DE4104038A1 - HOUSING FOR A PORTABLE COMMUNICATION DEVICE - Google Patents

Description

Background of the Invention

The invention relates to a housing for a portable communication cation device, such as. B. a portable phone.

Currently electronic, with electronic parts finally, devices equipped with microcomputers in large numbers manufactured to be used as different communication devices, for Find automobiles and the like. The number of microcomputers used for these devices has risen and the clock frequency of the microcomputers has become ever higher. In these years, portable communication devices are like portable ones Telephones and telephones mounted in automobiles (as "mobile Telephones ") developed in a remarkable way and have been widely used because of their smaller size.

Nevertheless, problems arise with the portable communication devices on. Since the portable communication devices are often outdoors or in transportation vehicles such as automobiles and airplanes can be set by electromagnetic wave noise  be affected. When this happens, one can be relieved communication through the portable communication devices no longer take place.

In particular, electronic parts of the portable communication cations devices, including portable phones, are defective malfunction or work incorrectly because of of electromagnetic wave noise coming from outside the Communication devices transmitted or in the electronic Share is generated in the portable communication devices are housed because the electronic parts with weak electrical currents are operated and controlled. The electro Magnetic wave noise travels along signal conductors or directly affects the electronic parts. Under the electronic parts becomes a magnetic record element more often by external electromagnetic, by a Magnet or the like generated fields impaired, and then the recorded information in this magnetic Recording element disappear. The reason for this is that the magnetic recording element from a magnetic Substance exists that is magnetized to a high density to achieve with a small amount of energy.

To this by electro to prevent magnetic wave noise-related problems have been known, made of metal with high conductivity, such as Iron, existing housing or housing made of plastic or art resin suggested the carbon or soot particles as conductive Contain filler. These housings can be electronic Electrically shield parts from the outside.  

However, it is more important to be sensitive to electromagnetic waves rush to problems caused by electronic parts solve that housed in a portable communication device are in the open air, in an automobile or on an airplane is used as for those housed in other devices are brought. In addition, the portable communication device lightweight and strong enough to be built in the usual way Way to be carried or promoted.

The housing for electromagnetic shielding, which is made of art material or synthetic resin, which contains carbon particles, is lightweight. The proportion of coal powder or soot however, it should be set so that the strength of the art resin base material is not deteriorated. Because the share of carbon black or carbon has an upper limit of one maintain the specified strength of the housing, the specific electrical resistance of the housing cannot to fall below a certain value. Therefore, such Housing not both with long life and strength, like also with low specific electrical resistance be equipped, making the housing unsuitable for housing a portable communication device.

On the other hand, an iron housing is for electro magnetic shielding both with less specific electrical resistance, as well as with high permeability ver see. The housing can be produced in electronic parts electromagnetic wave noise and low frequency magnet  shield the fields by a magnet or the like generated and thereby the failure or malfunction prevent the electronic parts. However, the housing can not be lightweight because of a thin layer of iron is not strong enough to self as a case for a portable Communication device to be used.

As described above, a case is for a portable one Communication device under electromagnetic wave noise because the housing is often outdoors, in an automobile, an airplane or the like is used where a source for electromagnetic wave noise. Therefore electronic parts containing the housing versus electro effectively shield magnetic wave noise. At the same time the case should be durable enough to be outdoors, in one Automobile or the like to be used. Farther the case should be lightweight to be carried easily or to be able to be transported.

The object of the invention therefore consists of a housing for a portable communication tion device to create the effective against electromagnetic Can shield wave noise, permanently, firmly and is lightweight.

Other objects and advantages of the invention will appear from the following detailed description in connection with the attached drawings clearly.  

Summary of the invention

The above object is achieved by a housing for a portable communication device to accommodate this portable or mobile communication device, the housing made of plastic or synthetic resin, which is a carbon fiber contains that from ultra-fine particles of a high-melting Metal and / or a compound of the high-melting metal is developed, and in a vapor phase system for ther mixing decay of hydrocarbon is formed.

The housing for a portable communication device according to the Invention consists of plastic or synthetic resin, which by a special carbon fiber is reinforced, e.g. B. polyester resin, vinyl resin and polyamide resin.

In contrast to a polyacrylonitrile carbon fiber and one Pitch carbon fiber, is the carbon fiber used in the present invention hair-shaped, and their microdiameter corresponds essentially that of ultra-fine particles of a melt-up the metal and / or a compound of the high-melting Metal. The carbon fiber is solid with the base material Resin bonded and evenly distributed in the resin, see above that the carbon fibers intertwined, crossed, matted and ver are knitted and in contact with each other. Therefore, that can Housing made of synthetic resin containing carbon fiber effectively the penetration of electromagnetic wave noise prevent in the housing from any direction.  

The carbon fiber used according to the invention also settles composed of layers composed of regular graphite crystals exist, and has the least specific electrical Resistance to, i.e. H. the highest electrical conductivity among all types of carbon fibers. The carbon fiber has over excellent mechanical properties, such as high tensile strength, which is common to all types of carbon fibers. Accordingly provides the evenly distributed and in the base material Resin-held carbon fiber makes the case highly conductive speed and outstanding mechanical strength. The one Conductivity equipped housings reflect or absorb the electromagnetic noise from the outside and shields the inside the housing electromagnetically from the outside.

The degree of conductivity or specific electrical Resistance is determined by the proportion of the base material holding carbon fiber. The more carbon fiber in the base material is contained, the more often the individual carbon fibers occur in contact with each other. If a large amount of carbon fiber is included so that all carbon fibers are in contact with each other the specific electrical resistance increases of the casing is substantially the same as that of the coal fiber.

The proportion of carbon fiber in the synthetic resin should be reduced of the specific electrical resistance of the housing 20 vol% of the synthetic resin, preferably 30-50 vol%.  

The high-melting metal should be a dip treatment 950 ° C to 1300 ° C, a temperature range in where the hydrocarbon decays thermally. Can be used as refractory metal is titanium (Ti), zircon (Zr) or the like Substances in group IVa of the periodic table, vanadium (V), niobium (Nb) or the like in group Va, chromium (Cr), molybdenum (Mo) or the like in Group VIa, manganese (Mn) or the like in Group VIIa, or iron (Fe), cobalt (Co) or the like in Group VII. The metals Fe, Co, Ni, V, Nb, Ta, Ti and Zr are suitable best. The oxides, nitrites, chlorides or the like Compounds of the high-melting metals are called high-melting de metal compounds used.

Brief description of the drawing

Fig. 1 shows a portable phone as Ausführungsbei game of the present invention.

Detailed description of the preferred embodiment

An embodiment of the present invention is in following explained in detail with reference to the drawing.

Fig. 1 shows a portable phone 1 as an embodiment of the present invention. The portable telephone 1 has a housing 5 which contains a receiver 2 and a transmitter 3 . Between the receiver 2 and the transmitter 3 , several push buttons 4 are arranged. A metal layer 8 is formed on the inside of the housing 5 , so that the portable telephone cannot be influenced by low-frequency magnetic fields generated by magnets or the like. Furthermore, the portable telephone 1 in the housing 5 has various electronic parts 6 , a battery 7 and the like.

The housing 5 is made of ABS resin, nylon including 66 nylon or other similar material. A mixture of 65% by volume ABS resin and 35% by volume carbon fiber is preferred.

The housing 5 is manufactured as follows: Using a vapor phase system for the thermal decomposition of benzene in an oven at 950 ° C to 1300 ° C, carbon fiber with a diameter of 0.1 µm to 0.5 µm and a length of 0.1 mm to 1 mm Developed iron powder that has a diameter of 0.02 µm to 0.03 µm. The housing is then molded to a thickness of 2 mm from ABS resin containing the above carbon fiber by injection molding or vacuum molding.

The existing of nickel (Ni) or iron (Fe) metal layer 8 with a thickness of 0.02 mm is attached to the inner surface of the housing 5 by vacuum evaporation, electrolytic plating, electroless plating, coating or the like.

The portable phone 1 with the above-described case 5 in which the electronic parts 6 are housed has the following characteristics and effects.

The portable phone 1 is provided with a higher conductivity than that of a known portable phone due to the carbon fiber. Electromagnetic wave noise is effectively reduced even when the portable phone 1 is used outdoors where it is subjected to electromagnetic wave noise, or in an automobile, an airplane, or the like where it is used near a source of electromagnetic wave noise .

Since the portable telephone 1 is solidly constructed despite its light weight, it can be carried comfortably and it is hardly possible to break in use, even outdoors.

Furthermore, the molded on the inner surface of the housing 5 of the portable phone 1 , made of nickel or the like be existing metal layer 8 can effect an effective shield against low-frequency magnetic waves generated by a magnet or the like. The electronic parts 6 accommodated in the housing 5 are therefore protected against breakage and malfunction.

The ABS resin containing the carbon fiber can be easily molded into any shape because the carbon fiber is a short fiber, the length of which is approximately a hundred times its diameter. Therefore, although the housing 5 of the portable phone 1 has a complicated shape, it can be manufactured in a desired thickness and shape and with uniform local strength by injection molding or the like. Although an embodiment of the present invention has been explained, the invention is not limited to the illustrated and described embodiment, but in its broadest aspects encompasses all equivalent embodiments and modifications which are within the scope and spirit of the disclosure and the appended claims.

For example, the invention can be applied to housings for other portable communication devices, including a mobile telephone, and for the portable telephone 1 . Furthermore, the carbon fiber can be contained in various types of synthetic resin in addition to the ABS resin and nylon.

Claims (19)

1. Material for building a housing for a portable, solid and lightweight communication device to protect it against magnetic and electromagnetic interference, characterized by a synthetic resin material containing carbon fibers developed from ultrafine particles. 2. Material according to claim 1, characterized in that the carbon fibers from ultra-fine particles of a high-melting Metal and / or a compound of a high-melting metal are developed. 3. Material according to claim 2, characterized in that a vapor phase system for the thermal decomposition of hydrocarbons material for the development of carbon fibers is provided.   4. Material according to any one of the preceding claims, characterized characterized in that the proportion of carbon fibers in the synthetic resin is more than 20 vol%. 5. Material according to claim 4, characterized in that the proportion of carbon fibers in synthetic resin between 30 and 50 vol% is. 6. Material according to one of claims 2 to 5, characterized by selecting the refractory metal from a group, consisting of titanium (Ti), zircon (Zr) in group IVa of the period systems, vanadium (V), niobium (Nb) in group Va, chromium (Cr), Molybdenum (Mo) in Group VIa, Manganese (Mn) in Group VIIa and Iron (Fe), Cobalt (Co) in Group VIII. 7. Material according to claim 6, characterized by the selection of the melting metal from a group consisting of Fe, Co, Ni, V, Nb, Ta, Ti and Zr. 8. Material according to claim 6 or 7, characterized in that the compound is selected from a group consisting from oxides, nitrites and chlorides. 9. Material according to any one of the preceding claims, characterized characterized in that the synthetic resin is selected from a group is made of ABS resin and nylon, including 66 nylon. 10. Material according to any one of the preceding claims, characterized  characterized in that the carbon fibers have a diameter between 0.1 µm to 0.5 µm and a length of 0.1 mm to 1 mm. 11. Housing for a portable, solid and lightweight communication device to protect it against magnetic and electromagnetic interference, characterized by a hollow shell ( 5 ) made of synthetic resin, which contains carbon fibers developed from ultrafine particles, this hollow shell being designed to accommodate the communication device and the synthetic resin contains more than 20 vol% carbon fibers. 12. Housing according to claim 11, characterized in that the carbon fibers from ultra-fine particles of a high-melting Metal and / or a compound of a high-melting metal are developed. 13. Housing according to claim 12, characterized in that a vapor phase system for the thermal decomposition of hydrocarbons material for the development of carbon fiber is provided. 14. Housing according to one of claims 11 to 13, characterized characterized in that the proportion of carbon fibers in the synthetic resin is between 30 and 50 vol%. 15. Housing according to one of claims 12 to 14, characterized by selecting the melting metal from a group consisting of titanium (Ti), zircon (Zr) in group IVa of the period systems, vanadium (V), niobium (Nb) in group Va, chromium (Cr),  Molybdenum (Mo) in Group VIa Manganese (Mn) in Group VIIa and Iron (Fe), Cobalt (Co) in Group VIII. 16. Housing according to claim 15, characterized in that the connection of the melting metal from a group is selected, consisting of oxides, nitrites and chlorides. 17. Housing according to one of claims 11 to 16, characterized characterized in that the carbon fibers have a diameter between 0.1 µm and 0.5 µm and a length between 0.1 mm and 1 mm point. 18. Housing according to one of claims 11 to 17, characterized by a on the inner surface of the housing ( 5 ) attached as a layer shielding covering ( 8 ) made of metal. 19. Housing according to claim 18, characterized in that the shielding cladding ( 8 ) made of metal has an approximate thickness of 0.02 mm, and that the metal is selected from a group consisting of nickel (Ni) and iron (Fe).