CN108063403A - Rotary cutting apparatus - Google Patents
Rotary cutting apparatus Download PDFInfo
- Publication number
- CN108063403A CN108063403A CN201711427050.8A CN201711427050A CN108063403A CN 108063403 A CN108063403 A CN 108063403A CN 201711427050 A CN201711427050 A CN 201711427050A CN 108063403 A CN108063403 A CN 108063403A
- Authority
- CN
- China
- Prior art keywords
- pressing block
- wire pressing
- axis
- rotary
- cutter
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Pending
Links
Classifications
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02G—INSTALLATION OF ELECTRIC CABLES OR LINES, OR OF COMBINED OPTICAL AND ELECTRIC CABLES OR LINES
- H02G1/00—Methods or apparatus specially adapted for installing, maintaining, repairing or dismantling electric cables or lines
- H02G1/12—Methods or apparatus specially adapted for installing, maintaining, repairing or dismantling electric cables or lines for removing insulation or armouring from cables, e.g. from the end thereof
- H02G1/1202—Methods or apparatus specially adapted for installing, maintaining, repairing or dismantling electric cables or lines for removing insulation or armouring from cables, e.g. from the end thereof by cutting and withdrawing insulation
- H02G1/1248—Machines
- H02G1/1265—Machines the cutting element rotating about the wire or cable
Abstract
The present invention discloses a kind of rotary cutting apparatus, for the rotary-cut of coaxial cable, it is characterised in that:Including displacement sensor component, X-axis straight-line displacement mechanism and rotary cutting mechanism, the displacement sensor component is used to detect the position of the end of coaxial cable;The rotary cutting mechanism includes rotating disk, for driving the rotary-cut driving motor of entire rotation disc spins, X-axis conducting wire block, wire pressing block, wire pressing block positioning component, cutter and tangent line depth localization component etc., the X-axis straight-line displacement mechanism can drive rotary cutting mechanism to be moved towards the end direction of coaxial cable, make the position that coaxial cable enters the wire guide of X-axis conducting wire block and arrival needs cutter rotary-cut, the wire pressing block positioning component can drive wire pressing block enter the pressuring line groove of X-axis conducting wire block close to or gently contacted with coaxial cable, the tangent line depth localization component can adjust the depth of cutter rotary-cut.The present invention can prevent the shake of rotary-cut process wire rod and cutter, have the characteristics that rotary-cut precision and efficient.
Description
Technical field
The present invention relates to automatic field, especially a kind of device that can the wire rods such as coaxial cable be carried out with automatic rotary cutting.
Background technology
Coaxial antenna or associated cable generally require rotary-cut during manufacturing, then could carry out pulling out line with
And carry out subsequent processing.In common rotary-cut processing, generally require to carry out the different position often held of coaxial cable several
Different rotary-cuts, such as including rotary-cut to outer conductor surface, rotary-cut to dielectric surface, rotary-cut to inner wire surface etc..It is existing
Having in automatic rotary cutting scheme, during rotary-cut, coaxial cable easily shakes/slightly bounce, influences the precision and uniformity of rotary-cut,
It is too deep to be susceptible to some local rotary-cuts, in direct rotary-cut to the structure sheaf that should not be cut or some places are arrived without complete rotary-cut
Position, causes subsequently to pull out the problems such as line is difficult, finally directly influences the quality and stability of finished product;
In addition, in traditional automatic rotary cutting scheme, the rotary-cut to its different position, rotary-cut position are realized by mobile coaxial cable
It puts and is difficult to accurately control.
The content of the invention
The main object of the present invention is to overcome the deficiencies of the prior art and provide a kind of rotary cutting apparatus, it can be to same
Axis cable or similar wire rod carry out uniformly accurate automatic rotary cutting;
To achieve the above object, rotary cutting apparatus of the invention, for the rotary-cut of coaxial cable, it is characterised in that:It is passed including displacement
Sensor component, X-axis straight-line displacement mechanism and rotary cutting mechanism, the displacement sensor component are used to detect the end of coaxial cable
Position;The rotary cutting mechanism includes rotating disk, for driving the rotary-cut driving motor of entire rotation disc spins, X-axis conducting wire block, pressure
Line block, wire pressing block positioning component, cutter and tangent line depth localization component;Wherein described X-axis conducting wire block is vertically set on rotating disk,
The centre of X-axis conducting wire block has and can be equipped with pressuring line groove for the wire guide of coaxial cable entrance and towards the one side of wire pressing block;
The X-axis straight-line displacement mechanism can drive rotary cutting mechanism to be moved towards the end direction of coaxial cable, and coaxial cable is made to enter X
The wire guide of spindle guide line block and arrival need the position of cutter rotary-cut, and the wire pressing block positioning component can drive wire pressing block to enter
The pressuring line groove of X-axis conducting wire block simultaneously comes close to or in contact with coaxial cable, and the tangent line depth localization component can adjust cutter rotary-cut
Depth;
Preferably, the X-axis straight-line displacement mechanism includes bottom plate, the first X-axis slide rail, supporting plate and the first motor, in bottom plate
Face is equipped with two the first X-axis slide rails, and supporting plate is movably arranged in the first X-axis slide rail, and the rotor of the first motor passes through the side such as screw thread
Formula is flexibly connected with supporting plate;The rotation of first motor can drive supporting plate to be moved back and forth along the first X-axis slide rail;
Preferably, the displacement sensor component includes the second X-axis slide rail, displacement sensor, sensor mount and the second electricity
Machine, wherein the second X-axis slide rail is horizontally set on above supporting plate, sensor mount is slidably disposed on second X-axis and slides
On rail;Second motor is fixed on above supporting plate, and rotor and the sensor mount or displacement sensor of the second motor pass through screw thread
Deng flexible connection, the rotation of second motor can drive sensor mount and displacement sensor along before the second X-axis slide rail
After move;
Preferably, synchronizing wheel and synchronous belt are further included, the position that the supporting plate is located in front of displacement sensor has rotary-cut riser,
The rotating disk by being arranged on the front end face of rotary-cut riser, the rotary-cut driving motor can by the synchronizing wheel with it is synchronous
Make the rotation being located on Z-Y plane on rotary-cut riser with the rotating disk is driven;
Preferably, the wire pressing block positioning component includes wire pressing block positioning motor, wire pressing block positioning plate, Y-axis slide, stud and pressure
Spring, wire pressing block positioning motor are fixed on the front end face of rotating disk, and rotor extends along Y direction, and wire pressing block positioning plate is along Z-X
Plane is set, and on the one hand wire pressing block positioning plate is flexibly connected with the rotor of wire pressing block positioning motor by screw thread, the opposing party's face pressure
Line block positioning plate bottom is movably arranged on Y-axis slide, and the rotation of wire pressing block positioning motor can drive wire pressing block positioning plate along Y
Axis slide slides;Wire pressing block is set along Z-Y plane, and two threaded one end of stud are each passed through after wire pressing block positioning plate and pressure
Line block is fixedly connected, one end then interporal lacuna cooperation corresponding with wire pressing block positioning plate of another headed;Stud is located at wire pressing block
Section between wire pressing block positioning plate is arranged with compression spring;
Preferably, the wire pressing block towards one end of X-axis conducting wire block pressuring line groove for plane crimping mouth or linear pattern crimping mouth or
Circular arc crimping mouth;
Preferably, the tangent line depth localization component includes cutter driving motor, tangent line depth localization plate and cutter fixed plate, cuts
Knife driving motor is fixed on the front end face of rotating disk to parallel alignment up and down with wire pressing block positioning motor, the X-axis conducting wire block
Between cutter driving motor and wire pressing block positioning motor;Tangent line depth localization plate is set along Z-X planes, tangent line depth localization
On the one hand plate is flexibly connected with the rotor of cutter driving motor by screw thread, another aspect tangent line depth localization plate bottom activity peace
On Y-axis slide, the rotation of cutter driving motor can drive tangent line depth localization plate to be slided along Y-axis slide;Cutter is fixed
Plate is vertically set on along Y-axis on tangent line depth localization plate, and cutter is then arranged on along Z-Y plane in cutter fixed plate;
Preferably, the sliding slot being extended along the Y axis is additionally provided on the wire pressing block front end face, sliding slot is close to one end of wire pressing block positioning plate
To be open, the other end is then closed type;Cutter fixed plate is inserted into the sliding slot of the wire pressing block along Y-axis, can be in cutter driving
It is slided under motor driving along sliding slot;
Preferably, the rotary cutting mechanism is equipped with the through hole to connect with the wire guide of X-axis conducting wire block, the displacement sensing along X-axis
The probe of device can advance through synchronizing wheel by the through hole of the rotary cutting mechanism, the shaft of rotating disk then proceeds through X-axis and leads
The wire guide of line block reaches the end of coaxial cable;
Preferably, the cutter is round cutter.
Description of the drawings
It in order to illustrate more clearly about the embodiment of the present invention or technical scheme of the prior art, below will be to embodiment or existing
There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this
Some embodiments of invention, for those of ordinary skill in the art, without creative efforts, can be with
Structure according to these attached drawings obtains other attached drawings;
Fig. 1 is the overall structure diagram of rotary cutting apparatus in certain preferred embodiment;
Fig. 2 is the partial structural diagram of rotary cutting mechanism in Fig. 1;
The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.
Specific embodiment
Below in conjunction with the attached drawing in the embodiment of the present invention, the technical solution in the embodiment of the present invention is carried out clear, complete
Site preparation describes, it is clear that described embodiment is only the part of the embodiment of the present invention, instead of all the embodiments.Base
Embodiment in the present invention, those of ordinary skill in the art obtained without creative efforts it is all its
His embodiment, belongs to the scope of protection of the invention;
It is to be appreciated that the directional instruction of institute in the embodiment of the present invention(Such as up, down, left, right, before and after, X, Y, Z axis
Deng ...)It is only used for explaining in a certain particular pose(As shown in drawings)Under relative position relation between each component, movement feelings
Condition etc., if the particular pose changes, directionality instruction also correspondingly changes correspondingly;
In addition, in the present invention only to be related to technical problem solution structure, composition proposal be described when, for known
Necessary structure, part and connection relation, although below do not describe, not equal to being not present in technical solution, less should
Insufficient disclosure reason should be become;
With reference to shown in Fig. 1 and 2, concrete scheme is as follows in certain preferred embodiment:
Rotary cutting apparatus include X-axis straight-line displacement mechanism, the X-axis straight-line displacement mechanism have bottom plate 11, the first X-axis slide rail 12,
13 and first motor 14 of supporting plate, bottom plate 11 are equipped with two the first X-axis slide rails 12 above, and supporting plate 13 is movably arranged on the first X
On axis slide 12, the rotor of the first motor 14 is flexibly connected by modes such as screw threads with supporting plate 13.The rotational energy of first motor 14
Enough supporting plate 13 is driven to be moved back and forth along the first X-axis slide rail 12;
Rotary cutting apparatus further includes displacement sensor component, and displacement sensor component includes the second X-axis slide rail 21, displacement sensor 22, passes
23 and second motor 24 of sensor mounting bracket, wherein the second X-axis slide rail 21 is horizontally set on above supporting plate 13, sensor mount 23
It is flexibly connected in the second X-axis slide rail 21 with the second X-axis slide rail 21.Second motor 24 is fixed on above supporting plate 13, and second
The rotor of motor 24 is flexibly connected with sensor mount 23 or displacement sensor 22 by screw thread etc..The rotation of second motor 24
Turn that sensor mount 23 and displacement sensor 22 can be driven to move back and forth along the second X-axis slide rail 21;
Rotary cutting apparatus further includes rotary cutting mechanism, wherein positioned at the position in 22 front of displacement sensor, supporting plate 13 has rotary-cut riser
131, rotary cutting mechanism includes rotating disk 321, rotary-cut driving motor 32 and synchronizing wheel for driving the entire rotation of rotating disk 321
321 and synchronous belt, X-axis conducting wire block 33, wire pressing block 34 and wire pressing block positioning component, cutter 32 and tangent line depth localization component.
The front end face for the rotary-cut riser 131 for being fitted to supporting plate 13 that rotating disk 321 passes through shaft and bearing (not shown) etc., rotation
Turntable 321 can rotate under the driving of rotary-cut driving motor 32 and synchronizing wheel 321 and synchronous belt in Z-Y plane.X-axis conducting wire
Block 33 is vertically set on the center of rotating disk 321, the centre of X-axis conducting wire block 33 have can enter for coaxial cable 4 or
The wire guide that the probe of person's displacement sensor 22 forward extends out.In addition, X-axis conducting wire block 33 is equipped with pressure towards the direction of wire pressing block 34
Wire casing 331.Wire pressing block positioning component is used for when related components or mechanism edge on the first motor 14 driving supporting plate 13 and supporting plate 13
First X-axis slide rail 12 is moved towards coaxial cable 4, and coaxial cable 4 enters in the wire guide of X-axis conducting wire block 33 position for reaching rotary-cut
It postpones, wire pressing block positioning component driving wire pressing block 34 is close and into the pressuring line groove 331 of X-axis conducting wire block 33, close to pressuring line groove 331
The coaxial cable 4 at place or with its gentle touchdown, then just carry out rotary-cut and for driving wire pressing block 34 away from X-axis conducting wire
The pressuring line groove 331 of block 33 enables X-axis conducting wire block 33 and coaxial cable 4 to be relatively moved along X-axis.Tangent line depth localization component is used
In adjusting cutter 32 and the distance of coaxial cable 4 and the depth of tangent line;
Specifically, wire pressing block positioning component include wire pressing block positioning motor 351, wire pressing block positioning plate 352, Y-axis slide 353,
Stud 354 and compression spring 355, wherein wire pressing block positioning motor 351 are fixed on the front end face of rotating disk 321, and rotor is along Y-axis side
To extension, wire pressing block positioning plate 352 is set along Z-X planes, 352 one side of wire pressing block positioning plate and wire pressing block positioning motor 351
Rotor be flexibly connected by screw thread, 352 bottom of another aspect wire pressing block positioning plate is movably arranged on Y-axis slide 353, crimping
The rotation of block positioning motor 351 can drive wire pressing block positioning plate 352 to be slided along Y-axis slide 353.Wire pressing block 34 is along Z-Y plane
It sets, two 354 threaded one end of stud are fixedly connected after being each passed through wire pressing block positioning plate 352 with wire pressing block 34, another
One end of headed then coordinates with 352 corresponding interporal lacuna of wire pressing block positioning plate;Stud 354 is located at wire pressing block 34 to be determined with wire pressing block
Section between the plate 352 of position is arranged with compression spring 355.In this way, by the elastic force effect of compression spring 355 and stud 354 with respect to wire pressing block
The slip of positioning plate 352 can prevent that wire pressing block 34 is excessive in the pressure of coaxial cable 4, while during also making crimping, crimping
Block 34 dynamically contacts always with coaxial cable 4, convenient for the rotation of rotating disk 321 and the realization of 32 rotary-cut of cutter.In it is preferred that, crimping
Block 34 is equipped with plane crimping mouth or linear pattern crimping mouth or circular arc crimping mouth towards one end of 33 pressuring line groove 331 of X-axis conducting wire block
341 etc., during reducing rotary-cut, the friction between briquetting and coaxial cable;
Tangent line depth localization component includes cutter driving motor 361, tangent line depth localization plate 362 and cutter fixed plate 363.Its
In, cutter driving motor 361 is fixed on the front end face of rotating disk 321 to parallel alignment with wire pressing block positioning motor about 351,
The X-axis conducting wire block 33 is between cutter driving motor 361 and wire pressing block positioning motor 351.362 edge of tangent line depth localization plate
Z-X planes are set, and 362 one side of tangent line depth localization plate is flexibly connected with the rotor of cutter driving motor 361 by screw thread, separately
362 bottom of one side tangent line depth localization plate is movably arranged on Y-axis slide 353, and the rotation of cutter driving motor 361 being capable of band
Dynamic tangent line depth localization plate 362 is slided along Y-axis slide 353.Cutter fixed plate 363 is vertically set on tangent line depth localization along Y-axis
On plate 362, and cutter 32 is then arranged on along Z-Y plane in cutter fixed plate 363.It can make to cut by cutter driving motor 361
Knife 32 closer or far from coaxial cable 4, and then adjusts the depth per subtangent along Y axis.In it is preferred that, on 34 front end face of wire pressing block
It is additionally provided with the sliding slot 342 being extended along the Y axis.Sliding slot 342 is open close to one end of wire pressing block positioning plate 352, and the other end is then
Closed type.Cutter fixed plate 363 is inserted into the sliding slot 342 of the wire pressing block 34 along Y-axis, can be driven in cutter driving motor 361
It is lower to be slided along sliding slot 342, and then the depth of rotary-cut is adjusted, and one end of the closed type of sliding slot 342 then can limit rotary-cut most
Big depth.It can also prevent tangent line depth localization component from causing rotary-cut by coordinating between sliding slot 342 and cutter fixed plate 363
The swing of cutter 32 in journey;
Rotary cutting mechanism is equipped with the through hole to connect with the wire guide of X-axis conducting wire block 33 along X-axis(Do not show in figure), displacement sensor 22
Probe synchronizing wheel 321 can be advanced through by the through hole of the rotary cutting mechanism, the shaft of rotating disk 321 then proceeds through X
The through hole energy that the wire guide of spindle guide line block 33 reaches the end of coaxial cable 4 or opposite coaxial cable 4 passes through the rotary cutting mechanism
It enough backs through the wire guide of X-axis conducting wire block 33, the shaft of rotating disk 321, synchronizing wheel 321 and then reaches displacement sensor 22
Probe;
The overall work principle of rotary cutting apparatus is described further below:
First choice, before rotary-cut, coaxial cable 4 is by the clamping device in front of rotary cutting apparatus(Do not show in figure)Along X-direction level quilt
It clamps, it is necessary to one end of rotary-cut is stretched out from clamping device to rotary cutting apparatus direction, waits rotary-cut.The wire pressing block 34 of rotary cutting mechanism
Pressuring line groove 331 away from X-axis conducting wire block 33;
Second motor 24 drives sensor mount 23 and displacement sensor 22 above along the second X-axis slide rail 21 to Forward
Dynamic, wherein the probe of displacement sensor 22 reaches coaxial line by the through hole of rotary cutting mechanism and the wire guide of X-axis conducting wire block 33
The end of cable 4, and then detect and determine the tip position of coaxial cable 4;Then the second motor 24 driving sensor mount 23
And displacement sensor 22 above moves backward reset along the second X-axis slide rail 21;
First motor 14 carries out the position of rotary-cut in coaxial cable 4 as needed, drives the rotation above supporting plate 13 and supporting plate 13
It cuts mechanism etc. integrally to move forward along the first X-axis slide rail 12, coaxial cable 4 is made to enter in the wire guide of X-axis conducting wire block 33, and
Cutter 32, which reaches coaxial cable 4, needs the position of rotary-cut;
The wire pressing block positioning motor 351 of wire pressing block positioning component drives wire pressing block positioning plate 352 to be slided along Y-axis slide 353, crimping
The pressuring line groove 331 of block 34 towards X-axis conducting wire block 33 moves, and into the pressuring line groove 331 of X-axis conducting wire block 33, wherein wire pressing block 34 leans on
Nearly coaxial cable 4 is slightly contacted with coaxial cable 4.Since compression spring 355 and stud 354 act on, the dynamic of wire pressing block 34
Ground is slightly contacted with coaxial cable 4, can be efficiently against rotary-cut during, coaxial cable easily shakes/slight bounce, prevents
Cut the too deep structure sheaf for hurting the inside;
Rotary-cut driving motor 32 drives rotating disk 321 to rotate by synchronizing wheel 321 and synchronous belt, starts rotary-cut.Before rotary-cut or
During rotary-cut, cutter driving motor 361 can drive tangent line depth localization plate 362 to be slided along Y-axis slide 353, while cutter
Fixed plate 363 is moved along the direction of sliding slot 342 towards the coaxial cable 4 of wire pressing block 34, and then adjusts the depth of rotary-cut;Rotary-cut process
In, cutter 32 itself does not rotate, and cutter 32 follows rotating disk 321 to rotate.Due between sliding slot 342 and cutter fixed plate 363
Cooperation, tangent line depth localization plate 362 and Y-axis slide 353 and the rotor of rotary-cut driving motor 32 and tangent line depth localization plate
362 comprehensive cooperation, can improve the stability of cutter 32, prevent the swing or shake of cutter 32 during rotary-cut;It is and entire
During rotary-cut, due to wire pressing block positioning component, the dynamic gentle touchdown of wire pressing block 34 and coaxial cable 4, in conjunction with clamping machine
The fixation of structure can effectively avoid the coaxial cable 4 during rotary-cut and shake or slight tripping problems, improve rotary-cut
Precision and uniformity avoid the problem of local rotary-cut is too deep or local rotary-cut is not in place.Coordinate displacement sensor 22 simultaneously
Detection first and the first motor 14 and the cooperation of 12 grade of the first X-axis slide rail and control to the tip position of coaxial cable 4,
Position to rotary-cut can accurately be controlled, meet requirement of the rotary-cut in precision aspect;
In addition, as an improvement, the cutter 32 preferably uses round cutter.It is opposite with other cutters, due to the use of in the process,
Cutter can have abrasion meeting rust, and use round cutter, if after the local rust of round cutter, rotate an angle
To be continuing with, the number for replacing cutter can be so reduced, can also reduce cost to a certain degree;
Either installation site relation can be according to expressed by Fig. 1 to 2 or reality is gone in prompting for parts as not described above
It applies.In more than content, the structure of apparatus of the present invention is described by example of the rotary-cut of coaxial cable and the starting point of principle scheme is
Be more convenient for understanding and more simple and clear rather than for the application for limiting the present invention, the present invention in addition to be used for coaxial cable,
It can be adapted for the rotary-cut of other related wire rods.In addition it these are only the preferred embodiment of the present invention, not thereby limit this hair
Bright the scope of the claims, every equivalent knot under the inventive concept of the present invention, made using description of the invention and accompanying drawing content
Structure convert or directly/indirectly be used in other related technical areas be included in the present invention scope of patent protection in.
Claims (10)
1. rotary cutting apparatus, for the rotary-cut of coaxial cable, it is characterised in that:Including displacement sensor component, X-axis straight-line displacement machine
Structure and rotary cutting mechanism, the displacement sensor component are used to detect the position of the end of coaxial cable;The rotary cutting mechanism includes
Rotating disk, for drive the rotary-cut driving motor of entire rotation disc spins, X-axis conducting wire block, wire pressing block, wire pressing block positioning component,
Cutter and tangent line depth localization component;Wherein described X-axis conducting wire block is vertically set on rotating disk, and the centre of X-axis conducting wire block has
Pressuring line groove can be equipped with for the wire guide of coaxial cable entrance and towards the one side of wire pressing block;The X-axis straight-line displacement mechanism
Rotary cutting mechanism can be driven to be moved towards the end direction of coaxial cable, coaxial cable is made to enter the wire guide of X-axis conducting wire block simultaneously
Reaching needs the position of cutter rotary-cut, and the wire pressing block positioning component can drive wire pressing block to enter the pressuring line groove of X-axis conducting wire block
And the coaxial cable is come close to or in contact with, the tangent line depth localization component can adjust the depth of cutter rotary-cut.
2. rotary cutting apparatus according to claim 1, which is characterized in that the X-axis straight-line displacement mechanism includes bottom plate, first
X-axis slide rail, supporting plate and the first motor, wherein substrate are equipped with two the first X-axis slide rails, and supporting plate is movably arranged on the first X-axis
On slide, the rotor of the first motor is flexibly connected by modes such as screw threads with supporting plate;The rotation of first motor can drive
Supporting plate is moved back and forth along the first X-axis slide rail.
3. rotary cutting apparatus according to claim 2, which is characterized in that the displacement sensor component is slided including the second X-axis
Rail, displacement sensor, sensor mount and the second motor, wherein the second X-axis slide rail is horizontally set on above supporting plate, sensor
Mounting bracket is slidably disposed in second X-axis slide rail;Second motor is fixed on above supporting plate, the rotor of the second motor with
By flexible connections such as screw threads, the rotation of second motor can drive sensor to pacify for sensor mount or displacement sensor
It shelves and is moved back and forth with displacement sensor along the second X-axis slide rail.
4. rotary cutting apparatus according to any one of claims 1 to 3, which is characterized in that synchronizing wheel and synchronous belt are further included, it is described
Supporting plate, which is located at position in front of displacement sensor, has a rotary-cut riser, and the rotating disk is by being arranged on the front end of rotary-cut riser
Face, the rotary-cut driving motor can drive the rotating disk to make to be located on rotary-cut riser by the synchronizing wheel and synchronous belt
Rotation on Z-Y plane.
5. rotary cutting apparatus according to claim 4, which is characterized in that the wire pressing block positioning component is positioned including wire pressing block
Motor, wire pressing block positioning plate, Y-axis slide, stud and compression spring, wire pressing block positioning motor are fixed on the front end face of rotating disk,
Rotor extends along Y direction, and wire pressing block positioning plate is set along Z-X planes, on the one hand wire pressing block positioning plate positions electricity with wire pressing block
The rotor of machine is flexibly connected by screw thread, and another aspect wire pressing block positioning plate bottom is movably arranged on Y-axis slide, and wire pressing block is fixed
The rotation of position motor can drive wire pressing block positioning plate to be slided along Y-axis slide;Wire pressing block is set along Z-Y plane, two stud bands
One end of screw thread is fixedly connected after being each passed through wire pressing block positioning plate with wire pressing block, and one end of another headed is then determined with wire pressing block
The corresponding interporal lacuna cooperation of position plate;Section of the stud between wire pressing block and wire pressing block positioning plate is arranged with compression spring.
6. rotary cutting apparatus according to claim 5, which is characterized in that the wire pressing block is towards X-axis conducting wire block pressuring line groove
One end is equipped with plane crimping mouth or linear pattern crimping mouth or circular arc crimping mouth.
7. rotary cutting apparatus according to claim 6, which is characterized in that the tangent line depth localization component includes cutter driving
Motor, tangent line depth localization plate and cutter fixed plate, cutter driving motor are with parallel alignment above and below wire pressing block positioning motor solid
It is scheduled on the front end face of rotating disk, the X-axis conducting wire block is between cutter driving motor and wire pressing block positioning motor;Tangent line is deep
It spends positioning plate to set along Z-X planes, on the one hand tangent line depth localization plate is connected with the rotor of cutter driving motor by screw thread activity
It connects, another aspect tangent line depth localization plate bottom is movably arranged on Y-axis slide, and the rotation of cutter driving motor, which can drive, cuts
Line depth localization plate is slided along Y-axis slide;Cutter fixed plate is vertically set on along Y-axis on tangent line depth localization plate, and cutter is then
It is arranged on along Z-Y plane in cutter fixed plate.
8. rotary cutting apparatus according to claim 7, which is characterized in that be additionally provided with along Y-axis and prolong on the wire pressing block front end face
The sliding slot stretched, sliding slot are open close to one end of wire pressing block positioning plate, and the other end is then closed type;Cutter fixed plate is along Y-axis
The sliding slot of the wire pressing block is inserted into, can be slided under the driving of cutter driving motor along sliding slot.
9. rotary cutting apparatus according to claim 8, which is characterized in that the rotary cutting mechanism is equipped with and X-axis conducting wire block along X-axis
The through hole that connects of wire guide, the probe of institute's displacement sensors can advance through synchronization by the through hole of the rotary cutting mechanism
Wheel, the shaft of rotating disk then proceed through the end of the wire guide arrival coaxial cable of X-axis conducting wire block.
10. rotary cutting apparatus according to claim 9, which is characterized in that the cutter is round cutter.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201711427050.8A CN108063403A (en) | 2017-12-26 | 2017-12-26 | Rotary cutting apparatus |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201711427050.8A CN108063403A (en) | 2017-12-26 | 2017-12-26 | Rotary cutting apparatus |
Publications (1)
Publication Number | Publication Date |
---|---|
CN108063403A true CN108063403A (en) | 2018-05-22 |
Family
ID=62140191
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201711427050.8A Pending CN108063403A (en) | 2017-12-26 | 2017-12-26 | Rotary cutting apparatus |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN108063403A (en) |
Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110480093A (en) * | 2019-08-29 | 2019-11-22 | 苏州大学 | A kind of armored cable oversheath automatic cutting device |
CN110854750A (en) * | 2019-11-29 | 2020-02-28 | 戴志平 | Fixed-length stripping device and method for processing insulating jacket of insulated wire |
CN114447844A (en) * | 2022-01-20 | 2022-05-06 | 江苏博之旺自动化设备有限公司 | Coaxial wire harness rotary cutting mechanism and rotary cutting method |
CN115441364A (en) * | 2022-08-16 | 2022-12-06 | 国网江苏省电力有限公司无锡供电分公司 | Light-weight high-precision cutting mechanism for cable insulation stripping and cutting intelligent robot |
-
2017
- 2017-12-26 CN CN201711427050.8A patent/CN108063403A/en active Pending
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110480093A (en) * | 2019-08-29 | 2019-11-22 | 苏州大学 | A kind of armored cable oversheath automatic cutting device |
CN110854750A (en) * | 2019-11-29 | 2020-02-28 | 戴志平 | Fixed-length stripping device and method for processing insulating jacket of insulated wire |
CN114447844A (en) * | 2022-01-20 | 2022-05-06 | 江苏博之旺自动化设备有限公司 | Coaxial wire harness rotary cutting mechanism and rotary cutting method |
CN115441364A (en) * | 2022-08-16 | 2022-12-06 | 国网江苏省电力有限公司无锡供电分公司 | Light-weight high-precision cutting mechanism for cable insulation stripping and cutting intelligent robot |
CN115441364B (en) * | 2022-08-16 | 2024-03-05 | 国网江苏省电力有限公司无锡供电分公司 | Light-weight high-precision cutting mechanism for cable insulation stripping and cutting intelligent robot |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN108063403A (en) | Rotary cutting apparatus | |
CN106532582B (en) | A kind of big square of cable cuts stripping machine | |
CN2843789Y (en) | High-speed continuous punching machine for dripping irrigation pipe | |
CN103151736A (en) | Multifunctional full-automatic rapid wire-stripping machine | |
CN207994487U (en) | Rotary cutting apparatus | |
CN204304202U (en) | One Seed packaged band breaking device | |
CN103078234A (en) | Cable feeding mechanism for three-core cable automatic terminal pressing machine | |
CN101972827A (en) | Automatic fixed-length cutting machine of steel strand | |
CN108160871A (en) | Wire-cutting device | |
CN210120044U (en) | Automatic winding device capable of preventing copper wires from loosening for production of inductance coils | |
CN207474894U (en) | The automatic terminal machine of coaxial line double end | |
CN201841224U (en) | Automatic steel strand fixed-length cutting machine | |
CN203103855U (en) | Multifunctional full-automatic fast wire stripping machine | |
CN207723380U (en) | Wire-cutting device | |
CN109048554A (en) | A kind of PVC transparent plastic plate multi-angle processing unit (plant) and plate multi-angle processing method | |
CN203103737U (en) | Line feeding mechanism for full-automatic terminal pressing machine with three core lines | |
CN207548421U (en) | A kind of optical image needle grinding machine | |
CN105729542A (en) | Cutting device of corrugated pipe cutting machine | |
CN103322959A (en) | Diamond saw blade thickness measurement device and welding machine with same | |
CN105200675A (en) | Placket machine presser foot automatic adjustment mechanism and control method thereof | |
CN205327500U (en) | Pencil sticky tape wind | |
CN203566772U (en) | Belt-cutting machine cutter head rotation apparatus enabling automatic rotation of direction of cutter head | |
CN215503780U (en) | Belly pad processing is settled equipment with shell piece | |
CN205834361U (en) | Cutter sweep for door-window section bar | |
CN213340073U (en) | Flying fork winding machine with adjustable winding former |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
PB01 | Publication | ||
PB01 | Publication | ||
SE01 | Entry into force of request for substantive examination | ||
SE01 | Entry into force of request for substantive examination |