CN107650252B - Synchronous bidirectional vertical cutting mobile cutting machine - Google Patents

Abstract

The invention discloses a synchronous bidirectional vertical cutting mobile cutting machine which comprises a main frame with a cuboid structure, a lifting frame assembly arranged in the main frame and a travelling mechanism arranged at the rear of the main frame, wherein the lifting frame assembly comprises an equal-dividing and cutting mechanism, a lifting frame I for arranging the equal-dividing and cutting mechanism, a first lifting mechanism for driving the lifting frame I to move up and down, a vertical cutting mechanism, a lifting frame II for arranging the vertical cutting mechanism and a second lifting mechanism for driving the lifting frame II to move up and down, a horizontal installation frame is fixedly arranged in the middle of the lifting frame I, and the lifting frame II is arranged in the lifting frame I in a sliding manner through an auxiliary sliding rod mechanism and is arranged below the horizontal installation frame; the movable cutter has the advantages of reasonable structural design and small occupied area, and can realize the function of synchronously cutting in the vertical directions of two mutually perpendicular after being used on the cutter, thereby greatly improving the production efficiency.

Description

Synchronous bidirectional vertical cutting mobile cutting machine

Technical Field

The invention belongs to the technical field of self-heat-preservation building block production equipment for buildings, and particularly relates to a movable cutting machine for synchronous bidirectional vertical cutting.

Background

At present, a production line of the self-heat-preservation building block adopts wet method and dry method cutting, and the dry method cutting is used for cutting the building block repeatedly by a common electric saw after a green body of the self-heat-preservation building block is molded and dried, so that on one hand, the wall boards cut by the method are uneven in thickness, difficult to operate and have a certain danger, and operators are easy to be injured, and on the other hand, a large amount of dust is generated due to the adoption of the dry method cutting, so that the working environment of workers is polluted, and the aim of building a green environment-friendly factory by enterprises is violated. The existing self-heat-preservation building blocks are cut by a wet method, namely the self-heat-preservation building blocks are cut before being dried after being formed, but the structure of the existing self-heat-preservation building block cutting equipment for the wet method is not reasonable enough, the occupied area is large, the degree of automation is low, personnel in the production process are more, the input cost of the whole process is high, the production efficiency is low, and the production cost is high. In the cutting and forming process of the existing self-heat-preservation building block, due to the structural reasons of a cutting machine, after the first positioning, the cutting can only be performed in one direction of the vertical surface, the arc is positioned again, and then the cutting is performed again in the other direction of the vertical surface, so that the cutting is performed synchronously in the vertical directions which are perpendicular to each other, the two times of positioning is required, the production efficiency is low, and the larger error is inevitably caused by multiple times of positioning.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provide a synchronous bidirectional vertical cutting mobile cutting machine which has the advantages of reasonable structural design and small occupied area, and can realize the function of synchronously cutting in two mutually vertical directions after being arranged on the cutting machine, thereby greatly improving the production efficiency.

In order to achieve the above purpose, the invention adopts the following technical scheme: the movable cutting machine comprises a main frame of a cuboid structure, a lifting frame assembly arranged in the main frame and a travelling mechanism arranged at the rear of the main frame, wherein the lifting frame assembly comprises an equal-dividing and cutting mechanism, a lifting frame I for installing the equal-dividing and cutting mechanism, a first lifting mechanism for driving the lifting frame I to move up and down, a vertical cutting mechanism, a lifting frame II for installing the vertical cutting mechanism and a second lifting mechanism for driving the lifting frame II to move up and down; the second lifting mechanism comprises a screw rod lifter and a lifting motor II for driving the screw rod lifter, the lower end of the screw rod lifter is fixedly connected with a lifting frame II, and a base of the screw rod lifter and the lifting motor II are fixedly arranged on the horizontal mounting frame; the first lifting mechanism comprises a lifting motor I and a traction assembly for pulling a lifting frame assembly, the lifting motor I is fixed at the top of a main frame, the traction assembly comprises a traction transmission rod, a traction chain, a chain wheel set and two connecting pieces, the two connecting pieces are respectively fixed at two sides of the lifting frame I, the traction transmission rod comprises first chain wheels arranged at two ends of a rod body and second chain wheels arranged in the middle of the rod body, the two ends of the traction transmission rod are erected at the top of the main frame and are rotatably arranged, one chain wheel set is correspondingly arranged below each first chain wheel, the chain wheel set is fixedly arranged on the lower frame of the main frame, the chain wheel set comprises a third chain wheel and two chain wheel mounting plates, the two chain wheel mounting plates are vertically and mutually parallel, the third chain wheel is rotatably arranged between the two chain wheel mounting plates, one end of each traction chain is fixedly connected with the connecting piece, the other end of each traction chain sequentially bypasses the first chain wheel at the end of the traction transmission rod, the second chain wheel arranged in the middle of the chain body is driven by the chain, the lifting motor I drives the second chain wheels at the middle of the traction transmission rod to rotate, the first chain wheels at two ends of the traction transmission rod are driven by the lifting drive assembly to lift the lifting frame or the lifting frame through the lifting driving assembly, and the lifting frame is connected with the main frame through the lifting mechanism; the equal-dividing and cutting mechanism comprises a reciprocating driving mechanism and a cutting mechanism I, the reciprocating driving mechanism of the equal-dividing and cutting mechanism is arranged on the horizontal mounting frame, the vertical cutting mechanism comprises a reciprocating driving mechanism and a cutting mechanism II, the reciprocating driving mechanism of the vertical cutting mechanism is arranged at the upper end of the lifting frame II, and the reciprocating driving mechanisms of the equal-dividing and cutting mechanism and the vertical cutting mechanism are independently arranged and have the same driving mode; the reciprocating driving mechanisms of the equal-dividing and cutting mechanism and the vertical cutting mechanism respectively comprise a driving push rod component, a cutting wire fixing frame and a reciprocating slide rod mechanism for installing the cutting wire fixing frame, wherein the driving push rod component comprises a reciprocating motor, a rotating wheel and a push rod which are installed on an output shaft of the reciprocating motor, one end of the push rod is hinged with a crank pin on the end face of the rotating wheel, the other end of the push rod is hinged with a vertical arm which is vertically arranged on the cutting wire fixing frame, the cutting wire fixing frame of the equal-dividing and cutting mechanism is in sliding connection with a lifting frame I through the reciprocating slide rod mechanism, and the cutting wire fixing frame of the vertical cutting mechanism is in sliding connection with a lifting frame II through the reciprocating slide rod mechanism; the cutting mechanism I comprises a plurality of first cutting wires and four first roll shafts which are arranged in parallel, two ends of each first roll shaft are rotatably supported on the lifting frame I, two first roll shafts are symmetrically arranged on the upper end face of the upper frame of the lifting frame I, the other two first roll shafts are symmetrically arranged on the lower end face of the lower frame of the lifting frame I, a plurality of first annular grooves for accommodating the first cutting wires are formed in the first roll shaft body along the length direction, the plurality of first annular grooves are uniformly distributed, one end of each first cutting wire is connected with one side of the cutting wire fixing frame, and the other end of each first cutting wire is sequentially wound around the corresponding first annular grooves of the four first roll shafts to be connected with the other side of the cutting wire fixing frame; the cutting mechanism II comprises three second cutting wires and four second roll shafts which are arranged in parallel, two ends of each second roll shaft are rotatably supported on the lifting frame II, two second roll shafts are symmetrically arranged on the lower end face of the upper frame of the lifting frame II, the other two second roll shafts are symmetrically arranged on the lower end face of the lower frame of the lifting frame II, three second annular grooves for containing the second cutting wires are formed in the second roll shaft body along the length direction, the three second annular grooves are uniformly distributed, one end of each second cutting wire is connected with one side of the corresponding cutting wire fixing frame, and the other end of each second cutting wire sequentially bypasses the corresponding second annular grooves of the four second roll shafts to be connected with the other side of the corresponding cutting wire fixing frame; the running mechanism comprises a running motor, a running transmission rod, a driving wheel arranged at the rear end of the bottom of the main frame and a driven wheel arranged at the front end of the bottom of the main frame, wherein the driving wheel comprises a roller and a rotating shaft, the rotating shaft is fixedly arranged on the main frame, the roller consists of a pulley end and a chain wheel end, the chain wheel end is arranged outside the pulley end, the running motor is fixedly arranged on the main frame, the running transmission rod comprises a first chain wheel arranged at two ends of a rod body and a second chain wheel arranged in the middle of the rod body, the two ends of the running transmission rod are rotatably arranged on the main frame, the running motor drives the second chain wheel in the middle of the rod body of the running transmission rod to rotate through a driving chain, and the first chain wheel at the end of the running transmission rod drives the chain wheel end to rotate through the driving chain so that the pulley end rolls on a sliding rail.

As a further improvement of the cutting machine, the number of the annular grooves of each roll shaft in the cutting mechanism I is 5-30.

As a further improvement of the cutting machine, the vertical arm of the equal-dividing and cutting mechanism is arranged on the lower end face of the cutting wire fixing frame, and the vertical arm of the vertical cutting mechanism is arranged on the upper end face of the cutting wire fixing frame.

As a further improvement of the cutting machine, the connecting piece comprises a mounting substrate and a connecting part, wherein the inner side of the mounting substrate is fixed on the lifting frame I, the cross section of the connecting part is of an L-shaped structure, the connecting part comprises a horizontal connecting plate and a vertical connecting plate, a fixing arm is further vertically arranged on the side surface of the vertical connecting plate on the same side of the horizontal connecting plate, the horizontal connecting plate is fixedly connected with one end of a traction chain, and the fixing arm is fixedly connected with the other end of the traction chain.

Advantageous effects

The movable cutting machine disclosed by the invention has the advantages that the equipment structure is reasonably designed, humanized and modularized design thought is applied, the lifting frame II is arranged in the lifting frame I, so that the lifting frame I and the lifting frame II realize the function of synchronous lifting and cutting at the same position above the same building block blank, the vertical cutting mechanism and the equal cutting mechanism are respectively arranged on the lifting frame II and the lifting frame I, and the first cutting wire and the second cutting wire are mutually perpendicular and crossed, so that the blank of the self-heat-insulation building block is synchronously cut in the vertical direction, the structural design of the cutting device can save one-time positioning time, improve the production efficiency and avoid human errors caused by repeated positioning. The lifting frame I and the lifting frame II are combined, so that the occupied area of the equipment is greatly reduced. The running gear sets up at the main frame rear and can mutually support the setting with the slide rail for the cutting machine device realizes the removal function.

Drawings

FIG. 1 is a schematic view of a cutting machine according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view A of a crane assembly in an embodiment of a cutting machine according to the present invention;

FIG. 3 is a schematic perspective view B of a crane assembly according to an embodiment of the present invention;

FIG. 4 is a schematic view of a structure of a lifting frame II in an embodiment of the cutting machine according to the present invention;

FIG. 5 is a schematic view of a structure of a connecting member in an embodiment of the cutting machine according to the present invention;

Fig. 6 is a schematic diagram of cutting self-insulation blocks in an embodiment of the cutting machine of the present invention;

The marks in the figure: 1. the device comprises a main frame, 2, a lifting frame component, 2-1, a lifting frame I, 2-2, a lifting frame II, 3, a horizontal mounting frame, 4, a secondary sliding rod mechanism, 5, a screw rod lifter, 6, a lifting motor II, 7, a main sliding rod mechanism, 8, a lifting motor I, 9, a traction transmission rod, 10, a traction chain, 11, a chain wheel group, 12, a connecting piece, 12-1, a mounting substrate, 12-2, a horizontal connecting plate, 12-3, a vertical connecting plate, 12-4, a fixed arm, 13, a cutting wire fixing frame, 14, a reciprocating sliding rod mechanism, 15, a reciprocating motor, 16, a rotating wheel, 17, a push rod, 18, a hanging arm, 19, a self-heat-preserving building block, 19-1, a longitudinal section, 19-2, a transverse section, 101, a first cutting wire, 102, a first roll shaft, 103, a first annular groove, 201, a second cutting wire, 202, a second roll shaft, 203, a second annular groove, 301, a walking motor, 302, a walking transmission rod, 303, a driving wheel, 304 and a driven wheel.

Detailed Description

In order to make the technical scheme and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings and examples.

As shown in the figure, the embodiment of the invention discloses a synchronous bidirectional vertical cutting mobile cutting machine, which comprises a main frame 1 with a cuboid structure, a lifting frame assembly 2 arranged in the main frame 1 and a travelling mechanism arranged at the rear of the main frame 1, wherein the lifting frame assembly 2 comprises an equally dividing and cutting mechanism, a lifting frame I2-1 used for installing the equally dividing and cutting mechanism, a first lifting mechanism used for driving the lifting frame I2-1 to move up and down, a vertical cutting mechanism, a lifting frame II 2-2 used for installing the vertical cutting mechanism and a second lifting mechanism used for driving the lifting frame II 2-2 to move up and down, a horizontal installation frame 3 is fixedly arranged in the middle of the lifting frame I2-1, and the lifting frame II 2-2 is arranged in the lifting frame I2-1 in a sliding manner through an auxiliary sliding rod mechanism 4 and is arranged below the horizontal installation frame 3; the second lifting mechanism comprises a screw rod lifter 5 and a lifting motor II 6 for driving the screw rod lifter 5, the lower end of the screw rod lifter 5 is fixedly connected with a lifting frame II 2-2, and a base of the screw rod lifter 5 and the lifting motor II 6 are fixedly arranged on the horizontal mounting frame 3; the first lifting mechanism comprises a lifting motor I8 and a traction assembly for pulling the lifting frame assembly 2, the lifting motor I8 is fixed at the top of the main frame 1, the traction assembly comprises a traction transmission rod 9, a traction chain 10, a chain wheel set 11 and two connecting pieces 12, the two connecting pieces 12 are respectively fixed at two sides of the lifting frame I2-1, the connecting pieces 12 comprise a mounting base plate 12-1 and a connecting part, the inner side of the mounting base plate 12-1 is fixed on the lifting frame I2-1, the cross section of the connecting part is of an L-shaped structure, the connecting part comprises a horizontal connecting plate 12-2 and a vertical connecting plate 12-3, a fixing arm 12-4 is also vertically arranged on the side surface of the vertical connecting plate 12-3 at the same side of the horizontal connecting plate 12-2, the traction transmission rod 9 comprises a first chain wheel arranged at two ends of a rod body and a second chain wheel arranged at the middle part of the rod body, the two ends of the traction transmission rod 9 are erected at the top of the main frame 1 and are rotatably arranged, a sprocket group 11 is correspondingly arranged below each first sprocket, the sprocket group 11 is fixedly arranged on the lower frame of the main frame 1, the sprocket group 11 comprises a third sprocket and two sprocket mounting plates, the two sprocket mounting plates are vertically and mutually parallel, the third sprocket is rotatably arranged between the two sprocket mounting plates, one end of each traction chain 10 is fixedly connected with a horizontal connecting plate 12-2, the other end of each traction chain sequentially bypasses the first sprocket at the end of the traction transmission rod 9, the third sprocket of the sprocket group 11 is fixedly connected with a fixed arm 12-4, the lifting motor I8 drives the second sprocket at the middle part of the traction transmission rod 9 to rotate through a chain, the first sprockets at the two ends of the traction transmission rod 9 drive the traction chain 10 to drive the lifting frame assembly 2 to ascend or descend, the lifting frame I2-1 is connected with the main frame 1 in a sliding way through a main sliding rod mechanism 7; the equal-dividing and cutting mechanism comprises a reciprocating driving mechanism and a cutting mechanism I, the reciprocating driving mechanism of the equal-dividing and cutting mechanism is arranged on the horizontal mounting frame 3, the vertical cutting mechanism comprises a reciprocating driving mechanism and a cutting mechanism II, the reciprocating driving mechanism of the vertical cutting mechanism is arranged at the upper end of the lifting frame II 2-2, and the reciprocating driving mechanisms of the equal-dividing and cutting mechanism and the vertical cutting mechanism are independently arranged and have the same driving mode; the reciprocating driving mechanisms of the equal-dividing and cutting mechanism and the vertical cutting mechanism comprise a driving push rod assembly, a cutting wire fixing frame 13 and a reciprocating slide rod mechanism 14 for installing the cutting wire fixing frame 13, the driving push rod assembly comprises a reciprocating motor 15, a rotating wheel 16 and a push rod 17 which are installed on an output shaft of the reciprocating motor 15, one end of the push rod 17 is hinged with a crank pin on the end face of the rotating wheel 16, the other end of the push rod 17 is hinged with a vertical arm 18 which is vertically arranged on the cutting wire fixing frame 13, the vertical arm 18 of the equal-dividing and cutting mechanism is arranged on the lower end face of the cutting wire fixing frame 13, and the vertical arm 18 of the vertical cutting mechanism is arranged on the upper end face of the cutting wire fixing frame 13. The cutting wire fixing frame 13 of the equal-dividing and cutting mechanism is connected with the lifting frame I2-1 in a sliding way through the reciprocating slide rod mechanism 14, and the cutting wire fixing frame 13 of the vertical cutting mechanism is connected with the lifting frame II 2-2 in a sliding way through the reciprocating slide rod mechanism 14; the cutting mechanism I comprises a plurality of first cutting wires 101 and four first roll shafts 102 which are arranged in parallel, two ends of each first roll shaft 102 are rotatably supported on a lifting frame I2-1, two first roll shafts 102 are symmetrically arranged on the upper end face of the upper frame of the lifting frame I2-1, the other two first roll shafts 102 are symmetrically arranged on the lower end face of the lower frame of the lifting frame I2-1, a plurality of first annular grooves 103 for accommodating the first cutting wires 101 are arranged on the shaft body of each first roll shaft 102 along the length direction, the plurality of first annular grooves 103 are uniformly distributed, one end of each first cutting wire 101 is connected with one side of a cutting wire fixing frame 13, the other end of each first roll shaft 102 sequentially bypasses the corresponding first annular groove 103 of the four first roll shafts 102 to be connected with the other side of the cutting wire fixing frame 13, and the number of the first annular grooves 103 of each first roll shaft 102 in the cutting mechanism I is 5-30; the cutting mechanism II comprises three second cutting wires 201 and four second roll shafts 202 which are arranged in parallel, two ends of each second roll shaft 202 are rotatably supported on a lifting frame II 2-2, two second roll shafts 202 are symmetrically arranged on the lower end face of the upper frame of the lifting frame II 2-2, the other two second roll shafts 202 are symmetrically arranged on the lower end face of the lower frame of the lifting frame II 2-2, three second annular grooves 203 for accommodating the second cutting wires 201 are formed in the shaft body of each second roll shaft 202 along the length direction, the three second annular grooves 203 are uniformly distributed, one end of each second cutting wire 201 is connected with one side of the corresponding cutting wire fixing frame 13, and the other end of each second roll shaft 202 sequentially bypasses the corresponding second annular groove 203 of the corresponding four second roll shafts 202 to be connected with the other side of the corresponding cutting wire fixing frame 13; the walking mechanism comprises a walking motor 301, a walking transmission rod 302, a driving wheel 303 arranged at the rear end of the bottom of the main frame 1 and a driven wheel 304 arranged at the front end of the bottom of the main frame 1, wherein the driving wheel 303 comprises a roller and a rotating shaft, the rotating shaft is fixedly arranged on the main frame 1, the roller is integrally formed by a pulley end and a chain wheel end, the chain wheel end is arranged outside the pulley end, the walking motor 301 is fixedly arranged on the main frame 1, the walking transmission rod 302 comprises a first chain wheel arranged at two ends of a rod body and a second chain wheel arranged in the middle of the rod body, two ends of the walking transmission rod 302 are rotatably arranged on the main frame 1, the first chain wheel at the end of the walking transmission rod 302 drives the chain wheel end of the driving wheel 303 to rotate through a driving chain so that the pulley end rolls on a sliding rail.

As shown in the figure, the cutting wires are not all shown, and the blank of the self-insulation block 19 is cut by the first cutting wire 101 along the longitudinal section 19-1 and the finished product is cut by the second cutting wire 201 along the transverse section 19-2.

The working process of the cutting machine is as follows: when the cutting machine is positioned right above the green body of the self-heat-insulation building block 19, the lifting frame assembly 2 moves downwards, in the descending cutting process of the lifting frame assembly 2, the first cutting wire 101 of the lifting frame I2-1 is arranged at a distance of 10cm below the second cutting wire 201 of the lifting frame II 2-2, so that the two groups of cutting wires are mutually crossed and cut simultaneously, interference cannot occur, the first cutting wire 101 of the lifting frame I2-1 stops cutting when firstly cutting to the bottom of the green body of the self-heat-insulation building block 19, the second cutting wire 201 of the lifting frame II 2-2 continuously descends and cuts to the bottom of the green body of the self-heat-insulation building block 19, the two cutting directions finish cutting simultaneously, the lifting motor II 6 drives the screw rod lifter 5, the lifting frame II 2-2 stops after being lifted upwards by 10cm, and the lifting motor I8 of the first lifting mechanism pulls the two lifting frames of the lifting frame assembly 2 to reset to the original position simultaneously.

The present invention is not limited to the above-mentioned embodiments, but is intended to be limited to the following embodiments, and any modifications, equivalent changes and variations in the above-mentioned embodiments can be made by those skilled in the art without departing from the scope of the present invention.

Claims (2)

1. The utility model provides a synchronous two-way vertical cutting's removal cutting machine, includes main frame (1) of cuboid structure, installs crane assembly (2) in main frame (1) and installs the running gear at main frame (1) rear, crane assembly (2) are including dividing the cutting mechanism equally, be used for installing dividing the cutting mechanism equally crane I (2-1), be used for driving crane I (2-1) reciprocate first elevating system, erect cutting mechanism, be used for installing erect cutting mechanism's crane II (2-2) and be used for driving crane II (2-2) reciprocate second elevating system, its characterized in that: the middle part of the lifting frame I (2-1) is fixedly provided with a horizontal installation frame (3), and the lifting frame II (2-2) is arranged in the lifting frame I (2-1) in a sliding way through an auxiliary sliding rod mechanism (4) and is arranged below the horizontal installation frame (3); the second lifting mechanism comprises a screw rod lifter (5) and a lifting motor II (6) for driving the screw rod lifter (5), the lower end of a screw rod of the screw rod lifter (5) is fixedly connected with the lifting frame II (2-2), and a base of the screw rod lifter (5) and the lifting motor II (6) are fixedly arranged on the horizontal mounting frame (3); the first lifting mechanism comprises a lifting motor I (8) and a traction assembly for pulling a lifting frame assembly (2), the lifting motor I (8) is fixed at the top of a main frame (1), the traction assembly comprises a traction transmission rod (9), a traction chain (10), a chain wheel set (11) and two connecting pieces (12), the two connecting pieces (12) are respectively fixed at two sides of the lifting frame I (2-1), the traction transmission rod (9) comprises first chain wheels arranged at two ends of a rod body and second chain wheels arranged in the middle of the rod body, two ends of the traction transmission rod (9) are erected at the top of the main frame (1) and are rotatably arranged, one chain wheel set (11) is correspondingly arranged below each first chain wheel, the chain wheel set (11) is fixedly arranged on a lower frame of the main frame (1), the chain wheel set (11) comprises a third chain wheel and two chain wheel mounting plates, the two chain wheel mounting plates are vertically arranged in parallel to each other, one end of each traction chain (10) is fixedly connected with the connecting pieces (12), the other end of each traction transmission rod (10) is fixedly connected with the other, the other end of each traction transmission rod (9) passes through the first chain wheel set (9) and the second chain wheel (9) and is rotatably arranged at two ends of the first chain wheel (9) which are fixedly connected with the middle part of the traction chain wheel (8), the lifting frame I (2-1) is connected with the main frame (1) in a sliding way through the main slide bar mechanism (7); the equal-dividing and cutting mechanism comprises a reciprocating driving mechanism and a cutting mechanism I, the reciprocating driving mechanism of the equal-dividing and cutting mechanism is arranged on a horizontal mounting frame (3), the vertical cutting mechanism comprises a reciprocating driving mechanism and a cutting mechanism II, the reciprocating driving mechanism of the vertical cutting mechanism is arranged at the upper end of a lifting frame II (2-2), and the reciprocating driving mechanisms of the equal-dividing and cutting mechanism and the vertical cutting mechanism are independently arranged and have the same driving mode; the reciprocating driving mechanisms of the equal-dividing and cutting mechanism and the vertical cutting mechanism respectively comprise a driving push rod assembly, a cutting wire fixing frame (13) and a reciprocating slide rod mechanism (14) for installing the cutting wire fixing frame (13), the driving push rod assembly comprises a reciprocating motor (15), a rotating wheel (16) and a push rod (17) which are installed on an output shaft of the reciprocating motor (15), one end of the push rod (17) is hinged with a crank pin on the end face of the rotating wheel (16), the other end of the push rod is hinged with a vertical arm (18) vertically arranged on the cutting wire fixing frame (13), the cutting wire fixing frame (13) of the equal-dividing and cutting mechanism is connected with a lifting frame I (2-1) in a sliding manner through the reciprocating slide rod mechanism (14), and the cutting wire fixing frame (13) of the vertical cutting mechanism is connected with a lifting frame II (2-2) in a sliding manner through the reciprocating slide rod mechanism (14); the cutting mechanism I comprises a plurality of first cutting wires (101) and four first roll shafts (102) which are arranged in parallel, two ends of each first roll shaft (102) are rotatably supported on a lifting frame I (2-1), two first roll shafts (102) are symmetrically arranged on the upper end face of an upper frame of the lifting frame I (2-1), the other two first roll shafts (102) are symmetrically arranged on the lower end face of a lower frame of the lifting frame I (2-1), a plurality of first annular grooves (103) for accommodating the first cutting wires (101) are arranged on the shaft body of each first roll shaft (102) along the length direction, the first annular grooves (103) are uniformly distributed, one end of each first cutting wire (101) is connected with one side of a cutting wire fixing frame (13), and the other end of each first roll shaft (102) is sequentially wound around the corresponding first annular groove (103) to be connected with the other side of the cutting wire fixing frame (13); the cutting mechanism II comprises three second cutting wires (201) and four second roll shafts (202) which are arranged in parallel, two ends of each second roll shaft (202) are rotatably supported on a lifting frame II (2-2), two second roll shafts (202) are symmetrically arranged on the lower end face of an upper frame of the lifting frame II (2-2), the other two second roll shafts (202) are symmetrically arranged on the lower end face of a lower frame of the lifting frame II (2-2), three second annular grooves (203) for accommodating the second cutting wires (201) are arranged on a shaft body of each second roll shaft (202) along the length direction, the three second annular grooves (203) are uniformly distributed, one end of each second cutting wire (201) is connected with one side of a cutting wire fixing frame (13), and the other end of each second roll shaft (202) is sequentially wound around the corresponding second annular groove (203) of each second roll shaft (202) to be connected with the other side of the cutting wire fixing frame (13); the walking mechanism comprises a walking motor (301), a walking transmission rod (302), a driving wheel (303) arranged at the rear end of the bottom of the main frame (1) and a driven wheel (304) arranged at the front end of the bottom of the main frame (1), wherein the driving wheel (303) comprises a roller and a rotating shaft, the rotating shaft is fixedly arranged on the main frame (1), the roller consists of a pulley end and a chain wheel end, the chain wheel end is arranged outside the pulley end, the walking motor (301) is fixedly arranged on the main frame (1), the walking transmission rod (302) comprises a first chain wheel arranged at two ends of a rod body and a second chain wheel arranged in the middle of the rod body, the two ends of the walking transmission rod (302) are rotatably arranged on the main frame (1), the walking motor (301) drives the second chain wheel in the middle of the rod body of the walking transmission rod (302) through a driving chain, and the first chain wheel at the end of the walking transmission rod (302) drives the chain wheel end of the driving wheel (303) to rotate through the driving chain so that the pulley end rolls on a sliding rail;

The number of the first annular grooves (103) of each first roll shaft (102) in the cutting mechanism I is 5-30;

the connecting piece (12) comprises a mounting substrate (12-1) and a connecting part, wherein the inner side of the mounting substrate (12-1) is fixed on the lifting frame I (2-1), the cross section of the connecting part is of an L-shaped structure, the connecting part comprises a horizontal connecting plate (12-2) and a vertical connecting plate (12-3), a fixing arm (12-4) is further vertically arranged on the side face of the vertical connecting plate (12-3) on the same side of the horizontal connecting plate (12-2), the horizontal connecting plate (12-2) is fixedly connected with one end of the traction chain (10), and the fixing arm (12-4) is fixedly connected with the other end of the traction chain (10).

2. A synchronous bi-directional vertical cutting mobile cutter as defined in claim 1 wherein: the vertical arm (18) of the equal-dividing and cutting mechanism is arranged on the lower end face of the cutting wire fixing frame (13), and the vertical arm (18) of the vertical cutting mechanism is arranged on the upper end face of the cutting wire fixing frame (13).