Numerical control disk type arc discharge cutting machine

文档序号:1260750 发布日期:2020-08-25 浏览:28次 中文

阅读说明:本技术 一种数控盘式电弧放电切割机 (Numerical control disk type arc discharge cutting machine ) 是由 张敏 黄辉祥 成焕波 陈耀昕 于 2020-05-27 设计创作,主要内容包括:本发明公开了一种数控盘式电弧放电切割机,潜水泵安装在水箱中,水箱、数控系统和电弧切割电源安装在底座上,滑轨高度及倾斜度可调地固定在支架上,电弧切割模块包括金属切割盘和切割盘驱动机构,切割盘驱动机构通过连接组件安装在直线模组上,带动金属切割盘随直线模组同步移动,工件与金属切割盘分别连接电弧切割电源的正负极,以产生电弧放电切割,数控系统电性连接潜水泵、直线模组和切割盘驱动机构。本发明采用电弧放电原理进行切割,适用于多种金属材质的大小型工件较为精密的切割,适用范围广,而且模块化设计,数控系统、喷水模块、滑动模块、电弧切割模块和电弧切割电源均可通过可滑动的底座移动,节省人力,尤其适用于现场切割作业。(The invention discloses a numerical control disk type arc discharge cutting machine, wherein a submersible pump is arranged in a water tank, the water tank, a numerical control system and an arc cutting power supply are arranged on a base, the height and the gradient of a slide rail are adjustably fixed on a bracket, an arc cutting module comprises a metal cutting disk and a cutting disk driving mechanism, the cutting disk driving mechanism is arranged on a linear module through a connecting component and drives the metal cutting disk to synchronously move along with the linear module, a workpiece and the metal cutting disk are respectively connected with the positive electrode and the negative electrode of the arc cutting power supply to generate arc discharge cutting, and the numerical control system is electrically connected with the submersible pump, the linear module and the cutting disk driving mechanism. The electric arc cutting machine adopts the electric arc discharge principle to cut, is suitable for more precisely cutting large and small workpieces made of various metal materials, has wide application range, is in modular design, can be moved by the numerical control system, the water spraying module, the sliding module, the electric arc cutting module and the electric arc cutting power supply through the slidable base, saves labor, and is particularly suitable for field cutting operation.)

1. The numerical control disk type arc discharge cutting machine is characterized by comprising a base (1), a numerical control system (2), a water spraying module, a sliding module, an arc cutting module and an arc cutting power supply (3), wherein the water spraying module comprises a water tank (4-1), a submersible pump (4-2) and a universal water nozzle (4-3), the submersible pump (4-2) is installed in the water tank (4-1), the numerical control system (2) and the arc cutting power supply (3) are installed on the base (1), the sliding module comprises a sliding rail (5-1), a support (5-2) and a linear module (5-3), the height and the gradient of the sliding rail (5-1) are adjustably fixed on the support (5-2), and the arc cutting module comprises a metal cutting disk (6-1), The cutting disc driving mechanism (6-3) is installed on the linear module (5-3) through the connecting component (6-2) and drives the metal cutting disc (6-1) to move synchronously with the linear module (5-3), a workpiece and the metal cutting disc (6-1) are respectively connected with the positive electrode and the negative electrode of the electric arc cutting power supply (3) to generate electric arc discharge cutting, and the numerical control system (2) is electrically connected with the submersible pump (4-2), the linear module (5-3) and the cutting disc driving mechanism (6-3).

2. The numerical control disc type arc discharge cutting machine according to claim 1, characterized in that: the universal wheel (1-1) can be locked is installed to the bottom four corners department of base (1), base (1) is 45 steel or iron material.

3. The numerical control disc type arc discharge cutting machine according to claim 1, characterized in that: the sliding rail (5-1) comprises sliding ways (5-11) and fixing blocks (5-12), sliding grooves with upward openings and downward openings are symmetrically formed in the upper end face and the lower end face of each sliding way (5-11), the two sliding ways (5-11) which are arranged in parallel are fixedly connected through the two fixing blocks (5-12), the fixing blocks (5-12) are fixed on the inner side faces of the two end portions of the two sliding ways (5-11), the fixing blocks (5-12) on the left side are flush with the left end faces of the two sliding ways (5-11), and the fixing blocks (5-12) on the right side are flush with the right end faces of the two sliding ways (5-11).

4. The numerical control disc type arc discharge cutting machine according to claim 3, characterized in that: the support (5-2) comprises an upper side plate (5-21), grooved support legs (5-22) and magnetic suction plates (5-23), threaded holes are formed in the left side surface and the right side surface of the upper side plate (5-21), the grooved support legs (5-22) are H-shaped supporting legs, the left side plate and the right side plate of each H-shaped supporting leg are concave grooved side plates, the upper side plate (5-21) is matched and locked at different positions of a groove channel of each concave grooved side plate through first butterfly screws (5-24), the upper side plate (5-21) is fixed on each H-shaped supporting leg in a height-adjustable mode, the magnetic suction plates (5-23) are rotatably fixed in grooves in the lower portion of each H-shaped supporting leg through second butterfly screws (5-25), one side surface of each magnetic suction plate (5-23) is provided with magnetic suction tightness screws (5-26), the magnetic attraction tightness butterfly screws (5-26) control the opening and closing of the magnetic attraction through knobs thereof.

5. The numerical control disc type arc discharge cutting machine according to claim 4, characterized in that: the middle parts of the upper side plates (5-21) and the middle parts of the fixing blocks (5-12) are correspondingly and respectively provided with an internal threaded hole and an external threaded hole, and the sliding rail (5-1) is adjustably fixed on the two brackets (5-2) through the matching locking gradient of a third butterfly screw (5-27) and the internal and external threaded holes.

6. The numerical control disc type arc discharge cutting machine according to claim 5, characterized in that: the linear module (5-3) is a belt transmission mechanism and comprises a speed reducing motor (5-31), a first synchronous belt pulley (5-32), a first synchronous belt (5-33) and a first synchronous wheel (5-34), the speed reducing motor (5-31) is fixed at the left end of a front side slideway (5-11) through a speed reducing motor support (5-35), the numerical control system (2) controls the speed reducing motor (5-31) to start, stop and rotate positively and negatively, the first synchronous belt pulley (5-32) is installed on an output shaft of the speed reducing motor (5-31), the first synchronous wheel (5-34) is fixed on a first rotating shaft (5-36), two ends of the first rotating shaft (5-36) are installed on bearing frames (5-37), the bearing frames (5-37) are symmetrically fixed at the right ends of the two parallel slideways (5-11), the first synchronous pulleys (5-32) are wound on the first synchronous pulleys (5-32) and the first synchronous pulleys (5-34), and the extending direction of the first synchronous pulleys (5-32) is consistent with the extending direction of the slideways (5-11).

7. The numerical control disc type arc discharge cutting machine according to claim 6, characterized in that: the connecting assembly (6-2) comprises a concave nylon support (6-21), a synchronous lower support (6-22), a synchronous belt upper support (6-23) and aluminum profile pulleys (6-24), the aluminum profile pulleys (6-24) are rotatably and symmetrically arranged outside the left side plate and the right side plate of the concave nylon support (6-21), and four aluminum profile pulleys (6-24) are arranged on each side plate of the concave nylon support (6-21) and are distributed in a square shape, wherein the two aluminum profile pulleys (6-24) on the upper surface are embedded in the upper chute of the slideway (5-11), the two aluminum profile pulleys (6-24) on the lower surface are embedded in the lower chute of the same slideway (5-11), and the synchronous lower support (6-22) is vertically fixed on the left side plate and the right side plate of the concave nylon support (6-21), the cutting disc driving mechanism (6-3) is installed on the concave nylon support (6-21) and is in driving connection with the metal cutting disc (6-1), the metal cutting disc (6-1) is located on the outer side of an aluminum profile pulley (6-24) on the front side plate of the concave nylon support (6-21), the lower support (6-22) of the synchronous belt is arranged on the bottom surface of the first synchronous belt (5-33) on the lower side, the upper support (6-23) of the synchronous belt is arranged on the top surface of the first synchronous belt (5-33) on the lower side and is locked on the lower support (6-22) of the synchronous belt through a bolt and nut assembly, the connecting assembly (6-2) is fixed on the first synchronous belt (5-33) to drive the metal cutting disc (6-1) and the cutting disc driving mechanism (6-3) to move along with the rotation of the first synchronous belt (5-33), the aluminum profile pulleys (6-24) on the front side and the rear side respectively slide along the slideways (5-11) on the front side and the rear side synchronously.

8. The numerical control disc type arc discharge cutting machine according to claim 7, characterized in that: the cutting disc driving mechanism (6-3) comprises a direct current motor (6-31), a second synchronous pulley (6-32), a second synchronous wheel (6-33), a second synchronous belt (6-34), a red copper conducting strip (6-35) and a graphite brush (6-36), the direct current motor (6-31) is fixed on a bottom plate of the concave nylon support (6-21) through a direct current motor support (6-37), the numerical control system (2) controls the direct current motor (6-31) to start, stop and rotate positively and negatively, the second synchronous pulley (6-32) is installed on an output shaft of the direct current motor (6-31), the second synchronous wheel (6-33) is installed on a metal cutting disc rotating shaft (6-38), and the metal cutting disc rotating shaft (6-38) is supported on the concave nylon support (6-21) through a bearing seat (6-39) ) The second synchronous belt (6-34) is wound on the second synchronous belt wheel (6-32) and the second synchronous wheel (6-33), the negative pole of the arc cutting power supply (3) is connected with the red copper conducting strip (6-35) through a wire, the upper bent parts of the red copper conducting strips (6-35) are fixed on the bottom plates of the concave nylon brackets (6-21) through fourth butterfly screws (6-40), the graphite electric brushes (6-36) are symmetrically fixed at the bottom of the lower bending part of the red copper conducting strip (6-35) and are positioned below the concave nylon bracket (6-21) and at two sides of the metal cutting disc rotating shaft (6-38), the left ends of the graphite electric brushes (6-36) are jointed and connected with the inner side surface of the metal cutting disc (6-1), the metal cutting disc (6-1) is fixedly connected to the left end of the metal cutting disc rotating shaft (6-38).

9. The numerical control disc type arc discharge cutting machine according to claim 8, characterized in that: the left end of the metal cutting disk rotating shaft (6-38) is provided with a boss, the middle of the boss is provided with a threaded hole, the middle of the metal cutting disk (6-1) is provided with a through hole, a cutting disk fixing disc-shaped bolt (6-41) is screwed into the boss threaded hole of the metal cutting disk rotating shaft (6-38) through the through hole and is screwed, and the metal cutting disk (6-1) is fixedly connected with the metal cutting disk rotating shaft (6-38) and synchronously rotates along with the metal cutting disk rotating shaft (6-38).

10. The numerical control disc type arc discharge cutting machine according to claim 9, characterized in that: the universal water spray nozzle (4-3) is connected with the submersible pump (4-2) through a water pipe, the numerical control system (2) controls the submersible pump (4-2) to be started and stopped, and the universal water spray nozzle (4-3) is installed on a bottom plate of the concave nylon support (6-21) and used for spraying water to a rotating shaft (6-38) of the metal cutting disc and a workpiece cutting position.

Technical Field

The invention relates to the technical field of cutting machines, in particular to a numerical control disk type arc discharge cutting machine.

Background

The existing arc cutting machines all use high-temperature arc gas to cut small metal materials, but the cutting of the small metal materials is difficult to be carried out in the aspects of over hardness, over size and high precision. The electric arc machining can be used for cutting, the material is cut by utilizing electric discharge regardless of the characteristics of hardness, brittleness and strength of the material, the material is cut by using the flexibility and the rigidity, and the material can be cut aiming at large steel plates, steel blocks, steel pipes and the like on site, or other metal materials, particularly high-hardness and high-toughness materials; therefore, designing a cutting machine for cutting work using the arc discharge technique will expand its application range and improve the practicality of the cutting machine.

Disclosure of Invention

The technical problem to be solved by the invention is to provide a numerical control disc type arc discharge cutting machine which is numerically controlled and can cut large and small workpieces and the cutting angle of the cutting machine is adjustable, aiming at the defects of the prior art.

In order to achieve the technical purpose, the technical scheme adopted by the invention is as follows: a numerical control disk type arc discharge cutting machine comprises a base, a numerical control system, a water spraying module, a sliding module, an arc cutting module and an arc cutting power supply, wherein the water spraying module comprises a water tank, a submersible pump and a universal water nozzle, the submersible pump is arranged in the water tank, the water tank, the numerical control system and the electric arc cutting power supply are arranged on the base, the sliding module comprises a sliding rail, a support and a linear module, the sliding rail is fixed on the support in a height and inclination adjustable manner, the electric arc cutting module comprises a metal cutting disc, a connecting component and a cutting disc driving mechanism, the cutting disc driving mechanism is arranged on the linear module through the connecting component and drives the metal cutting disc to synchronously move along with the linear module, the workpiece and the metal cutting disc are respectively connected with the positive electrode and the negative electrode of the electric arc cutting power supply, so as to generate arc discharge cutting, and the numerical control system is electrically connected with the submersible pump, the linear module and the cutting disc driving mechanism.

Further, the bottom four corners department of base installs the universal wheel that can lock, the base is 45 steel or iron material.

Further, the slide rail includes slide and fixed block, the spout that the opening is upwards and the opening is decurrent is seted up to the upper and lower terminal surface symmetry of slide, and two parallel arrangement's slide is through two fixed block fixed connection, and the fixed block is fixed at the both ends medial surface of two slides, and the left side fixed block flushes with the left end face of two slides, and the right side fixed block flushes with the right-hand member face of two slides.

Further, the support includes epipleural, trough of belt support leg and magnetism suction disc, the side offered screw hole about the epipleural, trough of belt support leg is "H" shape landing leg, and the curb plate is "concave" form trough of belt curb plate about shown "H" shape landing leg, locks the different positions department in the channel of "concave" form trough of belt curb plate through the cooperation of first dish-shaped screw through the epipleural, epipleural height-adjustable ground is fixed on "H" shape landing leg, magnetism suction disc rotationally fixes in the lower part recess of "H" shape landing leg through second butterfly screw, magnetism suction disc side is provided with magnetism and inhales tight butterfly screw, magnetism is inhaled tight butterfly screw and is inhaled opening and close of opening and close through its knob control magnetism.

Furthermore, the middle part of the upper side plate and the middle part of the fixed block are correspondingly provided with an internal thread hole and an external thread hole respectively, and the slide rail is locked and fixed on the two supports in an adjustable inclination manner through the matching of a third butterfly screw and the internal and external thread holes.

Further, the straight line module is belt drive mechanism, including gear motor, first synchronous pulley, first synchronous belt and first synchronizing wheel, gear motor passes through the gear motor support to be fixed at the front side slide left end, numerical control system control gear motor opens, stops, positive and negative rotation, first synchronous pulley is installed on gear motor's output shaft, first synchronous wheel is fixed in first pivot, install on the bearing frame at the both ends of first pivot, the right-hand member at two parallel slides is fixed to the bearing frame symmetry, first synchronous pulley is around establishing on first synchronous pulley and first synchronous wheel, and first synchronous pulley extending direction is unanimous with the slide extending direction.

Furthermore, the connecting assembly comprises a concave nylon support, a lower synchronous support, an upper synchronous support and aluminum pulley wheels, the aluminum pulley wheels are rotatably and symmetrically arranged outside the left side plate and the right side plate of the concave nylon support, four aluminum pulley wheels are arranged on each side plate of the concave nylon support and are distributed in a square shape, the upper two aluminum pulley wheels are embedded in the upper chute of the slideway, the lower two aluminum pulley wheels are embedded in the lower chute of the same slideway, the lower synchronous support is vertically fixed on the inner walls of the left side plate and the right side plate of the concave nylon support, the cutting disc driving mechanism is arranged on the concave nylon support and is in driving connection with the metal cutting disc, the metal cutting disc is positioned outside the aluminum pulley wheels on the front side plate of the concave nylon support and is arranged on the bottom surface of the first lower synchronous belt through the lower synchronous support, the upper bracket of the synchronous belt is arranged on the top surface of a first synchronous belt at the lower side and is locked on the lower bracket of the synchronous belt through a bolt and nut assembly, the connecting assembly is fixed on the first synchronous belt to drive the metal cutting disc and the cutting disc driving mechanism to move along with the rotation of the first synchronous belt, and the aluminum profile pulleys at the front side and the rear side synchronously slide along the front side and rear side slideways respectively.

Further, the cutting disc driving mechanism comprises a direct current motor, a second synchronous pulley, a second synchronous wheel, a second synchronous belt, a red copper conducting strip and a graphite brush, the direct current motor is fixed on a bottom plate of the concave nylon support through a direct current motor support, the numerical control system controls the direct current motor to start, stop, rotate in the positive direction and the negative direction, the second synchronous pulley is installed on an output shaft of the direct current motor, the second synchronous pulley is installed on a metal cutting disc rotating shaft, the metal cutting disc rotating shaft is supported at the bottom of the concave nylon support through a bearing seat, the second synchronous strip is wound on the second synchronous pulley and the second synchronous wheel, a negative electrode of an electric arc cutting power supply is connected with the red copper conducting strip through an electric wire, an upper bending portion of the red copper conducting strip is fixed on the bottom plate of the concave nylon support through a fourth butterfly screw, and the graphite brush is symmetrically fixed at the bottom of a lower bending portion of the red copper and is located below the concave nylon support and below the gold brush Belong to cutting disc pivot both sides, graphite brush left end and the laminating of metal cutting disc medial surface are connected, metal cutting disc fixed connection is at metal cutting disc pivot left end.

Further, the left end of the metal cutting disk rotating shaft is provided with a boss, a threaded hole is formed in the middle of the boss, a through hole is formed in the middle of the metal cutting disk, a cutting disk fixing disc-shaped bolt is screwed into the threaded hole of the boss of the metal cutting disk rotating shaft through the through hole and is screwed tightly, and the metal cutting disk rotating shaft are fixedly connected and rotate synchronously along with the metal cutting disk rotating shaft.

Furthermore, universal water spray nozzle and immersible pump lead to water piping connection, numerical control system control immersible pump opens and stops, universal water spray nozzle is installed on the bottom plate of "concave" type nylon bracket for water spray to metal cutting dish pivot and work piece cutting department.

The invention has the following beneficial effects:

1) the invention adopts the arc discharge principle to cut, has no dependence on the hardness, brittleness and strength characteristics of materials, can cut large steel plates, steel blocks, steel pipes and the like on site by using flexible and rigid cutting, is suitable for precise cutting of large and small workpieces, and has wide application range;

2) according to the modular design, the water tank, the numerical control system and the arc cutting power supply module are arranged on the base, the sliding module and the arc cutting module can be detachably fixed on the base through the bracket in a magnetic attraction manner, and the universal wheels can be locked at the bottom of the base to easily push all module equipment, so that the labor is saved, and the modular electric arc cutting power supply module is particularly suitable for field cutting operation;

3) the height and the inclination of the sliding rail are adjustably fixed on the bracket, the linear module is fixed on the sliding rail, the cutting disc driving mechanism is arranged on the linear module through the connecting component, the cutting disc driving mechanism is in driving connection with the metal cutting disc, and then the cutting disc can be adjusted in height and inclination along with the sliding rail, so that the cutting disc can perform linear cutting or oblique line cutting at different angles on workpieces, and the cutting disc is suitable for cutting and forming workpieces with different shapes;

4) the slide rail passes through the support and drives the cutting disc and carry out height and gradient adjustment, to large-scale work piece, the work piece up end is arranged in to the cutting disc, the cutting disc cutting that advances under the control slide rail right-hand member state of declining, after the cutting disc forward cutting is accomplished, the adjustment slide rail reverse slope, return the cutting along the spout of just cutting through the cutting disc, can accomplish big work piece cutting operation, the steerable water spray module of numerical control system, the slip module, electric arc cutting module starts work, semi-motorized control cutting, it is high-efficient laborsaving, application scope is wide.

Drawings

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

FIG. 2 is a schematic view of the sliding module and arc cutting module assembly of the present invention;

FIG. 3 is a schematic view of the linear die set and arc cutting die set of FIG. 2 assembled together;

FIG. 4 is a schematic structural view of the arc cutting module of FIG. 2;

FIG. 5 is a schematic left front view of FIG. 4;

FIG. 6 is a schematic top right view of FIG. 4;

FIG. 7 is a schematic view of the stent structure of FIG. 2;

FIG. 8 is a schematic view of the slide rail structure of FIG. 2;

FIG. 9 is an initial A1 state diagram of the NC disk type ARC discharge cutting machine of the present invention cutting large materials;

FIG. 10 is a state diagram of the cutting process A2 of the NC disk type ARC cutting machine of the present invention;

FIG. 11 is a state diagram of the cutting process A3 of the NC disk type ARC cutting machine of the present invention;

FIG. 12 is a state diagram of the cutting process A4 of the NC disk type ARC cutting machine of the present invention;

FIG. 13 is an initial B1 state diagram of the NC disk type ARC discharge cutting machine of the present invention cutting small size materials;

FIG. 14 is a state diagram of a cutting process B2 of the numerical control disk type arc discharge cutting machine of the invention for cutting small-sized materials;

FIG. 15 is a diagram of a state of obliquely cutting small materials by the numerical control disk type arc discharge cutting machine of the present invention.

Wherein the reference numerals are: the electric arc cutting machine comprises a base 1, lockable universal wheels 1-1, a numerical control system 2, an electric arc cutting power supply 3, a water tank 4-1, a submersible pump 4-2, universal water nozzles 4-3, a slide rail 5-1, a slide rail 5-11, a fixing block 5-12, a support 5-2, an upper side plate 5-21, a bracket leg with a groove 5-22, a magnetic attraction plate 5-23, a first disc-shaped screw 5-24, a second disc-shaped screw 5-25, a magnetic attraction and loosening disc-shaped screw 5-26, a third disc-shaped screw 5-27, a linear module 5-3, a speed reducing motor 5-31, a first synchronous belt wheel 5-32, a first synchronous belt 5-33, a first synchronous wheel 5-34, a speed reducing motor support 5-35, a first rotating shaft 5-36, a bearing bracket 5-37, a metal cutting disc 6-1, a metal cutting disc, The device comprises a connecting assembly 6-2, a concave nylon support 6-21, a lower synchronous belt support 6-22, an upper synchronous belt support 6-23, an aluminum section pulley 6-24, a cutting disc driving mechanism 6-3, a direct current motor 6-31, a second synchronous pulley 6-32, a second synchronous wheel 6-33, a second synchronous belt 6-34, a red copper conducting strip 6-35, a graphite brush 6-36, a direct current motor support 6-37, a metal cutting disc rotating shaft 6-38, a bearing seat 6-39, a fourth butterfly screw 6-40 and a cutting disc fixing disk bolt 6-41.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings.

As shown in figures 1-8, the numerical control disk type arc discharge cutting machine comprises a base 1, a numerical control system 2, a water spraying module, a sliding module, an arc cutting module and an arc cutting power supply 3, wherein the water spraying module comprises a water tank 4-1, a submersible pump 4-2 and a universal water nozzle 4-3, the submersible pump 4-2 is installed in the water tank 4-1, the numerical control system 2 and the arc cutting power supply 3 are installed on the base 1, lockable universal wheels 1-1 are installed at four corners of the bottom of the base 1 for convenient pushing, the sliding module comprises a sliding rail 5-1, a support 5-2 and a linear module 5-3, the height and the inclination of the sliding rail 5-1 are adjustably fixed on the support 5-2, the arc cutting module comprises a metal cutting disk 6-1, a connecting component 6-2 and a cutting disk driving mechanism 6-3, the cutting disc driving mechanism 6-3 is installed on the linear module 5-3 through the connecting component 6-2 to drive the metal cutting disc 6-1 to move synchronously with the linear module 5-3, the workpiece and the metal cutting disc 6-1 are respectively connected with the anode and the cathode of the electric arc cutting power supply 3 to generate electric arc discharge cutting, and the numerical control system 2 is electrically connected with the submersible pump 4-2, the linear module 5-3 and the cutting disc driving mechanism 6-3.

As shown in fig. 8, the slide rail 5-1 comprises slide ways 5-11 and fixed blocks 5-12, wherein the upper end surface and the lower end surface of each slide way 5-11 are symmetrically provided with slide ways with an upward opening and a downward opening, the two slide ways 5-11 arranged in parallel are fixedly connected through the two fixed blocks 5-12, the fixed blocks 5-12 are fixed on the inner side surfaces of the two end parts of the two slide ways 5-11, the fixed block 5-12 on the left side is flush with the left end surfaces of the two slide ways 5-11, and the fixed block 5-12 on the right side is flush with the right end surfaces of.

As shown in figure 7, the bracket 5-2 comprises an upper side plate 5-21, a bracket leg 5-22 with a groove and a magnetic suction plate 5-23, wherein the left side surface and the right side surface of the upper side plate 5-21 are provided with threaded holes, the bracket leg 5-22 with the groove is an H-shaped supporting leg, the left side plate and the right side plate of the H-shaped supporting leg are concave grooved side plates, the upper side plate 5-21 is locked at different positions of the groove of the concave grooved side plate through a first disc screw 5-24 in a matching way, the upper side plate 5-21 is fixed on the H-shaped supporting leg with adjustable height, the magnetic suction plate 5-23 is fixed in a lower groove of the H-shaped supporting leg through a second disc screw 5-25 in a rotating way, one side surface of the magnetic suction plate 5-23 is provided with a magnetic suction tightness disc screw 5-26, the magnetic suction tightness disc screw 5-26 controls, the base 1 is made of No. 45 steel or iron materials, so that the bracket 5-2 can be fixed on the base 1 in a magnetic adsorption mode after the magnetic-adsorption tightening butterfly screws 5-26 are opened.

As shown in fig. 2, 7, 8 and 15, the middle parts of the upper side plates 5-21 and the middle parts of the fixing blocks 5-12 are correspondingly provided with internal thread holes and external thread holes respectively, and the slide rail 5-1 is fixed on the two brackets 5-2 in an adjustable (rotatable) manner through the matching locking inclination of the third butterfly screws 5-27 and the internal and external thread holes.

As shown in fig. 2 and 3, the linear module 5-3 is a belt transmission mechanism, which comprises a speed reducing motor 5-31, a first synchronous pulley 5-32, a first synchronous belt 5-33 and a first synchronous pulley 5-34, the speed reducing motor 5-31 is fixed at the left end of a front slideway 5-11 through a speed reducing motor bracket 5-35, a numerical control system 2 controls the speed reducing motor 5-31 to start, stop and rotate in the forward and reverse directions, the first synchronous pulley 5-32 is installed on an output shaft of the speed reducing motor 5-31, the first synchronous pulley 5-34 is fixed on a first rotating shaft 5-36, two ends of the first rotating shaft 5-36 are installed on bearing brackets 5-37, the bearing brackets 5-37 are symmetrically fixed at the right ends of the two parallel slideways 5-11, the first synchronous pulley 5-32 is wound on the first synchronous pulley 5-32 and the first synchronous pulley 5-34, the first timing pulley 5-32 extends in the same direction as the slideway 5-11.

As shown in fig. 2 to 5, the connecting assembly 6-2 comprises a concave nylon bracket 6-21, a lower synchronous bracket 6-22, an upper synchronous belt bracket 6-23 and aluminum profile pulleys 6-24, the aluminum profile pulleys 6-24 are rotatably and symmetrically arranged outside the left and right side plates of the concave nylon bracket 6-21, and four aluminum profile pulleys 6-24 are arranged on each side plate of the concave nylon bracket 6-21 and are distributed in a square shape, wherein the upper two aluminum profile pulleys 6-24 are embedded in the upper sliding grooves of the sliding ways 5-11, the lower two aluminum profile pulleys 6-24 are embedded in the lower sliding grooves of the same sliding ways 5-11, the lower synchronous bracket 6-22 is vertically fixed on the inner walls of the left and right side plates of the concave nylon bracket 6-21, the cutting disc driving mechanism 6-3 is arranged on the concave nylon bracket 6-21, the metal cutting disc 6-1 is located on the outer side of an aluminum profile pulley 6-24 on a front side plate of a concave nylon support 6-21, the metal cutting disc 6-1 is arranged on the bottom surface of a first lower synchronous belt 5-33 through a lower synchronous belt support 6-22, an upper synchronous belt support 6-23 is arranged on the top surface of the first lower synchronous belt 5-33 and is locked on the lower synchronous belt support 6-22 through a bolt and nut assembly, a connecting assembly 6-2 is fixed on the first synchronous belt 5-33 to drive the metal cutting disc 6-1 and a cutting disc driving mechanism 6-3 to move along with the rotation of the first synchronous belt 5-33, and the aluminum profile pulleys 6-24 on the front side and the rear side respectively slide synchronously along front and rear side slideways 5-11.

As shown in fig. 4-6, the cutting disc driving mechanism 6-3 comprises a direct current motor 6-31, a second synchronous pulley 6-32, a second synchronous wheel 6-33, a second synchronous belt 6-34, a red copper conducting strip 6-35 and a graphite brush 6-36, the direct current motor 6-31 is fixed on the bottom plate of the concave nylon bracket 6-21 through a direct current motor bracket 6-37, the numerical control system 2 controls the start, stop and positive and negative rotation of the direct current motor 6-31, the second synchronous pulley 6-32 is arranged on the output shaft of the direct current motor 6-31, the second synchronous wheel 6-33 is arranged on a metal cutting disc rotating shaft 6-38, the metal cutting disc rotating shaft 6-38 is supported at the bottom of the concave nylon bracket 6-21 through a bearing seat 6-39, the second synchronous belt 6-34 is wound on the second synchronous pulley 6-32 and the second synchronous pulley 6-33, the negative pole of the electric arc cutting power supply 3 is connected with red copper conducting strips 6-35 through wires, the upper bent parts of the red copper conducting strips 6-35 are fixed on the bottom plate of the concave nylon bracket 6-21 through fourth butterfly screws 6-40, graphite brushes 6-36 are symmetrically fixed at the bottom of the lower bent parts of the red copper conducting strips 6-35 and are positioned below the concave nylon bracket 6-21 and at two sides of a metal cutting disc rotating shaft 6-38, the left ends of the graphite brushes 6-36 are attached and connected with the inner side surface of the metal cutting disc 6-1, and the metal cutting disc 6-1 is fixedly connected with the left end of the metal cutting disc rotating shaft 6-38.

As shown in figures 5 and 6, a boss is arranged at the left end of the metal cutting disk rotating shaft 6-38, a threaded hole is formed in the middle of the boss, a through hole is formed in the middle of the metal cutting disk 6-1, a cutting disk fixing disk bolt 6-41 is screwed into the boss threaded hole of the metal cutting disk rotating shaft 6-38 through the through hole and is screwed tightly, and the metal cutting disk 6-1 is fixedly connected with the metal cutting disk rotating shaft 6-38 and synchronously rotates along with the metal cutting disk rotating shaft 6-38.

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