CN210103763U

CN210103763U - Full-automatic glass breaks mascerating machine off with fingers and thumb

Info

Publication number: CN210103763U
Application number: CN201920668520.8U
Authority: CN
Inventors: 倪璐
Original assignee: CHAOYANG GLASS MACHINE INSTITUTE OF ANHUI
Current assignee: CHAOYANG GLASS MACHINE INSTITUTE OF ANHUI
Priority date: 2019-05-10
Filing date: 2019-05-10
Publication date: 2020-02-21
Anticipated expiration: 2029-05-10

Abstract

The utility model relates to a full-automatic glass breaks mascerating machine off with fingers and thumb by two sets of piece transport mechanism and breaks a mechanism group off with fingers and thumb and constitutes, break a transport mechanism off with fingers and thumb including breaking a rack, transmission motor, transmission main shaft, main shaft bearing frame, sprocket, conveying hold-in range and straining device off with fingers and thumb, break a mechanism off with fingers and thumb including connecting seat, upper portion running gear, upper portion pole mechanism off with fingers and thumb and the lower part pole mechanism off with fingers and thumb, be equipped with spacing gyro wheel on the connecting seat, upper portion running gear and lower part and break a mechanism off with fingers and thumb, upper portion breaks a mechanism off with fingers and thumb and sets up in upper portion running gear, and upper portion breaks a mechanism, lower part and breaks a mechanism off with fingers and thumb. The utility model has the advantages that: the glass sheet breaking machine can break glass sheets according to the needed size, automatically break the edge of the front end of the glass to ensure that the two sides of the glass are 90-degree vertical, all processing procedures can be integrated in a production line for processing, all the processing procedures are completed automatically, and the glass sheet breaking machine is efficient, safe and reliable.

Description

Full-automatic glass breaks mascerating machine off with fingers and thumb

Technical Field

The utility model belongs to glass processing equipment field, in particular to full-automatic glass breaks mascerating machine off with fingers and thumb.

Background

The glass severing machine is a processing machine for severing glass severing, generally adopts manual operation, and is formed from air-float conveying and pneumatic ejector rod severing device, and can be used for automatically severing glass severing by aligning the cut glass cutting line with the ejector rod, lightly stepping on the switch and lifting the pneumatic ejector rod, so that the severing opening is neat and smooth, and its operation is simple. However, the existing sheet breaking table structure cannot break sheets continuously in an assembly line, is low in production efficiency and poor in universality, and cannot meet the requirements of modern production.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome the defects of low production efficiency, poor universality and the like of the existing glass breaking machine, and provides a full-automatic glass breaking machine.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the full-automatic glass breaking machine comprises two groups of glass breaking transmission mechanisms and glass breaking mechanisms, wherein the tails of the two groups of glass breaking transmission mechanisms are oppositely arranged in the glass conveying direction, the glass breaking mechanisms are arranged in the middle of the two groups of glass breaking transmission mechanisms, and the glass breaking mechanisms are connected with the front glass breaking transmission mechanisms and the rear glass breaking transmission mechanisms through bolts.

Piece transport mechanism breaks off with fingers and thumb, including breaking off with fingers and thumb piece rack, transmission motor, transmission main shaft, main shaft bearing frame, sprocket, conveying hold-in range and straining device, break off with fingers and thumb piece rack for square tube welded structure, be equipped with conveying hold-in range on breaking off with fingers and thumb the mesa of piece rack, break off with fingers and thumb the one end of piece rack mesa and be equipped with the transmission main shaft, the transmission main shaft passes through the main shaft bearing frame and installs on breaking off with fingers and thumb piece rack, the one end and the transmission main shaft of conveying hold-in range are connected, are equipped with the transmission motor on breaking off with fingers and thumb piece rack of transmission main shaft below, and.

The sheet severing mechanism comprises a connecting seat, an upper part travelling mechanism, an upper part bar severing mechanism and a lower part bar severing mechanism, wherein the connecting seat is provided with the upper part travelling mechanism and the lower part bar severing mechanism, and the upper part bar severing mechanism is arranged in the upper part travelling mechanism; the upper breaking-off rod mechanism and the lower breaking-off rod mechanism are matched to clamp and break off the glass.

The connecting seat comprises a main beam frame, a traveling rack, a traveling guide rail, a lower breaking-off rod cylinder seat, a lower crank lever fulcrum, a lifting slider, a connecting plate and a limiting roller wheel, wherein the main beam frame is of a square tube welding structure, and two ends of the upper plane of the main beam frame are respectively provided with a group of traveling racks and traveling guide rails so as to be matched with an upper traveling mechanism to move; one end of a lower beam of the main beam frame is provided with a lower breaking-off rod cylinder seat, the lower beam is provided with a lower curved rod fulcrum, and the middle parts of one side surfaces of two vertical beams at two ends are respectively provided with a lifting slide block so as to be matched with the lower breaking-off rod mechanism to move; two connecting plates are respectively arranged on two side surfaces of the vertical beams at two ends of the main beam frame and are used for connecting the front group of sheet breaking-off transmission mechanisms and the rear group of sheet breaking-off transmission mechanisms; and a group of limiting rollers are respectively arranged on two sides of a cross beam on the upper part of the main beam frame, and when the glass is broken off, the upper parts of the glass on two sides of the broken glass are acted together with the breaking-off rod to form shearing force on the left and right of the cutting line of the glass so as to break off the glass.

The upper walking mechanism comprises a walking frame, a walking motor, a walking synchronous belt, a walking shaft, a bearing seat, a walking gear, a walking slider, an upper breaking-off rod cylinder seat, an upper crank lever fulcrum and a guide hole, wherein the walking frame is of a square tube welding structure, the two ends of the walking frame are provided with the walking sliders, and the walking sliders are matched with a walking guide rail on the connecting seat; a walking motor is arranged on the outer side of one end of the walking frame, two ends of a walking shaft are arranged on the walking frame through a bearing seat, one end of the walking shaft is connected with the walking motor through a walking synchronous belt, two ends of the walking shaft are provided with walking gears, the walking gears are matched with walking racks on the connecting seat, the walking gears on the upper walking mechanism are meshed with the walking racks on the connecting seat, and the upper piece breaking mechanism is driven to move to an appointed station under the guiding action of a walking slider; the other end of the walking frame is provided with an upper breaking-off rod cylinder seat, and a cross beam of the walking frame is provided with an upper crank rod fulcrum and a guide hole so as to be matched with the upper breaking-off rod mechanism to move.

The upper rod wrestling mechanism comprises an upper rod wrestling cylinder, an upper swing rod, an upper curved rod, a curved rod sliding block, a sliding block guide rail, a guide shaft and an upper wrestling rod, the tail part of the upper rod wrestling cylinder is arranged on an upper wrestling cylinder seat at one end of the upper walking mechanism walking frame, and a piston rod of the upper rod wrestling cylinder is connected with the upper part of the upper swing rod; the upper swing rod is connected with an upper breaking-off rod horizontally arranged below through an upper curved rod, a curved rod sliding block and a sliding block guide rail, a rotating fulcrum of the upper curved rod is fixed on an upper curved rod fulcrum of a beam of the traveling frame of the upper traveling mechanism, the upper end of the upper curved rod is connected with the upper swing rod, the lower end of the upper curved rod is connected with the curved rod sliding block, the curved rod sliding block is connected with the sliding block guide rail in a matched mode, and the sliding block guide rail is arranged on the upper plane of the upper breaking-off rod; the upper plane of the upper breaking rod is provided with a vertical guide shaft, and the guide shaft upwards penetrates through a guide hole in a beam of the walking frame of the upper walking mechanism; the upper swing rod drives the upper curved rod to rotate through the pushing of the upper breaking rod cylinder, so that the upper breaking rod is pushed to move up and down under the action of the guide shaft, a limiting support is provided by the curved rod sliding block and the sliding block guide rail, and the upper breaking rod moves up and down.

The lower breaking-off rod mechanism comprises a lower breaking-off rod cylinder, a lower swing rod, a lower curved rod, a roller, a lower breaking-off rod and a lifting guide rail, the tail part of the lower breaking-off rod cylinder is arranged on a lower breaking-off rod cylinder seat of a lower cross beam of the connecting seat, a piston rod of the lower breaking-off rod cylinder is connected to the lower part of the lower swing rod, and the two ends of the lower swing rod are provided with the lower curved rod; the rotary fulcrum of the lower curved lever is fixed on the lower curved lever fulcrum below the lower cross beam of the connecting seat, the lower end of the lower curved lever is connected with the lower swing rod, the upper end of the lower curved lever is provided with a roller, a lower breaking-off lever is arranged above the roller, and the surface of the roller is in contact fit with the lower plane of the lower breaking-off lever; one side surface of the two ends of the lower breaking rod is provided with a lifting guide rail which is matched with a lifting slide block arranged on vertical beams at the two ends of the connecting seat; the lower swing rod drives the lower curved rod to rotate by the pushing of the lower breaking rod cylinder, the lifting guide rail fixed on the lower breaking rod is pushed to move up and down by taking the lifting slide block as a guide, and the up-and-down movement of the lower breaking rod mechanism is controlled.

Preferably, at least two groups of conveying synchronous belts are arranged on the sheet breaking and conveying mechanism so as to adapt to different specifications of glass and ensure stable conveying of the glass.

The working principle is as follows:

after the glass is cut by the multi-cutter-head glass cutting machine in the previous process, conveying the glass onto the full-automatic glass severing machine;

the sheet breaking and conveying mechanism conveys the front end of the glass into the connecting seat;

the upper part walking mechanism drives the upper part breaking-off rod mechanism to move, the upper part breaking-off rod mechanism is driven by the walking motor, the upper breaking-off rod reaches the upper end of the front part of the glass, and then the lower breaking-off rod of the lower part breaking-off rod mechanism is ejected out; at the moment, the upper breaking-off rod is positioned 20mm behind the front cutting line of the glass, is stuck above the glass and keeps still, and the lower breaking-off rod is positioned right below the glass cutting line and pushes upwards; the upper breaking-off rod and the lower breaking-off rod form a shearing force at the position of the glass cutting line, so that small pieces at the edge of the front end of the glass are cut off to ensure that the front end of the glass forms a 90-degree angle with two sides;

the upper breaking-off rod retreats, and the upper walking mechanism drives the upper breaking-off rod mechanism to reach the position which is right above the lower breaking-off rod and is about 10mm away from the upper plane of the glass;

under the action of the sheet breaking and conveying mechanism, the glass advances for a certain distance to enable the middle cutting line of the glass to be positioned right above the lower breaking and snapping rod, the lower breaking and snapping rod is ejected out, the ejected lower breaking and snapping rod drives the glass to move upwards together, the limiting rollers arranged on the connecting seat are positioned on two sides of the surface of the glass which moves upwards, the limiting rollers on the two sides and the lower breaking and snapping rod form a shearing force on the glass together, and the glass is broken at the moment because the front-stage process cuts a notch on the glass;

after the above processes are completed, the broken glass continues to travel under the action of the conveying synchronous belt of the sheet breaking and conveying mechanism, and then enters the next station.

The utility model has the advantages that: the full-automatic glass breaking machine can break glass pieces according to the required size, automatically breaks the edge of the front end of the glass to ensure that the two sides of the glass are 90-degree vertical, all processing procedures can be integrated in a production line for processing, and the whole procedure is completed automatically, and is efficient, safe and reliable.

Drawings

Fig. 1 is a schematic perspective view of an embodiment of the present invention.

Fig. 2 is a schematic perspective view of the sheet breaking-off transmission mechanism in the embodiment of the present invention.

Fig. 3 is a schematic perspective view of a sheet severing mechanism according to an embodiment of the present invention.

Fig. 4 is a schematic perspective view of a connection seat according to an embodiment of the present invention.

Fig. 5 is a schematic perspective view of an upper portion traveling mechanism according to an embodiment of the present invention.

Fig. 6 is a schematic perspective view of an upper breaking-off mechanism in an embodiment of the present invention.

Fig. 7 is a schematic perspective view of the downward rod-severing mechanism according to the embodiment of the present invention.

In the figure: 1-piece breaking transmission mechanism, 11-piece breaking rack, 12-transmission main shaft, 13-chain wheel, 14-transmission motor, 15-main shaft bearing seat, 16-transmission synchronous belt, 17-tensioning mechanism, 2-piece breaking mechanism, 3-connecting seat, 31-main beam frame, 32-walking rack, 33-walking guide rail, 34-lifting slide block, 35-connecting plate, 36-lower curved bar fulcrum, 37-limiting roller, 38-lower curved bar cylinder seat, 4-upper walking mechanism, 41-walking motor, 42-walking synchronous belt, 43-walking shaft, 44-upper curved bar fulcrum, 45-guiding hole, 46-walking rack, 47-upper curved bar cylinder seat, 48-bearing seat, 49-walking gear and 50-walking slide block, 5-upper breaking rod mechanism, 51-upper curved rod, 52-curved rod sliding block, 53-upper swing rod, 54-sliding block guide rail, 55-guide shaft, 56-upper breaking rod, 57-upper breaking rod cylinder, 6-lower breaking rod mechanism, 61-lower breaking rod, 62-lifting guide rail, 63-roller, 64-lower curved rod, 65-lower swing rod and 66-lower breaking rod cylinder.

Detailed Description

The technical solution of the present invention is further described in detail below with reference to the following embodiments and the accompanying drawings:

referring to fig. 1, the full-automatic glass breaking machine comprises two groups of glass breaking transmission mechanisms 1 and two groups of glass breaking transmission mechanisms 2, wherein the tails of the two groups of glass breaking transmission mechanisms 1 are oppositely arranged in the glass conveying direction, the glass breaking transmission mechanisms 2 are arranged in the middle of the two groups of glass breaking transmission mechanisms 1, and the glass breaking transmission mechanisms 1 and the front and rear glass breaking transmission mechanisms 2 are connected through bolts.

As shown in fig. 2, the sheet severing transmission mechanism 1 includes a sheet severing rack 11, a transmission main shaft 12, a chain wheel 13, a transmission motor 14, a main shaft bearing seat 15, a transmission synchronous belt 16 and a tensioning mechanism 17, wherein the sheet severing rack 11 is a square tube welding structure, eight sets of transmission synchronous belts 16 are arranged on a table top of the sheet severing rack 11, the transmission main shaft 12 is arranged at one end of the table top of the sheet severing rack 11, the transmission main shaft 12 is mounted on the sheet severing rack 11 through the main shaft bearing seat 15, one end of the transmission synchronous belt 16 is connected with the transmission main shaft 12, the transmission motor 14 is arranged on the sheet severing rack 11 below the transmission main shaft 12, the transmission motor 14 is connected with the transmission main shaft 12 through the chain wheel 13, and the tensioning mechanism 17 is arranged at the other end.

As shown in fig. 3, 4, 5, 6 and 7, the sheet severing mechanism 2 includes a connecting seat 3, an upper traveling mechanism 4, an upper severing bar mechanism 5 and a lower severing bar mechanism 6, the connecting seat 3 is provided with the upper traveling mechanism 4 and the lower severing bar mechanism 6, and the upper severing bar mechanism 5 is disposed in the upper traveling mechanism 4.

As shown in fig. 4, the connecting base 3 includes a main beam frame 31, a traveling rack 32, a traveling guide rail 33, a lifting slider 34, a connecting plate 35, a lower crank fulcrum 36, a limiting roller 37 and a lower arm-breaking cylinder block 38, the main beam frame 31 is a square tube welded structure, two sets of traveling racks 32 and traveling guide rails 33 which are oppositely arranged are arranged at two ends of the upper plane of the main beam frame 31, and the traveling guide rails 33 are arranged inside the traveling racks 32; one end of the lower beam of the main beam frame 31 is provided with a lower breaking-off rod cylinder seat 38, the lower beam is provided with two lower curved rod fulcrums 36, and the middle parts of one side surfaces of the vertical beams at two ends are respectively provided with a lifting slide block 34; two connecting plates 35 are respectively arranged on two side faces of the vertical beams at two ends of the main beam frame 31; two lateral beams on the upper part of the main beam frame 31 are respectively provided with a group of limiting rollers 37.

As shown in fig. 5, the upper traveling mechanism 4 includes a traveling motor 41, a traveling synchronous belt 42, a traveling shaft 43, an upper crank fulcrum 44, a guide hole 45, a traveling frame 46, an upper arm-breaking cylinder seat 47, a bearing seat 48, a traveling gear 49 and a traveling slider 50, wherein the traveling frame 46 is a square tube welded structure, the traveling sliders 50 are arranged at two ends of the traveling frame 46, and the traveling sliders 50 are matched with the traveling guide rail 33 on the connecting seat 3; the walking motor 41 is arranged on the side surface of one end of the walking frame 46, two ends of the walking shaft 43 are arranged on the walking frame 46 through bearing seats 48, one end of the walking shaft 43 is connected with the walking motor 41 through a walking synchronous belt 42, two ends of the walking shaft 43 are provided with walking gears 49, and the walking gears 49 are matched with the walking racks 32 on the connecting seats 3; one end of the walking frame 46 is provided with an upper breaking rod cylinder seat 47, and the cross beam of the walking frame 46 is provided with three upper crank rod fulcrums 44 and two guide holes 45.

As shown in fig. 6, the upper arm-wrestling mechanism 5 includes an upper curved bar 51, a curved bar slider 52, an upper swing bar 53, a slider guide 54, a guide shaft 55, an upper arm-wrestling bar 56 and an upper arm-wrestling bar cylinder 57, wherein the tail of the upper arm-wrestling bar cylinder 57 is disposed on the upper arm-wrestling bar cylinder seat 47 at one end of the traveling frame 46 of the upper traveling mechanism 4, and the piston rod of the upper arm-wrestling bar cylinder 57 is connected to the upper part of the upper swing bar 53; the upper swing rod 53 is connected with an upper breaking-off rod 56 horizontally arranged below through an upper curved rod 51, a curved rod sliding block 52 and a sliding block guide rail 54, a rotating fulcrum of the upper curved rod 51 is fixed on an upper curved rod fulcrum 44 of a cross beam of the traveling frame 46 of the upper traveling mechanism 4, the upper end of the upper curved rod 51 is connected with the upper swing rod 53, the lower end of the upper curved rod 51 is connected with the curved rod sliding block 52, the curved rod sliding block 52 is connected with the sliding block guide rail 54 in a matched manner, and the sliding block guide rail 54 is arranged on the upper plane of the upper breaking-off rod 56; two vertical guide shafts 55 are arranged on the upper plane of the upper breaking-off rod 56, and the guide shafts 55 upwardly penetrate through guide holes 45 arranged on the cross beam of the travelling rack 46 of the upper travelling mechanism 4.

As shown in fig. 7, the lower breaking-off mechanism 6 includes a lower breaking-off rod 61, a lifting guide rail 62, a roller 63, a lower curved rod 64, a lower swing rod 65 and a lower breaking-off rod cylinder 66, wherein the tail of the lower breaking-off rod cylinder 66 is arranged on the lower breaking-off rod cylinder seat 38 of the lower beam of the connecting seat 3, the piston rod of the lower breaking-off rod cylinder 66 is connected to the lower portion of the lower swing rod 65, and the two ends of the lower swing rod 65 are provided with the lower curved rod 64; the rotating fulcrum of the lower curved lever 64 is fixed on the lower curved lever fulcrum 36 below the lower cross beam of the connecting seat 3, the lower end of the lower curved lever 64 is connected with a lower swing lever 65, the upper end of the lower curved lever 64 is provided with a roller 65, a lower snapping lever 61 is arranged above the roller 65, and the surface of the roller 65 is in contact fit with the lower plane of the lower snapping lever 61; one side of the two ends of the downward snapping rod 61 is provided with a lifting guide rail 62 which is matched with the lifting slide block 34 arranged on the vertical beam at the two ends of the connecting seat 3.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the principles of the invention, and it is intended to cover all such changes and modifications as fall within the scope of the invention.

Claims

1. The utility model provides a full-automatic glass breaks mascerating machine off with fingers and thumb which characterized in that: the glass sheet breaking device comprises two groups of sheet breaking transmission mechanisms and sheet breaking mechanisms, wherein the tail parts of the two groups of sheet breaking transmission mechanisms are oppositely arranged in the glass conveying direction, the sheet breaking mechanisms are arranged in the middle of the two groups of sheet breaking transmission mechanisms, and the sheet breaking mechanisms are connected with the front sheet breaking transmission mechanism and the rear sheet breaking transmission mechanism through bolts;

the sheet breaking transmission mechanism comprises a sheet breaking rack, a transmission motor, a transmission main shaft, a main shaft bearing seat, a chain wheel, a transmission synchronous belt and a tensioning mechanism, wherein the sheet breaking rack is of a square tube welding structure, the table top of the sheet breaking rack is provided with the transmission synchronous belt, one end of the table top of the sheet breaking rack is provided with the transmission main shaft, the transmission main shaft is installed on the sheet breaking rack through the main shaft bearing seat, one end of the transmission synchronous belt is installed on the transmission main shaft, the sheet breaking rack below the transmission main shaft is provided with the transmission motor, the transmission motor is connected with the transmission main shaft through the chain wheel for transmission, and the other end of the transmission synchronous belt;

the sheet breaking mechanism comprises a connecting seat, an upper travelling mechanism, an upper breaking rod mechanism and a lower breaking rod mechanism, the connecting seat is provided with the upper travelling mechanism and the lower breaking rod mechanism, and the upper breaking rod mechanism is arranged in the upper travelling mechanism.

2. The full-automatic glass severing machine according to claim 1, wherein: the connecting seat comprises a main beam frame, a traveling rack, a traveling guide rail, a lower breaking-off rod cylinder seat, a lower crank lever fulcrum, a lifting slider, a connecting plate and a limiting roller wheel, wherein the main beam frame is of a square tube welding structure, and two ends of the upper plane of the main beam frame are respectively provided with a group of traveling racks and a group of traveling guide rails; one end of a lower beam of the main beam frame is provided with a lower breaking-off rod cylinder seat, the lower beam of the main beam frame is provided with a lower curved rod fulcrum, and the middle parts of one side surfaces of vertical beams at two ends of the main beam frame are respectively provided with a lifting slide block; two connecting plates are respectively arranged on two side faces of the vertical beams at two ends of the main beam frame; two sides of a cross beam on the upper part of the main beam frame are respectively provided with a group of limiting rollers.

3. The full-automatic glass severing machine according to claim 1, wherein: the upper walking mechanism comprises a walking frame, a walking motor, a walking synchronous belt, a walking shaft, a bearing seat, a walking gear, a walking slider, an upper breaking-off rod cylinder seat, an upper crank lever fulcrum and a guide hole, wherein the walking frame is of a square tube welding structure, the two ends of the walking frame are provided with the walking sliders, and the walking sliders are matched with a walking guide rail on the connecting seat; a walking motor is arranged on the side face of one end of the walking frame, two ends of a walking shaft are arranged on the walking frame through bearing seats, one end of the walking shaft is connected with the walking motor through a walking synchronous belt, two ends of the walking shaft are provided with walking gears, and the walking gears are matched with walking racks on the connecting seats; the other end of the walking frame is provided with an upper breaking-off rod cylinder seat, and a cross beam of the walking frame is provided with an upper crank rod fulcrum and a guide hole.

4. The full-automatic glass severing machine according to claim 1, wherein: the upper rod wrestling mechanism comprises an upper rod wrestling cylinder, an upper swing rod, an upper curved rod, a curved rod sliding block, a sliding block guide rail, a guide shaft and an upper wrestling rod, the tail part of the upper rod wrestling cylinder is arranged on an upper wrestling cylinder seat at one end of the upper walking mechanism walking frame, and a piston rod of the upper rod wrestling cylinder is connected with the upper part of the upper swing rod; the upper swing rod is connected with an upper breaking-off rod horizontally arranged below through an upper curved rod, a curved rod sliding block and a sliding block guide rail, a rotating fulcrum of the upper curved rod is fixed on an upper curved rod fulcrum of a beam of the traveling frame of the upper traveling mechanism, the upper end of the upper curved rod is connected with the upper swing rod, the lower end of the upper curved rod is connected with the curved rod sliding block, the curved rod sliding block is connected with the sliding block guide rail in a matched mode, and the sliding block guide rail is arranged on the upper plane of the upper breaking-off rod; and the upper plane of the upper breaking rod is provided with a vertical guide shaft, and the guide shaft upwards penetrates through a guide hole arranged on a beam of the walking frame of the upper walking mechanism.

5. The full-automatic glass severing machine according to claim 1, wherein: the lower breaking-off rod mechanism comprises a lower breaking-off rod cylinder, a lower swing rod, a lower curved rod, a roller, a lower breaking-off rod and a lifting guide rail, the tail part of the lower breaking-off rod cylinder is arranged on a lower breaking-off rod cylinder seat of a lower cross beam of the connecting seat, a piston rod of the lower breaking-off rod cylinder is connected to the lower part of the lower swing rod, and the two ends of the lower swing rod are provided with the lower curved rod; the rotary fulcrum of the lower curved lever is fixed on the lower curved lever fulcrum below the lower cross beam of the connecting seat, the lower end of the lower curved lever is connected with the lower swing rod, the upper end of the lower curved lever is provided with a roller, a lower breaking-off lever is arranged above the roller, and the surface of the roller is in contact fit with the lower plane of the lower breaking-off lever; one side of the two ends of the lower breaking rod is provided with a lifting guide rail which is matched with a lifting slide block arranged on vertical beams at the two ends of the connecting seat.

6. The full-automatic glass severing machine according to claim 1, wherein: the sheet breaking and conveying mechanism is provided with at least two groups of conveying synchronous belts.