DE3707505A1 - PTC component - Google Patents

Abstract

A PTC component having at least two electrode plates and a PTC composition which is arranged in between them and is electrically connected to the electrode plates is characterised by the special feature that the PTC composition contains an adhesive for the electrodes. The PTC component is therefore protected against the electrodes peeling off (becoming delaminated from) the PTC composition. The component is distinguished by high reliability and can be produced cheaply.

Description

The invention relates to an electrical resistance component, in particular a resistance component with the special property that with increasing Temperature of the electrical resistance of the component steep within a relatively narrow temperature range increases. Such a component is also called a PTC component or PTC thermistor. The component has one typical PTC characteristic (PTC = positive temperature coefficient).

Fabrics with a PTC characteristic can be used in many different ways Devices and use for various purposes: in a control unit in which the heat generation ends when a heater is high temperature reached; in a PTC thermistor; in a heat sensitive Sensor; and in a protection device, in the if in a circuit z. B. due to a short circuit an excessively strong current flows that is strong increasing current self-heating with development causes joule heat, which increases the resistance and the current at or below a predetermined value is restricted. If with such a device Short circuit is eliminated, the circuit takes itself resume operations. As fabrics with a PTC characteristic different materials have been developed, e.g. B. a ceramic with BaTiO₃, in the monovalent or trivalent metal oxide is introduced, as well as a polymer material with a polymer such as B. polyethylene, in which an electrically conductive material, e.g. B. carbon black dispersed is.  

As shown in FIG. 1, a PTC component generally comprises a material 2 having PTC properties, consisting of a polymer with an electrically conductive material (ie a PTC composition) dispersed therein, metallic electrode plates 3 a and 3 b , between which the PTC composition is sandwiched, and circuit boards 4 a and 4 b , which are connected to the electrode plates 3 a and 3 b . Each electrode plate is connected to another component, a machine, a mains connection or the like via the associated printed circuit board.

The PTC component is obtained by first produces a PTC composition, this PTC composition forms into a layer, forms a laminate, by looking at the top and bottom surfaces of the Layer by hot pressing metallic foil electrodes applies, cuts the laminate to the desired size and on the surface of each of the electrodes attaches a circuit board by soldering, welding or the like.

The electrical connection of the PTC composition with the Electrode plates are made by hot pressing the PTC composition and the electrode plates at one Temperature near the melting point of the PTC composition. The PTC component obtained in this way is small Binding force between the PTC composition and the Metal electrodes. If the component is in a circuit used, have the PTC composition and the Metal electrodes tend to become exposed to external forces peel off from each other or over the course of  Time to change. That is why the reliability of the such components equipped circuit low.

Various attempts have been made to achieve this between the PTC composition and the Improve metal electrodes. For example, in Japanese laid-open publication 98 801/1980, by increasing the binding force can cover a PTC component with a sleeve. However, with such a covering of the component increases the number of manufacturing steps, the heat radiation ability decreases and the period that the Component needed to restore its original state taking is long. The Japanese patent application publication 60 615/1982 describes the measure, an anchoring effect by reaching out to the Contact sections between the PTC composition and a metallic mesh is provided for the electrodes. Indeed additional costs will be required to cover the Manufacture electrodes and the metallic network. Furthermore is the binding force between the PTC composition and the metal electrodes are still insufficient.

The invention has for its object a circuit element to create which has a low room temperature resistance has and a high binding power between a PTC composition and metallic Has electrodes.

The object is achieved by that specified in claim 1 Measure solved. Advantageous developments of the invention are specified in the subclaims.  

It is achieved by the invention that the PTC component has a high reliability, in which the Do not remove metal electrodes from the PTC composition (peeling). The PTC component can be relative Manufacture cheaply without incurring high costs Treatment steps, such as B. the coating of the component with a sleeve or a special electrode processing, required are.

The PTC component according to the invention is characterized by a very simple structure. The component is especially cheap to manufacture in mass production. The Heat radiation is due to the simple structure of the component extremely quickly.

Characteristic of a PTC component according to the invention is the fact that the PTC composition is an adhesive for the electrodes. In a preferred one In one embodiment, the PTC composition comprises a polymer with electrically conductive particles dispersed therein and an adhesive for the electrodes. With the polymer it can in particular be a crystalline polymer.

With the adhesive contained in the PTC composition it is in particular a modified polymer, which is obtained by modifying the above Polymers treated with a modifier, e.g. B. be Polymers used in by graft polymerization a polar group is inserted.

The following are exemplary embodiments of the invention explained in more detail with reference to the drawing.  

It shows:

Fig. 1 is a perspective view of a PTC device,

Fig. 2 is a PTC characteristic and

FIGS. 3 and 4 are graphs which illustrate the results of binding experiments force.

A PTC component according to the invention comprises at least two Electrodes, a PTC composition located between the electrodes as well as conductors attached to the electrodes are. Examples of such PTC compositions are BaTiO₃ with a monovalent or trivalent metal oxide and a mixture of a polymer and electrically conductive particles.

Examples of polymers used in the invention are: polyethylene, polyethylene oxide, Polybutadiene, polyethylene acrylates, ethylene-acrylic acid ethyl ester Copolymers, ethylene-acrylic acid copolymers, polyesters, Polyamides, polyethers, polycaprolactam, fluorinated ethylene Propylene copolymers, chlorinated polyethylene, sulfochlorinated Polyethylene, ethyl vinyl acetate copolymers, polypropylene, Polystyrene, styrene-acrylonitrile copolymers, Polyvinyl chloride, polycarbonates, polyacetals, polyalkylene oxides, Polyphenylene oxide, polysulfones, fluoroplastics and Copolymers of at least two of the above Polymers. In the context of the invention, the type of polymer and the compositional relationships depend on the desired functionality, the application u. the like can be varied.  

Examples of usable within the scope of the invention electrically conductive particles dispersed in the polymer are particles of electrically conductive Substances such as carbon black, graphite, tin, silver, gold and Copper.

In addition to the polymer and the electrically conductive Particle becomes an adhesive for connection with the particles Electrodes introduced into the PTC composition. The are adhesives used in the invention those that have the PTC properties during kneading with the polymer and do not affect the binding power between the PTC composition and the Increase electrodes. Examples of such adhesives are polymers of a monomer such as vinyl acetate, acrylate, Vinyl chloride, styrene or ethylene, and also their copolymers, Polyamides, polyesters, phenolic resins, epoxy resins, Urethane resins, natural rubber, nitrile rubber, chloroprene rubber and silicone rubber. Within the scope of the present invention preferred adhesives are those that can be Modify those used in the PTC composition Receives polymers. Examples of such adhesives are the ones that you insert into a polar group the polymer by means of graft polymerization or block polymerization receives. Examples of polar groups, that can be used in the modification include Hydroxyl, halogen, carboxyl, amide, alkyloxy, Aldehyde, acetal, sulfone and sulfo groups and their ionized functional groups. If e.g. B. as a polymer high density polyethylene (HDPE) is used modified HDPE obtained by modifying the HDPE with maleic anhydride, as an adhesive according to the invention use.  

When making the PTC composition, additional to the polymer, the electrically conductive Particles and the adhesive described above optional various additives can be used. Such Additives include fire retardants, such as. B. containing antimony Compounds, phosphorus-containing compounds, chlorinated compounds and brominated compounds, Antioxidants and stabilizers.

The PTC composition according to the invention is thereby manufactured that the raw materials, d. H. the polymer, the electrically conductive particles and the adhesive and possibly other additives in predetermined ratios mixes and kneads. This kneading can be done by looking at the components of the PTC composition for a certain period of time on a predetermined one Temperature and kneading with the help of a kneading machine, a double roller mill and / or one Banbury mixer performs.

The PTC component according to the invention comprises those detailed above described PTC composition and at least two Electrodes in contact with the composition. Fabrics for the electrodes used in the invention can be used are metals as they are for conventional Electrodes are common, e.g. B. electrode materials such as nickel, cobalt, aluminum, chrome, tin, copper, silver, Iron (including iron alloys such as stainless steel), Zinc, gold, lead and platinum. Shape and size of the electrodes can be varied as desired, depending on the purpose of the PTC component and other parameters. According to the invention can the surface of the metallic electrode are treated by electrodeposition or the like, around a rough surface with a number of fine protrusions  to create on the surface. Such projections will be provided on at least one surface of the electrode, namely on the one in contact with the PTC composition is coming.

The following is an embodiment for the manufacture of a PTC component described in more detail. The resulting PTC composition is e.g. B. to one Film processed, and on the top and bottom of the film is used to form a laminate by hot pressing one metallic electrode each at room temperature upset. Alternatively, you can connect of the electrodes and the PTC composition that the PTC composition using a Hot rolling press laminated to the electrodes. Furthermore it is possible to use coating afterwards a hot melt coater to laminate. A PTC device can be made by the laminate cut to size and on the surfaces of the Electrodes by spot welding or a similar conductor attaches.

A synthetic resin layer can optionally be used within the scope of the invention form on the surface of the PTC component. Examples of suitable resins for the Layer are epoxy resins, phenolic resins, polyethylene, polypropylene, Polystyrene, polyvinyl chloride, polyvinyl acetate, Polyvinyl alcohol, acrylic resins, fluoroplastics, polyamide resins, Polycarbonate resins, polyacetal resins, polyalkylene oxides, saturated polyester resins, polyphenylene oxide, polysulfones, Poly-paraxylene, polyimide, polyamide imide, polyester imide, Polybenzimidazole, polyphenylene sulfides, silicone resins, Urea-formaldehyde synthetic resins, melamine resins, furan resins, Alkyd resins, unsaturated polyester resins, diallyl phthalate resins,  Polyurethane resins, mixed polymers made from these substances as well as modified resins, the said resins being modified are caused by the reaction of the resin with a chemical reactants, by means of crosslinking Radiation, by copolymerization or the like. Of the Resins mentioned are preferred epoxy resins and phenolic resins Fabrics. Various additives such as plasticizers, Hardeners, crosslinking agents, antioxidants, fillers, Antistatic agents and fire retardants can be introduced into the resins. The within the scope of the invention Resins used have at least electrical Isolation ability and have liability regarding the surface of the PTC component. With regard to the Resin coating processes are not restrictions given, the coating can be done by spraying, applying, Diving or the like. After coating with the Resin can e.g. B. by chemical treatment, by Heating or curing the resin by radiation will. The curing process can be dependent on Tpy of the resin vary.

Examples

The following are specific examples of the invention explained in more detail. The examples are not restrictive Character. All percentages are unless otherwise stated, as percentages by weight to understand.  

Example 1

It was a PTC composition with the following components produced:

Component%

Polymer:
high density polyethylene
(Trade name Niporan Hard
5100 from Tokyo Soda Co.) 20 Electrically conductive particles:
Carbon black (trade name VULCAN XC-72
from Cabot Co.) 40 adhesive:
with maleic anhydride
modified HDPE
(Trade name Adomer of the company
Mitsui Sekiyu Kagaku Co.) 38 additive:
Antioxidant (Irganox 1010) 2

The components of the PTC composition were in a Kneading machine given and initially for five minutes kneaded at a temperature of 150 ° C. Then the composition removed from the kneading machine and with the help a double screw mill for about four minutes kneaded at a temperature of 180 ° C. The kneaded Fabric then became a sheet of predetermined dimensions processed. On top and bottom of the product thus obtained became nickel foil electrodes applied with a thickness of 60 microns and at a temperature of 170 ° C under a pressure of 250 kg / cm² hot pressed using a press to make a laminate produce.

The resulting laminate, i.e. H. the PTC device was tested for its binding power (tensile test at 90 °).  The PTC component had a binding force of 60 to 100 g / cm and showed a good bond between the Electrodes and the PTC composition.

The PTC characteristics of the PTC component according to this example are shown in FIG. 2. From Fig. 2 it can be seen that the PTC component according to this example has good PTC characteristics. Curve "a" shows the characteristic curve of the PTC component according to Example 1. Curve "b" corresponds to the characteristic curve of a component which was produced in accordance with Example 1, with the exception that the PTC composition contained no adhesive.

Example 2 (test)

Comparative tests were carried out with regard to the binding force, namely between on the one hand HDPE, an ethylene-vinyl acetate copolymer (EVA) or an adhesive (adomer) according to Example 1 and on the other hand a nickel foil. The results are shown in FIG. 3.

To get the results, the fabrics were ten Minutes at a temperature of 170 ° C below one Pressure of 250 kg / cm² pressed to be subjected to a 90 ° tensile test to become.

The 90 ° tensile test was carried out in the manner described above, except that 40% carbon black was dispersed in each polymer. The result is shown in Fig. 4. As a comparison of FIGS. 3 and 4 shows, the addition of the adhesive improves the adhesion between the PTC composition and the electrodes.

Example 2

A PTC component was produced as in Example 1, with the exception that the PTC composition corresponded to the composition given below and the compression pressure was 20 kg / cm². The resulting PTC device showed one good binding force between the electrodes and the PTC composition.

Component%

Polymer:
EVA (trade name Ultrasen
540 from Tkyo Soda Co.) 34 Electrically conductive particles:
Carbon black (trade name VULCAN XC-72
from Cabot Co.) 40 adhesive:
by maleic anhydride
modified HDPE
(Trade name Adomer
from Mitsui Sekiyu Kagaku Co.) 25 additive:
Antioxidant (Irganox 1010) 1

Claims (5)

1. PTC component with at least two electrode plates and an intermediate PTC composition which is electrically connected to the electrodes, characterized in that the PTC composition contains an adhesive for the electrodes. 2. PTC component according to claim 1, characterized in that the PTC composition a polymer dispersed in it electrically conductive particles and the adhesive for contains the connection with the electrodes. 3. PTC component according to claim 2, characterized in that the polymer is a crystalline polymer in the PTC composition. 4. PTC component according to claim 2, characterized in that the in the Obtain the adhesive contained in the PTC composition is that the polymer is modified. 5. PTC component according to claim 4, characterized in that the in the Obtain the adhesive contained in the PTC composition is that by graft polymerization in the polymer introduces a polar group.