CN110535073A - Wire terminations processing unit (plant) - Google Patents
Wire terminations processing unit (plant) Download PDFInfo
- Publication number
- CN110535073A CN110535073A CN201910423980.9A CN201910423980A CN110535073A CN 110535073 A CN110535073 A CN 110535073A CN 201910423980 A CN201910423980 A CN 201910423980A CN 110535073 A CN110535073 A CN 110535073A
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- Prior art keywords
- electric wire
- wire
- cutting
- angle
- cutter
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Classifications
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- 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
- H02G1/1251—Machines the cutting element not rotating about the wire or cable
- H02G1/1253—Machines the cutting element not rotating about the wire or cable making a transverse cut
Landscapes
- Removal Of Insulation Or Armoring From Wires Or Cables (AREA)
- Nonmetal Cutting Devices (AREA)
- Details Of Cutting Devices (AREA)
- User Interface Of Digital Computer (AREA)
- Electrical Discharge Machining, Electrochemical Machining, And Combined Machining (AREA)
- Sampling And Sample Adjustment (AREA)
Abstract
Provide a kind of wire terminations processing unit (plant) that can be cut in the electric wire with more core wires with predetermined depth.Wire terminations processing unit (plant) (100) includes: to hold rotary unit (10), holds electric wire (1) and winding apparatus reference axis (101) rotation electric wire;Measuring unit (20) measures the outer diameter of the electric wire on the device datum level for the outer diameter for projecting electric wire (1);Storage unit (30) stores be mutually related tested angle and tested outer diameter;Cutting processing unit (50) moves back and forth the forward/back mechanism (59) of cutter (51a, 51b) with cutter (51a, 51b) and opposite sets reference axis (101);And computing unit (40), the cutting angle and cutting advance and retreat amount of cutter (51a, 51b) are calculated according to tested angle and tested outer diameter and core wire outer diameter and arrangement form.In the case where electric wire (1) is only rotated with cutting angle, cutter (51a, 51b) are only moved back and forth forward/back amount by cutting processing unit (50).
Description
Invention field
The present invention relates to a kind of wire terminations processing unit (plant) more particularly to a kind of electric wires to the electric wire for being covered with insulator
The processing unit (plant) that end is processed.
Background technique
In the past, on the electric wire of more core wires for being covered with insulator, remove absolutely in preset range from end
So-called " strip operation " of edge body.At this point, disclosing one kind in order to easily and efficiently execute strip operation and processing on insulator
The invention (for example, seeing patent document 1) of " cutting ".
Existing technical literature
Patent document
Patent document 1:JP-A-2016-214062 (page 2 to 3, Fig. 2).
Summary of the invention
In patent document 1 (shielded cable processing unit (plant)) invention disclosed, four strand core wires are covered by a screened film, and
Cutting processing is carried out on the screened film for shielded cable, the screened film of shielded cable is surrounded by conductive shield shell.That is, four
Core wire is disposed on cross cross section, setting four knife to move back and forth from the axis of four core wires along cross-sectional direction, institute
It states knife and forms the spill with diameter corresponding with the outer diameter of the core wire.Therefore, in the concave central and core wire of connection knife
Under the dotted line and ten word direction unanimous circumstances of cross section at center, a pair of of knife is close to each other uniform locally to carry out on screened film
Cutting.
However, the position of the center of core wire in a longitudinal direction can change since four core wires are twisted.Accordingly, there exist
When because being difficult on the dotted line that the center of core wire is arranged in cutter position without by core wire when being centrally disposed on dotted line, nothing
Method processing has the problem of cutting of predetermined depth.In addition, the present invention there is also an issue, i.e., the present invention may not apply to wrap
Include the shielded cable of odd number core wire.It is each outer diameter offer cutter for being necessary for core wire there are one problem.
The present invention solves the above problem and provides one kind and can process on the electric wire for including odd number or even number core wire
The wire terminations processing unit (plant) of cutting with predetermined depth.
Wire terminations processing unit (plant) according to the present invention is used in the end predetermined position away from electric wire, on insulator
Processing cutting, the electric wire have core wire and cover the insulator of the core wire, and the wire terminations processing unit (plant) includes:
Rotary unit is held, the electric wire is held in the state that the longitudinal direction of the electric wire is consistent with device reference axis simultaneously
Rotate the electric wire around described device reference axis;Measuring unit, measurement are incident upon the device including described device reference axis
The outer diameter of the electric wire on datum level;Storage unit stores be mutually related tested angle and tested outer diameter, described tested
Angle is the angle that the electric wire is rotated to measure, and the tested outer diameter is the quilt in measuring unit measurement
The outer diameter of the electric wire at measuring angle;Cutting processing unit comprising in the described device perpendicular to described device reference axis
The forward/back machine that there are the cutter of rotation center on datum level and move back and forth the cutter about described device reference axis
Structure;And computing unit, outer diameter and arrangement form based on the tested angle and the tested outer diameter and the core wire, meter
Calculation rotates the angle i.e. cutting angle of the electric wire for cutting processing and on the direction about described device reference axis
The forward/back amount of the cutter under the cutting angle;
Wherein, the forward/back mechanism is in the state that the electric wire is only rotated with the cutting angle, only by the cutting
Knife moves back and forth the forward/back amount.
In addition, being provided with more core wires in the electric wire that cross section is substantial ellipse or substantially polygon.
In addition, a pair of of cutter are arranged face-to-face, and electric wire rotates 180 ° in cutting processing.
In wire terminations processing unit (plant) according to the present invention, since cutter move back and forth basis and are based on measuring unit
The corresponding cutting forward/back amount of cutting angle that calculates of measurement result, therefore can process the cutting of predetermined depth but regardless of
The phase of core wire under cutting processing position.It is that the odd number present invention can also apply even if the quantity of core wire, without for core
Each outer diameter of line provides cutter.
Detailed description of the invention
Fig. 1 is the plan view for schematically illustrating wire terminations processing unit (plant) according to a first embodiment of the present invention.
Fig. 2 is the side view for schematically illustrating wire terminations processing unit (plant) according to a first embodiment of the present invention.
Fig. 3 A to Fig. 3 D is the view for schematically illustrating wire terminations processing unit (plant) according to a first embodiment of the present invention, figure
3A is the side view for showing electric wire, and Fig. 3 B is the enlarged cross-sectional view for illustrating the internal structure of electric wire, and Fig. 3 C is to illustrate to measure electric wire
When posture enlarged cross-sectional view and Fig. 3 D be posture when illustrating cutting wire enlarged cross-sectional view.
Fig. 4 is the top view for schematically illustrating wire terminations processing unit (plant) according to a second embodiment of the present invention.
Fig. 5 is the side view for schematically illustrating wire terminations processing unit (plant) according to a second embodiment of the present invention.
Specific embodiment
The wire terminations processing unit (plant) of the first and second embodiments according to the present invention is described next, with reference to drawing.Because
These drawings are all that the positional relationship between the shapes and sizes or component of schematic diagram, each component is not limited to illustrated embodiment.
First embodiment
Fig. 1 to Fig. 3 D schematically illustrates wire terminations processing unit (plant) according to a first embodiment of the present invention, and wherein Fig. 1 is to bow
View, Fig. 2 are side views, and Fig. 3 A is the side view for showing electric wire, and Fig. 3 B is the enlarged cross-sectional view for illustrating the initial attitude of electric wire,
Fig. 3 C be illustrate measure electric wire when posture enlarged cross-sectional view and Fig. 3 D be posture when illustrating cutting wire enlarged section
Figure.In order to avoid the complication of drawing, the explanation (holding member etc. for arrangement) to some components is omitted.
(electric wire)
In figure 3 a, wire terminations processing unit (plant) 100 for include core wire 2 and cover core wire 2 insulator 3 electric wire 1,
At the position 5 (hereinafter referred to as " cutting position ") apart from 4 preset distance of wire terminations, the processing cutting 6 on insulator 3.
Insulator 3 is the general name of the component for the electric wire 1 for not including core wire 2 and configuring, and is not limited to single electrically insulating material
(for example, sheath).For example, insulator 3 can be by including that the electrically insulating material of multiple conductive materials is constituted.In order to make it easy to understand,
The case where by the number for describing core wire being two, but the number of core 2 is not limited.
(wire terminations processing unit (plant))
In fig. 1 and 2, wire terminations processing unit (plant) 100 includes holding rotary unit 10, measuring unit 20, storage list
Member 30, computing unit 40, cutting processing unit 50 and operating unit 90.Each single item will be described below.
(holding rotary unit)
Hold rotary unit 10 to be mounted on device substrate 110, and including end guide table 13, with wire terminations 4
Against while guide wire terminations 4;Hold mechanism 11, hold wire terminations 1 so that the center of electric wire 1 with perpendicular to will be electric
The imaginary axis (calling " device reference axis 101 " in the following text) for the plane (not shown) that line end 4 and end guide table 13 abut is consistent;And
Rotating mechanism 12 will be rotated by the electric wire 1 that mechanism 11 is held of holding around device reference axis 101.
Hold the branch that mechanism 11 is pivotably supported cylindrical body 11a including cylindrical body 11a, around device reference axis 101
The support body 11b and chuck 11c that electric wire 1 is held on the axis (identical as device reference axis 101) of cylindrical body 11a.
Rotating mechanism 12 includes the motor 12a being mounted on device substrate 110, is fixed in the rotary shaft of motor 12a
The driving gear 12b and driven gear 12c for being fixed on cylindrical body 11a and being engaged with driving gear 12b.Although in foregoing description
Middle gear is used as rotating mechanism 12, but the present invention is not limited thereto.Belt can be used, and cylindrical body 11a can also be straight
It connected either manually or by the deceleration unit rotation for removing motor 12a (this will be described in detail in a second embodiment).
In the following, for ease of description, including device reference axis 101 and be parallel to device substrate 110 upper surface it is virtual
Plane is referred to as " device datum level 102 ", is referred to as " measurement cutting planes perpendicular to the virtual plane of device reference axis 101
103 ", and " device symmetrical plane is referred to as including device reference axis 101 and perpendicular to the virtual plane of device datum level 102
104”。
When the dotted line at the center of connection core wire 2 is referred to as wire center line 7, when holding beginning, 7 He of wire center line
Angle (hereinafter referred to as " the windup-degree that device datum level 102 is formed in measurement cutting planes 103") be it is unknown (see
Fig. 3 B).
(measuring unit)
Measuring unit 20 includes: angle measuring mechanism 21, and measurement cylindrical body 11a (identical as electric wire 1) passes through whirler
The angle (hereinafter referred to as " tested angle θ m ") that structure 12 rotates;And outside diameter measuring mechanism 22, measurement is in measurement cutting planes
The outer diameter of the electric wire 1 projected on device datum level 102 (or the virtual projection plane for being parallel to device datum level 102) in 103
(hereinafter referred to as " tested outer diameter D m ") (see Fig. 3 C).Tested angle θ m and tested outer diameter D m are output to storage list by measuring unit 20
Member 30.
Tested angle θ m is multiple values on each predetermined interval from 0 ° to 180 °, i.e., scheduled measurement interval Δ θ m's is whole
Several times, and be measured in 1 continuous rotation of electric wire.
Angle measuring mechanism 21 includes the disk 21a and the photoelectric transfer opposite with the periphery of disk 21a being fixed on cylindrical body 11a
Sensor 21b.That is, slit (not shown) is arranged along the outer diameter isogonism of disk 21a, there is predetermined space therebetween, and photoelectric sensor 21b is surveyed
That measures slit when disk 21a rotates passes through number.
Device datum level 102 is the virtual plane parallel with the upper surface of device substrate 110, and can take the circumstances into consideration to be arranged.Instead of
The mechanism (for example, servo motor) that two functions all have can also be arranged in rotating mechanism 12 and angle measuring mechanism 21.Outer diameter
Measuring mechanism 22 can be contactless measuring device, obtain the image for such as showing shade of profile of electric wire 1 etc
And tested outer diameter D m is calculated according to image data, it is also possible to the measuring device of contact, direct trolley wire 1 simultaneously measures quilt
Survey outer diameter D m.Tested angle θ m and tested outer diameter D m can be shown.
(storage unit)
Storage unit 30 stores such as (θ m0, Dm0) in each tested angle θ m inputted from measuring unit 20, (θ m1,
Dm1), the data such as (θ m2, Dm2), wherein tested angle θ m (for example, θ m0=0, θ m1=1 Δ θ m, θ m2=2 Δ θ m etc.)
It is interrelated with tested outer diameter D m (for example, Dm0, Dm1, Dm2 etc.).Then, since the outer shape of electric wire 1 is according to the data
It calculates, it is thus determined that the tested maximum angle of outer diameter D m, i.e. windup-degreeThen, by windup-degreeOutput
To computing unit 40.
Windup-degreeRange that tested outer diameter D m increases with the increase of tested angle θ m and tested outer diameter D m with
The increase of tested angle θ m and the boundary between reduced range.Tested angle θ m is only to leave scheduled measurement interval delta θ m
Value, therefore windup-degreeOne for being equal in measured tested angle θ m, is also possible between tested angle θ m
Value.
(cutting processing unit)
Cutting processing unit 50 includes a pair of of the cutter 51a and 51b being arranged in measurement cutting planes 103, and is made
The forward/back mechanism 59 that cutter 51a and 51b move back and forth.
That is, cutter 51a and 51b is rotated by the motor 52a and 52b being mounted on sliding stand 53a and 53b.At this point, cutting
The rotary shaft of cutter 51a and 51b pass through the rotary shaft (apparatus in fig. 1 and 2 that shaft coupling is connected to motor 52a and 52b respectively
There is cornerwise a pair of of grid to indicate), and it is parallel with the device reference axis 101 in device datum level 102.
(forward/back mechanism)
Forward/back mechanism 59 includes the sliding stand 53a and 53b for being separately installed with motor 52a and 52b;Guide sliding stand 53a and
The guide table 54 that 53b and measurement cutting planes 103 move in parallel;It is screwed in the splined shaft of sliding stand 53a and 53b respectively
55;And the motor 56 on splined shaft 55 is connected to by shaft coupling.At this point, sliding stand 53a and 53b are cuboids and enter shape
At the groove in guide table 54, and guide table 54 and motor 56 are fixed on device substrate 110.
The rotary shaft of cutter 51a and 51b are mountable in sliding stand by the support body supports and supporter of fixing bearing
On 53a and 53b.
In the present invention, cutter 51a and 51b are not limited only to rotating knife, can also be and are parallel to device symmetrical plane 104
The bow saw of reciprocating motion, with 104 heated filament disposed in parallel (fuse) of device symmetrical plane etc..
Splined shaft 55 is that plane is symmetrical relative to device symmetrical plane 104, that is, the range that sliding stand 53a is screwed into is
Turn left, and the range that sliding stand 53b is screwed into is right-hand rotation, and both identical helixes of screw pitch.Therefore, work as cutter
51a and cutter 51b setting distance means symmetrical plane 104 it is identical apart from when (electric wire 1 rotation before), even if motor
56 rotations, cutter 51a and cutter 51b are also always located in away from the identical distance of device symmetrical plane 104.
In the present invention, forward/back mechanism 59 is not limited to above-mentioned configuration.Instead of splined shaft 55 be all screwed to sliding stand 53a and
On 53b, single splined shaft can also be screwed into respectively on sliding stand 53a and 53b, and can couple respectively individual servo motor
Onto each splined shaft.Instead of splined shaft and servo motor, the servo gas for moving sliding stand 53a and 53b respectively also can be set
Cylinder etc..
(computing unit)
Computing unit 40 is based on from the received windup-degree of storage unit 30In advance outside the core wire by manufacturer's offer
Diameter D2 and core wire 2 and arrangement form (the distance between core wire 2 B2), in cutting processing electric wire 1 revolve from initial position
Angle, that is, each cutting angle θ the c turned is calculated and is only divided with the outer surface of core wire 2 until the periphery of cutter 51a and 51b reach
Open the forward/back amount Cc (ginseng until a small distance T2 imaginary circles (indicating with the dotted line in Fig. 3 D, hereinafter referred to as " virtual coil 8 ")
See Fig. 3 D).
At this point, when cutting angle θ c is equal to windup-degreeWhen, the periphery of cutter 51a and 51b reach device benchmark
Virtual coil 8 on face 102.However, when cutting angle θ c is not equal to windup-degreeWhen, cutter 51a's and 51b is outer thoughtful
Up to the virtual coil 8 at the position of deviating device datum level 102.
Distance B2 and 2 phase of core wire outer diameter D when two core wires 2 distort in the state of intimate contact with one another, between core wire
Together.Cutting angle θ c may be identical or different with tested angle θ m.
(operating unit)
What spin button 91, instruction cutting operation of the operating unit 90 including the instruction rotation beginning of electric wire 1 started cuts open
Beginning button 92, emergency stop button 93 and unshowned control unit.At this point, in measurement process, when measuring unit 20 measures
Tested angle θ m when reaching 180 °, electric wire 1 (motor 12a) rotation stops.
(cutting operation)
When pressing cutting start button 92, the forward/back mechanism 59 (servo motor 56) of cutting processing unit 50 and hold
The rotating mechanism 12 (motor 12a) of rotary unit 10 is interlocked with the instruction execution cutting processing based on computing unit 40.That is, right
Move back and forth in each cutting angle θ c, cutter 51a and 51b to advance and retreat amount Cc that cutter 51a and 51b is made to reach empty
Coil 8.
At this point, the excision extension of insulator 3 is schematically shown with oblique line and the range filled in fig. 3d.Cutting angle
θ c be 0 ° to 180 ° between, it is scheduled cutting interval delta θ c integral multiple multiple values so that with scheduled cutting angle θ c
After cutting, when cutting next time, the excision extension that is formed is substantially that the acute triangle that is halved of crescent (is illustrated as drawing
Range).
Cutting processing is carried out after the outside diameter measuring for completing electric wire 1, thus after the completion of outside diameter measuring, temporarily by 1 turn of electric wire
It turns to and surveys to the direction opposite with measurement direction when measurement, after electric wire 1 to be returned to initial position (θ c=0 °) by electric wire 1
Cutting processing is carried out while measurement direction when amount identical direction, and can be in position (the θ c=for completing outside diameter measuring
180 °) by electric wire 1 to carrying out cutting processing while rotation with the opposite direction of measurement direction when measurement.
In cutting processing, cutter 51a and 51b can move back and forth while continuous rotation electric wire 1.However, in order to
It prevents from cutting the excessive or insufficient advance and retreat frequency for wishing to shorten cutting interval delta θ c and improve cutter 51a and 51b.
When cutting interval delta θ c is larger, complete to cut while electric wire 1 stops rotating after cutting with predetermined cuts angle, θ c
Cutter 51a and 51b are moved briefly backwards, and then after the only circumgyration incision interval delta θ c of electric wire 1, cutter 51a and 51b can be to
Preceding movement.
In the foregoing description, electric wire 1 is cut from two sides simultaneously, but can also only use a cutter 51a only from side
Carry out cutting processing.At this point, electric wire 1 is rotated by 360 °, and does not need cutter 51b, motor 52b and sliding stand 53b, to reduce
Deployment cost.
In addition, when the number of core wire 2 is the cross section asymmetry of odd number (3 or more) and electric wire 1, a pair of of cutter
51a and 51b can independently move back and forth, that is, different from each other (at this point, splined shaft 55 is separated in centre and servo motor is distinguished
It is connected to its both ends), or only use a cutter 51a and electric wire 1 is rotated by 360 °.
(function and effect)
As previously mentioned, wire terminations processing unit (plant) 100 calculates windup-degreeAnd move back and forth cutter 51a and 51b
Dotted line position Ac until reaching each cutting angle θ c, so that not cutting excessive or insufficient.Since cutter are plate-likes
Rotating blade, therefore be not necessarily to for each core wire 2 outer diameter prepare cutter.
Although the case where being two the foregoing describe core wire quantity, even if due to working as the case where core wire quantity is not two
Under can also carry out similar cutting operation, therefore tool of compression cost can also obtain similar effect as described above.
Tested angle θ m is 0 °~180 °.In addition, for example when the number of core wire 2 is odd number, as a pair of of cutter 51a and
51b respectively with different advance and retreat amount Cc operations when, cutting angle θ c be 0 °~180 °, and when only using cutter 51a be 0 °
~360 °.Even if the number of core wire 2 be even number in the case where, when only using cutter 51b cutting angle θ c be 0 °~
360°。
When the encirclement such as screened film that core wire 2 is surrounded by insulator 2, needs to carry out screened film etc. cutting and add
Work.Assume that screened film etc. is also a part of insulator 3 in aforesaid way, and sets dotted line position Ac in core wire 2
The position of screened film etc..
Second embodiment
(wire terminations processing unit (plant))
Fig. 4 and Fig. 5 schematically shows wire terminations processing unit (plant) according to a second embodiment of the present invention, wherein Fig. 4
It is a top view and Fig. 5 is side view.Part identical or corresponding with first embodiment will use identical reference number table
Show, and descriptions thereof will be omitted.In order to avoid drawing complication, the description of some components will be omitted.
In figures 4 and 5, lead to and wire terminations processing unit (plant) 100 described in first embodiment is held into rotary unit
10 are changed to can be manually rotated mechanism 14 to obtain wire terminations processing unit (plant) 200 from electrical rotary machine structure 12.Therefore, rotary unit is held
10 including holding mechanism 11, end guide table 13 and can be manually rotated mechanism 14.
(Manual revolving gear)
Can be manually rotated mechanism 14 include be connected to the rotating wheel 14a of cylindrical body 11a be mounted on it is on rotating wheel 14a and parallel
In the wheel handle 14b of device reference axis 101.
Cylindrical body 11a has the cylindrical arms 15a from its outer surface protrusion.When cylindrical body 11a rotation, cylindrical arms
The first limiter 15b and second limiter 15c that 15a is abutted are mounted on device substrate 110.At this point, cylindrical body 11a rotates
180 ° abut first limiter 15b and second limiter 15c until cylindrical arms 15a.
Outside diameter measuring mechanism 22 includes emitting in the plane for including measurement cutting planes 103 around device reference axis 101
The light source unit 22a of light beam for measurement, it receives by the light receiving unit 22b of the light beam of 1 partial blockage of electric wire and support
The support unit 22c of light receiving unit 22b.
What measurement start button 94, instruction cutting operation of the operating unit 90 including the instruction measurement beginning of electric wire 1 started cuts
Cut start button 92, emergency stop button 93 and unshowned control unit.At this point, circle after pressing measurement start button 94
When cylinder 11a rotates, measures tested angle θ m and tested outer diameter D m and be respectively outputted to storage unit 30.
(cutting operation)
In cutting processing, when cylindrical body 11a rotates in the state of pressing cutting start button 92, cutting angle is measured
Spend θ c.Then, it is similar to wire terminations processing unit (plant) 100, is calculating rotation speed of the servo motor 56 with respect to cutting angle θ c (just
The rotation angle for turning or inverting), and servo motor 56 is with rotation speed rotation.That is, for each cutting angle θ c, cutter
51a and 51b moves back and forth to forward/back amount Cc, and thus cutter 51a and 51b reaches virtual coil 8 (see Fig. 3 D).
(function and effect)
As described above, wire terminations processing unit (plant) 200 not will lead in a manner of identical with wire terminations processing unit (plant) 100
Over or under cutting.Particularly, since cylindrical body 11a can be manually rotated, rotating mechanism be simplified and device at
This reduction.Since cutter are the rotating blades of plate-like, so It is not necessary to the outer diameter for each core wire 2 prepares cutter.
The present invention is described based on the first and second embodiments above.It will be appreciated by those skilled in the art that first and
Two embodiments are exemplary, and can also be carry out various modifications to wherein all parts and combinations thereof, and such modification also exists
In the scope of the present invention.
Industrial applicibility
As described above, the present invention can be widely used as wire terminations processing unit (plant), process in electric wire of various shapes
The cutting of predetermined depth on periphery.
Claims (3)
1. a kind of wire terminations processing unit (plant) is used in the end predetermined position away from electric wire, on insulator processing cutting, institute
The insulator of the electric wire with core wire and the covering core wire is stated, the wire terminations processing unit (plant) includes:
Rotary unit is held, the electric wire is held in the state that the longitudinal direction of the electric wire is consistent with device reference axis and makes institute
Electric wire is stated to rotate around described device reference axis;
Measuring unit measures the outer diameter for the electric wire being incident upon on the device datum level including described device reference axis;
Storage unit stores be mutually related tested angle and tested outer diameter, and the tested angle is that the electric wire is rotated
With the angle measured, the tested outer diameter is the electric wire at the tested angle of measuring unit measurement
Outer diameter;
Cutting processing unit comprising with rotation center on the described device datum level perpendicular to described device reference axis
Cutter and the forward/back mechanism for moving back and forth the cutter about described device reference axis;With
Computing unit, outer diameter and arrangement form based on the tested angle and the tested outer diameter and the core wire, meter
Calculation rotates the angle i.e. cutting angle of the electric wire for cutting processing and on the direction about described device reference axis
The forward/back amount of the cutter under the cutting angle;
Wherein, the forward/back mechanism only carrys out the cutter in the state that electric wire is only rotated with the cutting angle
The forward/back amount is moved in return.
2. wire terminations processing unit (plant) according to claim 1, wherein being substantial oval or substantial in cross section
More core wires are set in the electric wire of polygon.
3. wire terminations processing unit (plant) according to claim 1 or 2, wherein a pair of of cutter are arranged face-to-face, and described
Electric wire rotates 180 ° in cutting processing.
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2018-100651 | 2018-05-25 | ||
JP2018100651A JP6697507B2 (en) | 2018-05-25 | 2018-05-25 | Electric wire terminal processing device |
Publications (2)
Publication Number | Publication Date |
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CN110535073A true CN110535073A (en) | 2019-12-03 |
CN110535073B CN110535073B (en) | 2020-12-22 |
Family
ID=68659864
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201910423980.9A Active CN110535073B (en) | 2018-05-25 | 2019-05-21 | Electric wire end processing device |
Country Status (3)
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JP (1) | JP6697507B2 (en) |
CN (1) | CN110535073B (en) |
MX (1) | MX2019006103A (en) |
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- 2019-05-21 CN CN201910423980.9A patent/CN110535073B/en active Active
- 2019-05-24 MX MX2019006103A patent/MX2019006103A/en unknown
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MX2019006103A (en) | 2019-11-26 |
JP2019205315A (en) | 2019-11-28 |
JP6697507B2 (en) | 2020-05-20 |
CN110535073B (en) | 2020-12-22 |
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