DE102014105791A1 - Method and apparatus for severing a freely isolated portion of a shield - Google Patents

Abstract

The invention relates to a method and a device for cutting through a freely insulated portion of a cable sheath arranged on a shielding of a cable with two cutting blades (1, 2), each arranged along a cutting edge, provided with cutting edges cutting teeth (4), wherein the cutting edges lie congruently one above the other and are movable relative to each other so that the blades sliding past each other scissors. According to the invention, the two toothed cutting edges are formed by the edges of a circular hole (5). A freely isolated portion of a shield may be moved along its toothed edge along the toothed edge of the hole (5) of the blades (1, 2), without rotating the cable about its axis, along a circular relative motion.

Description

The invention relates to a method and a device for cutting through a freely insulated portion of a shield arranged under a cable sheath of a cable with two cutting blades, each having along a cutting edge, provided with cutting cutting teeth, the cutting edges are congruent to each other and movable relative to each other are that the blades sliding past scherenend each other.

Cables, in particular for the transmission of high-frequency signals, bus cables or network cables have a soul, which have one or more insulated against each other wires. Around the individual wires or around a bundle of wires a metallic shield consisting of a stranded wire is arranged. This metal shield is located below the cable sheath. For attachment of a plug to a cable end of the cable sheath is first removed in regions, so that a portion of the arranged below the cable sheath shield is freely isolated. In order to be able to disassemble the at least one core, the freely insulated section of the shielding must be shortened. This is done with a device that cuts through the shield. For this purpose, cutting blades are used in the prior art, which have straight cutting edges. The cutting edges are congruent to each other and have sawtooth-like adjacent cutting teeth with cutting. The toothed cutting edges are moved in their direction of extension oscillating against each other, so that the blades sliding past each other shearing. By rolling the cable over the cutting edges, the cutting teeth at each circumferential location of the exposed portion of the shield engage the individual wires of the strand to sever them. After a complete rotation of the cable about its axis, the shield is completely severed.

The invention has for its object to improve the advantage of the device mentioned above and to provide a method by which the severing of the free-insulated portion of the shield is improved.

The object is achieved by the invention specified in the claims.

First and foremost, it is proposed that the toothed cutting edges extend along an edge of a circular opening. The cutting blades can have an embodiment similar to a Innenlochsäge, wherein two cutting blades are arranged side by side in such a way that the sawtooth toothed cutting edges are congruent to each other. At least one of the blades is moved around the center of the hole defining an axis with its center. It can be a continuous rotary motion. However, it is preferably an oscillatory movement in which the cutting edges of the cutting teeth of the two cutting blades slide past each other in a shearing manner. The drive can be done by a rotationally driven eccentric cam, which engages in a radial slot of a movable cutting blade. The other blade can be firmly connected to a carrier. To achieve the required rotational movement clearance, the movable cutting blade can be fastened to the carrier with the help of arcuate slots. With the device according to the invention, the shields of cables can be cut, which are wound on a winding or which have a high rigidity. The cable does not need to be rotated to cut the shield around its axis. It is only a relative movement on a circular trajectory required. In the circular relative movement, the cable moves along the edge of the circular hole forming the cutting edges of the cutting blades. This may be accomplished by moving the cable relative to the stationary support of the cutting blades or by holding the cable stationary and moving the carrier on a circular arc path with the center of the hole moving around the cable. During the circular relative movement, the teeth of the cutting edge engage in succession at mutually different circumferential positions in the shield in order to cut with their cutting the individual wires of the wire braid of the shield. After a 360 ° relative movement, the shield is completely severed. In a preferred embodiment of the method, the shield is slightly compressed prior to cutting in the direction of the non-stripped portion of the cable sheath, so that the shield stands out from the soul of the cable. The radius of the circular relative movement is thereby reduced and it is prevented that the tips of the teeth can enter the core of the cable, so that it is damaged. The teeth of the two cutting blades are identical to each other. Each tooth has two cutting edges which meet in a tooth tip and which extend in a broad side plane of the cutting blade, the two cutting blades touching each other with these two broad sides, so that the lying in the plane of contact scissors glide past each other. The broadside surface pointing away from this is conical in the area of the teeth, with the conical surface extending to the tooth tip. The invention also relates to an automatic or semi-automatic device for severing the freely insulated portion of the shield disposed under the cable sheath. Again, two preferably circular blades sit on a support. A first cutting blade is firmly connected to the carrier with fastening screws. A second blade sits congruently on the first blade. The fastening screws pass through arc slots of the fixed cutting blade here. A crankpin, which is driven by an electric motor, engages in a radial slot of the movable cutting blade, so that it can be driven to oscillate about an axis. The tips of the cutting teeth are spaced approximately at a circumferential distance of about a maximum of 2 mm. The device preferably has at least one pair of jaws with which the cable can be held. Preferably, two pair of jaws are provided, wherein in each case a pair of jaws is arranged on one side of the cutting blade pair. With a firm pair of jaws the cable is caught. This can be done in a version in a not freely isolated section of the cable. However, it is also possible for the cable to be detected on a section of the cable which has already been freed, for example, from the jacket of the cable, that is to say on the screen. With a pair of jaws movable to the fixed pair of jaws, the screening strand of the shield can be upset. The jaws of the pairs of jaws can be closed and opened by an electric drive. The device keeps the cable stationary. With an electromotive drive, the carrier can be moved in the plane of the cutting blades so that the center axis of the hole moves around the cable, wherein the teeth of the cutting edges can enter the radially everted screen strand to cut them. It can be provided a device with which the radius of the circular motion of the wearer can be adjusted. The drive for moving the carrier preferably has an eccentric cam, act on the elastic motion transformer. These may be crosswise arranged spring elements. In addition, the device may comprise a centering device which centers in a loading state, the hole relative to the cable. The centering device may have a centering pin which can be moved into a centering opening of the carrier in the form of a cone. The device for adjusting the radius of the circular movement can also be formed by a mandrel, which can enter into an opening of the carrier. Depending on the depth of entry of a cone body in the opening of the movement radius is reduced.

Embodiments of the invention are explained below with reference to accompanying drawings. Show it:

1 a perspective view of a first embodiment,

2 a broadside view of the first embodiment,

3 enlarges the section III-III in 2 .

4 a second perspective view,

5 a perspective view with removed second movable blade 3 .

6 a sectional view through the hole 5 a second embodiment, wherein the cable 13 by means of a fixed pair of jaws 18 is held and the shield 15 from a movable pair of jaws 19 is compressible, approximately according to the line VI-VI in 7 .

7 the viewing direction on the movable cutting blade 2 of the 6 approximately according to the section line VII-VII in 6 .

8th A third embodiment of the invention in a perspective view,

9 the third embodiment in plan view,

10 the section according to the line XX in 9 .

11 the section according to the line XI-XI in 9 .

12 the section according to the line XII-XII in 9 .

13 the section according to the line XIII-XIII in 9 and

14 the section according to the line XIV-XIV in 9 ,

That in the 1 to 5 illustrated first embodiment has a vertically extending carrier 6 which is attached to a foot. The carrier 6 is formed by a flat workpiece having a circular opening. On a broadside surface of the carrier 6 is with a total of four mounting screws 7 , each pass through a mounting hole, a fixed blade 1 attached.

The solid cutting blade 1 has a hole 5 with a circular, with teeth 3 offset edge, which defines a toothed cutting edge. The teeth 3 are made of tapered blades 3 ' educated. The cutting 3 ' run in a broad side plane of the fixed cutting blade 1 , The this broad side surface opposite broad side surface of the teeth 3 runs on a cone surface. The cone surface goes into the tips of the teeth 3 above. The circumferential distance between two adjacent tooth tips is approximately 2 mm maximum.

On the broad side surface of the fixed blade 1 lies the broad side surface of a movable cutting blade 2 , which also has a circular outline and a hole 5 with a toothed edge defining a cutting edge. The teeth 4 of the movable cutting blade 2 lie congruent on the teeth 3 of the fixed blade 1 such that during a rotational movement of the movable cutting blade 2 the cutting edges 4 ' the teeth 4 of the movable cutting blade 2 shearing at the cutting edges 3 ' the cutting teeth 3 of the fixed blade 1 slide past.

From the 6 it can be seen that each of the two cutting blades 1 . 2 tapered teeth 3 . 4 forming, wherein the material thicknesses of the cutting blades 1 . 2 differ. The movable cutting blade 2 is thicker than the cutting blade 1 ,

The movable cutting blade 2 has arcuate slots 8th through which the fixing screws 7 to grab.

The movable cutting blade 2 also has a radially extending slot 9 in which a crank pin 11 an electric motor drive 12 intervenes. To the passage of the crank pin 11 through the fixed blade 1 the latter has a circular opening 10 so that the drive unit 12 on the of the cutting blades 1 . 2 groundbreaking side of the vehicle 6 is arranged.

The 6 and 7 show the operation of the device. The cutting blade 2 becomes a spinning oscillatory motion around the center of the hole 5 opposite the cutting blade 1 brought. From a cable 13 sections become the coat 14 removed, leaving the below the coat 14 lying shielding wire is freely isolated. This is going towards the coat 14 compressed so that they are slightly different from the soul 16 of the cable 13 lifts radially outward. Subsequently, the cable is moved in a circular motion through the hole 5 on a circular arc 17 moves, with the shield 15 on the cutting teeth 3 . 4 is moved along so that these are the individual wires of the shield 15 cut.

In the in the 6 and 7 shown application example is the cable 13 kept stationary. This is done by means of the fixed pair of jaws 18 which is the un-insulated portion of the cable 13 believe it. With the jaws of the movable pair of jaws 19 will the shield 15 compressed. Subsequently, the carrier completes 6 a circular motion, leaving the cable 13 a circular relative movement around the center of the hole 5 makes that by the reference number 17 is indicated.

That in the 8th to 14 illustrated third embodiment is a semi-automatic device for severing the shield. The device has a carrier 6 who has the two cutting blades 1 . 2 wearing. On the carrier sits a drive motor 12 to the movable blade 2 to oscillate in the manner described above.

To the movement of the carrier 6 serves a drive motor 21 wearing an eccentric cam 22 having. On the eccentric cam 22 four crosswise arranged elastic elements are arranged. The elastic elements 23 extend in the plane of rotation of the eccentric cam 22 and are with their ends on the carrier 6 attached so that by turning the eccentric cam 22 the carrier 6 a circular motion is imposed.

A fixed cone arrangement has a cone 25 , which has a circular opening 24 of the carrier 6 be upheld. By means of a knurled screw 26 can the axial position of the cone 25 inside the opening 24 be set. Depending on the immersion depth of the cone 25 in the opening 24 the radius of the circular trajectory changes 17 of the carrier 6 ,

Furthermore, a centering device is provided which has a cone 28 having, in a centering opening 27 of the carrier 6 can be introduced. This is done with a motor drive 29 , In the centering position is the center of the hole 5 centered on the jaws in their closed position.

The cheeks 18 . 19 can with the help of motor drives 20 . 20 ' getting closed. The moving jaws 19 are associated with a jaw carrier that is in a guide 30 towards a jaw carrier that holds the firm jaws 18 carries, is movable.

The operation of the device is the following: A cable 13 with exposed shielding 15 gets into the firm cheeks 18 clamped, leaving the body of the shield 15 which is to be severed, in the cutting plane of the cutting blade assembly 1 . 2 lies, ie in the plane of contact of the two cutting blades 1 . 2 , Then with the movable pair of jaws 19 the shield 15 slightly compressed, so that they are located at the cutting site spatially in the radial direction of the soul 16 away. Previously, by adjusting the axial position of the Einstellkonus 25 the trajectory the cutting teeth 3 . 4 adjusted so that they shield 15 severed all around. Through a 360 ° rotation of the eccentric cam 22 the edge of the hole staggers 5 around the shield 15 around, with the cutting teeth 3 . 4 with their cutting edges 3 ' . 4 ' the individual metal fibers of the shield 15 cut.

The above explanations serve to explain the inventions as a whole covered by the application, which independently further develop the state of the art, at least by the following combinations of features, namely:
A device characterized in that the two toothed cutting edges are from the edges of a circular hole 5 are formed.

A method that is characterized in that the section without the cable 13 rotated about its axis, a circular relative motion 17 along a toothed cutting edge forming edge of a circular hole 5 the cutting blades 1 . 2 power.

A device or a method, characterized in that a first cutting blade 1 firmly with a carrier 6 connected and a second cutting blade 2 around the center of the hole 5 oscillating or continuously rotationally driven.

A device or a method, characterized in that for the oscillating drive of the second cutting blade 2 a crankpin 11 in a radially extending drive slot 9 of the second cutting blade 2 intervenes.

A device or a method, which are characterized in that the mutually identical cutting teeth 3 . 4 in each case at an acute angle to each other extending, in a tip meeting cutting edges 3 ' . 4 ' exhibit.

A device or method characterized in that the device is a fixed pair of jaws 18 has for fixing a not freely isolated portion of the cable 13 and one towards the firm pair of jaws 18 movable pair of jaws 19 has, with which the shield 15 towards a soul 16 of the cable is displaceable, so that in Durchtrennungsbereich the shield 15 from the soul 16 takes off.

A device or method characterized by a drive motor 21 with which the carrier 16 so movable is that the center of the hole 5 on a circular arc line 17 around the cable 13 emotional.

An apparatus or method characterized by adjustment means 25 . 26 . 24 for adjusting the radius of the path of movement of the center of the hole 5 ,

A device or a method characterized by centering elements 28 . 27 . 29 for centering the hole 5 opposite one of the cheeks 18 . 19 axis defined in its clamping position.

A device or a method, characterized in that the movement drive 21 for moving the carrier 6 an eccentric drive 22 is that with elastic motion transmission elements 23 on the carrier 6 attacks.

All disclosed features are essential to the invention (individually, but also in combination with one another). The disclosure of the associated / attached priority documents (copy of the prior application) is hereby also incorporated in full in the disclosure of the application, also for the purpose of including features of these documents in claims of the present application. The subclaims characterize with their features independent inventive developments of the prior art, in particular to make on the basis of these claims divisional applications.

LIST OF REFERENCE NUMBERS

1

solid cutting blade

2

Movable cutting blade

3

cutting tooth

3 '

cutting edge

4

cutting tooth

4 '

cutting edge

5

hole

6

carrier

7

fixing screw

8th

arcuate slot

9

drive slot

10

opening

11

crank pin

12

drive motor

13

electric wire

14

coat

15

shielding

16

soul

17

trajectory

18

firm pair of jaws

19

movable pair of jaws

20

engine

20 '

engine

21

Drive motor for circular motion

22

eccentric cams

23

Spring spoke, elastic element

24

opening

25

setting cone

26

knurled nut

27

centering

28

centering cone

29

drive

30

guide rail

Claims (11)

Device for cutting through a freely insulated section of a cable jacket ( 14 ) arranged shielding ( 15 ) of a cable ( 13 ) with two cutting blades ( 1 . 2 ), each arranged along a cutting edge, with cutting edges ( 3 ' . 4 ' ) provided cutting teeth ( 3 . 4 ), wherein the cutting edges are congruent to each other and are movable relative to each other, that the cutting ( 3 ' . 4 ' ) sliding past each other, characterized in that the two toothed cutting edges from the edges of a circular hole ( 5 ) are formed. Process for cutting through a freely insulated section of a cable jacket ( 14 ) arranged shielding ( 15 ) of a cable ( 13 ) with two cutting blades ( 1 . 2 ), each arranged along a cutting edge, with cutting edges ( 3 ' . 4 ' ) provided cutting teeth ( 3 . 4 ), wherein the cutting edges are congruent to each other and are moved relative to each other, that the cutting ( 3 ' . 4 ' ) sliding past each other, characterized in that the section without the cable ( 13 ) is rotated about its axis, a circular relative movement ( 17 ) along a toothed cutting edge forming edge of a circular hole ( 5 ) of the cutting blades ( 1 . 2 ) power. Device or method according to one of the preceding claims, characterized in that a first cutting blade ( 1 ) fixed to a carrier ( 6 ) and a second cutting blade ( 2 ) around the center of the hole ( 5 ) oscillating or continuously rotating. Device or method according to one of the preceding claims, characterized in that for the oscillating drive of the second cutting blade ( 2 ) a crankpin ( 11 ) in a radially extending drive slot ( 9 ) of the second cutting blade ( 2 ) intervenes. Device or method according to one of the preceding claims, characterized in that the mutually identical cutting teeth ( 3 . 4 ) in each case at an acute angle to each other, in a point striking cutting edges ( 3 ' . 4 ' ) exhibit. Device or method according to one of the preceding claims, characterized in that the device is a fixed pair of jaws ( 18 ) for fixing a portion of the cable ( 13 ) and one towards the fixed pair of jaws ( 18 ) movable pair of jaws ( 19 ), with which the shield ( 15 ) to a soul ( 16 ) of the cable is displaceable so that in the transection region the shield ( 15 ) of the soul ( 16 ) takes off. Device or method according to one of the preceding claims, characterized by a drive motor ( 21 ), with which the carrier ( 16 ) is movable such that the center of the hole ( 5 ) on a circular arc line ( 17 ) around the cable ( 13 ) emotional. Device or method according to one of the preceding claims, characterized by adjusting means ( 25 . 26 . 24 ) for adjusting the radius of the path of movement of the center of the hole ( 5 ). Device or method according to one of the preceding claims, characterized by centering elements ( 28 . 27 . 29 ) for centering the hole ( 5 ) opposite one of the jaws ( 18 . 19 ) axis defined in its clamping position. Device or method according to one of the preceding claims, characterized in that the movement drive ( 21 ) for moving the carrier ( 6 ) an eccentric drive ( 22 ), which is provided with elastic motion transmission elements ( 23 ) on the carrier ( 6 ) attacks. Apparatus or method characterized by one or more of the characterizing features of any one of the preceding claims.

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