TH53941B - The coated body with excellent heat radiation properties is applied to the parts. Assembly of electronic equipment - Google Patents

Abstract

DC60 (05/06/55) Content disclosed here is a coating housing for use with various electronic components consisting of a substrate coated with a heat radiation coating containing Thermal radiation properties on the front and back side, where the Delta T1 difference (= T1B - T1A) between the T1A temperature at the T1 position of the enameled casing as an example and the T1B temperature at the location. T1 of a substrate without a coating on it, which is used as Another sample was 2.6 degrees Celsius or more where the temperature was measured using a set. Evaluate the thermal radiation properties as shown in Figure 1 and where there will be Conforms to its basic properties (for example, to maintain airtight conditions to cover Protect the device from water and dust ingress and reduce its size and weight) while keeping Electronic devices have a lower internal temperature. (Heat Radiation Properties) Content disclosed here is a coating housing for use with various electronic components consisting of a substrate coated with a thermal radiation coating containing Thermal radiation properties on the front and back surfaces, where the difference (formula) T1 (= T1B - T1A) between the T1A temperature at the T1 position of the enamel frame, which is used as a sample set, and the T1B temperature at the location. T1 of a substrate without a coating on it, which is used as Another sample was 2.6 ° C or more where the temperature was measured using a kit. Evaluate the thermal radiation properties as shown in Figure 1 and where there will be Conforms to its basic properties (for example, to maintain airtight conditions to cover Protect the device from water and dust ingress and reduce its size and weight) while keeping Electronic devices have a lower internal temperature. (Has the properties of radiating heat)

Claims (3)

1. Coated bodies for members of electronic devices (except for coated bodies for microwave oven parts) which consist of substrate materials covered on the surface. Its front and rear are with sequential thermal radiation coating, with a thickness of 2 micrometers or more. Which each side has Thermal radiation additives at least on one side of the skin The thermal radiant coatings, in the order described above, consist of a conductive filler, with integrated emissivities at the infrared wavelength (4.5 to 15.4). Micrometers) when the enamel frame is heated to 100 ° C, the following equation (1) follows: ax b > _0.42 ... (1) where, a: is the total amount of infrared radiation emitted by the infrared ray. Red from the front surface of The substrate is covered on one side of the heat-radiation coating in the order mentioned above, and b: is the total infrared emission emission from the back of the substrate being radiated. Covered with the other side of the radiant coating in the order described above. 2. The coating body of claim 1 where: at least one side of the radiant coating in the order described above has At least carbon black is an additive that produces radiant black paint; And at the same time follow equation (2) as follows: (X-3) x (Y - 0.5)> _15 ... (2) where X is the amount (percentage by mass) of the additive. Gives black color In radiant coating, and Y is the thickness (μm) of the coating 1. < _X < 15 ... (3), where X is the amount (percentage by mass) of the coloring additive. Black, contained in Thermal-radiant coating 4. Glaze body of claim 2 or 3, whereby thermal radiant additive The black paint has an average particle size of 5 to 100 nm. 5. The coating body of claim 1, where at least one side of the radiated coating is black. The heat, respectively, mentioned above, contains titanium oxide, 50 to 70 percent heat radiation additive, and 25 to 30 micrometers thick. Any one of claims 1 to 5, which gives a > _ 0.65 and / or b > _0.65, where: a: is the total amount of infrared radiation emitted from the front surface of material The substrate is covered on one side of the thermal-radiation coating in the order mentioned above, and b: is the total infrared emission emission from the back of the substrate being radiated. Covered with the other side of the radiant coating in the order described above. 7. The coating frame of any of the claims 1 to 6, where the difference (AB) between the highest A with a minimum B of spectral emissions in the wavelength 4.5 to 15.4 μm equal to 0.35 or less. 8. The coating body of any of the claims 1 to 7, whereby the resin used Forming the heat radiation coating mentioned above A hydrophobic resin 9. Coating body of claim 8 where the hydrophobic resin mentioned above is polyester resin 1 0. Coating body Of any of Claims 1 through 9, where the filler has The conductive properties mentioned above are Ni 1. 1. The coating body of one of the claims 1 to 10 has been modified. Better in terms of scratch resistance, fingerprint resistance By covering the surface with radiation The heat described above with a translucent glaze coating 1 2. The coating body of any of the claims 1 through 11, whereby the substrate material is a tree-treated metal plate. Fixtures for chrome-free surfaces and beyond Thermal radiant coatings also contain a corrosion inhibitor 1 3. The coating of any of Claims 1 through 12, which can be Applied as a frame for parts of electronic equipment 1 4. Coating elements for parts of electronic devices that are used. For any of the clauses of Claims 1 through 13, which includes: Components for forming the coating and its base Additive providing 3 percent blackness by Mass or more And filler with 10 to 50 percent conductivity by mass 1 5. Composition of claim 14 where the black dosing additive mentioned above has an average particle size of 5 to 100 nm 1. 6. Elements of Claim 14 or 15, where the Black Giving Additive mentioned above is Carbox Black 1. 7. Any Clause Element of Claim that is 14 to 16 where the filler The electrical conductivity mentioned above is Ni 1. 8. Coating element for parts of electronic equipment used for body. The enamel frame of claim 12, which consists of 35 percent of the coating and base forming components by mass or greater of epoxy modulating polyester resins. And / or polyester terrace containing phenolic derivatives, 2 to 25 percent corrosion inhibitors by mass, crosslinks 1 to 20 percent by mass, additives giving a more black color. 3% by mass and 10 to 50% conductive filler by mass 1 9. Composition of claim 12 where crosslinking is composed of a group of resins. Melamine in a ratio of 5 to 80 parts to isocyanate resins 100 parts 2 0. Composition of claim 18 or 19, where the blacking additives mentioned above. That has an average particle size of 5 to 100 nanoscale 2 1. Any of the elements of Claims 18 to 20, where the additive The modified black finish mentioned above is Carbon Black 2. 2. Any of the elements of Claims 18 through 21 where the filler The conductive properties mentioned above are Ni 2. 3. Parts for electronics There is a heating element in its closed free space consisting of part or all of the outer wall of the enameled housing for parts. Of electronic equipment (Except for the enameled housing for the parts of the microwave oven) as claimed. Is included in any of Claims 1 through 13 that qualify for heat dissipation. And excellent heat conductivity, which is characterized by It is a coated frame on the front and back of the The substrate is covered with a heat-dispersing coating that contains additives. Exothermic, with a thickness of 2 mu m and at least one side of the thermal freckle coating. These contain filler components with conductive properties and Total radiated amount of infrared rays (Wavelength 4.5 to 15.4 mu m) when heated to 100 ° C of the coating frame. According to equation (1), a x b> = 0.42, where a is the total infrared radiation radiation of the covered coating body. Front heat dissipation coating b is the total infrared radiation radiation of the coated casing to be covered with the surface. Heat dissipation coating on the back