CN210849553U

CN210849553U - Automatic edging of cutting of building glass marks production line

Info

Publication number: CN210849553U
Application number: CN201922034809.7U
Authority: CN
Inventors: 李世梅
Original assignee: Guizhou Dingyao Glass Co ltd
Current assignee: Guizhou Dingyao Glass Co ltd
Priority date: 2019-11-22
Filing date: 2019-11-22
Publication date: 2020-06-26
Anticipated expiration: 2029-11-22

Abstract

The utility model provides a building glass automatic edge grinding and marking production line of cutting, including reinforced transportation frame, the right side bolt of reinforced transportation frame has connect the casing of cutting, the positive right side bolt of the casing of cutting has connected a PLC control panel, the bottom bolt of the casing of cutting has connected first mount, the inner chamber of the casing of cutting is provided with cuts the mechanism, the right side bolt of the casing of cutting has the material conveying frame. The utility model discloses a cooperation of first push rod cylinder, first crane, first electric suction cup, spout, first electronic slide rail slide, xarm and the electronic slide rail slide of second can be cut into multiple monolithic glass to whole glass branch, through the cooperation of second push rod cylinder, second crane, the electronic sucking disc of second, step motor, rotation axis, carriage, motor, first edging roller, driving gear, driven gear and the second edging roller, can carry out the four sides edging operation to the glass after cutting.

Description

Automatic edging of cutting of building glass marks production line

Technical Field

The utility model relates to a building glass processing equipment field especially relates to a building glass is automatic to be cut edging and beats mark production line.

Background

With the development of modern science and technology, glass technology and the improvement of the living standard of people, the function of the building glass is not only to meet the lighting requirement, but also to have the characteristics of light regulation, heat preservation, heat insulation, safety (bulletproof, anti-theft, fireproof, radiation protection, electromagnetic wave interference resistance), artistic decoration and the like, and the main variety of the building glass is plate glass.

When a building worker carries out building construction, building glass is required to be used for protecting the periphery of a building, such as a glass curtain wall of the building, however, when the user carries out processing on the building glass, a processing production line is required, the existing production line cuts the glass, chamfering edging and marking are independently finished by different single equipment, the cut glass needs to be manually moved down from the cutting machine to be transported to a chamfering edging machine, then a piece of glass is manually moved to the chamfering edging machine for chamfering edging, because four edges of the glass need to be edged, generally, the chamfering edging machine can only grind two edges at a time, the glass after chamfering edging is manually moved to a marking position for marking, thereby greatly enhancing the working strength of the user, reducing the processing efficiency of the working on the building glass, and easily causing glass damage when the worker carries the glass manually, and simultaneously, the cost of glass production is also increased.

Therefore, it is necessary to provide an automatic cutting, edging and marking production line for building glass to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a building glass automatic cutout edging beats mark production line has solved the problem that current production line automation degree is low.

In order to solve the technical problem, the utility model provides an automatic edging and marking production line for building glass, which comprises a feeding and transporting frame, wherein the right side of the feeding and transporting frame is bolted with a slitting machine shell, the right side of the front side of the slitting machine shell is bolted with a first PLC control panel, the bottom of the slitting machine shell is bolted with a first fixing frame, the inner cavity of the slitting machine shell is provided with a slitting mechanism, the right side of the slitting machine shell is bolted with a conveying frame, the right side of the conveying frame is bolted with an edging machine shell, the right side of the top of the edging machine shell is bolted with a second PLC control panel, the bottom of the edging machine shell is bolted with a second fixing frame, the inner cavity of the edging machine shell is provided with an edging mechanism, the right side of the edging machine shell is bolted with a feeding and transporting frame, the center of the back of the, the marking head of the marking machine body is positioned right above the feeding and conveying frame.

Preferably, the slitting mechanism comprises a first push rod cylinder, a first lifting frame, a first electric sucking disc, a sliding groove, a first electric sliding rail sliding seat, a cross arm and a second electric sliding rail sliding seat, the first push rod cylinder is bolted at the center of the bottom of the inner cavity of the first fixing frame, the top of the first push rod cylinder penetrates through the slitting machine shell and is bolted with the first lifting frame, the first electric sucking disc is bolted at the periphery of the top of the first lifting frame, the sliding groove is transversely formed in the two sides of the top of the slitting machine shell, the first electric sliding rail sliding seat is slidably connected to the outer side of the sliding groove, the cross arm is transversely bolted at the center of one side of the first electric sliding rail sliding seat, the second electric sliding rail sliding seat is slidably connected to the center of the cross arm, and the cutting machine is bolted at the bottom of the second electric sliding rail sliding seat.

Preferably, the edging mechanism comprises a second push rod cylinder, a second lifting frame, a second electric suction cup, a stepping motor, a rotating shaft, a conveying frame, a motor, a first edging roller, a driving gear, a driven gear and a second edging roller, the second push rod cylinder is bolted at the center of the top of an inner cavity of the edging machine shell, the second lifting frame is bolted at the bottom of the second push rod cylinder, the second electric suction cup is bolted at the periphery of the bottom of the second lifting frame, the stepping motor is bolted at the center of the bottom of the inner cavity of the second fixing frame, the rotating shaft is bolted at an output shaft of the stepping motor, the top of the rotating shaft penetrates through the edging machine shell and is welded with the conveying frame, the conveying frame is positioned under the second lifting frame, the motor is bolted at the center of the back of the edging machine shell, the output shaft of the motor penetrates through the edging machine shell and is bolted with the first edging roller, and the back cover of output shaft is equipped with the driving gear, the left side meshing of driving gear has driven gear, driven gear's horizontal cover of inner chamber is equipped with the second edging roller, the inner chamber swing joint of bearing frame and edging casing body is passed through in the outside of first edging roller and second edging roller.

Preferably, first guardrails are transversely bolted on two sides of the top of the material conveying frame, a first infrared sensor is embedded in the center of the inner side of each first guardrail, a third fixing frame is bolted on the bottom of the material conveying frame, a third push rod cylinder is bolted on the center of the bottom of the inner cavity of the third fixing frame, a first material baffle plate is bolted on the top of the third push rod cylinder, and the inner cavity of the material conveying frame is penetrated through from the top of the first material baffle plate.

Preferably, the bottom of edging casing inner chamber is the annular slide rail of having seted up, the equal sliding connection in both sides of slide rail inner chamber has spacing round, the top of spacing round runs through the slide rail and passes through bearing frame swing joint with the bottom of carriage.

Preferably, the both sides at pay-off transportation frame top all transversely have bolted connection the second guardrail, the inboard of second guardrail inlays in proper order from a left side to the right side and is equipped with second infrared sensor, the bottom of pay-off transportation frame has bolted connection the fourth mount, the both sides of fourth mount inner chamber bottom center department have all bolted connection the fourth push rod cylinder, the top of fourth push rod cylinder has bolted connection the second fender board, the inner chamber to pay-off transportation frame is run through at the top of second fender board.

Preferably, the front and the back of the housing of the edge grinding machine are both provided with a heat dissipation grid from left to right, and the heat dissipation grid is arranged into an array structure.

Preferably, the both sides at reinforced transportation frame top all transversely have bolted connection the third guardrail, the bottom of reinforced transportation frame has bolted connection the fifth mount, the toolbox has been placed to the center department of fifth mount inner chamber bottom.

Compared with the prior art, the utility model provides a mark production line is beaten to automatic edging of cutting of building glass has following beneficial effect:

the utility model provides an automatic cutting, edging and marking production line for building glass,

1. the utility model discloses a first push rod cylinder, first crane, first electric sucking disc, the spout, first electric slide rail slide, the cooperation of xarm and the electronic slide rail slide of second, can divide whole glass and be cut into multiple monolithic glass, through second push rod cylinder, the second crane, the electronic sucking disc of second, step motor, the rotation axis, the carriage, including a motor, an end cap, a controller, and a cover plate, first edging roller, the driving gear, the cooperation of driven gear and second edging roller, can carry out the four sides edging operation to the glass after cutting, the degree of automation of production line has then been improved greatly, reduce the manual operation post, improve building glass's machining efficiency.

2. The utility model can orderly sense and block the cut glass by matching the first guardrail, the first infrared sensor, the third fixing frame, the third push rod cylinder and the first baffle plate, prevent a plurality of pieces of glass from entering the interior of the edging machine shell, enhance the rotation stability of the conveying frame by the limiting wheels and the sliding rails, avoid the track deviation when the conveying frame rotates, orderly sense and block the edge-ground glass by the second guardrail, the second infrared sensor, the fourth fixing frame, the fourth push rod cylinder and the second baffle plate, prevent a plurality of pieces of glass from entering the surface of the feeding conveying frame, facilitate the marking operation of the marking machine body on single glass orderly, set the marking machine body into an array structure by the heat dissipation grating, enhance the heat dissipation effect of the edging machine shell, prevent the building glass from falling from the surface of the conveying frame by the third guardrail, and pass through the fifth fixing frame and the tool box, the maintenance personnel of being convenient for carry out quick maintenance and maintenance to the production line.

Drawings

Fig. 1 is a schematic structural view of a preferred embodiment of an automatic cutting, edging and marking production line for building glass provided by the present invention;

FIG. 2 is a top view of the structure shown in FIG. 1;

figure 3 is a cross-sectional view of the construction of the housing of the edging machine shown in figure 1;

figure 4 is a partial top cross-sectional view of the housing structure of the edge grinding machine shown in figure 1.

Reference numbers in the figures: 1. a feeding and transporting frame; 2. a slitting machine shell; 3. a first PLC control panel; 4. a first fixing frame; 5. a slitting mechanism; 51. a first push rod cylinder; 52. a first lifting frame; 53. a first electric chuck; 54. a chute; 55. a first electric slide rail slide carriage; 56. a cross arm; 57. a second electric slide rail slide carriage; 6. a material conveying frame; 7. an edging machine housing; 8. a second PLC control panel; 9. a second fixing frame; 10. an edge grinding mechanism; 101. a second push rod cylinder; 102. a second lifting frame; 103. a second electric chuck; 104. a stepping motor; 105. a rotating shaft; 106. a carriage; 107. a motor; 108. a first edging roller; 109. a driving gear; 1010. a driven gear; 1011. a second edging roller; 11. a feeding and transporting rack; 12. a marking machine body; 13. a first guardrail; 14. a first infrared sensor; 15. a third fixing frame; 16. a third push rod cylinder; 17. a first striker plate; 18. a limiting wheel; 19. a slide rail; 20. a second guard rail; 21. a second infrared sensor; 22. a fourth fixing frame; 23. a fourth push rod cylinder; 24. a second retainer plate; 25. a third guardrail; 26. and a fifth fixing frame.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and embodiments.

Please refer to fig. 1, fig. 2, fig. 3 and fig. 4 in combination, wherein fig. 1 is a schematic structural diagram of a preferred embodiment of an automatic building glass slitting edging marking production line provided by the present invention, fig. 2 is a top structural view of fig. 1, fig. 3 is a sectional view of an edging housing structure shown in fig. 1, fig. 4 is a partial top sectional view of the edging housing structure shown in fig. 1, and the automatic building glass slitting edging marking production line includes a feeding transport frame 1, a slitting housing 2 is bolted to a right side of the feeding transport frame 1, a first PLC control panel 3 is bolted to a right side of a front surface of the slitting housing 2, a first fixing frame 4 is bolted to a bottom of the slitting housing 2, a slitting mechanism 5 is disposed in an inner cavity of the slitting housing 2, a feeding frame 6 is bolted to the right side of the slitting housing 2, a feeding frame housing 7 is bolted to the right side of the feeding frame 6, the right side of edging casing 7 top has bolted connection second PLC control panel 8, the bottom of edging casing 7 has bolted connection second mount 9, the inner chamber of edging casing 7 is provided with edging mechanism 10, the right side of edging casing 7 has bolted connection pay-off transport frame 11, the central department bolted connection at the pay-off transport frame 11 back has marking machine body 12, marking head of marking machine body 12 is located pay-off transport frame 11 directly over.

The slitting mechanism 5 comprises a first push rod cylinder 51, a first lifting frame 52, a first electric suction cup 53, a sliding groove 54, a first electric sliding rail sliding seat 55, a cross arm 56 and a second electric sliding rail sliding seat 57, the first push rod cylinder 51 is bolted at the center of the bottom of the inner cavity of the first fixing frame 4, the top of the first push rod cylinder 51 penetrates through the slitting machine shell 2 and is bolted with the first lifting frame 52, the first electric suction cup 53 is bolted at the periphery of the top of the first lifting frame 52, the sliding grooves 54 are transversely formed at two sides of the top of the slitting machine shell 2, the outer side of the sliding groove 54 is slidably connected with the first electric sliding rail sliding seat 55, the cross arm 56 is transversely bolted at the center of one opposite side of the first electric sliding rail sliding seat 55, the second electric sliding rail sliding seat 57 is slidably connected at the center of the cross arm 56, and the cutting machine is bolted at the bottom of the second electric sliding rail sliding seat, the whole glass can be cut into a plurality of single pieces of glass through the matching of the first push rod air cylinder 51, the first lifting frame 52, the first electric suction cup 53, the sliding chute 54, the first electric slide rail sliding seat 55, the cross arm 56 and the second electric slide rail sliding seat 57.

The edge grinding mechanism 10 comprises a second push rod cylinder 101, a second lifting frame 102, a second electric suction cup 103, a stepping motor 104, a rotating shaft 105, a conveying frame 106, a motor 107, a first edge grinding roller 108, a driving gear 109, a driven gear 1010 and a second edge grinding roller 1011, the second push rod cylinder 101 is bolted at the center of the top of the inner cavity of the edge grinding machine shell 7, the second lifting frame 102 is bolted at the bottom of the second push rod cylinder 101, the second electric suction cup 103 is bolted at the periphery of the bottom of the second lifting frame 102, the stepping motor 104 is bolted at the center of the bottom of the inner cavity of the second fixing frame 9, the rotating shaft 105 is bolted at the output shaft of the stepping motor 104, the top of the rotating shaft 105 penetrates through the edge grinding machine shell 7 and is welded with the conveying frame 106, the conveying frame 106 is positioned under the second lifting frame 102, the motor 107 is bolted at the center of the right side of the back of the edge grinding, the output shaft of motor 107 runs through edging casing 7 and bolted connection has first edging roller 108, and the back cover of output shaft is equipped with driving gear 109, the left side meshing of driving gear 109 has driven gear 1010, the horizontal cover of driven gear 1010's inner chamber is equipped with second edging roller 1011, the inner chamber swing joint of bearing frame and edging casing 7 is passed through in first edging roller 108 and second edging roller 1011's the outside, through the cooperation of second push rod cylinder 101, second crane 102, second electric suction cup 103, step motor 104, rotation axis 105, carriage 106, motor 107, first edging roller 108, driving gear 109, driven gear 1010 and second edging roller 1011, can carry out the four sides edging operation to the glass after cutting.

First guardrail 13 has all transversely been bolted in the both sides at defeated work or material rest 6 top, the center department of first guardrail 13 inboard inlays and is equipped with first infrared sensor 14, defeated work or material rest 6's bottom is bolted and is connected third mount 15, the center department bolt of third mount 15 inner chamber bottom has third push rod cylinder 16, the top bolt of third push rod cylinder 16 has first striker plate 17, the inner chamber to defeated work or material rest 6 is run through at the top of first striker plate 17, through the cooperation of first guardrail 13, first infrared sensor 14, third mount 15, third push rod cylinder 16 and first striker plate 17, can carry out orderly response to the glass after cutting and block, avoids polylith glass to get into inside edging casing 7.

Slide rail 19 has been seted up to the bottom annular of edging casing 7 inner chamber, the equal sliding connection in both sides in slide rail 19 inner chamber has spacing round 18, slide rail 19 is run through and bearing frame swing joint is passed through with the bottom of carriage 106 in the top of spacing round 18, through spacing round 18 and slide rail 19, strengthens carriage 106's stability to rotate, appears the orbit skew when avoiding carriage 106 to rotate.

The both sides at 11 tops of pay-off transportation frame all transversely have bolted connection second guardrail 20, the inboard of second guardrail 20 has inlayed second infrared sensor 21 from a left side to the right side in proper order, the bottom of pay-off transportation frame 11 has bolted connection fourth mount 22, the both sides of the center department of fourth mount 22 inner chamber bottom have all bolted connection fourth push rod cylinder 23, the top of fourth push rod cylinder 23 has bolted connection second fender 24, the inner chamber to pay-off transportation frame 11 is run through at the top of second fender 24, through second guardrail 20, second infrared sensor 21, fourth mount 22, fourth push rod cylinder 23 and second fender 24, can carry out the response in order to the glass after the edging and block, avoids polylith glass to get into pay-off transportation frame 11 surfaces, and the mark operation is carried out to single glass in order to marking machine body 12 of being convenient for.

The radiator grille has all been seted up from a left side to the right side in the front and the back of edging casing body 7, and the radiator grille sets up to array column structure, sets up to array column structure through the radiator grille, and reinforcing edging casing body 7's radiating effect through third guardrail 25, prevents that building glass from taking place to drop from reinforced transportation frame 1 surface.

The both sides at reinforced transport frame 1 top all transversely have bolted connection the third guardrail 25, through third guardrail 25, prevent that building glass from taking place to drop from reinforced transport frame 1 surface, the bottom of reinforced transport frame 1 has bolted connection fifth mount 26, the toolbox has been placed to the center department of fifth mount 26 inner chamber bottom, and through fifth mount 26 and toolbox, the maintainer of being convenient for carries out quick maintenance and maintenance to the production line.

The utility model provides a building glass automatic cutout edging beats mark production line's theory of operation as follows:

a user slowly and orderly puts building glass on the surface of the feeding and transporting frame 1, then the feeding and transporting frame 1 transports the building glass to the surface of a first lifting frame 52, a first PLC control panel 3 controls four first electric suction cups 53 to adsorb and fix four corners of the bottom of the building glass, then a first push rod air cylinder 51 drives the first lifting frame 52 and the building glass to ascend, then a first electric slide rail slide seat 55 drives a cross arm 56 and a second electric slide rail slide seat 57 to carry out left and right adjustment, the second electric slide rail slide seat 57 drives a cutting machine to carry out front and back adjustment, so that the cutting machine cuts the whole building glass into a plurality of pieces of glass, then the cut glass is transported by a transporting frame 6, an instruction is sent to the first PLC control panel 3 through a first infrared sensor 14, then the first PLC control panel 3 controls a third push rod air cylinder 16 to drive a first material baffle plate 17 to orderly isolate and block the cut glass, conveying a single piece of glass to the surface of the conveying frame 106, controlling a second push rod cylinder 101 to drive a second lifting frame 102 to move downwards by a second PLC control panel 8, adsorbing and fixing four corners of the top of the glass by four second electric suction cups 103, moving the glass to the surfaces of a first edging roller 108 and a second edging roller 1011 by the second push rod cylinder 101 through the second electric suction cups 103, driving a driven gear 1010 to rotate by a motor 107 through a driving gear 109, so that the first edging roller 108 and the second edging roller 1011 are driven by the motor 107 to grind two sides of the glass, similarly, driving the second lifting frame 102 to move downwards by the second push rod cylinder 101, loosening the glass by the four second electric suction cups 103, re-placing the glass on the surface of the conveying frame 106, driving the conveying frame 106 to rotate for one circle by a stepping motor 104 through a rotating shaft 105, and attaching the other two sides of the glass to the surfaces of the first edging roller 108 and the second edging roller 1011, in a similar way, first edging roller 108 and second edging roller 1011 carry out the edging operation to the other two limits of glass, then the back is accomplished in the glass edging, glass is carried to marking machine body 12 under by pay-off transport frame 11, send the instruction to second PLC control panel 8 through second infrared sensor 21 simultaneously, then 8 control fourth push rod cylinders of second PLC control panel 23 drive second fender board 24 upwards carry out orderly spacing to the glass after the edging and block, then marking machine body 12 beats the mark operation through beating the mark head to monolithic glass, accomplish the automatic edging marking operation of cutting promptly.

Compared with the prior art, the utility model provides a pair of mark production line is beaten to building glass automatic cutout edging has following beneficial effect:

the utility model discloses a first push rod cylinder 51, first crane 52, first electric suction cup 53, spout 54, first electric slide rail slide carriage 55, the cooperation of xarm 56 and second electric slide rail slide carriage 57, can divide and cut into multiple monolithic glass to whole glass, through the cooperation of second push rod cylinder 101, second crane 102, second electric suction cup 103, step motor 104, rotation axis 105, carriage 106, motor 107, first edging roller 108, driving gear 109, driven gear 1010 and second edging roller 1011, can carry out the four sides edging operation to the glass after cutting, then greatly improved the degree of automation of production line, reduce manual operation post, improve architectural glass's machining efficiency;

the utility model can orderly sense and block the cut glass by matching the first guardrail 13, the first infrared sensor 14, the third fixing frame 15, the third push rod cylinder 16 and the first baffle plate 17, prevent a plurality of pieces of glass from entering the interior of the edging machine shell 7, enhance the rotational stability of the conveying frame 106 by the limiting wheel 18 and the slide rail 19, avoid the track deviation when the conveying frame 106 rotates, orderly sense and block the edge-polished glass by the second guardrail 20, the second infrared sensor 21, the fourth fixing frame 22, the fourth push rod cylinder 23 and the second baffle plate 24, prevent a plurality of pieces of glass from entering the surface of the feeding conveying frame 11, facilitate the marking operation of single piece of glass by the marking machine body 12, set into an array structure by a heat dissipation grid, enhance the heat dissipation effect of the edging machine shell 7, prevent the building glass from falling from the surface of the feeding conveying frame 1 by the third guardrail 25, through the fifth fixing frame 26 and the tool box, the production line can be maintained and maintained quickly by the maintainer.

The above only is the embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structures or equivalent processes of the present invention are used in the specification and the attached drawings, or directly or indirectly applied to other related technical fields, and the same principle is included in the protection scope of the present invention.

Claims

1. The utility model provides a building glass automatic cutout edging beats mark production line, includes reinforced transport frame (1), its characterized in that: the right side of the feeding transportation frame (1) is bolted with a slitting machine shell (2), the right side of the front side of the slitting machine shell (2) is bolted with a first PLC control panel (3), the bottom of the slitting machine shell (2) is bolted with a first fixing frame (4), the inner cavity of the slitting machine shell (2) is provided with a slitting mechanism (5), the right side of the slitting machine shell (2) is bolted with a material conveying frame (6), the right side of the material conveying frame (6) is bolted with an edge grinding machine shell (7), the right side of the top of the edge grinding machine shell (7) is bolted with a second PLC control panel (8), the bottom of the edge grinding machine shell (7) is bolted with a second fixing frame (9), the inner cavity of the edge grinding machine shell (7) is provided with an edge grinding mechanism (10), the right side of the edge grinding machine shell (7) is bolted with a feeding transportation frame (11), the center of the back of the feeding transportation frame (11, the marking head of the marking machine body (12) is positioned right above the feeding and conveying frame (11).

2. The automatic cutting, edging and marking production line for building glass according to claim 1, wherein the cutting mechanism (5) comprises a first push rod cylinder (51), a first lifting frame (52), a first electric suction cup (53), a sliding groove (54), a first electric slide rail sliding seat (55), a cross arm (56) and a second electric slide rail sliding seat (57), the first push rod cylinder (51) is bolted at the center of the bottom of the inner cavity of the first fixing frame (4), the top of the first push rod cylinder (51) penetrates through the cutter shell (2) and is bolted with the first lifting frame (52), the first electric suction cup (53) is bolted at the periphery of the top of the first lifting frame (52), the sliding groove (54) is transversely arranged at both sides of the top of the cutter shell (2), and the first electric slide rail sliding seat (55) is slidably connected to the outer side of the sliding groove (54), a cross arm (56) is transversely bolted at the center of one opposite side of the first electric sliding rail sliding seat (55), a second electric sliding rail sliding seat (57) is slidably connected at the center of the cross arm (56), and a cutting machine is bolted at the bottom of the second electric sliding rail sliding seat (57).

3. The automatic building glass slitting, edging and marking production line according to claim 1, wherein the edging mechanism (10) comprises a second push rod cylinder (101), a second lifting frame (102), a second electric suction cup (103), a stepping motor (104), a rotating shaft (105), a conveying frame (106), a motor (107), a first edging roller (108), a driving gear (109), a driven gear (1010) and a second edging roller (1011), the second push rod cylinder (101) is bolted at the center of the top of the inner cavity of the edging machine shell (7), the second lifting frame (102) is bolted at the bottom of the second push rod cylinder (101), the second electric suction cup (103) is bolted at the periphery of the bottom of the second lifting frame (102), the stepping motor (104) is bolted at the center of the bottom of the inner cavity of the second fixing frame (9), the rotating shaft (105) is bolted at the output shaft of the stepping motor (104), the top of rotation axis (105) runs through edging casing body (7) and the welding has carriage (106), carriage (106) are located second crane (102) under, the center department bolt on edging casing body (7) back right side has motor (107), the output shaft of motor (107) runs through edging casing body (7) and bolt has first edging roller (108), and the back cover of output shaft is equipped with driving gear (109), the left side meshing of driving gear (109) has driven gear (1010), the horizontal cover of inner chamber of driven gear (1010) is equipped with second edging roller (1011), the inner chamber swing joint of bearing frame and edging casing body (7) is passed through in the outside of first edging roller (108) and second edging roller (1011).

4. The automatic cutting, edging and marking production line for building glass according to claim 1, wherein first guardrails (13) are transversely bolted on two sides of the top of the material conveying frame (6), a first infrared sensor (14) is embedded in the center of the inner side of each first guardrail (13), a third fixing frame (15) is bolted on the bottom of the material conveying frame (6), a third push rod cylinder (16) is bolted on the center of the bottom of the inner cavity of the third fixing frame (15), a first material baffle plate (17) is bolted on the top of the third push rod cylinder (16), and the top of the first material baffle plate (17) penetrates through the inner cavity of the material conveying frame (6).

5. The automatic cutting, edging and marking production line for building glass according to claim 1 or 3, wherein a slide rail (19) is annularly arranged at the bottom of an inner cavity of the edging machine shell (7), both sides of the inner cavity of the slide rail (19) are slidably connected with a limiting wheel (18), and the top of the limiting wheel (18) penetrates through the slide rail (19) and is movably connected with the bottom of the conveying frame (106) through a bearing seat.

6. An automatic cutting, edging and marking production line for building glass according to claim 1, characterized in that both sides of the top of the feeding transportation frame (11) are transversely bolted with second guardrails (20), the inner sides of the second guardrails (20) are sequentially embedded with second infrared sensors (21) from left to right, the bottom of the feeding transportation frame (11) is bolted with a fourth fixing frame (22), both sides of the center of the bottom of the inner cavity of the fourth fixing frame (22) are bolted with a fourth push rod cylinder (23), the top of the fourth push rod cylinder (23) is bolted with a second retainer plate (24), and the top of the second retainer plate (24) penetrates through the inner cavity of the feeding transportation frame (11).

7. The automatic cutting, edging and marking production line for building glass according to claim 1, wherein the front and back of the edge grinding machine shell (7) are provided with heat dissipation grids from left to right, and the heat dissipation grids are arranged in an array structure.

8. An automatic cutting, edging and marking production line for building glass according to claim 1, characterized in that both sides of the top of the feeding transportation frame (1) are transversely bolted with third guardrails (25), the bottom of the feeding transportation frame (1) is bolted with a fifth fixing frame (26), and a tool box is placed at the center of the bottom of the inner cavity of the fifth fixing frame (26).