling hole, a liquid storage cavity is arranged below the vacuum cavity, a filter plate is arranged between the liquid storage cavity and the vacuum cavity, a vacuum pump is fixedly arranged above the filter plate and close to the air outlet of the vacuum pump, a circulating water pump is fixedly arranged below the vacuum pump, the circulating water pump is arranged in the liquid storage cavity and close to the water outlet pipe connector, the inner cavity of the guard plate is hermetically communicated with the vacuum cavity, and a dust inlet pipeline connector is arranged on one side of the guard plate, close to the vacuum pump, below the first pulley groove.

Preferably, the screening mechanism includes that the symmetry sets firmly four pairs of screening spouts that base glass got into the department, each the screening spout is in respectively the transportation roller both sides, it is equipped with the screening stub roll slider to slide in the screening spout, screening stub roll slider top is rotated and is equipped with the screening stub roll, be close to both sides wall is equipped with the extrusion switch in the last a pair of screening spouts of splint department, each the screening stub roll slider is close to transportation roller one side is equipped with two springs, the spring is close to transportation roller one end is connected screening spout inner wall, the spring other end is connected the screening stub roll slider.

Preferably, the upper end face of the clamping plate is provided with a plurality of air pipe holes at equal intervals along the glass advancing direction, a dust suction roller is arranged in each air pipe hole in a rotating mode, a dust suction cavity is formed in the dust suction roller, dust suction holes are formed in the six equal parts of the cross section circle in the height direction of the dust suction roller, the dust suction cavity is formed in the upper portion of the dust suction roller, the lower portion of the dust suction roller is provided with a thin opening, and the dust suction roller is made of soft rubber.

Preferably, the knife sharpening moving module comprises two first truss rollers arranged in the first pulley grooves in a rolling manner, a first truss roller shaft is arranged in each first truss roller in a rotating manner, a first truss is arranged above the first truss roller shaft and is hollowed out in a rectangular shape at the middle part, a second pulley groove is fixedly arranged on the upper end surface of the first truss along two side lines of the rectangular hole hollowed at the middle part and perpendicular to the moving direction of glass, a second truss pulley is arranged in the second pulley groove in a rolling manner, a second truss pulley shaft is arranged in the second truss pulley in a rotating manner, a chain plate is arranged in the middle of the second truss pulley shaft, a second truss with the moving direction perpendicular to the moving direction of the first truss is arranged above the second truss pulley shaft, a second truss wheel shaft box is arranged above the second truss, and a dust outlet pipeline connector is arranged on the left side of the second truss wheel shaft motor box, and a glass conveying module is fixedly arranged above the second truss wheel shaft motor box, and a grinding assembly is arranged between the two second truss pulley shafts.

Preferably, the glass conveying assembly comprises a conveying truss with the lower end fixed on the ground, a glass conveying manipulator sliding block is arranged in the conveying truss in a sliding mode, vertical rods are fixedly arranged below the glass conveying manipulator sliding block, a glass conveying manipulator transverse plate is fixedly arranged below the vertical rods, manipulator sucker connecting transverse rods are respectively arranged at two ends of the glass conveying manipulator transverse plate in a rotating mode, each manipulator sucker connecting transverse rod is connected with four sucker connecting rods at equal intervals, the tail end of each sucker connecting rod is connected with a sucker, and each sucker connecting rod is L-shaped.

Preferably, the grinding component comprises a glass grinding motor which is arranged in the second truss wheel shaft motor box in a sliding manner, a dust suction cavity is arranged above the glass grinding motor, a dust channel is fixedly arranged in the wall of the second truss wheel shaft motor box above the dust suction cavity, the dust channel is connected with a dust outlet pipeline interface, a glass grinding motor rotating shaft is arranged below the glass grinding motor in a sealing and rotating manner, a rotating shaft dust channel is arranged inside the glass grinding motor rotating shaft, a glass grinding knife is arranged below the glass grinding motor rotating shaft in a sealing and rotating manner, a dust suction cavity is arranged inside the glass grinding motor rotating shaft, a glass grinding sleeve is arranged outside the glass grinding knife, a liquid sealing slide block is arranged between the glass grinding knife and the glass grinding sleeve in a sliding and sealing manner, a water inlet is arranged at the position of the liquid sealing slide block outside the glass grinding sleeve, and a liquid cavity is arranged between the upper part of the glass grinding knife and the glass grinding sleeve, the glass sharpening device is characterized in that a liquid outlet channel is arranged in the glass sharpening wall below the liquid cavity, an annular protrusion is arranged on the outer wall of the upper end of the glass sharpening and clamped on the liquid sealing sliding block and faces towards the clamping groove of the glass sharpening, a grinding head is arranged below the glass sharpening, and a liquid outlet hole is formed in the joint of the grinding head and the glass sharpening.

Preferably, the glass grinding motor is a motor with an air channel, the lower end of the motor is communicated with the rotating shaft dust channel, and the upper end of the motor is communicated with the dust collection cavity.

Preferably, the grinding head is a special diamond grinding head, and the liquid outlet hole is communicated with the liquid outlet channel.

Has the advantages that:

1. according to the glass screening machine, glass to be processed can be screened through the screening mechanism arranged on the base, the glass meeting the product thickness can be processed when passing through the equipment, and unqualified products can directly pass through the equipment, so that the time for manually screening the glass is saved.

2, the dust collecting device ensures that the dust cannot be raised in the processing process by sucking the dust collecting stick on the grinding assembly and the clamping plate through the water adding and dust collecting modes in the glass processing process.

3. The invention can clean the glass surface and suck redundant water into the liquid storage cavity for recycling through the dust absorption stick, thereby being environment-friendly and saving the cost.

Drawings

FIG. 1 is an overall schematic view of the present invention;

FIG. 2 is a left side view of the present invention;

FIG. 3 is a front partial cross-sectional view of the present invention;

FIG. 4 is a cross-sectional view A-A of FIG. 2;

FIG. 5 is a cross-sectional view taken along line B-B of FIG. 2;

FIG. 6 is an enlarged view at C of FIG. 3;

FIG. 7 is an enlarged view of FIG. 4 at D;

FIG. 8 is an enlarged view at E of FIG. 7;

FIG. 9 is an enlarged view at F of FIG. 7;

FIG. 10 is an enlarged view at G of FIG. 5;

in the figure: the device comprises a base 1, a conveying truss 2, a manipulator sucker connecting cross rod 3, a sucker connecting rod 4, a sucker 5, a glass conveying manipulator transverse plate 6, a glass conveying manipulator sliding block 7, a vertical rod 8, a guard plate 9, a first pulley groove 10, a water outlet pipe interface 11, a vacuum pump air outlet 12, a dust inlet pipeline interface 13, a first truss 14, a first truss roller shaft 15, a first truss roller 16, a second pulley groove 17, a second truss pulley 18, a second truss 19, a second truss pulley shaft 20, a chain plate 21, a second truss wheel shaft motor box 22, a dust outlet pipeline interface 23, a conveying roller 24, a screening short roller 25, a dust suction roller 26, a piston rod 28, a dust suction cavity 29, a dust suction hole 30, a clamping plate 31, an air pipe hole 32, an extrusion switch 33, a screening short roller sliding block 34, a screening sliding groove 35, a spring 36, a vacuum pump 37, a circulating water pump 38, a liquid storage cavity 39, a filtering plate 40, The device comprises a vacuum cavity 41, a slag falling hole 42, a slag falling groove 43, a water pipe water inlet interface 44, a liquid sealing slide block 45, an annular protrusion 46, a liquid outlet channel 47, a liquid cavity 48, a glass grinding sleeve 49, a dust channel 50, a dust suction cavity 51, a glass grinding motor 52, a rotating shaft dust channel 53, a glass grinding motor rotating shaft 54, a glass grinding blade 55, a dust suction cavity 56, a grinding head 57 and a liquid outlet hole 58.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

In the description of the present invention, it should be noted that the terms "inside", "below", and the like refer to orientations or positional relationships based on the orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention conventionally place when used, and are used only for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used merely to distinguish one description from another, and are not to be construed as indicating or implying relative importance.

As shown in fig. 1-10, a glass edge grooving system comprises a base 1, a glass conveying module, a screening mechanism, a knife sharpening moving module, a grinding assembly, wherein hollow guard plates 9 are respectively arranged on the upper end surfaces of the left side and the right side of the base 1, a first pulley groove 10 is arranged on the upper end surface of each guard plate 9 along the glass advancing direction, the knife sharpening moving module is arranged above each first pulley groove 10, the glass conveying mechanism is arranged above the knife sharpening moving module, the grinding assembly is arranged in the knife sharpening moving module, a square cylinder 27 is respectively and fixedly arranged on the opposite surfaces of the two guard plates 9 below the grinding assembly, piston rods 28 are respectively and slidably sealed in the square cylinders 27, clamping plates 31 are arranged on the opposite surfaces of the piston rods 28, and the screening mechanism is arranged on one side, where glass enters, of each clamping plate 31.

The left side of the bottom of the base 1 is provided with a water outlet pipe connector 11, a vacuum pump air outlet 12 is arranged above the water outlet pipe connector 11, a screening mechanism is arranged at the glass inlet of the upper end surface of the base 1, a plurality of conveying rollers 24 are arranged below the screening mechanism along the glass advancing direction, a slag falling groove 43 is arranged between the two clamping plates 31 of the base 1, a plurality of slag falling holes 42 are arranged at the bottom of the slag falling groove 43, a vacuum cavity 41 is arranged inside the base 1 below the slag falling holes 42, a liquid storage cavity 39 is arranged below the vacuum cavity 41, a filter plate 40 is arranged between the liquid storage cavity 39 and the vacuum cavity 41, a vacuum pump 37 is fixedly arranged above the filter plate 40 and close to the air outlet 12 of the vacuum pump, a circulating water pump 38 is fixedly arranged below the vacuum pump 37, the circulating water pump 38 is close to the water outlet pipe connector 11 in the liquid storage cavity 39, the inner cavity of the protection plate 9 is hermetically communicated with the vacuum cavity 41, and the protection plate 9 is provided with a dust inlet pipeline connector 13 close to one side of the vacuum pump 37 and below the first pulley groove 10.

Screening mechanism sets firmly four pairs of screening spouts 35 in base 1 glass entering department including the symmetry, each screening spout 35 is respectively in transport roller 24 both sides, it is equipped with screening stub roll slider 34 to slide in the screening spout 35, screening stub roll slider 34 top is rotated and is equipped with screening stub roll 25, both sides wall is equipped with extrusion switch 33 in the last a pair of screening spout 35 that is close to splint 31 department, each screening stub roll slider 34 is close to transport roller 24 one side and is equipped with two springs 36, springs 36 are close to transport roller 24 one end and connect screening spout 35 inner wall, the screening stub roll slider 34 is connected to the spring 36 other end.

The upper end face of the clamping plate 31 is provided with a plurality of air pipe holes 32 at equal intervals along the glass advancing direction, each air pipe hole 32 is rotatably provided with a dust suction roller 26, a dust suction cavity 29 is arranged inside the dust suction roller 26, dust suction holes 30 are equally divided into six parts along the section circle of the height direction of the dust suction roller 26, the dust suction cavity 29 is provided with a narrow opening at the upper part and is closed at the lower part, and the dust suction roller 26 is made of soft rubber.

The knife sharpening moving module comprises two first truss rollers 16 arranged in each first roller groove 10 in a rolling mode, a first truss roller shaft 15 is arranged in each first truss roller 16 in a rotating mode, a first truss 14 is arranged above the first truss roller shaft 15, the first truss 14 is a rectangular hollow middle portion, a second roller groove 17 is fixedly arranged on the upper end face of the first truss 14 along two side lines of the rectangular hollow middle portion perpendicular to the moving direction of glass, a second truss pulley 18 is arranged in the second roller groove 17 in a rolling mode, a second truss pulley shaft 20 is arranged in the second truss pulley 18 in a rotating mode, a chain plate 21 is arranged in the middle of the second truss pulley shaft 20, a second truss 19 with the moving direction perpendicular to the moving direction of the first truss 14 is arranged above the second truss pulley shaft 20, a second truss wheel shaft motor box 22 is arranged above the second truss wheel shaft motor box 22, and a dust outlet pipeline connector 23 is arranged on the left side of the second truss wheel shaft motor box 22, a glass conveying module is fixedly arranged above the second truss wheel shaft motor box 22, and a grinding assembly is arranged between the two second truss pulley shafts 20.

The glass conveying assembly comprises a conveying truss 2 with the lower end fixed on the ground, a glass conveying manipulator sliding block 7 is arranged in the conveying truss 2 in a sliding mode, a vertical rod 8 is fixedly arranged below the glass conveying manipulator sliding block 7, a glass conveying manipulator transverse plate 6 is fixedly arranged below the vertical rod 8, manipulator sucker connecting transverse rods 3 are arranged at two ends of the glass conveying manipulator transverse plate 6 in a rotating mode, the manipulator sucker connecting transverse rods 4 are connected with the manipulator suckers at intervals, the lower end face of each manipulator sucker connecting transverse rod 3 is provided with four sucker connecting rods 4 at intervals, the tail end of each sucker connecting rod 4 is connected with a sucker 5, and the sucker connecting rods 4 are L-shaped.

The grinding component comprises a glass grinding motor 52 which is arranged in the second truss wheel shaft motor box 22 in a sliding mode, a dust suction cavity 51 is arranged above the glass grinding motor 52, a dust channel 50 is fixedly arranged in the wall of the second truss wheel shaft motor box 22 above the dust suction cavity 51, the dust channel 50 is connected with a dust outlet pipeline connector 23, a glass grinding motor rotating shaft 54 is arranged below the glass grinding motor 52 in a sealing and rotating mode, a rotating shaft dust channel 53 is arranged inside the glass grinding motor rotating shaft 54, a glass grinding knife 55 is arranged below the glass grinding motor rotating shaft 54 in a sealing and rotating mode, a dust suction cavity 56 is arranged inside the glass grinding knife, a glass grinding sleeve 49 is arranged on the outer side of the glass grinding knife 55, a liquid sealing slide block 45 is arranged between the glass grinding knife 55 and the glass grinding sleeve 49 in a sliding and sealing mode, a water inlet connector 44 is arranged on the outer side of the glass grinding sleeve 49 at the position of the liquid sealing slide block 45, and a liquid cavity 48 is arranged between the upper portion of the glass grinding knife 55 and the glass grinding sleeve 49, a liquid outlet channel 47 is arranged in the wall of the glass grinding cutter 55 below the liquid cavity 48, an annular protrusion 46 is arranged on the outer wall of the upper end of the glass grinding cutter 55, the annular protrusion 46 is clamped on the liquid sealing slide block 45 and faces to the clamping groove of the glass grinding cutter 55, a grinding head 57 is arranged below the glass grinding cutter 55, and a liquid outlet hole 58 is arranged at the joint of the grinding head 57 and the glass grinding cutter 55.

The glass sharpening motor 52 is a motor with an air channel, the lower end of the motor is communicated with the rotating shaft dust channel 53, and the upper end of the motor is communicated with the dust suction cavity 51.

The grinding head 57 is a special diamond grinding head, and the liquid outlet hole 58 is communicated with the liquid outlet channel 47.

The working principle is as follows: the dust outlet pipe connector 23, the dust inlet pipe connector 13 and the air pipe hole 32 are connected through hoses, after the water outlet pipe connector 11 and the water inlet pipe connector 44 are connected through a water pipe, the vacuum pump 37 is started to pump the vacuum chamber 41 into a negative pressure state, the screening short roller sliding block 34 extrudes the extrusion switch 33 on the side of the conveying roller under the drawing action of the spring 36, and the grinding assembly and the grinding moving module start to work only when the two sides of the extrusion switch 33 are not extruded.

During working, qualified glass is clamped and conveyed to a conveying roller 24 through a sucking disc 5 of a glass conveying module before entering the equipment, the screening short roller 25 of a screening mechanism is squeezed open towards two sides by the glass in the process of entering the equipment so as to leave a press switch 33, at the moment, a square air cylinder 27 pushes out a piston rod 28 so as to enable a clamping plate 31 to be folded, a dust suction roller 26 clamps the glass, a grinding assembly and a knife sharpening moving module grind the edge of the glass through a set program, a glass knife sharpening motor 52 firstly descends to the edge of the glass in the grinding process, a glass knife sharpening 55 moves downwards in the descending process of the glass knife sharpening motor 52 so as to drive a liquid sealing sliding block 45 to slide downwards, a liquid cavity 48 is communicated with a water inlet port 44 of a water pipe, water enters a liquid outlet channel 47 and then flows out of a liquid outlet hole 58 to a grinding head 57, so that ground glass powder is dissolved in the water and simultaneously cools the hand-feeling head 57, in the same stage, less glass dust which is not dissolved in water enters the vacuum cavity 41 through the dust suction cavity 56 and the rotating shaft dust channel 53, the dust suction cavity 51 and the dust channel 50, excessive water is sucked into the vacuum cavity 41 by the dust suction stick 26 in the process of flowing down from two sides of the glass in the process, a small amount of water which is not sucked away enters the slag falling groove 43 under the action of gravity and enters the vacuum cavity 41 through the slag falling hole 42, the water and the glass dust which enter the vacuum cavity 41 are filtered by the filter plate 40 in the falling process, so that the glass dust and the water are separated, and the water in the liquid storage cavity 39 can be recycled under the action of the circulating water pump 38.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims

1. A glass edge slotting system comprises a base (1), a glass conveying module, a screening mechanism, a knife sharpening moving module and a grinding assembly, it is characterized in that the upper end surfaces of the left side and the right side of the base (1) are respectively provided with a hollow guard plate (9), the upper end surface of each guard plate (9) is provided with a first pulley groove (10) along the glass advancing direction, a knife sharpening moving module is arranged above each first pulley groove (10), a glass conveying mechanism is arranged above the knife sharpening moving module, a grinding component is arranged inside the knife sharpening moving module, below the grinding assembly, square cylinders (27) are fixedly arranged on opposite surfaces of the two guard plates (9), piston rods (28) are arranged in the square cylinders (27) in a sliding sealing mode respectively, clamping plates (31) are arranged on opposite surfaces of the piston rods (28), and a screening mechanism is arranged on one side, where glass enters, of the clamping plates (31).

2. A glass edge grooving system according to claim 1 wherein: the device is characterized in that a water outlet pipe connector (11) is arranged on the left side of the bottom of the base (1), a vacuum pump air outlet (12) is arranged above the water outlet pipe connector (11), a screening mechanism is arranged at a glass inlet on the upper end surface of the base (1), a plurality of conveying rollers (24) are arranged below the screening mechanism along the glass advancing direction, a slag falling groove (43) is arranged between the two clamping plates (31) of the base (1), a plurality of slag falling holes (42) are arranged at the bottom of the slag falling groove (43), a vacuum cavity (41) is arranged inside the base (1) below the slag falling holes (42), a liquid storage cavity (39) is arranged below the vacuum cavity (41), a filter plate (40) is arranged between the liquid storage cavity (39) and the vacuum cavity (41), a vacuum pump (37) is fixedly arranged above the filter plate (40) and close to the vacuum pump air outlet (12), and a circulating water pump (38) is fixedly arranged below the vacuum pump (37), the circulating water pump (38) is arranged in the liquid storage cavity (39) and close to the water outlet pipe connector (11), the inner cavity of the protection plate (9) is in sealed communication with the vacuum cavity (41), and a dust inlet pipeline connector (13) is arranged on one side, close to the vacuum pump (37), of the protection plate (9) below the first pulley groove (10).

3. A glass edge grooving system according to claim 2 wherein: screening mechanism sets firmly including the symmetry four pairs of screening spout (35) that base (1) glass got into the department, each screening spout (35) are in respectively transportation roller (24) both sides, it is equipped with screening stub roll slider (34) to slide in screening spout (35), screening stub roll slider (34) top is rotated and is equipped with screening stub roll (25), is being close to both sides wall is equipped with extrusion switch (33) in last a pair of screening spout (35) of splint (31) department, each screening stub roll slider (34) are close to transportation roller (24) one side is equipped with two springs (36), spring (36) are close to transportation roller (24) one end is connected screening spout (35) inner wall, spring (36) other end is connected screening stub roll slider (34).

4. A glass edge grooving system according to claim 3 wherein: splint (31) up end is equipped with a plurality of trachea holes (32) along glass advancing direction equidistant, each trachea hole (32) internal rotation is equipped with dust absorption roller (26), dust absorption roller (26) inside is equipped with suction chamber (29), follows dust absorption roller (26) direction of height cross-section circle six equalling is equipped with dust absorption hole (30), suction chamber (29) are the top and open the thin mouthful below and seal, dust absorption roller (26) adopt soft rubber.

5. A glass edge grooving system according to claim 1 wherein: the sharpening mobile module comprises two first truss rollers (16) which are arranged in the first roller grooves (10) in a rolling mode, a first truss roller shaft (15) is arranged in each first truss roller (16) in a rotating mode, a first truss (14) is arranged above the first truss roller shaft (15), the first truss (14) is hollowed out in a middle rectangular mode, second roller grooves (17) are fixedly arranged on the upper end face of the first truss (14) along two side lines of the middle hollowed rectangular mode, the side lines are perpendicular to the glass advancing direction, second truss pulleys (18) are arranged in the second roller grooves (17) in a rolling mode, second truss roller shafts (20) are rotatably arranged in the second truss pulleys (18), chain discs (21) are arranged in the middle of the second truss roller shafts (20), and second truss rollers (19) with the moving direction perpendicular to the moving direction of the first truss (14) are arranged above the second truss roller shafts (20), a second truss wheel shaft motor box (22) is arranged above the second truss (19), a dust outlet pipeline connector (23) is arranged on the left side of the second truss wheel shaft motor box (22), a glass conveying module is fixedly arranged above the second truss wheel shaft motor box (22), and a grinding assembly is arranged between the two second truss pulley shafts (20).

6. The glass edge grooving system of claim 5, wherein: glass conveying assembly includes that the lower extreme is fixed at subaerial transport truss (2) it is equipped with glass conveying manipulator slider (7) to slide in transport truss (2) glass conveying manipulator slider (7) below has set firmly montant (8), montant (8) below has set firmly glass conveying manipulator diaphragm (6), glass conveying manipulator diaphragm (6) both ends respectively rotate and are equipped with manipulator sucking disc and connect horizontal pole (3), each the terminal surface is equipped with four sucking disc connecting rods (4) respectively equidistant under horizontal pole (3) is connected to the manipulator sucking disc, and every sucking disc connecting rod (4) end-to-end connection has sucking disc (5), sucking disc connecting rod (4) are L shape.

7. The glass edge grooving system of claim 5, wherein: the grinding component comprises a glass grinding motor (52) which is arranged in the second truss wheel shaft motor box (22) in a sliding mode, a dust suction cavity (51) is formed in the upper portion of the glass grinding motor (52), a dust channel (50) is fixedly arranged in the wall of the second truss wheel shaft motor box (22) above the dust suction cavity (51), the dust channel (50) is connected with a dust outlet pipeline interface (23), a glass grinding motor rotating shaft (54) is arranged below the glass grinding motor (52) in a sealing and rotating mode, a rotating shaft dust channel (53) is arranged inside the glass grinding motor rotating shaft (54), a glass grinding knife (55) is arranged below the glass grinding motor rotating shaft (54) in a sealing and rotating mode, a dust suction cavity (56) is arranged inside the glass grinding knife (55), a glass grinding sleeve (49) is arranged on the outer side of the glass grinding knife (55), and a liquid sealing slide block (45) is arranged between the glass grinding knife (55) and the glass grinding sleeve (49) in a sliding and sealing mode, the glass sharpen sleeve (49) outside is in seal liquid slider (45) department and is equipped with water pipe interface (44) of intaking, glass sharpen (55) top with be equipped with sap cavity (48) between glass sharpen sleeve (49), sap cavity (48) below is in be equipped with liquid outlet (47) in the glass sharpen (55) wall, glass sharpen (55) upper end outer wall is equipped with annular salient (46), annular salient (46) card is in seal liquid slider (45) towards in the draw-in groove of glass sharpen (55), glass sharpen (55) below is equipped with bistrique (57), bistrique (57) with glass sharpen (55) department of meeting is equipped with out liquid hole (58).

8. The glass edge grooving system of claim 7, wherein: the glass sharpening motor (52) is a motor with an air channel, the lower end of the motor is communicated with the rotating shaft dust channel (53), and the upper end of the motor is communicated with the dust collection cavity (51).

9. The glass edge grooving system of claim 7, wherein: the grinding head (57) is a special diamond grinding head, and the liquid outlet hole (58) is communicated with the liquid outlet channel (47).