CN203542868U

CN203542868U - Full automatic irregular stone rope cutting machine

Info

Publication number: CN203542868U
Application number: CN201320541877.2U
Authority: CN
Inventors: 苏永定; 许建明
Original assignee: SHENGDA MACHINERY CO Ltd
Current assignee: SHENGDA MACHINERY CO Ltd
Priority date: 2013-09-03
Filing date: 2013-09-03
Publication date: 2014-04-16
Anticipated expiration: 2023-09-03

Abstract

The utility model provides a full automatic irregular stone rope cutting machine which comprises two supporting frames, a rotary device, a beading rope and a control system. A sliding frame is sleeved on each supporting frame in a sliding mode, a connecting piece is fixedly arranged on each sliding frame, and the connecting pieces are sleeved on rotary shafts of the rotary device in a rotating mode so that the sliding frames drive the rotary device to move vertically. A first driving device is arranged on each supporting frame, a first lead screw and a first nut are arranged in each supporting frame, output shafts of the first driving devices are connected with the upper ends of the first lead screws in a transmission mode, the first nuts are sleeved on the threaded ends of the upper ends of the first lead screws, the first nuts are fixed in the sliding frames, and the first driving devices and the rotary device are connected with the control system through circuits. By means of the machine, the beading rope can be controlled to conduct inclined cutting automatically according to the complex shape of a stone sample, and stone products in asymmetrical shapes are cut.

Description

A kind of Full-automatic special-shaped stone material rope is cut machine

Technical field

The utility model belongs to stone material cutting equipment field, and especially a kind of Full-automatic special-shaped stone material rope is cut machine.

Background technology

Three kinds of equipment below general employing of processing of original shaped stone material product: (1) is with the barrel saw of band-saw diamond; (2) computer abnormity is cut machine, as computer is controlled special-shaped line cutting machine; (3) multi-purpose computer bead string rope.But, because these three kinds of equipment exist that functions of the equipments are single, operating flexibility is poor and the factors such as shape of product restriction, make existing stone material product still cannot meet the demand of existing market to stone material product diversification.

The Chinese patent of application publication number CN102626948A has been announced a kind of multi-purpose computer bead string rope, the invention discloses a kind of multi-purpose computer bead string rope, comprises cutting mechanism, rotating feed mechanism, truck feed mechanism, control system; Wherein the rotating shaft one end in rotating feed mechanism is connected with the first drive unit; In a side of rotating shaft, be fixedly connected with one end of a pair of turning arm, its opposite side is fixedly connected with strainer mount pad; A pair of follower in cutting mechanism is arranged on the other end of a pair of turning arm rotationally; During work, cutting rope is done horizontal resection motion; Cutting rope be take again rotating shaft as center of rotation simultaneously, and the length of turning arm of take is radius, does swivel feeding motion; And form poor complementary operation with the horizontal cross feed motion of truck, realize abnormity cutting motion.But, the first drive unit employing swing arm mode feeding due to this bead string rope, arm lever version causes it to rely on more merely reductor to realize, larger load will be caused to reductor, therefore reducer gear easily lost efficacy, and the gear fit clearance of reductor is put into processing Buddha's warrior attendant rope position by tens times, cause loss of significance, be unfavorable for high-precision special-shaped processing.

In addition, also occur in the market a kind of frequency conversion type gantry bead string rope machine, but because its process data relies on PLC programming Control, precision and complex surface machining problem that it exists processing, can not adapt to high-precision irregular stone cutting demand.In addition, this frequency conversion type gantry bead string rope machine can only drive bead string rope two ends synchronization lifting, and cannot realize its inclined cut operation, can only cut out symmetrical product, and shape of product is single.

Summary of the invention

The utility model aim to provide a kind of can be according to the complicated shape of stone sample, automatically control the Full-automatic special-shaped stone material rope that bead string rope carries out inclined cut and cut machine.

A kind of Full-automatic special-shaped stone material rope is cut machine, comprise two bracing frames, workbench, slewing equipment, bead string rope and control system, workbench is located between two bracing frames, a sheathed sliding sash slides respectively on two bracing frames, on sliding sash, be fixedly installed connector, connector again turning set is located in the rotating shaft of slewing equipment, thereby realize sliding sash, drives slewing equipment to move up and down; Bead string rope is tensioned on slewing equipment; The first drive unit is installed respectively on two bracing frames, in bracing frame, be provided with the first screw mandrel and the first nut, the output shaft of the first drive unit and the first screw mandrel upper end are in transmission connection, sheathed first nut of the lower end end of thread of the first screw mandrel, the first nut is fixed in sliding sash, the first drive unit drives the first screw mandrel to rotate, and drives successively the first nut, sliding sash, slewing equipment lifting, and the first drive unit is all connected with control system circuit with slewing equipment.

In the course of the work, rough stone block is placed on workbench, and control system is controlled slewing equipment and driven bead string rope wraparound rotary device to rotate, simultaneously, the first drive unit obtains control system instruction and can independently regulate the height of sliding sash and slewing equipment on two bracing frames, like this, i.e. adjustable two slewing equipment synchronization liftings, also adjustable two slewing equipment height differ, inclined cut stone material, therefore, can, according to the needs of shape of product, realize the object of cutting asymmetric and symmetric shape stone material.

Further improvement of the utility model is:

1) the first drive unit is comprised of the first servomotor and the first decelerator.Wherein, control system generally adopts Control System of Microcomputer.In the course of the work, product graphics processing data are inputted PC or draw by the CAD graphics software carrying with * .dwg form; Before work, call the product graph data of required processing, by the physical location of bead string rope and building stones, set the initial cutting position point of bead string rope, can carry out full-automation cutting; During work, control system reads product graph data, according to graphics track, controls mobile numerical value and the translational speed in the vertical direction that the first drive unit controls, and automation is controlled more convenient.

2) on two sliding sashes of slewing equipment below, set firmly respectively a sheave assembly, sheave assembly comprises the first guiding slide bar, jack rod sleeve, guiding power transmission shaft, the second drive unit, gear-box, rotating shaft, wheel stand and some guide wheels, the first guiding slide bar is slidably connected by jack rod sleeve and corresponding sliding sash, in the first guiding slide bar, rotate sheathed guiding power transmission shaft, one end of guided rotation axle and the second drive unit are in transmission connection, the other end is connected with rotating shaft transmission by gear-box, the axle head fixed installation wheel stand of rotating shaft, guide wheel is all rotatably installed on wheel stand, the second drive unit is connected with control system circuit.

The rigging position relation of the structure of guide wheel and guide wheel and wheel stand is all that the structure of CN20142845Y Chinese patent is identical with Granted publication number, certainly, the quantity of guide wheel is not limited to two, also can be a plurality of, guide wheel goes to upper and lower two rows and arranges, diamond bead string rope clamping is supported between upper and lower two row's guide wheels, at this, is not described in detail.Therefore, the utility model can be with action-oriented power transmission shaft, rotating shaft, wheel stand and guide wheel to rotate by the second drive unit successively, bead string rope can be rotated with the rotation of guide wheel, like this, bead string rope can cut out various curve shapes under the auxiliary guide effect of guide wheel, and, the normal direction of the rotation of guide wheel and bead string rope cutting is stressed harmoniously, guide wheel can be offset bead string rope normal direction cutting stress, reduce the strain of bead string rope, like this, bead string rope can cut out various accurate curve shapes under the auxiliary guide effect of guide wheel.

In specific implementation process, the second drive unit is comprised of the second servomotor and the second decelerator, and like this, not only accommodation accuracy is high, and automation is controlled more convenient.

The transmission connecting structure of guiding power transmission shaft and rotating shaft is: gear-box contains the first gear and the second gear, the first geared sleeve is located on the guiding power transmission shaft that stretches into gear-box, gear-box one side contrary with the first guiding slide bar rotated and plugged a rotating shaft, stretch into sheathed the second gear in the rotating shaft of gear-box, and, the first gear and the engagement of the second gear, thereby, the rotation of guiding power transmission shaft is reached to rotating shaft and wheel stand.In specific implementation process, rotating shaft is preferably hollow rotating shaft, and bead string rope can pass from the inside of rotating shaft, by upper and lower guide wheel clamping support guide, avoids the wearing and tearing of bead string rope countershaft.

Sheave assembly also comprises the second screw mandrel, the second nut, the second guiding slide bar, several guiding jack rod sleeves and adjusting handle, the second guiding slide bar is horizontally fixed on the sidewall of sliding sash by guiding jack rod sleeve, one end of the second guiding slide bar is installed with end plate, the other end is fixedly connected with gear-box, the second screw mandrel, the first guiding slide bar is all located on end plate, and, the second screw mandrel and the second guiding slide bar be arranged in parallel, adjusting handle is installed in one end of the second screw mandrel, the other end coordinates with the second nut thread, the second nut is fixedly connected with sliding sash, rotate handwheel and drive successively the second screw mandrel, two guiding slide bars, gear-box, wheel stand and guide wheel move horizontally, like this, can be according to the shape of stone material and size, regulate the position of guide wheel make its to the guiding of bead string rope in rational location point.

The first guiding slide bar be arranged in parallel with the second guiding slide bar, like this, makes the only adjustable bead string rope displacement in the horizontal direction of corresponding handwheel, control more convenient, and, coordinate with the displacement control in other directions, also can realize the cutting to various shape stone materials.

3) workbench is comprised of truck, truck base, two tracks, longitudinal-moving device, parallel installation two tracks on truck base, symmetrical two rollers that arrange respectively in truck bottom, roller coordinates with the track of truck base, between two tracks of truck base top, is provided with longitudinal-moving device, and longitudinal-moving device and truck are in transmission connection, longitudinal-moving device is connected with control system circuit, can realize vertically moving of truck by longitudinal-moving device, thereby, realize the longitudinal cutting to stone material.

Longitudinal-moving device is comprised of the 3rd screw mandrel, the 3rd nut, nut seat and the 3rd drive unit, the 3rd drive unit is arranged on truck base, the output shaft of the 3rd drive unit and the 3rd screw mandrel one end are in transmission connection, sheathed the 3rd nut of the other end of the 3rd screw mandrel, the 3rd nut coordinates with the 3rd wire rod thread, the 3rd nut is fixedly connected with truck by nut seat, and the 3rd drive unit is connected with control system circuit.The 3rd drive unit is controlled the 3rd screw mandrel and is rotated, and then, drive the 3rd nut to move along the 3rd screw mandrel, the 3rd nut is with material mover to vertically move along track again, adopts screw mandrel and nut cooperation to realize length travel and regulates, and displacement regulates more accurate.In specific implementation process, the 3rd drive unit is comprised of the 3rd servomotor and the 3rd decelerator.Like this, not only accommodation accuracy is high, and automation is controlled more convenient.

4) a sheathed lock nut on the first screw mandrel of the first nut below.Certainly, the end of the second nut and the 3rd nut also can sheathed lock nut.

5) the bracing frame lateral wall except sliding sash is provided with bracing frame guard shield, can avoid the lowering or hoisting gear accessories such as the first screw mandrel in cooling water corrosion bracing frame and bracing frame, the first nut.

When first, second and third drive unit all adopts servomotor and decelerator, control system is Control System of Microcomputer.In the course of the work, product graphics processing data are drawn with * .dwg form input PC or the CAD graphics software that carries by PC; Before work, call the product graph data of required processing, by the physical location of bead string rope and building stones, set the initial cutting position point of bead string rope, can carry out full-automation cutting; During work, system reads product graph data, controls the mobile numerical value of the different directions that first, second, third drive unit controls according to graphics track, the cutting that cutting accuracy is higher, can be applicable to various shape stone materials.

Accompanying drawing explanation

Fig. 1 is overall structure figure of the present utility model;

Fig. 2 is the cutaway view of bracing frame of the present utility model;

Fig. 3 is that bracing frame of the present utility model is along the cutaway view of II-II line of Fig. 2;

Fig. 4 is the structure chart of sheave assembly of the present utility model;

Fig. 5 is the structure chart of workbench of the present utility model;

Fig. 6 is the side view of workbench of the present utility model.

The specific embodiment

Now illustrate with reference to the accompanying drawings this embodiment of the present utility model:

In conjunction with Fig. 1, Fig. 2, a kind of Full-automatic special-shaped stone material rope is cut machine, comprise two bracing frames 1, workbench 2, slewing equipment 3, bead string rope 4 and control system 5, workbench 2 is located between two bracing frames 1, a sheathed sliding sash 6 slides respectively on two bracing frames 1, on sliding sash 6, be fixedly installed connector 15, connector 15 again turning set is located in the rotating shaft 17 of slewing equipment 3, thereby realize sliding sash, drives slewing equipment to move up and down; Bead string rope 4 is tensioned on slewing equipment 3; The first drive unit 7 is installed respectively on two bracing frames 1, in bracing frame 1, be provided with the first screw mandrel 8 and the first nut 9, the output shaft of the first drive unit 7 and the first screw mandrel 8 upper ends are in transmission connection, sheathed first nut 9 of the lower end end of thread of the first screw mandrel 8, the first nut 9 is fixed in sliding sash 6, the first drive unit 7 drives the first screw mandrel 8 to rotate, and drives successively the first nut 9, sliding sash 6, slewing equipment 3 liftings, and the first drive unit 7 is all connected with control system 5 circuit with slewing equipment 3.

In the course of the work, rough stone block is placed on workbench 2, control system 5 is controlled slewing equipment 3 and is driven bead string rope 4 wraparound rotary devices 3 to rotate, simultaneously, the first drive unit 7 obtains control system 5 instructions and can regulate respectively the independence of sliding sash 6 and slewing equipment 3 on two bracing frames 1, like this, be adjustable two slewing equipment 3 synchronization liftings, also adjustable two slewing equipments 3 highly differ, inclined cut stone material, therefore, can, according to the needs of shape of product, realize the object of cutting asymmetric and symmetric shape stone material.

Further improvement of the utility model is:

1) the first drive unit 7 forms (as shown in Figure 1, 2) by the first servomotor 71 and the first decelerator 72.Wherein, the general Control System of Microcomputer that adopts of control system 5.In the course of the work, product graphics processing data are inputted PC or draw by the CAD graphics software carrying with * .dwg form; Before work, call the product graph data of required processing, by bead string rope 4 and the physical location of building stones, set the initial cutting position point of bead string rope 4, can carry out full-automation cutting; During work, control system 5 reads product graph data, according to graphics track, controls mobile numerical value and the translational speed in the vertical direction that the first drive unit 7 controls, and automation is controlled more convenient.

2) on two sliding sashes 6 of slewing equipment 3 belows, set firmly respectively a sheave assembly 40, sheave assembly 40 comprises the first guiding slide bar 41, jack rod sleeve 42, guiding power transmission shaft 43, the second drive unit 44, gear-box 45, rotating shaft 46, wheel stand 47 and some guide wheels 48, the first guiding slide bar 41 is slidably connected by jack rod sleeve 42 and corresponding sliding sash 6, the sheathed guiding power transmission shaft 43 of the first guiding interior rotation of slide bar 41, one end of guided rotation axle 43 and the second drive unit 44 are in transmission connection, the other end is in transmission connection by gear-box 45 and rotating shaft 46, the axle head fixed installation wheel stand 47 of rotating shaft 46, guide wheel 48 is all rotatably installed on wheel stand 47, the second drive unit 44 is connected (as shown in Figure 4) with control system 5 circuit.

The assembling of the structure of guide wheel 48 and guide wheel 48 and wheel stand 47, position relationship are all that the structure of CN20142845Y Chinese patent is identical with Granted publication number, certainly, the quantity of guide wheel 48 is not limited to two, also can be a plurality of, guide wheel 48 goes to upper and lower two rows and arranges, bead string rope 4 clampings are supported between upper and lower two row's guide wheels, at this, are not described in detail.Therefore, the utility model can be with action-oriented power transmission shaft 43 successively by the second drive unit 44, rotating shaft 46, wheel stand 47 and guide wheel 48 rotate, bead string rope 4 can be rotated with the rotation of guide wheel 48, like this, bead string rope 4 can cut out various curve shapes under the auxiliary guide effect of guide wheel 48, and, the normal direction of the rotation of guide wheel 48 and bead string rope 4 cuttings is stressed harmoniously, guide wheel 48 can be offset bead string rope 4 normal direction cutting stress, reduce the strain of bead string rope 4, like this, bead string rope 4 can cut out various accurate curve shapes under the booster action of guide wheel 48.

In specific implementation process, the second drive unit 44 forms (as shown in Figure 4) by the second servomotor 441 and the second decelerator 442, and like this, not only accommodation accuracy is high, and automation is controlled more convenient.

As shown in Figure 4, guiding power transmission shaft 43 with the transmission connecting structure of rotating shaft 46 is: gear-box 45 contains the first gear 451 and the second gear 452, the first gear 452 is set on the guiding power transmission shaft 43 that stretches into gear-box 45, gear-box 45 one sides contrary with the first guiding slide bar 41 are rotated and are plugged a rotating shaft 46, stretch into sheathed gear 2 452 in the rotating shaft 46 of gear-box 45, and, the first gear 451 and the second gear 452 engagements, thereby, the rotation of guiding power transmission shaft 43 is reached to rotating shaft 46 and wheel stand 47.In specific implementation process, rotating shaft 46 is preferably hollow rotating shaft, and bead string rope 4 can pass from the inside of rotating shaft 46, by upper and lower guide wheel, clamps guiding, avoids the wearing and tearing of bead string rope 4 countershafts 46.

As shown in Figure 4, sheave assembly 40 also comprises the second screw mandrel 50, the second nut 51, the second guiding slide bar 52, several guiding jack rod sleeves 53 and adjusting handle 54, the second guiding slide bar 52 is horizontally fixed on the sidewall of sliding sash 6 by guiding jack rod sleeve 53, one end of the second guiding slide bar 52 is installed with end plate 55, the other end is fixedly connected with gear-box 45, the second screw mandrel 50, the first guiding slide bar 41 is all located on end plate 55, and, the second screw mandrel 50 and the second guiding slide bar 52 be arranged in parallel, adjusting handle 54 is installed in one end of the second screw mandrel 52, the other end and the second nut 51 threaded engagement, the second nut 51 is fixedly connected with sliding sash 6, rotate handwheel 54 and drive successively the second screw mandrel 50, two guiding slide bars (41, 52), gear-box 45, wheel stand 47 and guide wheel 48 move horizontally, like this, can be according to the shape of stone material and size, regulate the position of guide wheel 48 make its to the guiding of bead string rope 4 in rational location point.

The first guiding slide bar 41 and the second guiding slide bar 52 be arranged in parallel (as shown in Figure 4), like this, make only adjustable bead string rope 4 displacement in the horizontal direction of corresponding handwheel, control more convenient, and, control and coordinate with the displacement in other directions, also can realize the cutting to various shape stone materials.

3) workbench 2 is comprised of truck 21, truck base 22, two tracks 23, longitudinal-moving device 24, parallel installation two tracks 23 on truck base 22, symmetrical two rollers 210 that arrange respectively in truck 21 bottoms, roller 210 coordinates with the track 23 of truck base, between two tracks 23 of truck base 22 tops, be provided with longitudinal-moving device 24, longitudinal-moving device 24 is in transmission connection with truck 21, longitudinal-moving device 24 is connected (as shown in Figure 5) with control system 5 circuit, can realize vertically moving of truck 21 by longitudinal-moving device 24, thereby, realize the longitudinal cutting to stone material.

As shown in Figure 6, longitudinal-moving device 24 is comprised of the 3rd screw mandrel 241, the 3rd nut 242, nut seat 243 and the 3rd drive unit 244, the 3rd drive unit 244 is arranged on truck base 22, the output shaft of the 3rd drive unit 244 and the 3rd screw mandrel 241 one end are in transmission connection, sheathed the 3rd nut 242 of the other end of the 3rd screw mandrel 241, the 3rd nut 242 and the 3rd screw mandrel 241 threaded engagement, the 3rd nut 242 is fixedly connected with truck 21 by nut seat 243, and the 3rd drive unit 244 is connected with control system 5 circuit.The 3rd drive unit 244 is controlled the 3rd screw mandrel 241 and is rotated, and then, drive the 3rd nut 242 to move along the 3rd screw mandrel 241, the 3rd nut 242 is with material mover 21 to vertically move along track 23 again, adopt screw mandrel and nut to coordinate and realize length travel adjusting, displacement regulates more accurate.In specific implementation process, the 3rd drive unit 244 forms (as shown in Figure 6) by the 3rd servomotor 2441 and the 3rd decelerator 2442.Like this, not only accommodation accuracy is high, and automation is controlled more convenient.

4) on the first screw mandrel 8 of the first nut 9 belows, a sheathed lock nut 13(is as shown in Figure 2,3).Certainly, the end of the second nut 51 and the 3rd nut 242 also can sheathed lock nut.

5) 1 lateral wall of the bracing frame except sliding sash 6 is provided with bracing frame guard shield 14(as shown in Figure 3), can avoid the lowering or hoisting gear accessories such as the first screw mandrel 8 in cooling water corrosion bracing frame 1 and bracing frame, the first nut 9.

When first, second and third drive unit (7,44,244) all adopts servomotor and decelerator, control system, it is Control System of Microcomputer.In the course of the work, product graphics processing data are drawn with * .dwg form input PC or the CAD graphics software that carries by PC; Before work, call the product graph data of required processing, by bead string rope 4 and the physical location of building stones, set the initial cutting position point of bead string rope 4, can carry out full-automation cutting; During work, system reads product graph data, controls the mobile numerical value of the different directions that first, second, third drive unit (7,44,244) controls according to graphics track, the cutting that cutting accuracy is higher, can be applicable to various shape stone materials.

Certainly, above-mentioned explanation is not to restriction of the present utility model, and the utility model is also not limited to above-mentioned giving an example; those skilled in the art; in essential scope of the present utility model, the variation of making, remodeling, interpolation or replacement, also should belong to protection domain of the present utility model.

Claims

1. a Full-automatic special-shaped stone material rope is cut machine, comprise two bracing frames, workbench, slewing equipment, bead string rope and control system, workbench is located between two bracing frames, a sheathed sliding sash slides respectively on two bracing frames, on sliding sash, be fixedly installed connector, connector again turning set is located in the rotating shaft of slewing equipment, thereby realize sliding sash, drives slewing equipment to move up and down; Bead string rope is tensioned on slewing equipment; It is characterized in that: the first drive unit is installed respectively on two bracing frames, in bracing frame, be provided with the first screw mandrel and the first nut, the output shaft of the first drive unit and the first screw mandrel upper end are in transmission connection, sheathed first nut of the lower end end of thread of the first screw mandrel, the first nut is fixed in sliding sash, the first drive unit drives the first screw mandrel to rotate, and drives successively the first nut, sliding sash, slewing equipment lifting, and the first drive unit is all connected with control system circuit with slewing equipment.

2. a kind of Full-automatic special-shaped stone material rope according to claim 1 is cut machine, it is characterized in that: on two sliding sashes of slewing equipment below, set firmly respectively a sheave assembly, sheave assembly comprises the first guiding slide bar, jack rod sleeve, guiding power transmission shaft, the second drive unit, gear-box, rotating shaft, wheel stand and some guide wheels, the first guiding slide bar is slidably connected by jack rod sleeve and corresponding sliding sash, in the first guiding slide bar, rotate sheathed guiding power transmission shaft, one end of guided rotation axle and the second drive unit are in transmission connection, the other end is connected with rotating shaft transmission by gear-box, the axle head fixed installation wheel stand of rotating shaft, guide wheel is all rotatably installed on wheel stand, the second drive unit is connected with control system circuit.

3. a kind of Full-automatic special-shaped stone material rope according to claim 2 is cut machine, it is characterized in that, the transmission connecting structure of guiding power transmission shaft and rotating shaft is: gear-box contains the first gear and the second gear, the first geared sleeve is located on the guiding power transmission shaft that stretches into gear-box, gear-box one side contrary with the first guiding slide bar rotated and plugged a rotating shaft, stretch into sheathed the second gear in the rotating shaft of gear-box, and, the first gear and the engagement of the second gear.

4. a kind of Full-automatic special-shaped stone material rope according to claim 2 is cut machine, it is characterized in that: sheave assembly also comprises the second screw mandrel, the second nut, the second guiding slide bar, several guiding jack rod sleeves and adjusting handle, the second guiding slide bar is horizontally fixed on the sidewall of sliding sash by guiding jack rod sleeve, one end of the second guiding slide bar is installed with end plate, the other end is fixedly connected with gear-box, the second screw mandrel, the first guiding slide bar is all located on end plate, and, the second screw mandrel and the second guiding slide bar be arranged in parallel, adjusting handle is installed in one end of the second screw mandrel, the other end coordinates with the second nut thread, the second nut is fixedly connected with sliding sash.

5. a kind of Full-automatic special-shaped stone material rope according to claim 4 is cut machine, it is characterized in that: the first guiding slide bar and the second guiding slide bar be arranged in parallel.

6. a kind of Full-automatic special-shaped stone material rope according to claim 1 is cut machine, it is characterized in that: workbench is comprised of truck, truck base, two tracks, longitudinal-moving device, parallel installation two tracks on truck base, symmetrical two rollers that arrange respectively in truck bottom, roller coordinates with the track of truck base, between two tracks of truck base top, be provided with longitudinal-moving device, longitudinal-moving device and truck are in transmission connection.

7. a kind of Full-automatic special-shaped stone material rope according to claim 6 is cut machine, it is characterized in that: longitudinal-moving device is comprised of the 3rd screw mandrel, the 3rd nut, nut seat and the 3rd drive unit, the 3rd drive unit is arranged on truck base, the output shaft of the 3rd drive unit and the 3rd screw mandrel one end are in transmission connection, sheathed the 3rd nut of the other end of the 3rd screw mandrel, the 3rd nut coordinates with the 3rd wire rod thread, the 3rd nut is fixedly connected with truck by nut seat, and the 3rd drive unit is connected with control system circuit.

8. according to a kind of Full-automatic special-shaped stone material rope described in claim 1 or 2 or 7, cut machine, it is characterized in that: described drive unit is comprised of servomotor and decelerator.

9. according to a kind of Full-automatic special-shaped stone material rope described in claim 1 or 2 or 7, cut machine, it is characterized in that: sheathed lock nut on the screw mandrel of described nut below.

10. a kind of Full-automatic special-shaped stone material rope according to claim 1 is cut machine, it is characterized in that: the bracing frame lateral wall except sliding sash is provided with bracing frame guard shield.