DE697378C - Process for the production of a cross-shaped spacer for star quads - Google Patents

Description

Process for the production of a cross-shaped spacer for star quads -The coupling freedom of star quads is guaranteed if the partial capacities of the same type are the same one after the other. This is the case if the conductors form the corners of a Quadrabeg - and the insulating materials used for support form the. Lot; the dielectric constant - and its arrangement;, g; after are the same. .-With the usual -vein-. type of construction, the core insulation consists of one or more layers of paper; which are hollow around the vein or on an open spiral made of paper or tree wool cord, which is laid around the conductor. When the cores are sown, the distances between the cores are determined with two insulation thicknesses - compared to the neighboring cores in the four-wire round to the other four-wire. : = In the axis of the quad there is often one. Heart cord. -To the 'Aderis'oTation. To make the same, If -cables, -an- the high- demands are made; also be. the papers are not colored through, but only printed on one side with a: -.schmalon colored stripe to keep the influence of the color as low as possible; furthermore, the wires are fed one after the other through the same nipple in order to achieve the same outer diameter.

Nevertheless, it is not possible to achieve a complete belt = freedom from coupling to reach. The causes are to be sought in the fact that the curls are in their strength wavers and before alone. rather the distance between the conductors through - the cord == Pä: per-Isolierüng is partly not firmly determined. - In 'Fig. I is a longitudinal section' -durc'h two adjacent: -Kördelädem 'shown, namely the position of the "cords so, @daa two cords touch. ' In -die = siem case, the distance under pressure recorded from the outside through the cords; - = 'the the "-compliance with the - distance des- = ensure: @es is different in the 'contrary to the case' in Fig. 2, which occurs just as often: -Here are the cords-around half a 3-way: -gung- offset against each other. If @ now = # pressure is exerted from the outside; # so - bends - itself, the tubular = paper envelope eiii, - @, and the distance between the bodies is reduced yourself (Fig.3). In this case, the cord determines not the distance, but: the Pressure, the slope the cord and the stiffness of the paper. So you have to choose the slope of the cord relatively narrow and thick paper use to keep somewhat certain distances, i.e. more insulating material., than would be necessary in the case of Fig. i. However, this increases the operating capacity.

Attempts have been made to reduce the influence of the differences in core insulation to turn off one or more cords one after the other around the ladder in the In the form of a braid and thus inevitably equalized the distances. Execution however, it is very difficult and proceeds very slowly.

It is also known that the distances between the veins in the foursome by profiled, to secure longitudinal cross-shaped webs; but is with the 'known designs does not ensure that the same component has the spacing between all wires certainly.

The invention relates to a method for producing cruciform Spacers for star vifer. According to the invention, the spacer is thereby formed that a band, which consists of one or more superimposed flat Ribbons is made with incisions at regular intervals extend from the two edges of the tape to the center of the tape. - Then they will The flaps thus formed by these incisions continue in a certain direction : or rotated by 100 grads alternately in both directions. It becomes expedient a solid core insulation is used in the case shown in Fig.3. to exclude where the paper sleeve is pressed in. Fig. 4: shows an example of the inventive concept. A strip of paper a is cut alternately right and left up to the middle, then the strip is attached to the dashed. Lines after! one pair of cuts -um bent at a right angle: the wires b are placed in the corners:. The wrapping of four determines the. Distance from the environment and causes. the level of the footbridges are essentially perpendicular to each other even after the wires have been twisted, for every twisting of the planes increases the scope of this four, and it works contrary to the wrapping. By keeping the spacers between all wires the same. Piece consist is; a large degree of uniformity is guaranteed. - To reduce the dielectric constant, the insulating strip can be punched out be like Fig. 5 a. Example shows. The strips can also be folded differently and two-type strips are used, which are offset from one another in such a way that that they 'close the gaps and stand perpendicular to each other (Fig. 6).

..-: Another embodiment in which the .'to meet is cut in a U-shape (Fig. 7), Fig.8 shows. The flaps resulting from the cuts are bent down, the strips pushed into each other and the flaps folded down again. Then will both strips rotated at a right angle.

To get accurate, symmetry; can make the incisions in groups be arranged right and left.

In order to get the desired spacing of the wires, the strips have to be have the appropriate thickness, or several stacked ones can be used will. Another shape is shown in Figs. 9 and 10, in which the stripes are wavy are. The corrugation can occur with the individual strips or with those that have already been collapsed be made. The spacers can be used at the same time, but also separately the supply of the veins or the. flat ribbons.

Claims (1)

PATENTED SPRAY :. i. Method of making a cross-shaped Spacers for star quads, thereby. characterized in that one or more superposed flat strips at equal, spaced intervals with incisions made by the two The edges of the tape extend here to the middle of the tape, and that the so through incisions formed lobes continuously - in a certain direction or alternately in rotated by 100 grads in both directions. Process for making egg Ness kzeuziformm spacer for star quads according to claim i, characterized. marked, because the stripes are curled. 3. Procedure for the determination of a kxeuzfqrmigen Spacer according to claim i and 2, characterized in that the Incisions formed flaps are punched out in regular succession. .. Procedure. for the production of a cruciform spacer according to An; saying i to 3, thereby marked that two with L, shaped incisions. provided stripes on theirs Incisions are shifted one over the other and placed vertically on top of one another.