DE1640199C3 - Stranding machine for the production of telecommunication cables - Google Patents

Description

The invention relates to a stranding machine Manufacture of telecommunication cables of the type specified in the preamble of the claim.

Mine such a machine is known from US-PS 30 30 7b2. The invention is based on the object of a to design such a device that any internal stresses or deformation stresses that may be present are better balanced during the stranding process. Furthermore, the reversal of the machine operation and the untwisting of the compound Cable and unwinding (rewinding) the tapes and cable strands at the winding head or the unwinding devices be relieved.

According to the invention, this object is achieved by a machine which, in the characterizing part of the Claim has specified features.

Such a rope machine facilitates a perfect Wrapping of the cable with a paper tape or the like by the tape winder, since the compensating device any internal tensions previously existing in the stranded Verscilelemente eliminated and also the Formation of twists or tensions between the balancing device and the rewinder prevented. The compensating device contributes to this synchronously with the winder or with a slightly higher than this, namely 0.5 to I% higher speed is driven.

Through the motor drive of the supply reels of the stranding elements and their torque control also the sequence of the elements of the assembly is particularly precise to ensure that the tensile stress is constant and equal to one another set and a reversal of the direction of the machine to unravel the cable at the same time Rewinding the wraparound tape allows Tails to correct a fault in the cable is required. The tension exerted on the cable by the winder acts on all stranding elements the remaining component of the tensile stress acting on each stranding element at the supply reel individually adjusted so that the tensile stresses are equal and constant to one another.

An embodiment of the invention is shown in the drawing and described below. It ) indicates

1 shows a schematic overall representation of the stranding machine,

FIG. 2 is an enlarged schematic representation of part of the machine shown in FIG. 1, wherein certain parts are shown in more detail. 3 is a greatly enlarged view of one of the in Fig. 1, seen from the end, working with constant tension, unwinding devices,

4 is a top view of the one shown in FIG Device, part of the device in section along 4-4 of FIG. 3:

Fig. 5 is an elevation of the inFig. 3 and 4 shown Device from the right side of FIG. 3 and 4 seen and partly in section along 5-5 of the Γ ι g. 3. to show the bobbin holder,

F i g. 6 shows a greatly enlarged section along 6-b of FIG. 1 and at the same time a cut in the same Scale along 6-6 of FIG. 7th

F i g. 7 shows a greatly enlarged section of the rolls and the supporting frame of those shown in FIGS. 1 and 2. FIG Compensation device and

FIG. 8 is a top view of the FIG. 7 shown Compensation device.

To the in F i g. 1 shown stranding machine for telephony cable production includes an Abspulvorrichiung 10 with a plurality of individual coils 12, of which stranding elements, namely here pairs (wires) 14 a perforated disk 16 can be fed to a tension compensation device 18. The stranding elements 14 are stranded by the compensation device 18 to form a cable 14a, and this cable runs from the compensation device by a tape winder 22 which wraps the tape 24 around the cable 14 in a spiral shape. The Wrapped cable 146 then enters the in the same direction and at substantially the same speed like the compensating device 18 driven winder 28.

The rotating rewinder 28 has a frame 30 which is supported at one end by freely rotating rollers 32 is rotatably held and is supported at its other end on a fixed bearing 34. The frame 30 is driven by an electric motor 36 via an endless belt or chain.

The frame 30 carries a drum 39 on axle journals, which are attached to adjusting devices 44 acting servomotors 42 in the hub of the drum

39 can be inserted or pulled out of it. So you can do different ones one after the other Insert drums 39 into frame 30 and each drum 39 will, while it is in frame 30 is located, by means of a motor 50 driving one of the journal 40 about the axis of the journal

40 rotated to pull the cable 146 through the machinery. The drum 39 also rotates around the 46 designated axis of rotation of the frame 30.

Near the end of the frame through which the cable 146 enters are guide rollers 52 on axles that

hmen 30 are supported, and to form a _{vi /, n} RANM _{nt | cozy} equiaxed nip

at an angle

"while it is wound up axially along the drum 39 in succession

voi the supply spools are rewound. at Reversing the direction of rotation of the motors that drive these supply reels becomes the drive power These motors are slightly increased to provide the necessary tension for winding, but remains get the voltage regulation.

The F! G. 3, 4 and 5 show one of the AL spool elements 12. Each unwinding element has a solid frame 102 which rests on a floor or other holder. the

¹ Ur tape winder 22 can essentially be - rh construction. He has two coils 60 for

or other tapes, and these coils ^, ^ _u . v .., ^ ... ~~~. -.

PaPJf ^r axes 62 carried on a frame 64, 10 frame 102 has on each side a with it means ^eI h rotates about the axis 46 of the stranding machine. a rocker arm 104 connected to it. and at ^! understandably wire ¹ , the frame 64 at certain
^SelD .. "" ι cuprn sehalten. With the one shown

rush held by camps. In the machine shown, between the tape ^{winder 22 and: llm} · · r: .-,., _. -, o ": _ K _1e ßg _er a _t 66

Winder of a tilting bearing 106 connected arm 104 a. the other ends of the arms 104 are bearings 108 and 109. which hold the spool 98 on which the

ί The machine is wound between the bundles of wires. There is one in camp 109

Verseiinw » _{the winder 2} g a measuring device 66 15 shaft 114 out, which has a shaft flange 112 for

_d em sicn ^ ^ ^^ ^ _{dcm Aufwjckler Wll lll} Zf 110 ä di i openings in the

angeorane, _s ^ _measure _

to "e ^{fu" r} ^ i _{c aIeichsvorr} Pla »8 has a plurality

^D h η freely showable grooved whale / cn 70 on from

^{Axles 72 carried by a} single frame 74

a _{tangible value zen} 76 on from one

^Un vein axes 78 on

«NVeineenen axes 78 on.

i 74 and 80 graze by mechanical

, 5

₃₅

The comb "- -

Devices described in connection with any of the other figures below, compressed, around the wire bundle 14 drawn into the compensating device from the perforated disk 16 to grab. The frames 74 and 80 are in a sic.i rotating frame 84 held, which is supported. then it can rotate about the axis 46.

This frame 84 is driven by the motor 36 via a shaft 88, a transmission 90 and a belt or a chain 92 driven.

The same shaft 88 preferably drives the tape winder 22 via a transmission 94 and a Belt or Ketien connection 96 on.

In the unwinding device 10, each of the unwinding elements 12 carries a supply reel 98 from which a Wire bundle 14 is introduced into the machine. Each wire bundle can consist of 25, 50 or 100 wire pairs exist, as is common with telephone cables.

] ede of the bobbins 98 in the unwinding device 10 is made driven, but the drive only serves to compensate for friction, weight and moment of inertia the Abspulelemcnte and is not sufficient to pull the bundle of wires 14 from the Abspulvorrichiungen and feed it to the machine. F. in specific and regulated tension or tension on the trigger elements is required. This Tension generated by winding the cable 14b on the drum 39. By equipping each Unwinding element 12 with devices for regulating the drive power applied to each unwinding element in such a way that each wire bundle 14 is kept under constant tension, it is practically possible to operate the machine without the usual deduction and thus a possible one from him to avoid deformation of the cable and to ensure maximum uniformity of tension in the cable reach.

All drive devices can be reversed in their direction of rotation so that the cable is unwound from the winder 28 and thus runs backwards through the tape winder 22, which unwinds the tape and rewinds the paper tapes onto the reels 60. The compensating device untwisted at reversal of their direction of rotation, the cable or the wire bundle so ii * n τ \ ρ Hiirrh back through the perforated disk 16 and carries on shaft parallel pins 110 which engage in openings in the flange of the spool 98, in order to drive.

A toothed wheel 116 is attached to the outer end of the shaft 114 and is driven by a smaller toothed wheel 118 by means of an endless chain 520. The gear 118 is keyed onto an intermediate shaft 122 to which another gear 124 is attached. that of a gear. 128 is driven by means of a chain 126. The gear wheel 128 sits on an armature shaft 1 M) eires electric motor 132 fastened to the stationary frame 102 of the unwinding element.

The axis of the intermediate shaft 122 slumbles together with ik'v axis of the tilting bearing 106 about which the arms 104 move. This allows the arms 104 to swing without altering the length of the drive chains 120 and 126. The arms 104 can be raised and lowered when reels 98 are successively removed from the unwinding element and replaced.

This raising and lowering of the arms is accomplished by means of the compression, piston, and piston motors 136, best shown in FIGS 140 connected

are.

The wire bundle 14 is unwound from the spool 98 and runs around a deflection wheel 144. This Deflection wheel 144 is carried by an arm 146 and bracket 148 which is around a vertical post 150 are rotatable, which in turn is projecting from a frame 102 of the unwinding element

_ is held. The deflection wheel

144 can therefore be in line with your bundle of veins align whatever section of the coils 98 the wire bundle to any one certain Zeil comes from. A protective plate 154 extends over a substantial angular range of the lower part of deflection wheel 144.

After it cooed around the deflector 144. the wire bundle 14 runs upwards to a guide wheel 158. This guide wheel rotates about an axis 160 which is carried by a bearing 162 which is on part of the main frame under test aiij -.- ordnci. After the guide wheel 158, the bundle of wires 114 runs around a tension control wheel 170 which is rotatably held by an axle 172 which is attached to the upper end of an Anne 174. which is connected to your main frame 102 by means of a Diehachslager.

The arm 174 extends a little below the Drelv.chslaan his untc.vn finds

ger 176 and is at one

arranged anchorage 180 is connected to a tension spring (Fig. 5), the other Fndc on one | oeh IH2 is attached to the F. end of a bolt 184. The bolt

184 goes through a fixed to the fixed frame 102 of the Abspulelcmentcs rigidly connected Holder 186. A nut 190 can be screwed on along the bolt 184 to a greater or lesser extent around the Adjust the tension of the spring 178.

The Abspulelemcnt is aligned so that the train on Aderbündcl 14 when this is in the system is pulled in, the arm 174 counterclockwise around its rotary axis bearing 176 (in the direction of view as in F i g. 5) strives to rotate. The pull on the bundle of wires 14 according to arrow 192 is therefore the force of the Spring 178 is opposed, and the position assumed by arm 174 at any point in time depends on the balance of the tensile force 192 and the tension force of the spring 178.

Of course, what is required to pull off the insulated cable bundle 14 depends on the unwinding element Pulling force depends on the extent to which the torque of the motor 132 affects the friction and others Resistive forces that oppose the unwinding of the bundle of wires 14 from the spool 98, and the friction, that of the rotation of the edges 144, 158 and 170 and the continuation of the vein bundle from these edges counteracts, exceeds.

The voltage is therefore regulated by changing the torque of the motor 132. This happens in the middle of a gearbox · «200. the best from Fig. 4th and 5 can be seen. that together with the arm 174 one Performs angular movement and with a gear drive 202 is engaged on an axis 204 of a rotary resistor 206, the torque of the motor 132 regulates. The rotary resistor 206 is connected to the motor 132 in such a way that it provides the torque of the motor is reduced when arm 174 in FIG. 5 clockwise hcrumsehw ingt. and the torque of motor 132 increases when arm 174 swings counterclockwise. By setting the Tension of spring 178 can provide the tension required on the cable tie to hold arm 174 in to bring any particular angular position. can be set. So while the tension is for any particular setting remains the same, it can be changed by changing the setting of the spring 178 be managed.

The perforated disk 16 keeps the bundle of wires at a uniform distance from one another, so that «they when Earth the rope process evenly brought together.

F i g. 2 shows the entering thee compensation device 18 lead bundle 14. This figure shows a fixed base 212 that stands on the ground or other support and carries the compensating device, as well as a holding arm 214 which holds the washer sixteenth A stationary cage 220 is located above the rotating frame 84 of the balancing device. The rotating frame rotates in bearings 224 which are carried by the underframe 212 . Pipe sockets (collars) 226 are welded to both ends of the rotating frame 84

The pipe socket 226 located at the end of the rotating frame 84 following in the running direction is firmly connected to a gear 230 coaxial with it and the axis 46. The gear 230 is driven by another gear 232 on an intermediate shaft 234 , which in turn is driven by the shaft 88 by means of the

A belt or chain 92 running around a pulley or gear 236 on the intermediate shaft 234 is driven.

Further details of the compensating device are shown in FIGS . 7 and 8 shown. The upper frame 74 has four openings 246 through which parallel rods 248 are passed. These rods 248 have a threaded section 251 with a right-hand thread and a threaded section 252 with a left-hand thread. The lower threaded portion 252 of each of the rods 248 is threaded through an opening 254 in the lower frame 80. The upper threaded portion 251 of each of the rods 248 is screwed through a pressure member 256 that is connected to the upper frame 74 by screws 258.

Each of the parallel bars 24JJ has a thrust bearing 262 at its lower end for prevention a downward movement of the rod 248 with respect to the frame 84 and an upper thrust bearing 264 for Prevents the rod from rising up relative to the frame 84. At the top of each of the A gear 266 is attached to rods 248. A chain 268 runs around all of these gears 266, as in FIG. 8th shown so that all gears 266 rotate simultaneously in the same manner. Another gear 276 engages from the outside into the chain 268 at a point between two of the toothed wheels 266 and holds the chain 268 curious; excited. This individual gear 270 can be screwed into a slot 272 by means of a screwdriver rotated to move the chain 268 in one direction or the other and thereby the gears 266 and the rods 248 connected to them to rotate.

As shown in FIG. 7, rotation of the rods 248 in a direction caused by the threads 251 and 252 the frames 74 and 80 can be drawn closer together. In the preferred mode of operation of the The frame 74 and 80 are moved towards one another until the circumferential surfaces of the Rollers 70 and 76 grip the combined bundles of veins between them with sufficient force and: press them together in order to twist the bundle of wires into a cable while you pull it through the compensation device.

In the construction shown, the upper rollers 70 are one side of the bundled bundles of fibers touch, opposite the lower rollers 76. the other side of the merged bundle of wires touch, offset so that the bundle of wires relam can shift to each other while they are twisted into a cable.

The frame 84 is preferably driven at the same rotational speed as the running rewinder to which the cable runs and which pulls e <through the compensation device

The compensation device is advantageously with about; higher speed, for example 0.5 to 1% faster driven as the winder to ensure that the cable against relative movement of the bundle of wires as a result of the pull of the rotating cable winder behind the compensation device and after the applicator of the tape is held on the cable. This slight Excess speed is determined by means of the in F i g. Transmission 90 shown in i and 2 with corresponding c selected gear ratio reached

For this purpose 2 sheets of drawings

Claims (1)

Claim: Stranding machine for the production of telecommunication cables, in which the stranding elements of supply spools run with the same and constant tensile stress, with a fixed device for Arranging the stranding elements, with a driven rotating device for balancing internal tensions and stranding of the stranding elements, in which the cores are shared between pass through several freely rotatable grooved rollers, with a driven tape winder and with a rotating winder, characterized in that as a device for filing the stranding elements (14) a perforated disc (16) is provided and that the in the device for Compensation of internal tensions (18) arranged opposite grooved rollers (70, 76) in the haul-off direction of the cable are offset from one another that the compensating device (18) and the rotating rewinder (28) by the same motor (36), but first with the same or are driven slightly higher speed, and that also the supply spools (98) by one Motor (132) are driven, the torque of which is provided by a spring-loaded swivel arm (174) is controlled, which carries a guide roller (170) over which the stranding element (14) runs and that the The machine's workflow can be reversed by switching all drives to reverse.