DE817775C - Arrangement of a resistance cord made of a resistance wire wound in a helical shape with insulating bodies and insulating bodies in a row to implement this arrangement - Google Patents

Description

Arrangement of a resistance cord from a wound in a helix Resistance wire with lined up insulators and insulators for realization This arrangement is known to consist of resistance cords wound in helical form Resistance wires with insulators lined up on the coils as heating elements to use for electrical heating devices. So far, however, their use has been in such Cases not possible in which the individual strands of the resistance cord are in a vertical position Had to be arranged. This resulted in the disadvantage that the resistance coils when heated under the influence of gravity in the through the holes push the insulating channel formed downwards together, so that the individual Coils caked together and short circuits occurred. This grievance is supposed to go through the invention can be remedied, which is that the insulating body a Resistance cord can be arranged in such a way that the bore axes each have two successive insulators are at an angle to each other. This achieves that the channel formed by the bores of the insulating body has a zigzag shape, which must also adapt the resistance coil. As a result, it is subject to Clamping in the insulating bodies that surround them and can therefore also occur when heated Do not give in to their weight and not downwards even in a vertical position slide. As a result, it retains its shape in which all coils of each other are separated, so that caking of turns and short circuits avoided will. Such an arrangement of the insulating bodies can be achieved by external means be who the Hold the protective body in the zigzag position. That can can be achieved particularly easily that the resistance cord on a base is stored, the elevations holding the protective body against each other in an angular position having. The elevations can have continuous zigzag ribs form, or individual elevations arranged in a zigzag position relative to one another are provided.

Another way to achieve the zigzag arrangement of the insulators, is to train them appropriately yourself. The known pierced have pearl-like insulating body for resistance wires bent in a helical shape at one end a frustoconical taper and at the other end a taper Acceptance of the tapered end of the following insulating body suitable extension their hole on. According to the invention, such an insulating body is designed in such a way that that the taper and the extension are arranged obliquely to the bore axis in such a way that the bore axes each follow two successive insulating bodies are at an angle to each other when they are joined. This will be particularly beneficial dimension the inclination and width of the hole so that the walls of each protective body protrude into the clear width of the bore ends of the adjacent protective body and Form clamping edges. The clamping of the resistance coil in the by the insulating body formed zigzag channel is particularly strong when the bevel and the width of the Bores are dimensioned so that special clamping edges are formed. Resistance cords of the specified type can be accommodated in shallow containers. To the zigzag position To secure the insulator, it is recommended to have at least one wall of the container a zigzag design corresponding to the zigzag shape of the resistance cord give. To support the resistance cord against a flat wall, a zigzag insert can be provided. Around such containers with resistance cords to attach to pads, a row of i-on special hexagonal support bodies are inserted, which are attached to each other Adjust opposite sides of the zigzag shape of the resistance cords and rest against each other with the other sides. This support body can drill holes for Passing through fasteners, screws and the like. Obtained.

Exemplary embodiments of the subject matter of the invention are shown in the drawing shown, namely Fig. i and 2 each show a plan view of part of a Resistance cord together with its holder, Fig. 3 shows a matching cross section according to the lines III-III of FIGS. i and 2, FIG. 4 a number of insulating bodies joined together in a zigzag position in longitudinal section and in elevation, FIG. 5 shows another embodiment in the same representation, Fig. 6 a series of cross-sectional shapes of insulating bodies, 7 shows resistance cords accommodated in a container together with inserted support bodies in, a view of the opened container, and FIG. 8 a section along the line VIII-VIII of FIG. 7.

The insulation body used i, which is made of ceramic in the usual way Mass can be made, show a circular cross-section and a similar one Hole 2, which is intended to accommodate a resistance coil, not shown is. The insulating bodies i have a frustoconical tapering at one end 3 and at the other end one to accommodate the frustoconical taper of the following Insulation body suitable frustoconical enlargement 4 of the bore 2. Would the insulators plugged into one another in the usual way, then the holes would form a substantially straight channel for receiving the resistance coil. According to the invention, however, the insulating body i are on a base 5 with elevations arranged, which hold the insulating body in a zigzag position. This arrangement takes effect although the frustoconical taper 3 of each insulating body i into the corresponding one Extension 4 of the next insulator, but is not entirely in it. In the In the embodiment according to Fig.i, the elevations form continuous zigzag Ribs 6, while in the embodiment according to FIG. 2, individual elevations 7 are provided are. 3 shows how the insulation bodies i between the elevations 6 or 7 and are secured against lateral displacement. You can go through Cover plates, retaining wires or the like. Be set.

Show an embodiment with specially designed insulating bodies 4 to B. In the case of the insulating bodies i shown in FIG. 4, the Bore axis 8 an angle a deviating from 9o ° with the extension 4 and the taper 3 delimiting stand levels 9 and io. As a result, the insulating body put together to form a zigzag strand. In Fig. 4 is the width of the bore and measure the inclination of its axis 8 in relation to the standing levels 9 and ro so that that into the bore protruding clamping edges i i and 12 form through which a resistance coil to be accommodated in the zigzag channel is held in place. In the embodiment of FIG. 5, the dimensions are chosen so that the bore each insulating body without the formation of clamping edges can only be bent to the Drilling of the next protective body connects. The insulating bodies can (Fig. 6) have round, oval, square or rectangular cross-section, the Hole to accommodate the resistance coil, round, oval or rectangular cross-section may have. Spirals that correspond to these shapes are known.

7 and 8 is a substantially rectangular, according to a Side open sheet metal box 13 shown, in which four resistance cords 14, 15, 16 and 17 housed with insulating bodies according to the invention are. One wall 18 of the container has the shape of the resistance cord I,. corresponding zigzag shape so that the resistance cord is supported on this wall and the insulating body must maintain the zigzag position. On the opposite Side of the container is a flat wall ig and to support the resistance cord 17 a zigzag-shaped insert 20 is provided. The two pairs 14, 15 and 16, 17 of two adjacent resistance cords are inserted between them Support body 21 separated by a hexagonal shape. These bodies have holes 22, which can coincide with corresponding holes in the container, so that by they screws or other fasteners to fix the resistance cord can be carried out. There are insulation bodies at the ends of the container 23 and 24 are provided, into which the helix 25 is transferred from one side of the hexagonal support body 21 on the other side a channel 26 is incorporated. the Insulating bodies, which are used in the illustrated embodiment, have a rectangular cross-section, as can be seen from FIG.

Claims (7)

PATENT CLAIMS: i. The arrangement of a resistance cord from a Resistance wire wound in helical form with insulating bodies lined up on top of it in such a way that the bore axes of two successive insulating bodies (i) are at an angle to each other. 2. Arrangement according to claim i, characterized in that that external means are provided to keep the insulating bodies in the zigzag position. 3. Arrangement according to claim 2, characterized in that the resistance cord is mounted on a base (5) which holds the insulating bodies against one another in an angular position Has elevations (6, 7). 4. Arrangement according to claim 3, characterized in that The elevations form continuous, zigzag ribs (6). 5. Arrangement according to claim 3, characterized in that individual in zigzag position mutually arranged elevations (7) are provided. 6. Insulator for the Arrangement according to claim i, characterized in that the taper (3) and the Extension (4) are arranged obliquely to the bore axis (8) such that the bore axes two consecutive insulating bodies after joining at an angle to one another stand. 7. Pierced insulating body according to claim 6, characterized in that the inclination and the width of the hole (2) are dimensioned so that the walls each insulating body (i) in the clear width of the bore ends of the adjacent insulating body protrude and form clamping edges (i1, 12). B. To accommodate resistance cords with insulating bodies according to claim 6 or 7 specific container, characterized in that that at least one wall (18) of the container (13) one of the zigzag shape of the resistance cord (14) has a corresponding zigzag shape. G. For holding resistance cords with insulating bodies according to claim 6 or 7 specific container, characterized in that that to support the resistance cord (17) against a flat wall (1g) of the container a zigzag insert (20) is provided. ok Arrangement of resistance cords with insulating bodies according to claim 6 or 7 in a container, characterized in that that between two resistance cords (15, 16) a number of hexagonal support bodies (21) is inserted, each on two opposite sides of the zigzag shape adjust the resistance cords and make contact with the other sides. i i. Arrangement according to Claim io, characterized in that the supporting bodies (21) have bores (22) for passing through fastening means (screws and the like).