CN112497514B

CN112497514B - Intelligent wire saw

Info

Publication number: CN112497514B
Application number: CN202011385288.0A
Authority: CN
Inventors: 林智敏; 洪培英; 丁革新; 吴宝霖; 黄嘉鸿; 林榕栋
Original assignee: Quanzhou Haiende Electromechanical Technology Development Co ltd
Current assignee: Quanzhou Haiende Electromechanical Technology Development Co ltd
Priority date: 2020-12-01
Filing date: 2020-12-01
Publication date: 2021-08-10
Anticipated expiration: 2040-12-01
Also published as: WO2022116388A1; CN112497514A

Abstract

The invention provides an intelligent rope saw machine which comprises a power driving device and a tensioning device, wherein the power driving device is used for driving a rope saw to rotate to cut an object to be cut; the power driving device comprises an active rotating part for driving the rope saw to rotate, a guide rotating part for guiding the rope saw, and a power driving part for driving the active rotating part to rotate; the tensioning device comprises an adjusting device for adjusting the tightness of the guide rotating part to the rope saw. According to the rope saw tensioning device, the rope saw is tensioned through the tensioning device, and then the rope saw is tensioned through the moving rope saw machine, so that the tensioning range of the rope saw is larger, the problem that a cut object has a small cutting allowance after the rope saw machine does not have a space for backward moving is solved, the processes of disassembling the second moving device and the rope saw are omitted, and the working efficiency is improved.

Description

Intelligent wire saw

Technical Field

The invention relates to the technical field of wire saw machines, in particular to an intelligent wire saw machine.

Background

The wire saw is a cutting device of a large concrete structure and a mining quarrying machine. The cutting and dismantling device is mainly used for cutting and dismantling thick concrete and irregular concrete, such as: girder, support, bridge pier, equipment foundation and other reinforced concrete structures, and mining stone.

The rope saw of the rope saw machine mostly uses the diamond rope saw, in the work of the rope saw machine, the rope saw must be kept tensioned at any time, so that the rope saw contacts with a cut object with proper force to cut the cut object, along with the deepening of a cutting seam of the saw, the rope saw needs to be tensioned continuously, otherwise, the rope saw can slip and cannot be used for cutting continuously.

In the prior art, the tensioning of the rope saw is realized by a method of retreating the whole rope saw, a movable rail is arranged at the bottom of the rope saw, the movable rail is fixed on a project site, the rope saw is positioned at the front end of the rail close to an object to be cut, the rope saw gradually moves backwards on a movable guide rail along with the cutting, the rope saw is kept tensioned, when the rope saw moves to the rearmost end of the movable rail without a space for retreating continuously, the common treatment method is to stop the rope saw, the movable rail is installed again at a proper place, or the rope saw is stopped to be detached, a section of the rope saw is detached and then connected, and the rope saw is installed on the rope saw to continue cutting. Both the two processing methods are troublesome, and when the cutting allowance of the cut object is not large, the movable track is installed again or the rope saw is disassembled and assembled, so that the time is wasted, and the work efficiency is not improved.

When a rope saw of the rope saw machine is used for cutting mines, concrete and the like, stone powder is usually attached to the rope saw, and the problem that the stone powder is brought into the machine exists in the process of annular rotation of the rope saw, so that internal faults of the machine are easily caused, the maintenance is inconvenient, and the working efficiency is influenced; the driving wheel for providing power for the rope saw and the guide wheel for guiding the rope saw are easy to wear under the friction of the stone powder, the frequency of replacing the driving wheel and the guide wheel is improved, and resources are not saved.

Accordingly, the present inventors have made extensive studies to solve the above problems and have made the present invention.

Disclosure of Invention

The invention aims to provide an intelligent rope saw, which aims to solve the problems that the tensioning mode of a rope saw in the background technology is not favorable for improving the working efficiency, and stone powder is brought into the machine by the rope saw to easily cause mechanical failure and abrade a driving wheel and a guide wheel.

In order to achieve the purpose, the invention adopts the following technical scheme:

an intelligent rope saw machine comprises a power driving device and a tensioning device, wherein the power driving device is used for driving a rope saw to rotate and cut an object to be cut, and the tensioning device is used for tensioning the power driving device; the power driving device comprises an active rotating part for driving the rope saw to rotate, a guide rotating part for guiding the rope saw, and a power driving part for driving the active rotating part to rotate; the tensioning device comprises an adjusting device for adjusting the tightness of the guide rotating part to the rope saw.

Further, the guide rotating part comprises an upper guide rotating part for guiding the upper horizontal section of the rope saw and a lower guide rotating part for guiding the lower horizontal section of the rope saw; adjusting device is including adjusting the first regulation portion that the rotation piece that leads was to the rope saw rate of tension on, and adjust down the second regulation portion that the rotation piece that leads was to the rope saw rate of tension.

Further, the adjusting device further comprises an adjusting installation part for assembling the first adjusting part and the second adjusting part; the surface of the adjusting installation part is provided with a first connecting hole for the upper horizontal section of the rope saw to pass through and a second connecting hole for the lower horizontal section of the rope saw to pass through; first connecting hole is formed in the upper portion of adjusting the installation department, the second connecting hole is formed in the lower part of adjusting the installation department, the axis parallel and level setting of first connecting hole and second connecting hole.

Further, the first adjusting part comprises a first mounting frame body on which the upper guide rotating part is mounted, and a first elastic supporting part and a second elastic supporting part which elastically support the first mounting frame body; a first sliding opening for a first installation frame body to slide is formed in the outer side face of the adjusting installation portion, a first sliding protrusion is formed at one end of the first installation frame body and is connected in the first sliding opening in a sliding mode, a first limiting plate is formed at one end, away from the first installation frame body, of the first sliding protrusion, and the first limiting plate is attached to the inner side face of the adjusting installation portion and is connected with the inner side face in a sliding mode; the first elastic supporting part is arranged in the first sliding opening and is positioned at the upper end of the first sliding protrusion, and the second elastic supporting part is arranged in the first sliding opening and is positioned at the lower end of the first sliding protrusion.

Further, the second adjusting part comprises a second mounting frame body for mounting the lower guide rotating part, a third elastic supporting part and a fourth elastic supporting part for elastically supporting the second mounting frame body; a second sliding opening for a second installation frame body to slide is formed in the outer side face of the adjusting installation portion, a second sliding protrusion is formed at one end of the second installation frame body and is connected in the second sliding opening in a sliding mode, a second limiting plate is formed at one end, away from the second installation frame body, of the second sliding protrusion, and the second limiting plate is attached to the inner side face of the adjusting installation portion and is connected with the inner side face in a sliding mode; the third elastic supporting part is arranged in the second sliding opening and is positioned at the upper end of the second sliding protrusion, and the fourth elastic supporting part is arranged in the second sliding opening and is positioned at the lower end of the second sliding protrusion.

Further, the upper guide rotating member includes a first upper guide wheel and a second upper guide wheel for guiding the rope saw at the upper horizontal section; the axis of leading wheel on the first and the axis of leading wheel and the axis of first connecting hole set up perpendicularly on the second.

Further, the first mounting frame body comprises a first upper assembling rod and a second upper assembling rod; the upper parts of the first upper assembling rod and the second upper assembling rod are respectively provided with a first upper assembling hole for assembling the first upper guide wheel, and the lower parts of the first upper assembling rod and the second upper assembling rod are respectively provided with a second upper assembling hole for assembling the second upper guide wheel; the first upper guide wheel is assembled between the first upper assembling rod and the second upper assembling rod and is rotatably connected into the first upper assembling hole through the first upper connecting shaft, and the second upper guide wheel is assembled between the first upper assembling rod and the second upper assembling rod and is rotatably connected into the second upper assembling hole through the second upper connecting shaft.

Further, the axis of leading wheel and second is gone up to first leading wheel and the setting of vertical direction parallel and level, first connecting hole is in just between leading wheel on first leading wheel and the second leading wheel first going up the leading wheel with have the clearance that the rope saw passes through between the leading wheel on the second.

Furthermore, a first annular groove for containing the rope saw is formed in the outer circumferential surface of the first upper guide wheel, and a second annular groove for containing the rope saw is formed in the outer circumferential surface of the second upper guide wheel.

Further, the lower guide rotating member includes a first lower guide wheel and a second lower guide wheel for guiding the rope saw of the lower horizontal section; and the axis of the first lower guide wheel and the axis of the second lower guide wheel are perpendicular to the axis of the second connecting hole.

Further, the second mounting frame body comprises a first lower assembling rod and a second lower assembling rod; the upper parts of the first lower assembling rod and the second lower assembling rod are respectively provided with a first lower assembling hole for assembling a first lower guide wheel, and the lower parts of the first lower assembling rod and the second lower assembling rod are respectively provided with a second lower assembling hole for assembling a second lower guide wheel; the first lower guide wheel is assembled between the first lower assembling rod and the second lower assembling rod and is rotatably connected into the first lower assembling hole through the first lower connecting shaft, and the second lower guide wheel is assembled between the first lower assembling rod and the second lower assembling rod and is rotatably connected into the second lower assembling hole through the second lower connecting shaft.

Further, the axes of the first lower guide wheel and the second lower guide wheel are arranged in parallel and level along the vertical direction, the second connecting hole is formed between the first lower guide wheel and the second lower guide wheel, and a gap for the rope saw to pass through is formed between the first lower guide wheel and the second lower guide wheel.

Furthermore, a third annular groove for containing the rope saw is formed in the outer circumferential surface of the first lower guide wheel, and a fourth annular groove for containing the rope saw is formed in the outer circumferential surface of the second lower guide wheel.

Further, the driving rotating part comprises a driving wheel, and a fifth annular groove for accommodating the rope saw is formed in the outer circumferential surface of the driving wheel.

Further, the power driving part comprises a rotation driving device for driving the driving wheel to rotate.

Further, the power driving device further comprises a first moving device for driving the driving wheel and adjusting the installation part to move along the axial direction of the driving wheel, and a rotary driving device for driving the driving wheel and adjusting the installation part to rotate.

Further, the first moving device comprises a first moving driving device for driving the driving wheel and the adjusting installation part to move along the axial direction of the driving wheel, and a protection cover body for protecting the first moving driving device and the rotating driving device; one end of the protective cover body is connected with the inner side surface of the adjusting installation part;

the rotation driving device comprises a rotation mounting frame body and a rotation motor; a rotary output hole is formed on the surface of the rotary mounting frame body, and the output end of the rotary motor penetrates through the rotary output hole to be connected with the driving wheel;

the first mobile driving device comprises a mobile installation frame body, a first guide rod, a second guide rod, a transmission screw rod, a transmission motor and a connecting part; the axial directions of the first guide rod, the second guide rod and the transmission screw rod are the same as the axial direction of the driving wheel, the first guide rod, the transmission screw rod and the second guide rod are sequentially assembled on the movable mounting frame body from top to bottom, one end of the transmission screw rod is rotatably connected with the movable mounting frame body, and the other end of the transmission screw rod is connected with the output end of the transmission motor; a first guide hole for the first guide rod to penetrate through, a transmission hole for the transmission screw rod to penetrate through and a second guide hole for the second guide rod to penetrate through are sequentially formed in the side wall of the connecting part from top to bottom; the connecting part is connected with the first guide rod in a sliding mode through the first guide hole, is rotationally connected with the transmission screw rod through the transmission hole, and is connected with the second guide rod in a sliding mode through the second guide hole; the movable mounting frame body is connected with the rotary mounting frame body;

the output end of the rotary driving device is connected with the end face of the connecting part.

Furthermore, the dustproof device is used for preventing dust of the rotary driving device and the first moving device.

Further, the dustproof device comprises a dustproof cover body for accommodating the driving wheel, the rotation driving device and the first moving device, and an annular sealing position-giving part; the adjusting and mounting part comprises an adjusting and mounting disc, and the dustproof cover body is provided with a first side wall, a second side wall, a third side wall and a fourth side wall which are sequentially and adjacently arranged; a third assembling hole for assembling the annular sealing yielding part is formed in the first side wall; the annular seal yielding part is provided with a fourth assembling hole for assembling the adjusting and mounting disc; the annular seal abdication part is assembled in the third assembly hole, and the adjusting and mounting disc is assembled in the fourth assembly hole and is rotationally connected with the annular seal abdication part; and a third guide hole is formed in the third side wall of the dustproof cover body, and the output end of the rotary driving device penetrates through the third guide hole to be connected with the connecting part.

Further, a sixth annular groove is formed in the inner circumferential surface of the annular seal relief portion, the width dimension of the sixth annular groove is matched with the thickness dimension of an adjusting and mounting disc, and the adjusting and mounting disc is assembled in the sixth annular groove.

Further, still include the dust collector who clears away the mountain flour on the rope saw.

Further, the dust removing device comprises an upper dust removing part for removing dust from the upper horizontal section of the wire saw and a lower dust removing part for removing dust from the lower horizontal section of the wire saw.

Further, the upper dust removing part comprises an upper pneumatic dust blowing gun for outputting airflow to remove stone dust on the upper horizontal section of the rope saw and an upper compressor; the output end of the upper compressor is connected with the upper pneumatic dust blowing gun.

Further, the upper pneumatic dust blowing gun comprises an upper pneumatic dust blowing head which outputs airflow.

Further, the lower dust removing part comprises a lower pneumatic dust blowing gun for outputting airflow to remove stone dust on the lower horizontal section of the rope saw and a lower compressor; and the output end of the lower compressor is connected with the lower pneumatic dust blowing gun.

Further, the lower pneumatic dust blowing gun comprises a lower pneumatic dust blowing head which outputs airflow.

Furthermore, the dust removal device is arranged on the outer side surface of the adjusting and mounting part;

the output end of the upper pneumatic dust blowing head is arranged between the first upper guide wheel and the second upper guide wheel and faces the rope saw;

the output end of the lower pneumatic dust blowing head is arranged between the first lower guide wheel and the second lower guide wheel and faces the rope saw.

Further, the dust removing device further comprises a first moving part which enables the upper dust removing part and the first adjusting part to move synchronously, and a second moving part which enables the lower dust removing part and the second adjusting part to move synchronously.

Further, the first moving part comprises an upper dust removing seat, a first upper guide plate and a second upper guide plate; the upper dust removing seat is connected to the first mounting frame body, the upper dust removing portion is arranged on the end face of the upper dust removing seat, a first slide way, in which the upper dust removing seat moves up and down, is formed between the first upper guide plate and the second upper guide plate, and the upper dust removing seat is connected to the inside of the first slide way in a sliding mode.

Further, the second moving part comprises a lower dust removing seat, a first lower guide plate and a second lower guide plate; the lower dust removal seat is connected to the second mounting frame body, the lower dust removal portion is arranged on the end face of the lower dust removal seat, a second slide way is formed between the first lower guide plate and the second lower guide plate, the lower dust removal seat moves up and down, and the lower dust removal seat is connected to the inside of the second slide way in a sliding mode.

Further, still include and carry out the heat abstractor that dispels the heat to action wheel, rotation drive device and first mobile device.

Further, the heat dissipation device comprises a heat dissipation fan; an air inlet is formed on the second side wall of the dustproof cover body, and an air outlet is formed on the fourth side wall of the dustproof cover body; the cooling fan is arranged at the air inlet and the output end of the cooling fan faces the interior of the dustproof cover body.

Further, a first stone powder intercepting part is arranged at the air inlet, and a second stone powder intercepting part is arranged at the air outlet.

Further, the first stone powder intercepting part comprises a first dustproof gauze; the second stone powder intercepting part comprises a second dustproof gauze.

Further, the device also comprises a second moving device for driving the driving wheel to move along the horizontal direction.

Further, the second moving device comprises a bearing base for bearing the dustproof device and the power driving device, and a second moving driving device for driving the bearing base to move along the horizontal direction.

Further, the second mobile driving device comprises a first slide rail, a second slide rail, a chain wheel and a power motor for driving the chain wheel to rotate; one side of the bottom end of the bearing base is provided with a first roller wheel which slides on a first slide rail, the other side of the bottom end of the bearing base is provided with a second roller wheel which slides on a second slide rail, the output end of the power motor is connected with the chain wheel, and the chain wheel is meshed with the chain.

Furthermore, the upper guiding rotating part also comprises a third upper guide wheel for guiding the upper horizontal section of the rope saw; the lower guide rotating piece also comprises a third lower guide wheel for guiding the lower horizontal section of the rope saw; and the axes of the third upper guide wheel and the third lower guide wheel are arranged in parallel with the axis of the driving wheel.

Furthermore, the third upper guide wheel is arranged at the upper part of the rotary mounting frame body, and the third lower guide wheel is arranged at the lower part of the rotary mounting frame body.

After adopting the structure, the invention relates to an intelligent rope sawing machine, which has at least the following beneficial effects:

1. the upper guiding rotating piece is tensioned through the first adjusting part, the lower guiding rotating piece is tensioned through the second adjusting part, so that when the rope sawing machine cuts a cut object, the upper horizontal section and the lower horizontal section of the rope saw are tensioned through the first adjusting part and the second adjusting part, and after the adjusting strokes of the first adjusting part and the second adjusting part are finished, the second moving device drives the driving wheel to move on the first sliding rail and the second sliding rail, so that the rope saw is kept tensioned; the rope saw is tensioned through the tensioning device, then the rope saw is tensioned through the moving rope saw machine, the tensioning range of the rope saw is larger, the problem that a small amount of cutting allowance is left by a cut object after the rope saw machine does not have a backward space is avoided, the process of detaching the second moving device and the rope saw is omitted, and the working efficiency is improved.

2. The probability of stone powder entering the interior of the machine is reduced to a greater extent through the dustproof cover body of the dustproof device, and the service life of the machine is prolonged; the upper dust removing part of the dust removing device removes dust on the upper horizontal section of the rope saw before the rope saw enters the dust cover body, stone powder is reduced to enter the dust cover body, after the rope saw rotates out of the dust cover body, the lower dust removing part removes dust on the rope saw output from the second connecting hole again, the probability that the stone powder enters the interior of the machine is further reduced, and abrasion of the stone powder on the rope saw to the driving wheel and the guide wheel is reduced.

Drawings

FIG. 1 is a schematic perspective view of an intelligent wire saw according to the present invention;

FIG. 2 is a schematic diagram of a front view of an intelligent wire saw according to the present invention;

FIG. 3 is a schematic perspective view of a first adjustment portion according to the present invention;

FIG. 4 is a schematic perspective view of the power driving apparatus of the present invention;

FIG. 5 is a schematic view showing a connection structure of the adjusting device, the dust removing device and the guide rotating part according to the present invention;

fig. 6 is a schematic view of the connection structure of the rope saw, the driving wheel and the guide wheel.

In the figure: 1-power driving means, 2-tensioning means, 11-driving rotating means, 12-guiding rotating means, 13-power driving means, 3-adjusting means, 121-upper guiding rotating means, 122-lower guiding rotating means, 31-first adjusting means, 32-second adjusting means, 33-adjusting mounting means, 331-first connecting hole, 332-second connecting hole, 311-first mounting frame body, 3111-first sliding projection, 3112-first limiting plate, 321-second mounting frame body, 1211-first upper guide wheel, 1212-second upper guide wheel, 3113-first upper mounting rod, 3114-second upper mounting rod, 3115-first upper mounting hole, 3116-second upper mounting hole, 1221-first lower guide wheel, 1222-second lower guide wheel, 111-driving wheel, 112-fifth annular groove, 14-first moving device, 15-rotation driving device, 141-first movement driving device, 142-protective cover body, 1411-movable installation frame body, 1412-first guide rod, 1413-second guide rod, 1414-transmission screw rod, 1415-transmission motor, 1416-connecting part, 4-dustproof device, 41-dustproof cover body, 42-annular seal clearance part, 411-first side wall, 412-second side wall, 5-dedusting device, 51-upper dedusting part, 52-lower dedusting part, 511-upper pneumatic dust blowing gun, 521-lower pneumatic dust blowing gun, 53-first moving part, 54-second moving part, 531-upper dedusting seat, 532-first upper guide plate, 533-second upper guide plate, 541-lower dust removing seat, 542-first lower guide plate, 543-second lower guide plate, 6-heat dissipating device, 413-air inlet, 414-first stone powder intercepting part, 7-second moving device, 71-bearing base, 72-second moving driving device, 721-first sliding rail, 722-second sliding rail, 723-chain, 73-first roller, 1213-third upper guide wheel, 1223-third lower guide wheel, 8-rope saw, 81-rope saw upper horizontal section, 82-rope saw lower horizontal section.

Detailed Description

In order to further explain the technical solution of the present invention, the following detailed description is given by way of specific examples.

As shown in fig. 1 to 6, the intelligent wire saw of the present invention comprises a power driving device 1 for driving a wire saw 8 to rotate and cut an object to be cut, and a tensioning device 2 for tensioning the power driving device 1; the power driving device 1 comprises an active rotating part 11 for driving the rope saw 8 to rotate, a guide rotating part 12 for guiding the rope saw 8, and a power driving part 13 for driving the active rotating part 11 to rotate; the tensioning device 2 comprises an adjusting device 3 for adjusting the tension of the guide rotating part 12 on the wire saw 8.

In this way, the first adjusting part 31 is used for tensioning the upper guiding and rotating part 121, the second adjusting part 32 is used for tensioning the lower guiding and rotating part 122, so that when the rope sawing machine is used for cutting an object to be cut, the first adjusting part 31 and the second adjusting part 32 are used for tensioning the upper horizontal section and the lower horizontal section of the rope saw, and after the adjusting strokes of the first adjusting part 31 and the second adjusting part 32 are finished, the second moving device 7 is used for driving the driving wheel 111 to move on the first sliding rail 721 and the second sliding rail 722 so as to keep the rope saw tensioned; carry out the tensioning to the rope saw earlier through overspeed device tensioner 2, rethread removal rope saw machine carries out the tensioning to the rope saw, makes the tensioning range of rope saw bigger, has avoided still remaining not much cutting surplus's problem by the cutting thing behind the space that the rope saw machine does not move back, saves the process of dismantling second mobile device 7 and dismantling the rope saw, improves work efficiency.

Preferably, the guide rotating part 12 includes an upper guide rotating part 121 for guiding the upper horizontal section 81 of the wire saw, and a lower guide rotating part 122 for guiding the lower horizontal section 82 of the wire saw; the adjusting device 3 includes a first adjusting portion 31 for adjusting the tension of the upper guide rotating member 121 with respect to the wire saw, and a second adjusting portion 32 for adjusting the tension of the lower guide rotating member 122 with respect to the wire saw. The rope saw on the upper guide rotating part 121 is tensioned through the first adjusting part 31, the rope saw on the lower guide rotating part 122 is tensioned through the second adjusting part 32, the tightness of the rope saw can be automatically adjusted through the first adjusting part 31 and the second adjusting part 32 in the cutting process, the tensioning state of the rope saw and the cut object is kept, and the cutting stability is improved.

Preferably, the adjustment device 3 further comprises an adjustment mounting portion 33 fitting the first adjustment portion 31 and the second adjustment portion 32; the surface of the adjusting installation part 33 is formed with a first connection hole 331 through which the upper horizontal section 81 of the rope saw passes, and a second connection hole 332 through which the lower horizontal section 82 of the rope saw passes; the first connection hole 331 is formed at an upper portion of the adjustment mounting portion 33, the second connection hole 332 is formed at a lower portion of the adjustment mounting portion 33, and axes of the first connection hole 331 and the second connection hole 332 are disposed flush. The first adjusting part 31 and the second adjusting part 32 are assembled on the adjusting installation part 33, the stability of the first adjusting part 31 and the second adjusting part 32 when the rope saw is tensioned is facilitated, the rope saw penetrates through the first connecting hole 331 to wind the driving wheel 111 and then penetrates through the second connecting hole 332, and the two ends of the rope saw are connected together after being wound with cut objects.

Preferably, the first adjusting part 31 includes a first mounting frame body 311 to which the upper guide rotation member 121 is mounted, a first elastic support member and a second elastic support member that elastically support the first mounting frame body 311; a first sliding opening for the first mounting frame body 311 to slide is formed in the outer side surface of the adjusting mounting portion 33, a first sliding protrusion 3111 is formed at one end of the first mounting frame body 311, the first sliding protrusion 3111 is slidably connected in the first sliding opening, a first limiting plate 3112 is formed at one end of the first sliding protrusion 3111, which is far away from the first mounting frame body 311, and the first limiting plate 3112 is attached to the inner side surface of the adjusting mounting portion 33 and slidably connected with the inner side surface; the first elastic supporting member is disposed in the first sliding hole and at the upper end of the first sliding protrusion 3111, and the second elastic supporting member is disposed in the first sliding hole and at the lower end of the first sliding protrusion 3111. After the rope saw is wound on the cut object, the upper horizontal section of the rope saw inclines upwards to enable the first elastic supporting component to be compressed under extrusion force, and the lower horizontal section of the rope saw inclines downwards to enable the fourth elastic supporting component to be compressed under extrusion force; in the cutting process, the upward inclined angle of the upper horizontal section of the rope saw is gradually reduced, so that the extrusion force applied to the first elastic supporting component is reduced, the upper horizontal section of the rope saw is gradually restored from a compressed state to abut against the upper horizontal section of the rope saw, the downward inclined angle of the lower horizontal section of the rope saw is gradually reduced, the extrusion force applied to the fourth elastic supporting component is reduced, the lower horizontal section of the rope saw is gradually restored from the compressed state to abut against the lower horizontal section of the rope saw, and the rope saw and the cut object are always kept tensioned; after the rope saw is wound on the cut object, the upper horizontal section of the rope saw is inclined downwards, so that the second elastic supporting component is compressed under the extrusion force, and the lower horizontal section of the rope saw is inclined upwards, so that the third elastic supporting component is compressed under the extrusion force; in the cutting process, the angle of the downward inclination of the upper horizontal section of the rope saw is gradually reduced, the extrusion force received by the second elastic supporting component is reduced, the upper horizontal section of the rope saw is gradually supported from the compression state, the angle of the upward inclination of the lower horizontal section of the rope saw is gradually reduced, the extrusion force received by the third elastic supporting component is reduced, the lower horizontal section of the rope saw is gradually supported from the compression state, the rope saw and the cut object are always kept tensioned, and the working efficiency is improved.

Preferably, the second adjusting part 32 includes a second mounting frame body 321 to which the lower guide rotation member 122 is mounted, and a third elastic supporting member and a fourth elastic supporting member that elastically support the second mounting frame body 321; a second sliding opening for the second mounting frame body 321 to slide is formed in the outer side surface of the adjusting mounting portion 33, a second sliding protrusion is formed at one end of the second mounting frame body 321, the second sliding protrusion is connected in the second sliding opening in a sliding manner, a second limiting plate is formed at one end, away from the second mounting frame body 321, of the second sliding protrusion, and the second limiting plate is attached to the inner side surface of the adjusting mounting portion 33 and is connected with the inner side surface in a sliding manner; the third elastic supporting part is arranged in the second sliding opening and is positioned at the upper end of the second sliding protrusion, and the fourth elastic supporting part is arranged in the second sliding opening and is positioned at the lower end of the second sliding protrusion. After the rope saw is wound on the cut object, the upper horizontal section of the rope saw inclines upwards to enable the first elastic supporting component to be compressed under extrusion force, and the lower horizontal section of the rope saw inclines downwards to enable the fourth elastic supporting component to be compressed under extrusion force; in the cutting process, the upward inclined angle of the upper horizontal section of the rope saw is gradually reduced, so that the extrusion force applied to the first elastic supporting component is reduced, the upper horizontal section of the rope saw is gradually restored from a compressed state to abut against the upper horizontal section of the rope saw, the downward inclined angle of the lower horizontal section of the rope saw is gradually reduced, the extrusion force applied to the fourth elastic supporting component is reduced, the lower horizontal section of the rope saw is gradually restored from the compressed state to abut against the lower horizontal section of the rope saw, and the rope saw and the cut object are always kept tensioned; after the rope saw is wound on the cut object, the upper horizontal section of the rope saw is inclined downwards, so that the second elastic supporting component is compressed under the extrusion force, and the lower horizontal section of the rope saw is inclined upwards, so that the third elastic supporting component is compressed under the extrusion force; in the cutting process, the angle of the downward inclination of the upper horizontal section of the rope saw is gradually reduced, the extrusion force received by the second elastic supporting component is reduced, the upper horizontal section of the rope saw is gradually supported from the compression state, the angle of the upward inclination of the lower horizontal section of the rope saw is gradually reduced, the extrusion force received by the third elastic supporting component is reduced, the lower horizontal section of the rope saw is gradually supported from the compression state, the rope saw and the cut object are always kept tensioned, and the working efficiency is improved.

Preferably, in order to improve the stability of the wire saw when cutting, the upper guide rotating member 121 includes a first upper guide wheel 1211 and a second upper guide wheel 1212 for guiding the upper horizontal segment of the wire saw; the axis of the first upper guide wheel 1211 and the axis of the second upper guide wheel 1212 are disposed perpendicular to the axis of the first connection hole 331.

Preferably, in order to improve stability when the rope saw is cut, the first mounting bracket body 311 includes a first upper mounting bar 3113 and a second upper mounting bar 3114; upper portions of the first upper assembling lever 3113 and the second upper assembling lever 3114 each form a first upper assembling hole 3115 for the first upper guide wheel 1211, and lower portions of the first upper assembling lever 3113 and the second upper assembling lever 3114 each form a second upper assembling hole 3116 for the second upper guide wheel 1212; the first upper guide wheel 1211 is fitted between the first upper fitting lever 3113 and the second upper fitting lever 3114 and is rotatably coupled in the first upper fitting hole 3115 through a first upper coupling shaft, and the second upper guide wheel 1212 is fitted between the first upper fitting lever 3113 and the second upper fitting lever 3114 and is rotatably coupled in the second upper fitting hole 3116 through a second upper coupling shaft.

Preferably, in order to improve the stability of the rope saw during cutting, the axes of the first upper guide wheel 1211 and the second upper guide wheel 1212 are aligned in the vertical direction, and the first connection hole 331 is located between the first upper guide wheel 1211 and the second upper guide wheel 1212 with a gap through which the rope saw passes between the first upper guide wheel 1211 and the second upper guide wheel 1212. Specifically, the guide wheel, the driving wheel, the rope saw and the surface to be cut of the object to be cut are all in the same plane.

Preferably, in order to improve the stability of the wire saw during cutting, the first upper guide wheel 1211 is formed with a first annular groove on an outer circumferential surface thereof for receiving the wire saw, and the second upper guide wheel 1212 is formed with a second annular groove on an outer circumferential surface thereof for receiving the wire saw.

Preferably, in order to improve the stability of the wire saw when cutting, the lower guide rotating member 122 includes a first lower guide wheel 1221 and a second lower guide wheel 1222 for guiding the wire saw of the lower horizontal section; the axis of the first lower guide pulley 1221 and the axis of the second lower guide pulley 1222 are disposed perpendicular to the axis of the second coupling hole 332.

Preferably, in order to improve the stability of the wire saw when cutting, the second mounting frame body 321 includes a first lower mounting rod and a second lower mounting rod; upper portions of the first and second lower assembling poles each form a first lower assembling hole to which the first lower guide wheel 1221 is assembled, and lower portions of the first and second lower assembling poles each form a second lower assembling hole to which the second lower guide wheel 1222 is assembled; the first lower guide wheel 1221 is assembled between the first lower assembling pole and the second lower assembling pole and rotatably coupled in the first lower assembling hole through a first lower coupling shaft, and the second lower guide wheel 1222 is assembled between the first lower assembling pole and the second lower assembling pole and rotatably coupled in the second lower assembling hole through a second lower coupling shaft.

Preferably, in order to improve the stability of the wire saw when cutting, the axes of the first lower guide wheel 1221 and the second lower guide wheel 1222 are aligned in the vertical direction, and the second connection hole 332 is located between the first lower guide wheel 1221 and the second lower guide wheel 1222, and the first lower guide wheel 1221 and the second lower guide wheel 1222 have a gap through which the wire saw passes. Specifically, the guide wheel, the driving wheel, the rope saw and the surface to be cut of the object to be cut are all in the same plane.

Preferably, in order to improve the cutting stability of the wire saw, the outer circumferential surface of the first lower guide wheel 1221 is formed with a third annular groove for accommodating the wire saw, and the outer circumferential surface of the second lower guide wheel 1222 is formed with a fourth annular groove for accommodating the wire saw.

Preferably, the driving rotation part 11 includes a driving wheel 111, and a fifth annular groove 112 for accommodating the wire saw is formed on an outer circumferential surface of the driving wheel 111. The fifth annular groove 112 of the driving wheel 111 prevents the rope saw from falling off from the driving wheel 111, so that the cutting operation is more stable.

Preferably, in order to improve the working efficiency, the power driving part 13 includes a rotation driving device for driving the driving pulley 111 to rotate.

Preferably, the power drive device 1 further includes a first moving device 14 that drives the driver 111 and the adjustment mounting portion 33 to move in the axial direction of the driver 111, and a rotation drive device 15 that drives the driver 111 and the adjustment mounting portion 33 to rotate. The purpose of adjusting the displacement and rotation angle of the capstan 111 along its axial direction is achieved by the first moving means 14 and the rotation driving means 15.

Preferably, the first moving device 14 includes a first moving driving device 141 that drives the driving pulley 111 and the adjustment mounting portion 33 to move in the axial direction of the driving pulley 111, and a protection cover 142 that protects the first moving driving device 141 and the rotation driving device; one end of the protective cover 142 is connected to the inner side surface of the adjustment mounting portion 33;

the rotation driving device comprises a rotation mounting frame body and a rotation motor; a rotary output hole is formed on the surface of the rotary mounting frame body, and the output end of the rotary motor penetrates through the rotary output hole to be connected with the driving wheel 111;

the first moving driving device 141 comprises a moving mounting frame body 1411, a first guide rod 1412, a second guide rod 1413, a transmission screw rod 1414, a transmission motor 1415 and a connecting part 1416; the axial directions of the first guide rod 1412, the second guide rod 1413 and the transmission screw rod 1414 are the same as the axial direction of the driving wheel 111, the first guide rod 1412, the transmission screw rod 1414 and the second guide rod 1413 are sequentially assembled on the movable installation frame body 1411 from top to bottom, one end of the transmission screw rod 1414 is rotatably connected with the movable installation frame body 1411, and the other end of the transmission screw rod 1414 is connected with the output end of the transmission motor 1415; a first guide hole for the first guide rod 1412 to pass through, a transmission hole for the transmission screw 1414 to pass through and a second guide hole for the second guide rod 1413 to pass through are sequentially formed on the side wall of the connecting part 1416 from top to bottom; the connecting part 1416 is slidably connected with the first guide rod 1412 through a first guide hole, the connecting part 1416 is rotatably connected with the transmission screw rod 1414 through a transmission hole, and the connecting part 1416 is slidably connected with the second guide rod 1413 through a second guide hole; the movable mounting frame body 1411 is connected with the rotary mounting frame body;

the output end of the rotation driving device 15 and the end surface of the connecting portion 1416 are connected together. The rope saw is driven to rotate by driving the driving wheel 111 through the rotating motor, the connecting part 1416 is fixed, the transmission motor 1415 is started to enable the transmission screw 1414 to rotate, the transmission screw 1414 rotates to drive the movable mounting frame body 1411 to axially move along the driving wheel 111, the rotating driving device 15 drives the connecting part 1416 to rotate to drive the driving wheel 111 to rotate, the protective cover body 142 is connected with the adjusting mounting part 33, and the adjusting mounting part 33 and the driving wheel 111 synchronously move and rotate; specifically, the rotation driving device 15 is a rotary cylinder drive.

Preferably, in order to reduce the failure rate of the machine, the dustproof device 4 for preventing dust of the rotation driving device and the first moving device 14 is further included.

Preferably, the dust-proof device 4 includes a dust-proof cover 41 for housing the driving wheel 111, the rotation driving device and the first moving device 14, and an annular seal relief portion 42; the adjusting installation part 33 comprises an adjusting installation disc, and the dust-proof cover body 41 is provided with a first side wall 411, a second side wall 412, a third side wall and a fourth side wall which are sequentially and adjacently arranged; a third fitting hole for fitting the annular seal relief portion 42 is formed in the first side wall 411; the annular seal relief portion 42 has a fourth mounting hole for mounting an adjustable mounting disk; the annular seal relief part 42 is assembled in the third assembly hole, and the adjusting and mounting disc is assembled in the fourth assembly hole and is rotationally connected with the annular seal relief part 42; a third guide hole is formed on a third side wall of the dust-proof cover body 41, and an output end of the rotation driving device 15 is connected to the connection portion 1416 through the third guide hole. The annular seal holding portion 42 is an organ shield with a telescopic amount, and when the driving wheel 111 moves or rotates to drive the adjusting and mounting disc to move synchronously, the adjusting and mounting disc extrudes the organ shield when moving, so that the adjusting and mounting disc has a space moving axially along the driving wheel 111.

Preferably, in order to prevent the adjusting and mounting disk from falling off during rotation or translation, a sixth annular groove is formed on the inner circumferential surface of the annular seal seat-leaving portion 42, the width dimension of the sixth annular groove matches with the thickness dimension of the adjusting and mounting disk, and the adjusting and mounting disk is fitted in the sixth annular groove.

Preferably, the dust removing device 5 is further included for removing stone dust on the rope saw. By the dust removing device 5, the stone powder entering the dust-proof cover body 41 is reduced, and the abrasion of the stone powder on the rope saw to the driving wheel 111 and the guide wheel is reduced.

Preferably, the dust removing device 5 includes an upper dust removing part 51 for removing dust from the upper horizontal section of the wire saw, and a lower dust removing part 52 for removing dust from the lower horizontal section of the wire saw. The upper horizontal section of the rope saw is firstly subjected to dust removal treatment through the upper dust removal part 51 of the dust removal device 5 before the rope saw enters the dust-proof cover body 41, so that the phenomenon that stone powder enters the dust-proof cover body 41 is reduced, and after the rope saw rotates out of the dust-proof cover body 41, the lower dust removal part 52 is subjected to dust removal treatment on the rope saw output from the second connecting hole 332 again, the probability that the stone powder enters the interior of the machine is further reduced, and the abrasion of the stone powder on the rope saw on the driving wheel 111 and the guide wheel is reduced.

Preferably, the upper dust removing part 51 comprises an upper pneumatic dust blowing gun 511 for outputting airflow to remove stone dust of the upper horizontal section 81 of the rope saw, and an upper compressor; the output end of the upper compressor is connected with an upper pneumatic dust blowing gun 511. The power required by the upper pneumatic dust blowing gun 511 is provided by the upper compressor, so that the stone powder on the wire saw is removed.

Preferably, the upper pneumatic dust lance 511 comprises an upper pneumatic dust blowing head which outputs an air stream. The stone powder on the rope saw is removed by the pneumatic dust blowing head.

Preferably, the lower dust removing part 52 comprises a lower pneumatic dust blowing gun 521 for outputting airflow to remove stone dust of the lower horizontal segment 82 of the rope saw, and a lower compressor; the output end of the lower compressor is connected with a lower pneumatic dust blowing gun 521. The lower compressor provides the power required by the lower pneumatic dust blowing gun 521 to remove the stone powder on the rope saw.

Preferably, the lower pneumatic dust lance 521 comprises a lower pneumatic dust blowing head that outputs an air stream. The stone powder on the rope saw is removed by the lower pneumatic dust blowing head.

Preferably, in order to improve the dust removing effect, the dust removing device 5 is arranged on the outer side surface of the adjusting installation part 33;

the output end of the upper pneumatic dust blowing head is arranged between the first upper guide wheel 1211 and the second upper guide wheel 1212 and faces the rope saw;

the output end of the lower pneumatic dust blowing head is arranged between the first lower guide wheel 1221 and the second lower guide wheel 1222 and is arranged towards the rope saw.

Preferably, in order to improve the dust removing effect, the dust removing device 5 further includes a first moving part 53 that moves the upper dust removing part 51 and the first adjusting part 31 in synchronization, and a second moving part 54 that moves the lower dust removing part 52 and the second adjusting part 32 in synchronization.

Preferably, the first moving part 53 includes an upper dust removing holder 531, a first upper guide plate 532, and a second upper guide plate 533; the upper dust removing part 51 is arranged on the end surface of the upper dust removing seat 531, a first slideway for the upper dust removing cover to move up and down is formed between the first upper guide plate 532 and the second upper guide plate 533, and the upper dust removing seat 531 is connected in the first slideway in a sliding manner. The first adjusting part 31 moves upward to drive the upper dust removing seat 531 to slide between the first upper guide plate 532 and the second upper guide plate 533, so as to drive the upper dust removing part 51 to move, so that the output end of the upper dust removing part 51 always moves synchronously with the rope saw in the vertical direction.

Preferably, the second moving portion 54 includes a lower dust removing holder 541, a first lower guide plate 542, and a second lower guide plate 543; the lower dust removing part 52 is arranged on the end surface of the lower dust removing seat 541, a second slideway for the lower dust removing cover to move up and down is formed between the first lower guide plate 542 and the second lower guide plate 543, and the lower dust removing seat 541 is connected in the second slideway in a sliding manner. The second adjusting portion 32 moves up to drive the lower dust-removing seat 541 to slide between the first lower guide plate 542 and the second lower guide plate 543, so as to drive the lower dust-removing portion 52 to move, so that the output end of the lower dust-removing portion 52 always moves synchronously with the rope saw in the vertical direction.

Preferably, in order to reduce the failure rate of the machine, a heat dissipation device 6 for dissipating heat of the driving wheel 111, the rotation driving device and the first moving device 14 is further included.

Preferably, in order to reduce the failure rate of the machine, the heat dissipating means 6 comprise a heat dissipating fan; an air inlet 413 is formed on the second side wall 412 of the dust-proof cover body 41, and an air outlet is formed on the fourth side wall of the dust-proof cover body 41; the cooling fan is arranged at the air inlet 413, and the output end of the cooling fan faces the interior of the dust cover 41.

Preferably, in order to reduce the failure rate of the machine, a first stone powder intercepting part 414 is arranged at the air inlet 413, and a second stone powder intercepting part is arranged at the air outlet.

Preferably, in order to reduce the failure rate of the machine, the first stone dust intercepting part 414 includes a first dust screen; the second stone powder intercepting part comprises a second dustproof gauze.

Preferably, in order to ensure that the rope saw keeps proper tension with the cut object when cutting, the rope saw further comprises a second moving device 7 for driving the driving wheel 111 to move along the horizontal direction.

Preferably, the second moving device 7 includes a bearing base 71 bearing the dust-proof device 4 and the power driving device 1, and a second moving driving device 72 driving the bearing base 71 to move in the horizontal direction. The second moving driving device 72 drives the bearing base 71 to move, and the tension between the rope saw and the cut object is kept.

Preferably, the second moving driving device 72 comprises a first slide rail 721, a second slide rail 722, a chain 723, a sprocket wheel, and a power motor for driving the sprocket wheel to rotate; one side of the bottom end of the bearing base 71 is provided with a first roller 73 sliding on the first slide rail 721, the other side of the bottom end of the bearing base 71 is provided with a second roller sliding on the second slide rail 722, the output end of the power motor is connected with a chain wheel, and the chain wheel is meshed with a chain 723. The chain wheel is driven by the power motor to rotate, the chain wheel is meshed with the chain 723, so that the first roller 73 of the bearing base 71 moves on the first slide rail 721, and the second roller moves on the second slide rail 722, and the tension between the rope saw and the cut object is kept.

Preferably, in order to make the cutting work of the rope saw more stable, the upper guide rotating member 121 further includes a third upper guide wheel 1213 which guides the upper horizontal section 81 of the rope saw; the lower guide rotating member 122 further includes a third lower guide wheel 1223 that guides the lower horizontal section 82 of the wire saw; the axes of the third upper guide wheel 1213 and the third lower guide wheel 1223 are arranged in parallel with the axis of the capstan 111.

Preferably, in order to make the cutting work of the rope saw more stable, the third upper guide pulley 1213 is provided at an upper portion of the rotation mounting frame body, and the third lower guide pulley 1223 is provided at a lower portion of the rotation mounting frame body.

The product form of the present invention is not limited to the embodiments and examples shown in the present application, and any suitable changes or modifications of the similar ideas should be made without departing from the patent scope of the present invention.

Claims

1. The utility model provides an intelligent rope saw which characterized in that: the device comprises a power driving device for driving a rope saw to rotate to cut an object to be cut and a tensioning device for tensioning the power driving device; the power driving device comprises an active rotating part for driving the rope saw to rotate, a guide rotating part for guiding the rope saw, and a power driving part for driving the active rotating part to rotate; the tensioning device comprises an adjusting device for adjusting the tension degree of the guide rotating part on the rope saw; the guide rotating part comprises an upper guide rotating part for guiding the upper horizontal section of the rope saw and a lower guide rotating part for guiding the lower horizontal section of the rope saw; the adjusting device comprises a first adjusting part for adjusting the tightness of the upper guide rotating part to the rope saw and a second adjusting part for adjusting the tightness of the lower guide rotating part to the rope saw; the adjusting device also comprises an adjusting installation part for assembling the first adjusting part and the second adjusting part; the surface of the adjusting installation part is provided with a first connecting hole for the upper horizontal section of the rope saw to pass through and a second connecting hole for the lower horizontal section of the rope saw to pass through; the first connecting hole is formed in the upper portion of the adjusting installation portion, the second connecting hole is formed in the lower portion of the adjusting installation portion, and the axes of the first connecting hole and the second connecting hole are arranged in a flush mode; the first adjusting part comprises a first mounting frame body on which the guiding rotating part is mounted, and a first elastic supporting part and a second elastic supporting part which elastically support the first mounting frame body; a first sliding opening for a first installation frame body to slide is formed in the outer side face of the adjusting installation portion, a first sliding protrusion is formed at one end of the first installation frame body and is connected in the first sliding opening in a sliding mode, a first limiting plate is formed at one end, away from the first installation frame body, of the first sliding protrusion, and the first limiting plate is attached to the inner side face of the adjusting installation portion and is connected with the inner side face in a sliding mode; the first elastic supporting part is arranged in the first sliding opening and is positioned at the upper end of the first sliding protrusion, and the second elastic supporting part is arranged in the first sliding opening and is positioned at the lower end of the first sliding protrusion.

2. The intelligent jigsaw of claim 1, wherein: the second adjusting part comprises a second mounting frame body for mounting the lower guide rotating part, a third elastic supporting part and a fourth elastic supporting part for elastically supporting the second mounting frame body; a second sliding opening for a second installation frame body to slide is formed in the outer side face of the adjusting installation portion, a second sliding protrusion is formed at one end of the second installation frame body and is connected in the second sliding opening in a sliding mode, a second limiting plate is formed at one end, away from the second installation frame body, of the second sliding protrusion, and the second limiting plate is attached to the inner side face of the adjusting installation portion and is connected with the inner side face in a sliding mode; the third elastic supporting part is arranged in the second sliding opening and is positioned at the upper end of the second sliding protrusion, and the fourth elastic supporting part is arranged in the second sliding opening and is positioned at the lower end of the second sliding protrusion.

3. The intelligent jigsaw of claim 2, wherein: the upper guide rotating part comprises a first upper guide wheel and a second upper guide wheel which guide the rope saw at the upper horizontal section; the axis of leading wheel on the first and the axis of leading wheel and the axis of first connecting hole set up perpendicularly on the second.

4. The intelligent jigsaw of claim 3, wherein: the first mounting frame body comprises a first upper assembling rod and a second upper assembling rod; the upper parts of the first upper assembling rod and the second upper assembling rod are respectively provided with a first upper assembling hole for assembling the first upper guide wheel, and the lower parts of the first upper assembling rod and the second upper assembling rod are respectively provided with a second upper assembling hole for assembling the second upper guide wheel; the first upper guide wheel is assembled between the first upper assembling rod and the second upper assembling rod and is rotatably connected into the first upper assembling hole through the first upper connecting shaft, and the second upper guide wheel is assembled between the first upper assembling rod and the second upper assembling rod and is rotatably connected into the second upper assembling hole through the second upper connecting shaft.

5. The intelligent jigsaw of claim 4, wherein: the axis of leading wheel sets up along the vertical direction parallel and level on first leading wheel and the second, just between leading wheel on first connecting hole is in first leading wheel and the second just first leading wheel with have the clearance that the rope saw passes through between the leading wheel on the second.

6. The intelligent jigsaw of claim 5, wherein: the outer circumferential surface of the first upper guide wheel is provided with a first annular groove for accommodating the rope saw, and the outer circumferential surface of the second upper guide wheel is provided with a second annular groove for accommodating the rope saw.

7. The intelligent jigsaw of claim 6, wherein: the lower guide rotating part comprises a first lower guide wheel and a second lower guide wheel which guide the rope saw at the lower horizontal section; and the axis of the first lower guide wheel and the axis of the second lower guide wheel are perpendicular to the axis of the second connecting hole.

8. The intelligent jigsaw of claim 7, wherein: the second mounting frame body comprises a first lower assembling rod and a second lower assembling rod; the upper parts of the first lower assembling rod and the second lower assembling rod are respectively provided with a first lower assembling hole for assembling a first lower guide wheel, and the lower parts of the first lower assembling rod and the second lower assembling rod are respectively provided with a second lower assembling hole for assembling a second lower guide wheel; the first lower guide wheel is assembled between the first lower assembling rod and the second lower assembling rod and is rotatably connected into the first lower assembling hole through the first lower connecting shaft, and the second lower guide wheel is assembled between the first lower assembling rod and the second lower assembling rod and is rotatably connected into the second lower assembling hole through the second lower connecting shaft.

9. The intelligent jigsaw of claim 8, wherein: the axis of first leading wheel and second lower leading wheel sets up along vertical direction parallel and level, the second connecting hole is in under first leading wheel and the second between the leading wheel just first leading wheel with have the clearance that the rope saw passes through under the second between the leading wheel.

10. The intelligent jigsaw of claim 9, wherein: the outer circumferential surface of the first lower guide wheel is provided with a third annular groove for accommodating the rope saw, and the outer circumferential surface of the second lower guide wheel is provided with a fourth annular groove for accommodating the rope saw.

11. The intelligent jigsaw of claim 10, wherein: the driving rotating part comprises a driving wheel, and a fifth annular groove for accommodating the rope saw is formed in the outer circumferential surface of the driving wheel.

12. The intelligent jigsaw of claim 11, wherein: the power driving part comprises a rotation driving device for driving the driving wheel to rotate.

13. The intelligent jigsaw of claim 12, wherein: the power driving device further comprises a first moving device for driving the driving wheel and adjusting the installation part to move along the axial direction of the driving wheel, and a rotary driving device for driving the driving wheel and adjusting the installation part to rotate.

14. The intelligent jigsaw of claim 13, wherein: the first moving device comprises a driving wheel, a first moving driving device for driving the adjusting installation part to move along the axial direction of the driving wheel, and a protection cover body for protecting the first moving driving device and the rotating driving device; one end of the protective cover body is connected with the inner side surface of the adjusting installation part;

15. The intelligent jigsaw of claim 14, wherein: the dustproof device is used for preventing dust of the rotary driving device and the first moving device.

16. The intelligent jigsaw of claim 15, wherein: the dustproof device comprises a dustproof cover body for accommodating the driving wheel, the rotation driving device and the first moving device, and an annular sealing position-giving part; the adjusting and mounting part comprises an adjusting and mounting disc, and the dustproof cover body is provided with a first side wall, a second side wall, a third side wall and a fourth side wall which are sequentially and adjacently arranged; a third assembling hole for assembling the annular sealing yielding part is formed in the first side wall; the annular seal yielding part is provided with a fourth assembling hole for assembling the adjusting and mounting disc; the annular seal abdication part is assembled in the third assembly hole, and the adjusting and mounting disc is assembled in the fourth assembly hole and is rotationally connected with the annular seal abdication part; and a third guide hole is formed in the third side wall of the dustproof cover body, and the output end of the rotary driving device penetrates through the third guide hole to be connected with the connecting part.

17. The intelligent jigsaw of claim 16, wherein: and a sixth annular groove is formed on the inner circumferential surface of the annular seal holding part, the width dimension of the sixth annular groove is matched with the thickness dimension of the adjusting and mounting disc, and the adjusting and mounting disc is assembled in the sixth annular groove.

18. The intelligent jigsaw of claim 17, wherein: also comprises a dust removing device for removing the stone powder on the wire saw.

19. The intelligent jigsaw of claim 18, wherein: the dust removing device comprises an upper dust removing part for removing dust on the upper horizontal section of the rope saw and a lower dust removing part for removing dust on the lower horizontal section of the rope saw.

20. The intelligent jigsaw of claim 19, wherein: the upper dust removing part comprises an upper pneumatic dust blowing gun and an upper compressor, wherein the upper pneumatic dust blowing gun outputs airflow to remove stone powder on the upper horizontal section of the rope saw; the output end of the upper compressor is connected with the upper pneumatic dust blowing gun.

21. The intelligent jigsaw of claim 20, wherein: the upper pneumatic dust blowing gun comprises an upper pneumatic dust blowing head for outputting airflow.

22. The intelligent jigsaw of claim 21, wherein: the lower dust removing part comprises a lower pneumatic dust blowing gun and a lower compressor, wherein the lower pneumatic dust blowing gun outputs airflow to remove stone powder on a horizontal section of the rope saw; and the output end of the lower compressor is connected with the lower pneumatic dust blowing gun.

23. The intelligent jigsaw of claim 22, wherein: the lower pneumatic dust blowing gun comprises a lower pneumatic dust blowing head for outputting airflow.

24. The intelligent jigsaw of claim 23, wherein: the dust removal device is arranged on the outer side surface of the adjusting installation part;

25. The intelligent jigsaw of claim 24, wherein: the dust removing device further comprises a first moving part which enables the upper dust removing part and the first adjusting part to move synchronously, and a second moving part which enables the lower dust removing part and the second adjusting part to move synchronously.

26. The intelligent jigsaw of claim 25, wherein: the first moving part comprises an upper dust removing seat, a first upper guide plate and a second upper guide plate; the upper dust removing seat is connected to the first mounting frame body, the upper dust removing portion is arranged on the end face of the upper dust removing seat, a first slide way, in which the upper dust removing seat moves up and down, is formed between the first upper guide plate and the second upper guide plate, and the upper dust removing seat is connected to the inside of the first slide way in a sliding mode.

27. The intelligent jigsaw of claim 26, wherein: the second moving part comprises a lower dust removing seat, a first lower guide plate and a second lower guide plate; the lower dust removal seat is connected to the second mounting frame body, the lower dust removal portion is arranged on the end face of the lower dust removal seat, a second slide way is formed between the first lower guide plate and the second lower guide plate, the lower dust removal seat moves up and down, and the lower dust removal seat is connected to the inside of the second slide way in a sliding mode.

28. The intelligent jigsaw of claim 27, wherein: the heat dissipation device is used for dissipating heat of the driving wheel, the rotation driving device and the first moving device.

29. The intelligent jigsaw of claim 28, wherein: the heat dissipation device comprises a heat dissipation fan; an air inlet is formed on the second side wall of the dustproof cover body, and an air outlet is formed on the fourth side wall of the dustproof cover body; the cooling fan is arranged at the air inlet and the output end of the cooling fan faces the interior of the dustproof cover body.

30. The intelligent jigsaw of claim 29, wherein: the air inlet is provided with a first stone powder intercepting part, and the air outlet is provided with a second stone powder intercepting part.

31. The intelligent jigsaw of claim 30, wherein: the first stone powder intercepting part comprises a first dustproof gauze; the second stone powder intercepting part comprises a second dustproof gauze.

32. The intelligent jigsaw of claim 31, wherein: the second moving device drives the driving wheel to move along the horizontal direction.

33. The intelligent jigsaw of claim 32, wherein: the second moving device comprises a bearing base for bearing the dustproof device and the power driving device, and a second moving driving device for driving the bearing base to move along the horizontal direction.

34. The intelligent jigsaw of claim 33, wherein: the second mobile driving device comprises a first slide rail, a second slide rail, a chain wheel and a power motor for driving the chain wheel to rotate; one side of the bottom end of the bearing base is provided with a first roller wheel which slides on a first slide rail, the other side of the bottom end of the bearing base is provided with a second roller wheel which slides on a second slide rail, the output end of the power motor is connected with the chain wheel, and the chain wheel is meshed with the chain.

35. The intelligent jigsaw of claim 14, wherein: the upper guide rotating part also comprises a third upper guide wheel for guiding the upper horizontal section of the rope saw; the lower guide rotating piece also comprises a third lower guide wheel for guiding the lower horizontal section of the rope saw; and the axes of the third upper guide wheel and the third lower guide wheel are arranged in parallel with the axis of the driving wheel.

36. The intelligent jigsaw of claim 35, wherein: the third upper guide wheel is arranged on the upper part of the rotary mounting frame body, and the third lower guide wheel is arranged on the lower part of the rotary mounting frame body.