CN110899576A - Rotary cutting device for screw steel wire rope - Google Patents

Abstract

The invention discloses a rotary cutting device for a screw steel wire rope, wherein the screw steel wire rope comprises a steel wire rope inner core and a steel wire spirally wrapped outside the steel wire rope inner core, and the rotary cutting device comprises a rack and a steel wire rope feeding device: the screw steel wire rope is used for conveying a certain length forwards; the steel wire rope rotating device comprises: used for clamping the steel wire and rotating the screw steel wire rope; a cutting device: the device comprises a cutter which can move up and down to cut the screw steel wire rope, and a control system for controlling the movement amount of the cutter. According to the appearance characteristics of the screw steel wire rope, the screw steel wire rope is rotated by 270 degrees in the cutting process, so that the peripheral steel wires are spirally cut off, then the middle steel wire rope is integrally cut off, less burrs are generated in the whole cutting process, and the subsequent deburring work is effectively reduced; in addition, according to the characteristics of the whole processing, the invention designs procedures of straightening, feeding, deburring and the like, increases the automatic calibration of the blade and greatly improves the automation degree and the working efficiency.

Description

Rotary cutting device for screw steel wire rope

Technical Field

The invention relates to detection equipment, in particular to a rotary cutting device for a screw steel wire rope.

Background

The invention relates to a processing device, in particular to a processing device for processing a screw steel wire rope. The screw steel wire rope is used for automobiles, an inner core of the screw steel wire rope is a steel wire rope, a steel wire is spirally arranged on the outer side of the screw steel wire rope, the steel wire plays a role of a thread, and after a threaded plastic part is connected to the screw steel wire rope, the screw steel wire rope can move along the steel wire rope when the plastic part is rotated, or the plastic part can rotate when the steel wire rope is pulled. After the screw steel wire rope is coiled, the screw steel wire rope needs to be cut into a fixed length. During cutting, if the cutting edge is directly cut off, the edge with the thinner steel wire after cutting is brought up or bent by a blade of the cutting machine to form burrs, so that the work of polishing the burrs is increased, and the processing quality is also reduced. Secondly, because the grinding wheel of the cutting machine and the grinding machine becomes thinner and smaller in the process of repeated work, the grinding wheel needs to be checked regularly after working for a period of time to ensure stable work, the processing quality is reduced, and a large amount of working time is wasted.

Disclosure of Invention

In order to overcome the problems, the invention provides a novel screw steel wire rope rotary cutting device structure with high efficiency and high quality.

The technical scheme of the invention is to provide a rotary cutting device for a screw steel wire rope, wherein the screw steel wire rope comprises a steel wire rope inner core and a steel wire spirally wrapped outside the steel wire rope inner core, and the rotary cutting device is characterized in that: which comprises a machine frame and a plurality of rollers,

the steel wire rope feeding device comprises: the screw steel wire rope is used for conveying a determined length forwards;

the steel wire rope rotating device comprises: for clamping the wire and rotating the screw wire rope;

a cutting device: the device comprises a cutter which can move up and down to cut the screw steel wire rope and a control system for controlling the movement amount of the cutter;

wire rope rotary device includes that one sets up rotating basis in the frame, rotating basis one side sets up a revolving stage, a drive arrangement drive the revolving stage is around the periodic clockwise and anticlockwise rotation of rotation axis and sets for the angle, still includes a confession screw rod wire rope passes run through the through-hole of rotating basis and revolving stage, the through-hole is followed the rotation axis sets up, the revolving stage winds rotation axis symmetry sets up a plurality of and is used for pressing from both sides tightly screw rod wire rope's clamping jaw, the clamping jaw presss from both sides tightly when screw rod wire rope accomplishes the rotation of setting for the angle, the amount of movement of cutting machine cutting is the diameter of steel wire.

Preferably, the device also comprises a steel wire rope straightening device for straightening the screw steel wire rope; the steel wire rope straightening device comprises a straightening base, at least one straightening plate is arranged on the straightening base, a plurality of bearings are arranged on each straightening plate, the bearings are symmetrically arranged on two sides of the straightening base along a straight straightening channel, a straightening ring with an inward-concave outer side wall center is sleeved on a bearing outer sleeve, and the screw steel wire rope penetrates through the straightening rings along the straightening channels.

Preferably, the steel wire rope straightening device comprises two straightening plates, the two straightening plates are rotatably arranged on the straightening base and are perpendicular to each other, an arc-shaped through groove is formed in the straightening base, and two screws penetrate through the through groove and are respectively in threaded connection with the end faces of the straightening plates.

Preferably, the bearings on one side of the straightening channel are fixedly arranged on a bearing base, the bearing base is movably arranged on the straightening plate, a clamping plate with an arc surface is rotatably arranged on the outer side of the straightening plate, a rotating shaft of the clamping plate is eccentrically arranged, a handle for driving the clamping plate to rotate and a fastening screw for fixing the clamping plate on the straightening plate are arranged on the clamping plate, and the arc surface of the clamping plate abuts against the lateral side of the outer side of the bearing base.

Preferably, the steel wire rope feeding device comprises a first driving wheel and a first driven wheel which are horizontally arranged, and a second driving wheel and a second driven wheel which are vertically arranged, the first driving wheel and the second driving wheel are driven by a motor to rotate, and the screw steel wire rope penetrates through the first driving wheel and the first driven wheel, and the second driving wheel and the second driven wheel.

Preferably, the cutting device comprises a cylinder which is arranged at the front end of the cutting machine and is used for the screw steel wire rope to penetrate through, a cutting machine sliding rail is vertically arranged on the rack, the cutting machine can move up and down along the cutting machine sliding rail under the driving of a servo motor, the cutting device further comprises a photoelectric sensor which is arranged above the cutting machine and is used for detecting the blade of the cutting machine, a reference point is arranged on the cutting machine sliding rail, the control system periodically controls the servo motor to move the cutting machine to the reference point, then the cutting machine is moved downwards until the blade of the cutting machine is detected by the photoelectric sensor, and the diameter of the blade of the cutting machine is calculated by taking the distance of the cutting machine moving downwards from the reference point as a parameter.

Preferably, the deburring device comprises a material receiving platform for receiving the screw steel wire rope cut by the cutting machine, a translation track, a plurality of grinding machines arranged on two sides of the translation track in pairs, and a manipulator for clamping the screw steel wire rope from the material receiving platform and moving along the translation track; the material receiving platform comprises two supports with V-shaped openings.

Preferably, the deburring device further comprises two outer diameter detectors arranged outside the grinding machine, each outer diameter detector comprises a U-shaped support, a photoelectric sensor is arranged on each U-shaped support, and each U-shaped support is movably arranged on an XY driving mechanism to be capable of being close to the grinding wheel of the grinding machine one by one, so that the outer diameter of the grinding wheel of the grinding machine is detected.

Preferably, the device further comprises a feeding mechanism, the feeding mechanism comprises a feeding machine for winding the screw steel wire rope, a guide wheel arranged on the rack, and a tension wheel arranged below the guide wheel, the tension wheel is arranged on a cantilever arranged on the rack through a pivot, and the screw steel wire rope bypasses from the lower part of the tension wheel and then bypasses the guide wheel to enter the steel wire rope straightening device.

According to the novel rotary cutting device for the screw steel wire rope, provided by the invention, aiming at the appearance characteristics of the screw steel wire rope, in the cutting process, the screw steel wire rope is rotated by 270 degrees, so that peripheral steel wires are cut off spirally, then the middle steel wire rope is cut off integrally, less burrs are generated in the whole cutting process, and the subsequent deburring work is effectively reduced; in addition, according to the characteristics of the whole processing, the invention designs procedures of straightening, feeding, deburring and the like, increases the automatic calibration of the blade and greatly improves the automation degree and the working efficiency.

Drawings

FIG. 1 is a schematic perspective view of a helical screw cable rotary cutting apparatus according to a preferred embodiment of the present invention;

FIG. 2 is a top view of the present invention;

FIG. 3 is an enlarged view of a portion of FIG. 1 at A;

FIG. 4 is a partial enlarged view of FIG. 1 at B;

FIG. 5 is a partial schematic view of the present invention 1;

FIG. 6 is a partial schematic view of the present invention 2;

FIG. 7 is a partial schematic view of the present invention 3;

FIG. 8 is a partial schematic view of the present invention 4;

fig. 9 is a partial structural schematic view 5 of the present invention.

Detailed Description

The following describes in further detail embodiments of the present invention.

As shown in fig. 1 to 9, the present invention provides a helical strand wire rope rotary cutting apparatus, wherein the helical strand wire rope 10 includes a wire rope inner core and a wire (not shown) spirally wrapped/wound around the wire rope inner core.

The invention comprises a frame 12, wherein the frame 12 is sequentially provided with:

the feeding mechanism 14: a screw steel wire rope 10 is reeled;

steel wire rope straightening device 16: used for straightening the screw steel wire rope 10;

wire rope material feeding unit 18: a screw wire rope 10 for feeding forward a certain length;

wire rope rotating device 20: for clamping and rotating the screw steel wire rope 10;

the cutting device 22: comprises a cutter 2201 which can move up and down to cut the screw steel wire rope 10 and a control system for controlling the movement amount of the cutter 2201;

the deburring device 24: and (4) polishing the two ends of the cut rotary screw steel wire rope 10 to remove burrs.

By means of the structure, continuous feeding of the screw steel wire rope 10 is achieved, and the screw steel wire rope 10 with a fixed length is conveyed to the cutting machine 2201 for cutting after being straightened; during cutting, the wire rope rotating device 20 clamps the screw rod wire rope 10 to rotate 270 degrees, so that the cutting machine 2201 can conveniently perform spiral cutting on the steel wire. Through contrast test discovery, during spiral cutting, the steel wire is difficult for being driven by cutting machine 2201, takes place deformation production burr. And (4) conveying the cut screw steel wire rope 10 to a deburring device 24, and automatically completing deburring and polishing treatment of two ends.

The structure of each part is described in detail below, and those skilled in the art will be able to conceive of conventional alternatives, such as a cylinder plus rod arrangement instead of a servo motor to achieve a periodic rotational motion, to adjust the position of the part, etc., in light of the present disclosure.

The feeding mechanism 14 comprises a feeding machine for winding the screw steel cable 10, a guide wheel 1401 arranged on the machine frame 12, and a tension wheel 1402 arranged under the guide wheel 1401, wherein the tension wheel 1402 is arranged on a cantilever 1403 pivoted on the machine frame 12, and the screw steel cable 10 bypasses from the lower part of the tension wheel 1402 and then bypasses the guide wheel 1401 to enter the cable straightening device 16. The blowing machine includes four gyro wheels 1404 to and set up the material wheel 1405 on gyro wheel 1404, and screw rod wire rope 10 twines on material wheel 1405, and motor drive gyro wheel 1404 rotates, drives the rotation of material wheel 1405, thereby the feed.

The wire rope rotating device 20 includes a rotating base 2001 provided on the frame 12, a rotating table 2002 provided on one side of the rotating base 2001, a driving device for driving the rotating table 2002 to rotate clockwise and counterclockwise around a rotation axis periodically by a set angle, and a through hole (not shown) for the screw wire rope 10 to pass through and passing through the rotating base 2001 and the rotating table 2002, the through hole being provided along the rotation axis, and a plurality of clamping jaws 2003 for clamping the screw wire rope 10 being symmetrically provided around the rotation axis on the rotating table 2002. Wherein, drive arrangement is servo motor, and it drives revolving stage 2002 rotatory through the hold-in range, and clamping jaw 2003 is electronic or pneumatics. The rotary table 2002 is rotated through an angle of 270 °, at which time the cutter 2201 contacts the wire and continues to cut downwards through a stroke just equal to or slightly larger than the diameter of the wire to ensure that the wire is completely cut. Contrast tests show that the steel wire is completely cut and has no burrs due to the arrangement. After the rotary table 2002 finishes cutting, the rotary table rotates reversely again for cutting next time, so that the forward rotation and the reverse rotation are alternately operated, and the stress generated by the rotation of the screw steel wire rope 10 can be effectively reduced.

Wire rope coalignment 16 includes alignment base 1601, sets up 2 alignment boards 1602 on alignment base 1601, and two alignment boards 1602 rotatably sets up on alignment base 1601, and two alignment boards 1602 mutually perpendicular are provided with curved logical groove 1603 on alignment base 1601, and two screws 1604 pass logical groove 1603 and threaded connection is in an alignment board 1602 terminal surface respectively. Screw 1604 is used to secure straightening plate 1602 to straightening base 1601. Each straightening plate 1602 is provided with a plurality of bearings 1605, the bearings 1605 are symmetrically arranged on two sides of the straightening plate along a straight straightening channel, a straightening ring 1606 with an outer side wall which is concave inwards is sleeved outside the bearings 1605, and the screw steel wire rope 10 passes through the straightening ring 1606 along the straightening channel. This allows the helical wire rope 10 to be symmetrically extruded from the alignment collar 1606 during passage, thereby achieving alignment.

Further, bearings 1605 on one side of the alignment passage are fixedly arranged on a bearing base 1607, the bearing base 1607 is movably arranged on the alignment plate 1602, a clamping plate 1608 with a cambered surface is rotatably arranged on the outer side of the alignment plate 1602, the rotating shaft of the clamping plate 1608 is eccentrically arranged, a handle 1609 for driving the clamping plate 1608 to rotate and a fastening screw 1610 for fixing the clamping plate 1608 on the alignment plate 1602 are arranged on the clamping plate 1608, and the cambered surface of the clamping plate 1608 abuts against the outer side surface of the bearing base 1607. With the structure, the bearing base 1607 can be extruded by rotating the handle 1609, and then the fastening screw 1610 is screwed to a fixed position, so that the force applied to the screw steel wire rope 10 can be adjusted, and the straightening quality can be improved.

The wire rope feeding device 18 comprises a first driving wheel 1801 and a first driven wheel 1802 which are horizontally arranged, and a second driving wheel 1803 and a second driven wheel 1804 which are vertically arranged, wherein the first driving wheel 1801 and the second driving wheel 1803 are driven by a motor to rotate, and the screw wire rope 10 penetrates through the space between the first driving wheel 1801 and the first driven wheel 1802, and the second driving wheel 1803 and the second driven wheel 1804. The first driving wheel 1801 and the second driving wheel 1803 are driven by the motor to rotate, so that the screw steel wire rope 10 is driven to advance by using friction force, and the length of the advancing screw steel wire rope 10 is determined by matching with the rotation turns of the detection device or the motor, so that the screw steel wire rope 10 with the determined length is provided. Such a feeding method for determining the length is well known in the art and is not the main innovation of the present invention, and therefore is not described in detail. The design work of the above structure, including the type selection of the sensor, the position setting, the selection and calculation of the motor, etc., can be completed by those skilled in the art without any creative work according to the requirement. The wire rope feeder 18 may be located on the frame either before or after the wire rope straightening device 16.

The cutting device 22 comprises a cylinder 2202 arranged at the front end of the cutting machine 2201 and used for a screw steel wire rope 10 to penetrate through, a cutting machine sliding rail 2203 is vertically arranged on the rack 12, the cutting machine 2201 can move up and down along the cutting machine sliding rail 2203 under the driving of a servo motor, the cutting device 22 further comprises a photoelectric sensor (not shown) arranged above the cutting machine 2201 and used for detecting a blade of the cutting machine 2201, a reference point (not shown) is arranged on the cutting machine sliding rail 2203 and is a position preset at any position on the cutting machine sliding rail 2203, a control system (not shown) controls the servo motor to move the cutting machine 2201 to the reference point periodically, then the cutting machine 2201 is moved downwards until the blade is detected by the photoelectric sensor, and the diameter of the blade of the cutting machine 2201 is calculated by taking the distance of the cutting machine 220. The cutting process is ensured by accurately controlling the downward movement of the cutting machine 2201: the steel wire is cut by a spiral and then the steel wire rope is directly cut. And the diameter of the blade of the cutting machine 2201 is detected by a photoelectric sensor regularly for adjustment, so that accurate cutting can be ensured after the blade is worn. According to the above-mentioned idea, the selection of the type and the position of the servo motor and the photoelectric sensor, and how to calculate the wear of the blade are conventional technical means in the industry.

The deburring device 24 comprises a material receiving platform 2401 for receiving the screw steel wire rope 10 cut by the cutting machine 2201, a translation track 2402, a plurality of grinding machines 2403 arranged on two sides of the translation track 2402 in pairs, and a manipulator 2405 for clamping the screw steel wire rope 10 from the material receiving platform 2401 and moving along the translation track 2402; the material receiving platform 2401 comprises two brackets 2404 with V-shaped openings. The cut screw steel wire rope 10 is pushed to the V-shaped openings of the two brackets 2404 by the subsequent screw steel wire rope 10, and the mechanical arm 2405 clamps the steel wire rope and then passes through the middle of the grinding machine 2403 to perform grinding operation on two sides.

The deburring device 24 further includes two outer diameter detectors disposed outside the grinding machine 2403, the outer diameter detectors include a U-shaped holder 2406, a photoelectric sensor (not shown) is disposed on the U-shaped holder 2406, and the U-shaped holder 2406 is movably disposed on an XY driving mechanism 2407 so as to be capable of approaching the grinding wheels of the grinding machine 2403 one by one, thereby detecting the outer diameter of the grinding wheel of the grinding machine 2403. The abrasion condition of the grinding wheel can be regularly detected, so that the grinding wheel can be adjusted. The adjustment can be performed manually, or the sander 2403 can be mounted on a rail and the motor can drive the sander to adjust the position.

The above embodiment is only one embodiment of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (9)

1. The utility model provides a rotatory cutting device of screw rod wire rope, screw rod wire rope includes wire rope inner core and spiral parcel steel wire outside the wire rope inner core, its characterized in that: which comprises a machine frame and a plurality of rollers,

the steel wire rope feeding device comprises: the screw steel wire rope is used for conveying a determined length forwards;

the steel wire rope rotating device comprises: for clamping the wire and rotating the screw wire rope;

a cutting device: the device comprises a cutter which can move up and down to cut the screw steel wire rope and a control system for controlling the movement amount of the cutter;

wire rope rotary device includes that one sets up rotating basis in the frame, rotating basis one side sets up a revolving stage, a drive arrangement drive the revolving stage is around the periodic clockwise and anticlockwise rotation of rotation axis and sets for the angle, still includes a confession screw rod wire rope passes run through the through-hole of rotating basis and revolving stage, the through-hole is followed the rotation axis sets up, the revolving stage winds rotation axis symmetry sets up a plurality of and is used for pressing from both sides tightly screw rod wire rope's clamping jaw, the clamping jaw presss from both sides tightly when screw rod wire rope accomplishes the rotation of setting for the angle, the amount of movement of cutting machine cutting is the diameter of steel wire.

2. A helical-lobe wire rope rotary cutting apparatus according to claim 1, wherein: the screw steel wire rope straightening device is used for straightening the screw steel wire rope; the steel wire rope straightening device comprises a straightening base, at least one straightening plate is arranged on the straightening base, a plurality of bearings are arranged on each straightening plate, the bearings are symmetrically arranged on two sides of the straightening base along a straight straightening channel, a straightening ring with an inward-concave outer side wall center is sleeved on a bearing outer sleeve, and the screw steel wire rope penetrates through the straightening rings along the straightening channels.

3. A helical-lobe wireline rotary cutting apparatus as claimed in claim 2, wherein: the steel wire rope straightening device comprises two straightening plates, the two straightening plates are rotatably arranged on a straightening base and are perpendicular to each other, an arc-shaped through groove is formed in the straightening base, and two screws penetrate through the through groove and are respectively in threaded connection with the end face of one straightening plate.

4. A helical-lobe wireline rotary cutting apparatus according to any of claims 2 or 3, characterized in that: the bearing of alignment passageway one side all is fixed to be set up on a bearing base, bearing base movable setting is in on the alignment board, the rotatable clamp plate of taking the cambered surface that sets up in the alignment board outside, the rotation axis eccentric settings of clamp plate, set up a drive on the clamp plate the rotatory handle of clamp plate and inciting somebody to action the clamp plate is fixed fastening screw on the alignment board, the cambered surface of clamp plate supports and leans on bearing base's the outside side.

5. A helical-lobe wire rope rotary cutting apparatus according to claim 1, wherein: the wire rope feeding device comprises a first driving wheel and a first driven wheel which are horizontally arranged, and a second driving wheel and a second driven wheel which are vertically arranged, wherein the first driving wheel and the second driving wheel are driven by a motor to rotate, and the screw wire rope penetrates through the first driving wheel and the first driven wheel, and the second driving wheel and the second driven wheel.

6. A helical-lobe wire rope rotary cutting apparatus according to claim 1, wherein: the cutting device comprises a cylinder which is arranged at the front end of the cutting machine and is used for the screw steel wire rope to penetrate through, a cutting machine sliding rail is vertically arranged on the rack, the cutting machine can move up and down along the cutting machine sliding rail under the driving of a servo motor, the cutting device further comprises a photoelectric sensor which is arranged above the cutting machine and is used for detecting the blade of the cutting machine, a reference point is arranged on the cutting machine sliding rail, the control system periodically controls the servo motor to move the cutting machine to the reference point, then the cutting machine moves downwards until the blade of the cutting machine is detected by the photoelectric sensor, and the diameter of the blade of the cutting machine is calculated by taking the distance of the cutting machine moving downwards from the reference point as a parameter.

7. A helical-lobe wire rope rotary cutting apparatus according to claim 1, wherein: the deburring device comprises a material receiving platform for receiving the screw steel wire rope cut by the cutting machine, a translation track, a plurality of grinding machines arranged on two sides of the translation track in pairs, and a manipulator for clamping the screw steel wire rope from the material receiving platform and moving along the translation track; the material receiving platform comprises two supports with V-shaped openings.

8. The rotary screw steel wire rope cutting device according to claim 7, wherein: the deburring device is characterized by further comprising two outer diameter detectors arranged on the outer side of the grinding machine, each outer diameter detector comprises a U-shaped support, a photoelectric sensor is arranged on each U-shaped support, and each U-shaped support is movably arranged on an XY driving mechanism to be capable of being close to the grinding wheel of the grinding machine one by one, so that the outer diameter of the grinding wheel of the grinding machine is detected.

9. A helical-lobe wire rope rotary cutting apparatus according to claim 1, wherein: the screw steel wire rope straightening device is characterized by further comprising a feeding mechanism, wherein the feeding mechanism comprises a feeding machine for winding the screw steel wire rope, a guide wheel arranged on the rack and a tension wheel arranged below the guide wheel, the tension wheel is arranged on a cantilever arranged on the rack through a pivot, and the screw steel wire rope bypasses from the lower part of the tension wheel and then bypasses the guide wheel to enter the steel wire rope straightening device.

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