DE2105572A1 - Electrical resistance heating cable - Google Patents

Description

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Akie: PHN- 4611 PHN. 4611

Registration from: 5.3? E "brβ 1971 BOSS / KV

"Electrical Resistance Heating Cable".

The invention relates to an electrical resistance sensor

heating cable, consisting of a flexible core from an electrical Insulating material, one around this core extending over the entire length of the cable extending helically wound heating wire and a jacket of electrical insulating material, the cable in at least two groups extending in the longitudinal direction of the cable, themselves alternating sectors is distributed, which assume different temperatures among each other during operation of the cable.

Kin cable of this type is known from German patent specification 820.943 · With these cables, the heating wire is in the sectors, which have to assume a relatively low temperature during use, wound with a greater pitch than in the sectors which

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vehre.nr: have to reach a relatively high temperature during use.

My practice has shown that the temperature differences in such a cable during use between those with different -king heights of the wound sectors is not particularly large, while the heating wire has almost the same temperature in the different sectors.

Another construction of such a cable is described in: G, Patent Re 26,522.

In the electrical resistance heating cable according to this 5: inscribed, the sectors, the temperature of which during use; from · ■■ sounds the heating wire can be closed by means of an electrically better conductive ftifane kin. The strip is at a "■■ - *! according to this patent specification between the core and the windings d * s

If such a cable kinked or repeated gebeugfc rd "is a danger to the ends of the strip between the inventions of the resistance wire that produces push and bend over, damaging ■ 5 insulating outer cover and cause a short circuit between iom cable and other metal parts, while close to the cord during use. In addition, local changes in the resistance of the cable occur.

A proposal by the applicant that has not been published in advance

gamäs8 is a number of the disadvantages of the known constructions mentioned eliminated with a cable where in the sectors of the cable that during assume a relatively low temperature of use, an odd number

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standing in electrical contact with one another, alternating in the same Direction such as that in which the heating wire is wound in the sectors which become relatively high in temperature during use, and in opposite directions helically wound layers of heating wire lie one above the other on the core, the number the layers provided one above the other are at least two times greater than the number of layers in the sectors that dee during use Cable take on a relatively high temperature. The first two layers are preferably wound with a larger pitch than the one third layer and those layers that will be used during dee use accept high temperature.

Such a cable can be obtained by continuously moving the core in only one direction through a winding arrangement and that this arrangement causes a back and forth movement along the core where a few layers of heating wire are stacked on top of each other must be provided. Another method is that nan turns one fixed winding point and becomes the core when some layers are on top of each other need to be wrapped, moved back and forth. Although this latter cable construction has clear advantages compared to the constructions described above, it is exactly the same for the construction as for the previously described it is necessary to have winding machines, which are provided with special precautions and which are very precise and reproducible work.

The invention aims to provide an electrical resistance heating cable to create that can be produced without having to winding machines with special precautions are required.

According to the invention, one that satisfies this requirement

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electrical resistance heating cable characterized in that the Heating wire consists of alternating parts with relatively high and parts with relatively low resistance per unit length.

Kin such heating wire can, for example, from a Wire with parts made of the same material consist with alternating small ones and large diameter, or with parts with different conductivity, which are connected to one another frontally by hard or soft soldering.

Preferably, however, a heating wire is used which

P consists of a wire with a relatively high resistance per unit length, which at regular intervals with itself in the longitudinal direction of the wire extending sheaths is provided with relatively low resistance per unit length. This results in great differences in strength between the Prevents parts with relatively high and relatively low resistance per unit length. For this purpose, for example, silver, copper, Gold and aluminum can be used.

These sheaths do not need the wire completely

to include cylindrical. A wire in which the sheaths hold the wire comprise completely cylindrical, but can be easily manufactured and in several different ways.

For example, a thick wire made of a material with a relatively high specific resistance can be assumed, for example made of nickel, which is pushed into a suitable cylinder made of a material with low resistivity, such as copper, that surrounds the wire over its entire length. Aladann will be the diameter the whole thing brought to the desired level by ramming and pulling. After this, part of the copper jacket is removed at regular intervals.

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etched. An aqueous solution of FeCl-

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11

or CuCl "can be used. Such etchants are in the literature has already been described in detail.

The parts of the copper jacket that cannot be etched away can

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be protected against the etching agent that these parts with a

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be provided against the etchant protective lacquer layer, for example with the help of a photosensitive varnish. It's also possible just the parts of the wire where the copper jacket has to be etched away with the

To bring caustic into contact. To do this, the wire is wound onto a spool.

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winds and the coil is partially immersed in the etchant.

Instead of a wire hammered and drawn together with a sheath, a resistance wire can also be used, which is electrolytically provided with a sheath made of a better conductive material over the entire length.

Another method is to make wrappings better

conductive material only provided on certain parts of the resistance wire. For this purpose, the wire can be provided with a layer of lacquer on the parts that are not covered with better conductive material, for example by means of a photochemical process. Then the wire on the uncovered parts is covered with an electrically conductive sheath Material provided. This can be done, for example, by electrolysis.

In addition to electrolytic methods, electrolytic methods can be used where the previous discussion of the application of electrically conductive coverings other methods can also be used, for example the deposition of metal films from liquid or vapor phase. Preferably a Heating wire with a heterogeneous structure, i.e. the heating wire consists of a wire with a relatively high resistance per unit length,

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ί-r carries sheaths extending at regular intervals in the longitudinal direction of the wire with a relatively low resistance per unit length, with a covering extending over the entire length of the wire.

m envelope made of a material that is still at the highest '.- ■; temperature that the cable reaches during operation is resistant to oxidation.

Such a covering can be made of an oxide material • They are made of a material that can withstand the operating temperature of the ■ ibels not oxidized or a dense, the underlying metal against P siitiere Oxidation forms protective oxide skin.

The core of the cable can consist of any electrically insulating organic or inorganic material that is resistant to the temperatures that occur during use of the cable. list Kern k &: ia a simple or a compound structure onasr. and, for example ouch polyvinyl chloride, silicone rubber, nylon, .u.jtfit.rn, Ae'ses'Sgarn, PoIySetrafluorathylen and polyfluoroethylene-PropylSn sceiien "Can Gewünsshtenfalls within the core nor a central ^one Ssr be present. In this design, the contacts can be provided on one of the cables; at the other end the central conductor is connected to the heating wire.

The heating wire can in principle consist of any electrically conductive material. Preferably, however, a Material with a high, positive temperature coefficient of resistivity is used (0.002 or greater per "C.), for example Nickel, copper. In this way, the temperature that occurs is different for a given construction and can be enlarged for a prescribed temperature difference less material will be sufficient than when using materials with a low temperature

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coefficients.

In the use of copper on a Erhitzungedraht of a metal other than nickel, takes place during dee use, when the non-copper-covered parts of the Krhitzungsdrahts reach a temperature of a few hundred ^e C, a slow oxidation of the ends of the copper cladding from taking place. The copper sheathing is getting shorter and shorter and the sectors with a relatively low temperature are getting smaller and smaller. This can be prevented in that the heating wire is provided with an oxidation-resistant covering made of a metal, a metal alloy or an oxide. Practice has shown that a thin nickel film with a thickness of a few microns is particularly suitable for this purpose. Such a covering is not necessary if a noble metal is used instead of copper, such as gold or a metal which is covered with a protective oxide skin, such as aluminum.

The outer sheath of the cable can be known for this purpose depending on the temperatures occurring during use organic or inorganic materials. In principle, the same materials that come into question for the core can be used will.

The cable can be obtained in that the core, the will generally have a circular cross-section, invariably is moved in only one direction through a winding arrangement. The one with dea Resistance wire wrapped around the core is then covered with an outer covering provided, for example by wrapping and / or braiding with glass or asbestos fibers, rayon or cotton, or by having it is passed through a Kxtrudieranordnung in which the cable with a Plastic jacket is provided.

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If desired, the outer jacket can also consist of a series

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consist of an opening provided bodies made of ceramic material.

JYes it is advantageous to have the sectors with different tempera doors to be able to recognize even when the cable is not used, For example, when installing in apparatus or when attaching connection pieces, it is advisable to mark the outer casing to provide. In the case of sheathed cables, the relatively low temperature sectors can become metallic due to the presence of a large amount of metal Material can be recovered magnetically or electrically. A marking arrangement can be attached to one suitable for this purpose Arrangement to be coupled.

Cables according to the invention can be used in such apparatus in which local heat has to be generated, while the parts of the apparatus and the connection points lying in between do not or may only increase slightly in temperature.

Cables according to the invention can, for example, be used in hair curler heating arrangements are used, which in principle consist of a number of hollow cylinders or "fingers" to be heated, which consist of a Reach the bottom plate and onto which the curlers can be pushed. The sectors of the cable that have a high temperature during use reach, are provided in the fingers, while the relatively cold remaining parts are in the bottom plate.

Cables according to the invention can also be used in defrosting arrangements for ice cabinets.

The Erf i ndungsgeaässen cables can werdeij further in electrically heatable clothing, in coffee machines and used for space heating

An embodiment of the invention is in the drawing and is explained in more detail below. Show it

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Fig. 1 shows a wire in side view, which is in regular use Is provided with better conductive sheaths at intervals,

Fig. 2 shows a wire in section, which wire in regular Gaps is provided with better conductive sheaths and then over the entire length with a secured against oxidation at high temperatures Layer is provided,

3 shows a cable, partly in section and without an outer jacket, with a wire according to FIG. 2.

The heating wire according to FIG. 1 consists of a core 1 made of nickel with a diameter of 0.8 mm and a resistance per meter of 4 .1. At regular intervals there are sheaths made of copper over a length of 60 cm, the total diameter of the wire being locally 0.285 mm. The resistance of the covered wire is 0.4_Ί per meter. . The uncovered parts have a length of one meter. With this wire a cable can be obtained, the sectors of which reach ^{a temperature of 400 ° C. under load;} these sectors are flanked by sectors that reach a temperature of 80 ⁰ C.

At this temperature, oxidation of the sheaths made of copper can occur, namely at the ends where they are caused by heat conduction also assume a relatively high temperature. In order to prevent this, according to a preferred embodiment in Pig. 2 of the Heating wire shown in section, with a protected against oxidation jacket 3 made of nickel, which is calibrated over the entire length of the wire extends. This nickel jacket can, for example, be 10a.hi thick and does not significantly change the electrical properties of the heating wire.

In Fig. 3 there is an embodiment of one according to the invention

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shown. The heating wire 5 is on a glass fiber core 4 The whole is encased in a glass fiber jacket 6.

The cable according to the invention has the following advantages, among others the known constructions opposite aufι

1. The cable has a simple structure to manufacture

of the cable there is less failure,

2 »Before the heating wire is wound on the core of the cable

it can be determined whether the heating wire being used does not have any fe has errors. If the pitch is precisely maintained when winding little after such control of the heating wire There is a possibility that the cable will not work well in electrical terms.

JJ) the cable is less stiff than those cables _y of them

- '* a few steep sections of the heating wire in different layers over-.nsider or there are metal strips in some places along the helix between the heating wire and the core.

I / adby that is between the better conductive parts and

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■■ fern resistance wire cannot form oxide films, the high transition

“Resistances and local overheating can cause” the cable remains longer useful than those cables with a number of turns This heating wire is short-circuited by metal strips and the like nand.

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Claims (3)

-11- Prift. 4b11. FVT EflTANSF RUCHE: 1. J electric resistance heating cable, comprising extending a flexible core of electrically insulating material, a eioh around said core over the entire length of the cable, helically wound heating wire and a sheath of electrically insulating material, said cable in at least two groups in the longitudinal direction of the cable extending, alternating sectors which assume different temperatures from one another when the cable is used, characterized in that the heating wire consists of alternating parts with a relatively high and parts with a relatively low resistance per unit length. 2. Electrical resistance heating cable according to claim 1, characterized in that the heating wire consists of a wire with relative high resistance per unit of length, which occurs at regular intervals is provided with sheaths extending in the longitudinal direction of the wire and having a relatively low resistance per unit length. 3. Electrical resistance heating cable according to claim 1, characterized in that the heating wire consists of a wire with a relatively high resistance per unit length, which is at regular intervals is provided with sheaths extending in the longitudinal direction of the wire and having a relatively low resistance per unit length, and further with a covering extending over the entire length of the wire is made of a material that is protected against oxidation at the highest temperature that the cable can reach during operation. 10 9 8 3 4/1170 Le e rs e ι te