CN115446230B

CN115446230B - Cable intelligence cutting device

Info

Publication number: CN115446230B
Application number: CN202211321933.1A
Authority: CN
Inventors: 刘雅田
Original assignee: Xuzhou Xinjuyuan Technology Development Co ltd
Current assignee: Xuzhou Xinjuyuan Technology Development Co ltd
Priority date: 2022-10-27
Filing date: 2022-10-27
Publication date: 2023-03-17
Anticipated expiration: 2042-10-27
Also published as: CN115446230A

Abstract

The invention discloses an intelligent cable cutting device, which relates to the technical field of cable cutting and comprises a base, wherein a derivative bracket is fixedly arranged on the base, a sliding bracket is slidably arranged on the derivative bracket, a scale bracket is fixedly arranged on the sliding bracket, a tool rest supporting block is slidably arranged on the scale bracket, a rotating tool rest is rotatably arranged on the tool rest supporting block, a special tool is also fixedly arranged on the rotating tool rest, a plurality of tool torsional springs are fixedly arranged on the rotating tool rest, a first bracket is fixedly arranged on the tool torsional springs, a second sliding frame is slidably arranged on the first bracket, a splitting tool rest is also slidably arranged on the second sliding frame, and a cutting blade is also arranged on the splitting tool rest.

Description

Cable intelligence cutting device

Technical Field

The invention relates to the technical field of cable cutting, in particular to an intelligent cable cutting device.

Background

Cable cutting is the important link in the cable construction, and its construction progress directly influences the whole progress of cable construction, and traditional cable cutting mainly relies on the manual work to go on, and artifical error judgement easily causes cable cutting length not enough or cable overlength to cause the waste, and the cable cuts the in-process because the job site often is not same kind of cable, so more needs the auxiliary construction of a cutting device that can the different diameters of automatic adaptation cable.

The invention discloses an intelligent cable cutting device, which comprises a device support, a feeding mechanism, a transmission mechanism, a pushing rack, a sensor, a cutting mechanism, a pulling mechanism and a positioning mechanism, wherein the device support comprises a supporting support, double-sided racks, an adjusting slide rail and a positioning bulge, the feeding mechanism comprises a feeding shaft, a feeding belt wheel, a feeding pinch roller and a feeding slide block, the transmission mechanism comprises a transmission support, a transmission shaft, a transmission wheel, four electromagnets I and a suction disc I, the pushing rack is provided, the cutting mechanism comprises two telescopic mechanisms, cutting cutters are fixedly connected to telescopic ends of the two telescopic mechanisms, the pulling mechanism comprises a pulling frame, a pulling shaft, a pulling wheel, a pulling pinch roller, a pulling motor, a driving wheel, an electromagnet II and a suction disc II, the positioning mechanism comprises a positioning support, an extrusion support and a positioning wheel, and cables with specified lengths can be rapidly cut according to different use requirements.

Although the invention improves the cutting length, the thickness of the cable is different, and special joints are required to be arranged at both ends of the cable when the cable is used specifically.

Disclosure of Invention

The invention provides an intelligent cable cutting device, which solves the problems that the length of a cable cannot be accurately controlled when the cable is cut, and tools cannot be cut or are complex to allocate before cutting due to the change of the diameter of the cable.

In order to solve the technical problems, the invention provides the following technical solutions:

the utility model provides an intelligence cutting device of cable, includes the base, fixed mounting has the derived support on the base, slidable mounting has the slip support on the derived support, fixed mounting has the scale support on the slip support, slidable mounting has the knife rest supporting shoe on the scale support, it installs the rotating turret to rotate on the knife rest supporting shoe, it has the slope cutter still fixed mounting on the rotating turret, fixed mounting has a plurality of cutter torsional springs on the rotating turret, fixed mounting has first support on the cutter torsional spring, first support rotates with the rotating turret to be connected, it has a plurality of protrusion extrusion blocks to go back fixed mounting on the rotating turret, it has the slope extrusion block still fixed mounting on the first support, slidable mounting has the second carriage on the first support, it has the splitting knife rest to go back slidable mounting on the second carriage, still be provided with cutting blade on the splitting knife rest.

Further, fixed block in the middle of fixed mounting has on the first support, middle fixed block and scale support sliding connection, fixed mounting has the A-frame on the middle fixed block, fixed mounting has a plurality of triangle pneumatic cylinders on the A-frame, the other end fixed mounting of triangle pneumatic cylinder has the gyro wheel carriage, gyro wheel carriage and A-frame sliding connection, fixed mounting has a plurality of triangle springs on the gyro wheel carriage, the other end and A-frame fixed connection of triangle spring, it has the triangle gyro wheel still to fixed mounting on the gyro wheel carriage, movable mounting has the cable work piece on the triangle gyro wheel, it has the third pipeline still to fixed mounting on the middle fixed block, the one end and the A-frame pneumatic cylinder fixed connection of third pipeline.

Further, the other end fixed mounting of third pipeline has hydraulic pressure collection box, hydraulic pressure collection box and sliding support fixed connection, sliding support goes up slidable mounting has last cutting tool, go up on the cutting tool fixed mounting have a plurality of last cutter springs, the other end fixed mounting who goes up the cutter spring is on sliding support, it rotates and installs middle pivot on the support to derive, fixed mounting has the rotation torsional spring in the middle pivot, the other end fixed mounting who rotates the torsional spring is on deriving the support, it has a plurality of rotation middle blocks still to slidable mounting in the middle pivot, it has sliding spring still to fixed mounting on deriving the support, sliding spring's other end fixed mounting is on sliding support, it has a plurality of first passive blocks to slide mounting on the support to derive, fixed mounting has secondary bottom plate on the base.

Further, fixed mounting has a plurality of spring bracket on the secondary bottom plate, slidable mounting has the extrusion balladeur train on the spring bracket, fixed mounting has initial spring on the extrusion balladeur train, initial spring's other end fixed mounting is on the spring bracket, rotate on the extrusion balladeur train and install the drive arc dish, drive arc dish and cable work piece contact, slidable mounting has the slip main shaft on the drive arc dish, the slip main shaft rotates with the base and is connected.

Further, it has extrusion slope piece to go back fixed mounting on the extrusion balladeur train, extrusion slope piece and sliding support sliding connection, last still fixed mounting of sliding support has a plurality of hydraulic pressure flow distribution boxes, fixed mounting has first pipeline on the hydraulic pressure flow distribution box, the other end fixed mounting of first pipeline has first pneumatic cylinder, first pneumatic cylinder and spring bracket fixed connection, the other end fixed mounting of first pneumatic cylinder is on the base, fixed mounting has a plurality of secondary carriages on the secondary bottom plate, slidable mounting has support cylinder on the secondary carriage, support cylinder and the contact of cable work piece.

Further, rotate on the base and install the cam worm, cam worm and main motor fixed connection, the meshing is installed the cam worm wheel on the cam worm, fixed mounting has the cam main shaft on the cam worm wheel, the cam main shaft rotates with the base to be connected, still fixed mounting has the cam post on the cam main shaft.

Furthermore, a cam carriage is rotatably mounted on the cam column and is connected with the base in a sliding mode, a second hydraulic cylinder is fixedly mounted on the cam carriage and is fixedly connected with the base, a second pipeline is further fixedly mounted on the second hydraulic cylinder, and the other end of the second pipeline is fixedly connected with the hydraulic shunt box.

Further, still fixed mounting has the rope carriage on the sliding support, be provided with the rope on the rope carriage, the one end fixed mounting of rope has the rope gyro wheel, rotate on the rope gyro wheel and install the rope support, rope support and sliding support fixed connection.

Compared with the prior art, the invention has the beneficial effects that: (1) The cable workpiece extrudes the plurality of driving arc discs, so that the driving arc discs drive the subsequent device to adjust the diameter of the cable workpiece, and the device can automatically adapt to cable workpieces with different diameters to perform cutting work; (2) The device can change the movement length of the upper cutting tool and the lower cutting tool by arranging a plurality of cams with different sizes on the cam column and changing the positions of the cam column, thereby quickly cutting cable workpieces with different diameters; (3) The outer skin of the cable workpiece can be initially cut by the device through arranging the inclined cutter on the rotating cutter rest, and the outer skin of the cable workpiece is cut by matching with the subsequent splitting cutter rest, so that the device can be conveniently and rapidly used during the next work; (4) Through rotating rope and middle pivot formation cooperation on the knife rest for the device can cut the cable of different length fast, can also make this device adaptable different environment through the extension cutting length of increase shrink frame extension.

Drawings

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

Fig. 2 is a schematic view of the driving arc disk structure of the present invention.

FIG. 3 is a schematic view of a half-section structure of the base of the present invention.

FIG. 4 is a schematic view of the spring structure of the lower cutter of the present invention.

FIG. 5 is an enlarged view of a portion A of FIG. 4 according to the present invention.

FIG. 6 is a schematic view of a roller carriage structure according to the present invention.

Figure 7 is a schematic view of the split blade holder configuration of the present invention.

FIG. 8 is an enlarged view of a portion of FIG. 7 at B according to the present invention.

Fig. 9 is a front view of a tilting cutter structure of the present invention.

Reference numerals: 101-a main motor; 102-a base; 103-a transmission belt; 104-a derivative scaffold; 105-a scale holder; 106-growth shrinkage rack; 107-cable work piece; 108-a secondary backplane; 201-sliding main shaft; 202-a sliding support; 203-pressing the inclined block; 204-a spring support; 205-driving an arc disc; 206-a first hydraulic cylinder; 207-a first conduit; 208-a hydraulic shunt box; 209-secondary sliding frame; 210-a support cylinder; 211-a pressing carriage; 212-initial spring; 213-a fourth conduit; 301-cam spindle; 302-cam post; 303-cam worm gear; 304-a cam carriage; 305 — a first passive block; 306-a second hydraulic cylinder; 307-cam worm; 308-a second conduit; 401-intermediate shaft; 402-rotating the middle block; 403-rotating torsion spring; 404-a rope support; 405-rope rollers; 406-a rope; 407-upper cutting tool; 408-a rope carriage; 409-hydraulic collecting tank; 410-lower rollers; 411-lower tool tube; 412-lower knife hydraulic cylinder; 413-lower knife supporting frame; 414-lower cutting tool; 415-lower knife spring; 416-a sliding spring; 417-upper cutter spring; 501-middle fixed block; 502-a third conduit; 503-A-frame; 504-roller carriage; 505-triangular roller; 507-a triangular hydraulic cylinder; 508-a triangular spring; 601-a first support; 602-tilting the extrusion block; 603-a second carriage; 604-protruding the extrusion block; 605-cutter torsion spring; 606-rotating the tool holder; 607-a blade carrier block; 608-splitting tool holder; 609-tilting the tool.

Detailed Description

As shown in fig. 1, 2, and 9, an intelligent cable cutting device includes a base 102, a derivative bracket 104 is fixedly mounted on the base 102, a sliding bracket 202 is slidably mounted on the derivative bracket 104, a secondary base plate 108 is further fixedly mounted on the base 102, a plurality of spring brackets 204 are fixedly mounted on the secondary base plate 108, an extrusion carriage 211 is slidably mounted on the spring brackets 204, an initial spring 212 is fixedly mounted on the extrusion carriage 211, the other end of the initial spring 212 is fixedly mounted on the spring brackets 204, a driving arc disc 205 is rotatably mounted on the extrusion carriage 211, a cable workpiece 107 is movably mounted on the driving arc disc 205, a sliding spindle 201 is further slidably mounted on the driving arc disc 205, the sliding spindle 201 is rotatably connected with the base 102, a plurality of secondary carriages 209 are fixedly mounted on the secondary base plate 108, a support cylinder 210 is slidably mounted on the secondary carriages 209, the support cylinder 210 is in contact with the cable workpiece 107, a roller spring is further fixedly mounted on the support cylinder 210, the other end of the roller spring is fixedly mounted on the secondary base plate 108, an extrusion carriage 211 is further fixedly mounted with an extrusion block 203, and the extrusion tilting block 202 is slidably connected with the sliding bracket 202.

As shown in fig. 2 and 3, a plurality of first hydraulic cylinders 206 are fixedly mounted on the base 102, the other ends of the first hydraulic cylinders 206 are fixedly connected with the spring support 204, first pipelines 207 are further fixedly mounted on the first hydraulic cylinders 206, hydraulic shunt boxes 208 are fixedly mounted on the other ends of the first pipelines 207, the hydraulic shunt boxes 208 are fixedly connected with the sliding support 202, second pipelines 308 are further fixedly mounted on the hydraulic shunt boxes 208, the second pipelines 308 are fixedly connected with the base 102, and second hydraulic cylinders 306 are fixedly mounted on one ends of the second pipelines 308.

As shown in fig. 3, a main motor 101 is fixedly installed on the base 102, a plurality of cam worms 307 are rotatably installed on the base 102, the cam worms 307 are fixedly connected with an output shaft of the main motor 101, cam worm wheels 303 are engaged and installed on the cam worms 307, cam spindles 301 are fixedly installed on the cam worm wheels 303, the cam spindles 301 are rotatably connected with the base 102, cam columns 302 are further fixedly installed on the cam spindles 301, a plurality of cams with different sizes are fixedly installed on the cam columns 302 to adapt to diameters of different cable workpieces 107, cam carriages 304 are further rotatably installed on the cam columns 302, the cam carriages 304 are slidably connected with the base 102, the cam carriages 304 are further fixedly connected with second hydraulic cylinders 306, a transmission belt 103 is further arranged on the cam worm 307 close to the secondary bottom plate 108, and the other end of the transmission belt 103 is arranged on the sliding spindles 201 to transmit power.

As shown in fig. 4 and 5, a plurality of first passive blocks 305 are slidably mounted on the derivative bracket 104, a pressing spring is fixedly mounted on the first passive blocks 305, the other end of the pressing spring is fixedly connected with the derivative bracket 104, an intermediate rotating shaft 401 is rotatably mounted on the derivative bracket 104, a rotating torsion spring 403 is fixedly mounted on the intermediate rotating shaft 401, the other end of the rotating torsion spring 403 is fixedly mounted on the derivative bracket 104, a plurality of rotating intermediate blocks 402 are also slidably mounted on the intermediate rotating shaft 401, a return spring is fixedly mounted on the rotating intermediate blocks 402, the other end of the return spring is fixedly mounted on the intermediate rotating shaft 401, a sliding spring 416 is further fixedly mounted on the derivative bracket 104, the other end of the sliding spring 416 is fixedly mounted on the sliding bracket 202, an upper cutting tool 407 is slidably mounted on the sliding bracket 202, a plurality of upper tool springs 417 are fixedly mounted on the upper cutting tool 407, and the other end of the upper tool springs 417 is fixedly mounted on the sliding bracket 202.

As shown in fig. 4 and 2, a lower knife hydraulic cylinder 412 is further fixedly mounted on the derivative bracket 104, a lower knife pipe 411 is fixedly mounted on the lower knife hydraulic cylinder 412, the other end of the lower knife pipe 411 is fixedly mounted on the first hydraulic cylinder 206, a lower knife supporting frame 413 is fixedly mounted on the other end of the lower knife hydraulic cylinder 412, a lower cutting knife 414 is slidably mounted on the lower knife supporting frame 413, a plurality of lower knife springs 415 are fixedly mounted on the lower cutting knife 414, the other end of the lower knife spring 415 is fixedly mounted on the lower knife supporting frame 413, a lower roller 410 is further rotatably mounted on the lower knife supporting frame 413, and the lower roller 410 is in contact with the cable workpiece 107.

As shown in fig. 1, 5, 7 to 9, a scale bracket 105 is fixedly mounted on the sliding bracket 202, a growth and contraction rack 106 is rotatably mounted on the scale bracket 105, scales are arranged on the growth and contraction rack 106, a blade holder support block 607 is slidably mounted on the scale bracket 105, a rotating blade holder 606 is rotatably mounted on the blade holder support block 607, an inclined tool 609 is also fixedly mounted on the rotating blade holder 606, a collision boss is arranged at one end of the inclined tool 609 close to the scale bracket 105, and the end of the inclined cutter 609 far away from the scale bracket 105 is provided with an outer skin cutter, the inclined cutter 609 is fixedly connected with a cutting blade, a plurality of tool torsional springs 605 are fixedly arranged on the rotating tool rest 606, a first support 601 is fixedly arranged on the tool torsional springs 605, the first support 601 is rotatably connected with the rotating tool rest 606, a plurality of protruding extrusion blocks 604 are also fixedly arranged on the rotating tool rest 606, an inclined extrusion block 602 is fixedly arranged on the first support 601, a second sliding frame 603 is slidably arranged on the first support 601, the second sliding frame 603 is slidably connected with the first support 601, a splitting tool rest 608 is also slidably arranged on the second sliding frame 603, a broach spring is fixedly arranged on the splitting tool rest 608, and the other end of the broach spring is fixedly arranged on the second sliding frame 603, the splitting blade holder 608 is further provided with a cutting blade, the rotating blade holder 606 is further fixedly provided with a rope 406, the rope 406 is slidably connected with the blade holder support block 607, a rope sliding bracket 408 is slidably mounted on the rope 406, the rope sliding bracket 408 is slidably connected with the sliding bracket 202, the other end of the rope 406 is fixedly mounted on a rope roller 405, a rope bracket 404 is rotatably mounted on the rope roller 405, the rope bracket 404 is fixedly connected with the sliding bracket 202, and the rope bracket 404 is slidably connected with the intermediate rotating shaft 401.

As shown in fig. 6 and 7, an intermediate fixing block 501 is fixedly mounted on the first support 601, the intermediate fixing block 501 is slidably connected to the scale support 105, a triangular support 503 is fixedly mounted on the intermediate fixing block 501, a plurality of triangular hydraulic cylinders 507 are fixedly mounted on the triangular support 503, a roller carriage 504 is fixedly mounted at the other end of the triangular hydraulic cylinders 507, the roller carriage 504 is slidably connected to the triangular support 503, a plurality of triangular springs 508 are fixedly mounted on the roller carriage 504, the other ends of the triangular springs 508 are fixedly connected to the triangular support 503, a triangular roller 505 is further fixedly mounted on the roller carriage 504, the triangular roller 505 is movably connected to the cable workpiece 107, a third pipeline 502 is further fixedly mounted on the intermediate fixing block 501, one end of the third pipeline 502 is fixedly connected to the triangular hydraulic cylinders 507, the third pipeline 502 is further fixedly connected to the intermediate fixing block 501, a hydraulic manifold tank 409 is fixedly mounted at the other end of the third pipeline 502, the hydraulic manifold tank 409 is fixedly connected to the sliding support 202, a plurality of fourth pipelines 213 are further fixedly mounted on the hydraulic manifold tank 409, and the other end of the fourth pipeline 213 is fixedly connected to the hydraulic shunt tank 208.

The motion mode is as follows: when the device is used, the cable workpiece 107 is manually placed into the groove formed by the support cylinder 210 and the plurality of drive arc discs 205, then the main motor 101 is started, the slide main shaft 201 is driven to rotate by the cam worm 307 and the transmission belt 103, the slide main shaft 201 drives the cable workpiece 107 into the device by the drive arc discs 205, at this time, the cable workpiece 107 will extrude the drive arc discs 205 due to the diameter inlet device, the drive arc discs 205 slide on the slide main shaft 201, simultaneously, the drive arc discs 205 will also move the extrusion sliding carriage 211 towards the direction of the hydraulic shunt box 208 away from the cable workpiece 107, then the extrusion sliding carriage 211 drives the extrusion tilting block 203 to move, at this time, the extrusion tilting block 203 will extrude the slide bracket 202, so that the slide bracket 202 moves away from the secondary bottom plate 108, at this time, the slide bracket 202 will slide on the derived bracket 104 together with the scale bracket 105, the slide bracket 202 will also drive the upper cutting tool 407 to move away from the cable workpiece 107 by the upper tool spring 417, so as to adjust the position of the upper cutting tool 407, and prevent the cable workpiece 107 from colliding with the middle cable bracket 202, and can also slide on the middle cable bracket 404, and can also be driven by the middle sliding pulley 401.

When the extrusion carriage 211 is driven by the driving arc 205, the extrusion carriage 211 will also extrude the hydraulic oil in the first hydraulic cylinder 206, so that the hydraulic oil is transmitted to the lower knife hydraulic cylinder 412 through the lower knife conduit 411, then the lower knife hydraulic cylinder 412 will drive the lower cutting knife 414 to move away from the cable work 107 through the lower knife support 413 and the lower knife spring 415, so as to prevent the lower cutting knife 414 from colliding with the cable work 107, and allow the lower cutting knife 414 to adapt to the cable work 107 with different diameter, at the same time, the lower knife support 413 will drive the lower roller 410 to adjust the position, and allow the lower roller 410 to adapt to the cable work 107 with different diameter, while the hydraulic oil in the first hydraulic cylinder 206 is extruded, the hydraulic oil will be transmitted to the hydraulic diversion box 208 through the first conduit 207, the hydraulic diversion box 208 will transmit the hydraulic oil to the second hydraulic cylinder 306 through the second conduit 308, so that the second hydraulic cylinder 306 drives the cam carriage 304 to slide on the base 102, the cam carriage 304 will drive the cam column 302 to move away from the cam main shaft 301, so that the cam block 305 can be increased, and the stroke of the cam block 305 can be increased.

After the hydraulic oil in the first hydraulic cylinder 206 is transferred into the hydraulic branch box 208, the hydraulic branch box 208 also transfers the hydraulic oil into the hydraulic header tank 409 through the fourth pipeline 213, and then the hydraulic header tank 409 transfers the hydraulic oil into the plurality of triangular hydraulic cylinders 507 through the third pipeline 502, so that the triangular hydraulic cylinders 507 drive the roller carriage 504 to move in the direction away from the cable workpiece 107, and thus the triangular rollers 505 on the roller carriage 504 can also adjust the positions to adapt to cable workpieces 107 of different diameters, and when the cable workpiece 107 passes through, the plurality of triangular rollers 505 surround the cable workpiece 107 to stabilize the cable workpiece 107 for subsequent work.

When the cable workpiece 107 is driven by the driving arc disc 205 to move continuously, the cable workpiece 107 contacts with the inclined cutter 609 on the rotating tool rest 606 after moving to a certain distance, and when the inclined cutter 609 in the state contacts with the cable workpiece 107, the first contact is the sheath cutter, when the cable workpiece 107 moves continuously, the sheath cutter cuts a rubber sheath on the cable workpiece 107 into a gap through the cutter torsion spring 605 on the rotating tool rest 606, and then the cable workpiece 107 moves continuously, so that the gap is enlarged, and simultaneously the sheath cutter on the inclined cutter 609 contacts with the metal material in the cable workpiece 107, the cable workpiece 107 continuously extrudes the rotating tool rest 606, when the cable workpiece 107 extrudes the rotating tool rest 606, the collision boss on the inclined cutter 609 contacts with the outer surface of the cable workpiece 107, and at the moment, the cable workpiece 107 drives the rotating tool rest 606 to rotate through the collision boss, so that the sheath cutter does not contact with the sheath of the cable workpiece 107.

While the rotating tool rest 606 rotates, the rotating tool rest 606 drives the protruding extrusion block 604 to extrude the second sliding frame 603, so that the second sliding frame 603 drives the splitting tool rest 608 to slide on the inclined extrusion block 602, and since the inclined surface of the inclined extrusion block 602 causes the splitting tool rest 608 to slide in a direction away from the scale bracket 105 and also in a direction away from the cable workpiece 107, this is to allow the cutting tool on the splitting tool rest 608 and one end of the splitting tool rest 608 to enter the notch on the cable workpiece 107, and at the same time, the splitting tool rest 608 and the cutting tool pull a part of the sheath of the cable workpiece 107 and separate from the cable workpiece 107 due to the movement of the splitting tool rest 608.

When the rotating tool holder 606 rotates, the rope 406 is also driven to slide on the tool holder support block 607 and the rope sliding frame 408, and the rope roller 405 is driven to rotate, the rope roller 405 drives the intermediate rotating shaft 401 to rotate, the intermediate rotating shaft 401 drives the plurality of rotating intermediate blocks 402 to rotate on the lower cutting tool 414 and the upper cutting tool 407, and the rotating intermediate blocks 402 and the upper cutting tool 407 are in contact with the lower tool support frame 413, then the main motor 101 is started, so the cam column 302 is driven to rotate by the cam worm 307 through the cam worm wheel 303, so the cam column 302 drives the first driven block 305 to slide on the derivative support frame 104 through the cam which is adjusted properly on the cam column 302, and when the rotating intermediate blocks 402 rotate on the lower cutting tool 414 and the upper cutting tool 407, the cam column 302 presses the first driven block 305 through the cam, and then the first driven block 305 presses the rotating intermediate blocks 402, and the rotating intermediate blocks 402 further press the upper cutting tool 407 and the lower cutting tool 414 to slide in the direction close to the cable 107, so as to cut the desired construction length of the workpiece.

When the device is used, after the lengthening-contracting frame 106 is stretched to make the lengthening-contracting frame 106 and the scale bracket 105 in the same line, the first bracket 601 is manually moved to make the first bracket 601 drive the tool holder supporting block 607 and the middle fixing block 501 to slide on the scale bracket 105, and the length of the cable workpiece 107 to be cut is confirmed by the scale on the lengthening-contracting frame 106, it is worth mentioning that when the first bracket 601 is manually moved, the spare cable 406 on the cable roller 405 is also released in advance, and after the position of the first bracket 601 is adjusted, the cable 406 is restored to the tensioned state.

Claims

1. The utility model provides a cable intelligence cutting device, includes base (102), its characterized in that: the device comprises a base (102), a derivative support (104) is fixedly mounted on the base (102), a sliding support (202) is slidably mounted on the derivative support (104), a secondary base plate (108) is fixedly mounted on the base (102), a plurality of spring supports (204) are fixedly mounted on the secondary base plate (108), an extrusion sliding frame (211) is slidably mounted on the spring supports (204), an initial spring (212) is fixedly mounted on the extrusion sliding frame (211), the other end of the initial spring (212) is fixedly mounted on the spring support (204), a driving arc disc (205) is rotatably mounted on the extrusion sliding frame (211), a sliding main shaft (201) is slidably mounted on the driving arc disc (205), and the sliding main shaft (201) is rotatably connected with the base (102);

the cutting tool comprises a sliding support (202), a scale support (105) is fixedly installed on the sliding support (202), a tool rest support block (607) is installed on the scale support (105) in a sliding mode, a rotating tool rest (606) is installed on the tool rest support block (607) in a rotating mode, an inclined tool (609) is further fixedly installed on the rotating tool rest (606), a plurality of tool torsion springs (605) are fixedly installed on the rotating tool rest (606), a first support (601) is fixedly installed on the tool torsion springs (605), the first support (601) is rotatably connected with the rotating tool rest (606), a plurality of protruding extrusion blocks (604) are further fixedly installed on the rotating tool rest (606), an inclined extrusion block (602) is further fixedly installed on the first support (601), a second sliding frame (603) is installed on the first support (601) in a sliding mode, a splitting tool rest (608) is further installed on the second sliding frame (603), and a cutting blade is further arranged on the splitting tool rest (608);

fixed block (501) in the middle of fixed mounting is gone up to first support (601), middle fixed block (501) and scale support (105) sliding connection, fixed mounting has A-frame (503) on middle fixed block (501), fixed mounting has a plurality of triangle pneumatic cylinders (507) on A-frame (503), the other end fixed mounting of triangle pneumatic cylinder (507) has roller carriage (504), roller carriage (504) and A-frame (503) sliding connection, fixed mounting has a plurality of triangle springs (508) on roller carriage (504), the other end and A-frame (503) fixed connection of triangle spring (508), still fixed mounting has triangle gyro wheel (505) on roller carriage (504), movable mounting has cable work piece (107) on triangle gyro wheel (505), still fixed mounting has third pipeline (502) on middle fixed block (501), the one end and A-frame (507) fixed connection of third pipeline (502);

the other end of the third pipeline (502) is fixedly provided with a hydraulic collecting box (409), the hydraulic collecting box (409) is fixedly connected with the sliding support (202), the sliding support (202) is further fixedly provided with a plurality of hydraulic shunt boxes (208), the hydraulic shunt boxes (208) are further fixedly provided with a first pipeline (207), the other end of the first pipeline (207) is fixedly provided with a first hydraulic cylinder (206), the first hydraulic cylinder (206) is fixedly connected with the spring support (204), the other end of the first hydraulic cylinder (206) is fixedly arranged on the base (102), the hydraulic collecting box (409) is further fixedly provided with a plurality of fourth pipelines (213), the other end of the fourth pipeline (213) is fixedly connected with the hydraulic shunt boxes (208), the sliding support (202) is provided with an upper cutting tool (407) in a sliding manner, the upper cutting tool (407) is fixedly provided with a plurality of upper tool springs (417), the other end of the upper tool spring (417) is fixedly arranged on the sliding support (202), the derivative support (104) is provided with a middle rotating shaft (403), the rotating shaft (401) is further provided with a plurality of rotating torsional springs (401), a sliding spring (416) is fixedly mounted on the derivative bracket (104), the other end of the sliding spring (416) is fixedly mounted on the sliding bracket (202), and a plurality of first driven blocks (305) are slidably mounted on the derivative bracket (104);

still fixed mounting has rope carriage (408) on sliding bracket (202), be provided with rope (406) on rope carriage (408), the one end fixed mounting of rope (406) has rope gyro wheel (405), it installs rope support (404) to rotate on rope gyro wheel (405), rope support (404) and sliding bracket (202) fixed connection, rope support (404) and middle pivot (401) sliding connection.

2. The intelligent cable cutting device as claimed in claim 1, wherein: extrusion carriage (211) is last still fixed mounting to have extrusion tilting block (203), extrusion tilting block (203) and sliding bracket (202) sliding connection, fixed mounting has a plurality of secondary carriage (209) on secondary bottom plate (108), sliding mounting has support cylinder (210) on secondary carriage (209).

3. The intelligent cable cutting device as claimed in claim 1, wherein: rotate on base (102) and install cam worm (307), cam worm (307) are gone up the meshing and are installed cam worm wheel (303), fixed mounting has cam main shaft (301) on cam worm wheel (303), cam main shaft (301) are rotated with base (102) and are connected, still fixed mounting has cam post (302) on cam main shaft (301).

4. The intelligent cable cutting device as claimed in claim 3, wherein: the cam column (302) is rotatably provided with a cam sliding frame (304), the cam sliding frame (304) is connected with the base (102) in a sliding mode, a second hydraulic cylinder (306) is fixedly arranged on the cam sliding frame (304), the second hydraulic cylinder (306) is fixedly connected with the base (102), a second pipeline (308) is further fixedly arranged on the second hydraulic cylinder (306), and the other end of the second pipeline (308) is fixedly connected with the hydraulic shunt box (208).