JP2017092214A - Method of manufacturing metal enclosure - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a method of manufacturing a metal enclosure capable of providing a recess in place on the surface thereof without trouble, and thereby capable of forming a heat radiation film having a desired thickness distribution efficiently on the surface of the metal enclosure.SOLUTION: A method of manufacturing a metal enclosure consists of a first step for casting an enclosure 1 by injecting molten metal Y into a mold M where an extrusion pin P is fitted in a pin hole M1a, a second step of releasing the enclosure 1A while forming a recess 1Aa at a part of an extruded surface being pressed by the extrusion pin P, by pushing the extruded surface, i.e., the side face of the enclosure 1A where a heat radiation film 2 is formed and facing the inner surface of the mold M, and a third step for forming the heat radiation film 2 on the extruded surface of the mold released enclosure 1A, and in the heat radiation film 2 thus formed, the thickness t2 of a part (heat radiation film 2a) corresponding to the recess 1Aa is thicker than the thickness t1 of other part.SELECTED DRAWING: Figure 3

Description

  The present invention relates to a method for manufacturing a metal housing having a heat dissipation film on its surface.

  Since recent electric circuit bodies have been miniaturized and the heat generation density has increased with this miniaturization, the heat dissipation performance has become extremely important.

  The configuration of the electric circuit body will be described in more detail. An electric circuit (electronic component) is disposed on the surface of the substrate, and a casing is disposed so as to surround the substrate and the electric circuit on the surface. The electric circuit becomes a heat generating component. Note that the casing is in contact with an electric circuit, which is a heat-generating component, so that heat transfer from the electric circuit is radiated through the casing, and thus the casing is a heat sink.

  In the case of an electric circuit body having a large calorific value, the casing disposed around the electric circuit body is often manufactured by aluminum die casting.

  Although the metal represented by such an aluminum die casting has high thermal conductivity, the thermal conductivity from such a metal casing to the surrounding air generally tends to be low.

  Therefore, a resin heat-dissipating film having a higher thermal conductivity to air than metal is placed on the surface of the metal housing (facing the outside of the housing opposite to the surface in contact with the electric circuit). The heat radiation performance of the electric circuit body is improved by forming it on the surface). By improving the heat dissipation performance of the electric circuit body, it is possible to increase the heat generation density of the electric circuit body. By increasing the heat generation density, it is possible to reduce the size of the electric circuit body while maintaining the same performance. Become.

  Here, Patent Document 1 discloses a pre-coated aluminum plate made of an aluminum plate and a resin film. In this precoated aluminum sheet, the resin-based film has a film thickness in the range of 5 to 15 μm and a uniform film thickness over the entire region.

Japanese Patent Application Laid-Open No. 2014-209459

  According to the pre-coated aluminum plate material disclosed in Patent Document 1, since the resin-based film is formed on the surface of the aluminum plate material, the heat dissipation to the air around the resin-based film is ensured as described above.

  By the way, since the part in contact with the electric circuit which is a heat-generating part in the case is more likely to generate heat than the other part, the surface on the opposite side of the part in contact with the electric circuit in the case (the case) The demand for heat dissipation performance from the outer peripheral surface of the body is relatively high.

  For example, the heat dissipation performance is relatively high by increasing the thickness of the heat dissipation film formed on the surface on the opposite side of the part that is in contact with the electrical circuit of the housing compared to the thickness of the heat dissipation film at other positions. It becomes possible to do.

  Therefore, by forming a heat dissipation film on the surface of the housing after processing a recess in the surface of the housing where the heat dissipation film is to be thickened, the thickness of the heat dissipation film at the desired location is compared to other locations. Can be made thicker.

  However, it is extremely difficult to process a minute recess at an appropriate position on the surface of a metal casing by cutting or the like, which takes time and effort, and the casing manufacturing efficiency is inevitably lowered.

  This problem is not solved by the precoated aluminum sheet disclosed in Patent Document 1.

  The present invention has been made in view of the above-described problems, and can be provided with a depression at an appropriate position on the surface of a metal casing without taking time and thus has a desired film thickness distribution. It is an object of the present invention to provide a method for manufacturing a metal casing capable of efficiently forming the heat dissipation film on the surface of the metal casing.

  In order to achieve the above object, a method for manufacturing a metal casing according to the present invention is a method for manufacturing a metal casing having a heat dissipating film having a distribution of film thickness on the surface, and the extrusion pin is a pin hole. A first step of casting a casing by injecting a molten metal into a molding die fitted into the casing; a side surface of the casing on which the heat dissipation film is formed and facing the inner surface of the molding mold A second step of releasing the casing from the mold while forming a recess at a position pressed by the extrusion pin on the extrusion surface by extruding a certain extrusion surface with the extrusion pin; The heat dissipation film is formed on the surface to be extruded of the casing, and the formed heat dissipation film has a third portion in which the thickness corresponding to the recess is thicker than the other locations. , Is made up of.

  According to the method of manufacturing a metal casing according to the present invention, a pin hole is provided at an appropriate position of a molding die for casting the casing, an extrusion pin is provided in the pin hole, and the cast casing is released from the molding die. When extruding the surface (extruded surface) of the housing with the extrusion pin, the dent is formed at an appropriate position on the surface (extruded surface) of the housing by the pressing force of the extruding pin. .

  After forming a dent at a suitable location on the surface of the housing in this simple manner, a heat radiating film is formed on the surface of the housing, so that the heat radiating film at the location corresponding to the dent is relative to the other locations. Accordingly, the metal casing having a heat dissipation film having a desired thickness distribution can be manufactured.

  The positions of the push pin and the pin hole in the molding die are set so that the push pin comes into contact with the extruded surface of the case corresponding to the place where the case comes into contact with the electric circuit.

  Further, the timing at which the hardness of the casing cast in the first step does not become too hard so that a recess is formed on the surface of the casing when the casing is released from the mold in the second step. It is preferable to move to the second step.

  Further, it is preferable that the thickness of the casing is made uniform so as to make it easy to form a dent at an appropriate position on the surface of the casing. In addition, when extruding a housing with an extrusion pin, it is a general concept to increase the thickness of the extruded part compared to other parts so that the extruded part is not distorted or dented by the pressing force during extrusion. However, in the present invention, since it is desired to positively form a dent in the portion pressed by the extrusion pin, the thickness of the casing is made uniform.

  Further, in the casing to be cast, the thickness of the portion to be pushed out by the push pin in the second step and the peripheral portion thereof may be formed thinner than other portions in advance.

  Also, in the form where ribs etc. are present on the inner surface of the housing, if the place to be pushed out by the push pin is a place corresponding to the rib, remove only the rib at the corresponding place, It is easy to form a dent when extruded.

  In addition, the extrusion pin can be applied in a form in which the extrusion tip has a flat shape with a square or circular plane shape, and the extrusion tip has a curved shape (for example, a hemisphere).

  From the viewpoint of heat dissipation performance, the thickness of the thick heat dissipation film corresponding to the dent is preferably 100 μm or more.

  As can be understood from the above description, according to the method for manufacturing a metal casing of the present invention, a pin hole is provided at an appropriate position of a molding die for casting the casing, and an extrusion pin is provided in the pin hole. When extruding the extruded surface of the housing with the push pin when releasing the formed housing from the mold, by forming a dent at an appropriate position on the extruded surface of the housing with the pressing force of the push pin, The thickness of the heat dissipation film at the location corresponding to the dent can be made relatively thick compared to other locations, and a metal housing having a heat dissipation film with a desired film thickness distribution can be easily manufactured. Can do.

It is the schematic diagram which showed the electronic circuit body which comprises the housing | casing manufactured with the manufacturing method of the metal housing | casing of this invention. It is the schematic diagram explaining the 1st step of the manufacturing method of metal housings. It is the schematic diagram explaining the 2nd step of the manufacturing method of metal housings. It is the schematic diagram which showed the separated housing | casing. It is the schematic diagram explaining the 3rd step of the manufacturing method of metal housings.

  Hereinafter, an embodiment of a method for manufacturing a metal casing of the present invention will be described with reference to the drawings. In the illustrated example, the pressing surface of the extrusion pin is wide, but it goes without saying that, for example, an extrusion pin having a uniform cross section may be applied depending on the size of the electronic circuit. In addition, the molding die in the illustrated example has a form in which the push pin is fitted into the movable mold, but it is needless to say that the form in which the push pin is fitted into the fixed mold may be used.

(Embodiment of metal casing)
FIG. 1 is a schematic view showing an electronic circuit body including a casing manufactured by the method for manufacturing a metal casing of the present invention.

  As shown in FIG. 1, an electronic circuit body 10 including a casing manufactured by the method for manufacturing a metal casing of the present invention includes a plurality of electronic circuits 4 on the upper and lower surfaces of a substrate 3. Reference numeral 4 is in contact with the casing 1B as a case and the casing 1A as a cover through a heat dissipation sheet 5 provided on the end face thereof, and is accommodated in these casings 1A and 1B so as to be generally configured as a whole.

  In the state shown in the figure, two electronic circuits 4 are attached to the upper surface of the substrate 3 and one electronic circuit 4 is attached to the lower surface of the substrate 3. When viewed, three or more electronic circuits 4 may be attached to the upper surface of the substrate 3, and two or more electronic circuits 4 may be attached to the lower surface of the substrate 3.

  The casings 1A and 1B are manufactured by aluminum die casting, and a heat dissipation film 2 made of carbon, nitride, resin or the like is formed on the outer peripheral surface thereof.

  Although the metal represented by aluminum die casting has high thermal conductivity, the thermal conductivity from the metal casings 1A, 1B to the surrounding air generally tends to be low, so that it has a lower thermal conductivity than metal. The heat dissipation performance of the electronic circuit body 10 is improved by forming the heat dissipation film 2 made of resin or the like having a high thermal conductivity on the surfaces of the metal casings 1A and 1B.

  In the casings 1A and 1B, the recesses 1Aa and 1Ba are formed on the outer peripheral surface corresponding to the place where the electronic circuit 4 contacts, and the casings 1Aa and 1Ba are caused by the recesses 1Aa and 1Ba. Of the heat dissipation film 2 formed around 1A and 1B, the heat dissipation film at the location corresponding to the recesses 1Aa and 1Ba is thicker (thickness t2) than the thickness t1 of the other general part, and is thicker. It is the location 2a.

  Of the heat dissipating film 2, the part corresponding to the electronic circuit 4 is more likely to generate heat than the other part. Therefore, by setting the heat radiation film corresponding to the electronic circuit 4 to the thick part 2a, the heat radiation performance is improved as compared with other parts, and as a result, the heat radiation performance of the entire heat radiation film 2 is improved.

  Although the heat dissipation film 2 has a larger thickness, the heat dissipation is improved. However, considering the material cost, the thickness t2 of the thick portion 2a is preferably 100 μm or more. The thickness t1 of 2 is preferably 50 μm or less.

(Embodiment of manufacturing method of metal casing)
Next, the housing 1A of the electronic circuit body 10 shown in FIG. Here, FIGS. 2 and 3 are schematic diagrams illustrating the first step and the second step of the method for manufacturing the metal casing, respectively, and FIG. 4 is a schematic diagram illustrating the released casing. It is. FIG. 5 is a schematic view illustrating a third step of the method for manufacturing the metal casing. Note that the manufacturing method of the housing 1B is the same as the manufacturing method of the housing 1A, except that a mold having a cavity corresponding to the shape and dimensions of the housing 1B is used.

  First, as shown in FIG. 2, a molding die M is prepared which has a movable die M1 and a stationary die M2 and has a shape and dimensions of a casing 1A in which a cavity C formed in a clamped state is to be manufactured.

  In the movable mold M1, a pin hole M1a is opened at a position corresponding to a surface to be extruded corresponding to a position in contact with the electronic circuit 4 (see FIG. 1) in the casing 1A cast in the cavity C. .

  An extrusion pin P is fitted in the pin hole M1a.

  Note that the push pin P in the illustrated example has a T-shaped cross section in which a wide pressing surface Pa is formed at the tip of the shaft member, but the electronic circuit has such a wide pressing surface Pa. This is to cover the four plane dimensions. Therefore, when the planar dimension of the electronic circuit can be covered by the pressing surface at the end of the shaft member having a uniform cross section, the extruded member having a cross section I shape instead of the cross section T shape as in the illustrated example. Is applicable.

  In addition, as the planar shape of the pressing surface Pa, an appropriate planar shape that can cover the planar shape of the electronic circuit 4 such as a square, a rectangle, or a circle can be applied.

  As shown in FIG. 2, a molten metal Y made of aluminum, an alloy thereof, or the like is injected into the cavity C of the mold M, and the casing is cast (first step).

  When the molten metal Y is solidified to a predetermined hardness in the cavity C, the movable mold M1 and the fixed mold M2 are opened as shown in FIG. 3 (X1 direction), and the push pin P is pushed in (X2 direction). A pressing force q is applied from the pressing surface Pa to the extruded surface of the housing 1A to release the housing 1A.

  As shown in FIG. 4, a recess 1Aa is formed in a portion pressed by the pressing surface Pa of the pushing pin P in the extruded surface of the housing 1A during the mold release (the second is described above). Step).

  In order to form the illustrated recess 1Aa at an appropriate position on the surface of the casing 1A, the mold release timing is performed before the casing 1A is completely cured, or the mold is cast in the cavity C as shown in FIG. By making the thickness of the housing 1A uniform (do not dare thicker than other portions), the depression 1Aa can be easily formed by the pressing force q by the push pin P.

  By forming the heat dissipation film 2 on the housing 1A having the recess 1Aa at an appropriate position on the surface as shown in FIG. 5, a portion 2a having a thick heat dissipation film is formed at a position corresponding to the recess 1Aa. .

  Here, as an example of the film forming method of the heat radiation film 2, coating is performed by dipping, electrostatic coating or spray coating at room temperature, and drying treatment (pretreatment) is performed at 100 ° C. for about 30 minutes. A method for forming a film by baking at about 200 ° C. for about 20 to 60 minutes can be mentioned.

  In addition, as an example of other film forming methods, one- or two-component curing type paint (silicone or acrylic) is applied at room temperature by dipping or spraying, and dried at 100 ° C. for about 30 minutes. A method of forming a film by performing a treatment (curing treatment) can be given.

  According to the metal casing manufacturing method shown in the drawing, a pin hole M1a is provided at an appropriate position of a mold M for casting the casing 1A (1B), and an extrusion pin P is provided in the pin hole M1a. When the casing 1A (1B) is released from the mold M, the surface of the casing 1A (1B) is pushed by the pressing force q by the pushing pin P when the surface of the casing 1A (1B) is pushed out by the pushing pin P. The recess 1Aa (1Ba) is formed at a proper position. By this method, the thickness t2 of the heat radiation film 2a at the location corresponding to the recess 1Aa (1Ba) can be made relatively thicker than the thickness t1 at other locations, and the housing 1A (1B) having excellent heat dissipation performance. ) Can be easily manufactured.

  The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and there are design changes and the like without departing from the gist of the present invention. They are also included in the present invention.

  DESCRIPTION OF SYMBOLS 1A ... Housing | casing (cover), 1B ... Housing | casing (case), 1Aa, 1Ba ... Depression, 2 ... Heat dissipation film, 2a ... Thick location (heat dissipation film), 3 ... Board | substrate, 4 ... Electronic circuit (electronic component) 5 ... heat dissipation sheet, 10 ... electronic circuit body, M ... molding die, M1 ... movable die, M1a ... pin hole, M2 ... fixed die, P ... extrusion pin, Pa ... pressing surface, C ... cavity, Y ... molten metal

Claims (1)

A method of manufacturing a metal housing having a heat dissipating film with a distribution of film thickness on the surface,
A first step of casting a casing by injecting a molten metal into a mold in which an extrusion pin is fitted in a pin hole;
Of the casing, by pressing the extruded surface, which is the side surface on which the heat dissipation film is formed and facing the inner surface of the mold, with the extrusion pin, the extruded surface is pressed with the extrusion pin. A second step of releasing the casing from the mold while forming a recess in the formed portion;
The heat dissipation film is formed on the extruded surface of the released casing, and in the formed heat dissipation film, a thickness corresponding to the recess is thicker than other locations. A method for manufacturing a metal casing comprising the steps of:

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