JP3574566B2 - Cooling structure for portable electronic devices - Google Patents

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a cooling structure for a portable electronic device having a display unit that can be opened and closed, and in particular, it is possible to fix the display unit at an arbitrary rotation position and improve the heat transfer efficiency between the display unit and the main unit. The present invention relates to a cooling structure for a portable electronic device.
[0002]
[Prior art]
FIG. 4 shows a diagram of the prior art. In the figure, a portable electronic device 50 such as a notebook computer includes a main body 52, a display unit 51 rotatably connected to the main body 52, and a heat radiating unit 53 mounted on the back of the display unit 51. It has.
[0003]
A heating element 54 is mounted on an upper surface of a mounting board (not shown) inside the main body 52, and the heating element 54 and the heat radiating section 53 are separated from a heat receiving section 55 installed on the upper surface of the heating element 54. For example, a heat transfer section 63 formed by a heat pipe or the like is thermally connected to a heat transfer section 64 formed of a material having good heat conductivity such as aluminum or copper. Further, the heat transfer section 63 and the heat transfer section 64 are thermally connected by a hinge section 60 having a pivot 73 provided for rotatably connecting the display section 51 to the main body section 52.
[0004]
In this embodiment, the heat generated by the heat generating element 54 in the main body 52 is transmitted from the heat receiving part 55 to the hinge 60 via the heat transfer part 63 on the main body 52 side. The heat is transmitted to the heat transfer section 64 and transmitted to the heat radiating section 53 via the heat transfer section 64.
[0005]
Next, the structure of the hinge portion 60 will be described. In FIG. 5, the hinge unit 60 pivots the display unit 51 to the main unit 52 with one end of a heat transfer unit 63 formed by a heat pipe or the like extending from the heat receiving unit 55 provided on the main unit 52 as a pivot 73. They are freely connected. In addition, the heat transfer portion 63 has an attachment portion 61 formed of a material having good heat conductivity such as aluminum or copper fixed thereto. A rotatable housing 62 formed of a material having good heat conductivity such as aluminum or copper for fixing the heat transfer portion 64 on the display portion side while fixing and thermally connecting to the mounting portion 61. The heat transfer section 63 and the heat transfer section 64 are thermally connected. Further, the fitting between the mounting portion 61 and the housing 62 is tightened so as to obtain a frictional force capable of fixing the display portion at an arbitrary rotation position.
[0006]
In this embodiment, the hinge unit 60 that opens and closes the display unit is configured to have both functions of heat transfer and opening and closing. Therefore, since the display unit is fixed at an arbitrary rotation position by the frictional force between the mounting unit 61 and the housing 62, the contact pressure between the mounting unit 61 and the housing 62 is larger than the contact pressure required for heat conduction. Must be set to That is, it is necessary to increase the tightening force between the mounting portion 61 and the housing 62, and therefore, the dimensional tolerance between the mounting portion 61 and the housing 62 requires precision.
[0007]
Further, as another hinge part structure configured to have both functions of heat transfer and opening and closing, for example, it is formed by a heat pipe or the like extending from the heat receiving part 55 installed in the main body 52. The one end of the heat transfer part 63 is used as a pivot 73 and the display part 51 is rotatably connected to the main body part 52 in the same manner as in FIG. 5 described above. The inner diameter forming the fitting portion with the portion 61 is made expandable and contractable, and is attached to the heat transfer portion 63 so as to rotate freely. When heat is transferred from the heat transfer section 63 on the main body section to the heat transfer section 64 on the display section side, the diameter of the housing 62 is reduced only when the rotation angle of the display section is maximized. 63 or the mounting portion 61 is gripped to reduce the thermal resistance at the fitting portion so as to be thermally connected.
[0008]
In this embodiment, the dimensional tolerance between the mounting portion 61 and the housing 62 does not require accuracy, but limits the use position of the display portion.
[0009]
[Problems to be solved by the invention]
As described above, the conventional technique has the following problems.
[0010]
1) In a mode in which the display unit can be fixed at an arbitrary rotation position, the heat transfer unit is connected to the heat receiving unit of the main body unit and extends to the hinge unit, and the heat transfer unit is connected to the heat radiating unit of the display unit and extends to the hinge unit. In the portion connecting the heat transfer section, component accuracy and assembly accuracy are required.
[0011]
2) Further, by rotating the display portion many times, the mounting portion formed of aluminum, copper, or the like and the housing may be worn, and a sufficient contact area and an appropriate contact pressure are required at the hinge portion. Cannot be obtained, and the heat transfer efficiency may decrease.
[0012]
3) In a mode in which the use position of the display unit is limited, the display unit cannot be used at an arbitrary angle. Therefore, the visible range of the display unit has been narrowed.
[0013]
[Means for Solving the Problems]
In order to solve the above problems, the present invention takes the following measures.
[0014]
The hinge for opening and closing the display unit includes a hinge formed for heat transfer and a hinge formed for opening and closing the display. That is, the hinge portion formed for heat transfer has a sufficient contact area and a moderate contact with a portion connecting one heat transfer portion with the other heat transfer portion as an axis and connecting the two heat transfer portions. A fitting portion for obtaining pressure is formed to enable heat conduction and to be rotatable. On the other hand, the hinge part formed for opening and closing the display part has the same axis as the hinge part, and is formed so as to fix the display part at an arbitrary rotation position.
[0015]
By taking the above-described means, when the display unit is fixed at an arbitrary rotation position, it is possible to keep the position of the display unit and not apply a load to the heat transfer unit.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
The present invention has the following embodiments.
[0017]
As shown in FIG. 1, the cooling structure of the portable electronic device of the present invention having a display unit that can be opened and closed
One of the heat transfer portions 13 is used as an axis, the other heat transfer portion 14 is fixed, and a fitting portion having uneven portions is formed at a portion connecting the heat transfer portions 13 and 14 so that heat can be conducted. A rotatable heat transfer hinge portion 10,
An opening / closing hinge section 20 for fixing the display section at an arbitrary rotation position with the heat transfer section 13 which is one solid as an axis,
When the display unit is fixed at an arbitrary rotation position, a load is not applied to the heat transfer unit 13 while maintaining the position of the display unit.
[0018]
Further, as shown in FIG. 1 and FIG.
A heat transfer portion 13 extending from the heat receiving portion 35 as an axis, and an attachment portion 11 formed of a material having good heat conductivity fixed to the heat transfer portion 13;
The rotatable housing 12 formed of a material having good thermal conductivity, which is fitted to and thermally connected to the mounting portion 11 and which fixes the heat transfer portion 14 extending from the display portion side, provides both heat transfer. The parts 13 and 14 are thermally connected.
[0019]
Further, as shown in FIG.
With the heat transfer portion 13 on the heat receiving portion side as an axis, a display portion is arbitrarily provided by a fixing portion 21 fixed to the heat transfer portion 13 and a mounting portion 22 mounted on a display portion sandwiching the fixing portion 21. Fix at the rotation position of.
[0020]
Further, as shown in FIG.
The display unit is fixed at an arbitrary rotation position by a frictional force between the fixing unit 21 and the mounting unit 22.
[0021]
Further, as shown in FIG.
The fitting portion 25 formed between the fixing portion 21 and the mounting portion 22 has a multi-stage fixing position.
[0022]
Further, as shown in FIG.
The operation of fixing the display unit at an arbitrary rotation position by the opening / closing hinge unit 20 and the operation of thermally conducting the heat transfer units 13 and 14 by the heat transfer hinge unit 10 operate simultaneously.
[0023]
By taking the above-described embodiment, the following operation works.
[0024]
By the fitting portion and the housing having the concave and convex portions, the heat transfer portion connected to the heat receiving portion of the main body portion and extending to the hinge portion, and the heat radiation of the display portion, regardless of the rotational position of the display portion, A sufficient contact area and an appropriate contact pressure can be obtained at a portion that is connected to the heat transfer portion that is connected to the portion and extends to the hinge portion. For this reason, when fixing a display part in arbitrary rotation positions, the load given to the heat transfer hinge part provided separately from the opening / closing hinge part is reduced. Alternatively, no load is applied to the heat transfer section.
[0025]
Further, the opening / closing hinge part can fix the rotational position of the display part in a stepless manner by a frictional force, and can have a multi-step fixed position by a fitting part.
[0026]
Since the fixing operation of the display unit by the opening and closing hinge unit and the heat conduction operation by the heat transfer hinge unit operate simultaneously, the operability and heat transfer efficiency when using the display unit are improved.
[0027]
【Example】
A representative embodiment according to the present invention will be described with reference to FIGS. In the following, the same portions are denoted by the same reference numerals, and detailed description may be omitted.
[0028]
1 and 2 show diagrams of an embodiment of the present invention.
[0029]
In FIG. 2, a portable electronic device 30 such as a notebook personal computer includes a main body 32, a display unit 31 rotatably connected to the main body 32, and a heat radiating unit 33 mounted on the back of the display unit 51. It has.
[0030]
A heating element 34 is mounted on an upper surface of a mounting board (not shown) inside the main body 32, and the heating element 34 and the heat radiating section 33 are separated from a heat receiving section 35 provided on the upper surface of the heating element 34. For example, the heat transfer unit 13 formed by a heat pipe or the like is thermally connected to the heat transfer unit 14 formed of a material having good heat conductivity such as aluminum or copper. Further, the heat transfer section 13 and the heat transfer section 14 are thermally connected by the heat transfer hinge section 10 having a pivot 23 provided for rotatably connecting the display section 31 to the main body section 32. Is configured. On the other hand, the display unit 31 is configured to be fixed at an arbitrary rotation position by the opening / closing hinge unit 20 including the pivot 23.
[0031]
In this embodiment, when the portable electronic device 30 is used, the display unit 31 is rotated to an arbitrary position, and the rotation position is held and fixed by the opening / closing hinge unit 20. On the other hand, heat generated by the heat generating element 34 in the main body 32 is transmitted from the heat receiving unit 35 to the heat transfer hinge 10 via the heat transfer unit 13 on the main body 32 side. The heat is transmitted to the heat transfer section 14 on the side, and is transmitted to the heat radiating section 33 via the heat transfer section 14.
[0032]
Next, the structure of the heat transfer hinge 10 and the opening / closing hinge 20 will be described.
[0033]
As shown in FIGS. 1A and 1B, the heat transfer hinge 10 connects one end of a heat transfer unit 13 formed by a heat pipe or the like extending from the heat receiving unit 35 installed in the main body 32. The display unit 31 is pivotally connected to the main unit 32 as the pivot 23. Further, the heat transfer section 13 has an attachment section 11 formed of a material having good heat conductivity such as aluminum or copper fixed thereto. A rotatable housing 12 made of a material having good heat conductivity, such as aluminum or copper, for fixing the heat transfer portion 14 on the display portion 31 side while fitting and thermally connecting the mounting portion 11. The heat transfer part 13 and the heat transfer part 14 are thermally connected with each other.
[0034]
Further, the fitting portion between the mounting portion 11 and the housing 12 is designed only for heat transfer, and is set so that both can obtain a sufficient contact area and an appropriate contact pressure. It is preferable to apply grease such as an oil compound having good thermal conductivity and excellent heat resistance to a fitting portion between the mounting portion 11 and the housing 12.
[0035]
In this configuration, the heat transfer hinge does not require special dimensional accuracy. Further, when the display unit is fixed at an arbitrary rotation position, the load on the heat transfer hinge unit 10 is reduced. Alternatively, no load is applied to the heat transfer section 13. Further, the mounting portion 11 and the housing 12 are less likely to be worn.
[0036]
On the other hand, as shown in FIGS. 1 (a) and 1 (c), the opening / closing hinge portion 20 is connected to one end of a heat transfer portion 13 formed of a heat pipe extending from the heat receiving portion 35 installed in the main body portion 32. The display unit 31 is rotatably connected to the main unit 32 with the pivot 23 as a pivot 23. Further, a fixed portion 21 made of a brake pad or the like having a large friction coefficient and excellent wear resistance is fixed to the heat transfer portion 13. Further, a mounting portion 22 made of a material having a large friction coefficient and excellent wear resistance for holding the fixing portion 21 is attached to the display portion 31 side, and a friction force between the fixing portion 21 and the mounting portion 22 is used. The display unit is fixed at an arbitrary rotational position in a stepless manner.
[0037]
In the heat transfer section 13 shown in FIG. 1, the heat transfer section 35 to the heat transfer hinge section 10 are formed by a hollow heat pipe, and the heat transfer hinge section 10 to the open / close hinge section 20 are formed by a solid. ing.
[0038]
As shown in FIG. 3, the opening / closing hinge portion 20 has a multi-step fixing position of the display portion from point A to point B by a fitting portion 25 formed between the fixing portion 21 and the mounting portion 22. May be provided. In this case, the fitting portion 25 is fitted to the fixed portion 21 and the mounting portion 22 by forming a concave portion or a protruding convex portion, for example.
[0039]
In the configuration of FIGS. 1 to 3, the operation of fixing the display unit 31 at an arbitrary rotational position by the opening / closing hinge unit 20 and the operation of conducting heat between the heat transfer units 13 and 14 by the heat transfer hinge unit 10 are described. Are configured to operate simultaneously. Thus, the heat generated by the heat generating element 34 is transmitted to the heat radiating unit 33 only by rotating the display unit 31 operated when the portable electronic device 30 is used.
[0040]
【The invention's effect】
As described above, according to the present invention, the following effects can be expected.
[0041]
A sufficient contact area and an appropriate contact pressure can be obtained at the portion connecting the two heat transfer portions extending to the heat transfer hinge portion regardless of the rotational position of the display portion by the fitting portion regardless of the rotational position. Therefore, when the display unit is fixed at an arbitrary rotation position, the load applied to the heat transfer hinge unit is reduced, and no load is applied to the heat transfer unit, so that the heat transfer efficiency can be improved.
[0042]
Further, the opening / closing hinge part can fix the rotational position of the display part in a stepless manner by frictional force. Furthermore, it is possible to have a multi-stage fixing position by the fitting portion.
[0043]
Furthermore, since the fixing operation of the display unit by the opening / closing hinge unit and the heat conduction operation by the heat transfer hinge unit operate simultaneously, operability and heat transfer efficiency when using the display unit can be improved.
[Brief description of the drawings]
FIG. 1 is a diagram of an embodiment of the present invention.
FIG. 2 is a diagram of an embodiment of the present invention.
FIG. 3 is a diagram of an embodiment of the present invention.
FIG. 4 is a diagram of the prior art.
FIG. 5 is a diagram of the prior art.
[Explanation of symbols]
10: Heat transfer hinge section 11: Mounting section 12: Housing 13: Heat transfer section 14: Heat transfer section 20: Open / close hinge section 21: Fixed section 22: Mounting section 25: Fitting section

Claims (6)

In the cooling structure of a portable electronic device having a display unit that can be opened and closed,
A sufficient contact area and an appropriate contact pressure at a portion connecting one of the heat transfer portions (13, 14) with one of the heat transfer portions (13) as an axis and fixing the other heat transfer portion (14). A rotatable heat transfer hinge portion (10), which forms a fitting portion having concave and convex portions so as to obtain heat and is capable of conducting heat;
An open / close hinge part (20) for fixing the display part at an arbitrary rotation position with the heat transfer part (13), which is one solid body, as an axis;
When fixing the display unit at an arbitrary rotation position, the load of the heat transfer unit (13) is not given while maintaining the position of the display unit.
A cooling structure for a portable electronic device, characterized in that: The heat transfer hinge portion (10) includes:
A mounting portion (11) formed of a material having good thermal conductivity fixed to the heat transfer portion (13), with the heat transfer portion (13) on the heat receiving portion side as an axis;
A rotatable housing (12) made of a material having good thermal conductivity for fixing and thermally connecting the mounting portion (11) and fixing the heat transfer portion (14) on the display portion side. Thermally connecting the two heat transfer sections (13, 14);
The cooling structure for a portable electronic device according to claim 1, wherein: The opening / closing hinge part (20) includes:
The heat transfer portion (13) on the heat receiving portion side is set as an axis, and a fixed portion (21) fixed to the heat transfer portion (13) and an attachment mounted on a display portion sandwiching the fixed portion (21). The display unit is fixed at an arbitrary rotational position by the unit (22).
The cooling structure for a portable electronic device according to claim 1, wherein: The opening / closing hinge part (20) includes:
Fixing the display unit at an arbitrary rotation position by a frictional force between the fixing unit (21) and the mounting unit (22);
4. The cooling structure for a portable electronic device according to claim 3, wherein: The opening / closing hinge part (20) has a multi-step fixing position by a fitting part (25) formed on a fixing part (21) and a mounting part (22).
4. The cooling structure for a portable electronic device according to claim 3, wherein: The operation of fixing the display unit at an arbitrary rotational position by the opening / closing hinge unit (20) and the operation of conducting heat through both heat transfer units (13, 14) by the heat transfer hinge unit (10) operate simultaneously. ,
The cooling structure for a portable electronic device according to any one of claims 1 to 3, wherein:

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