JP2004310238A - Electronic equipment - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To improve cooling efficiency by reducing channel resistance by increasing the size of an opening for air release, and to prevent the opening for air release from being left unclosed in non-use. <P>SOLUTION: This electronic equipment 1 is provided with a display device part 3 arranged so as to be freely rotatable with respect to an equipment main body part 2 inside which parts accompanied with heating are arranged. The display device part is configured so as to be rotated between the storage position where the upper face of the equipment main body part is covered and a use position where it is erected from the equipment main body part. This electronic equipment is provided with an opening 8 for air release opened on the upper face of the equipment main body and a cover 8a for opening/closing the opening for air release, and the cover is configured to open the opening for air release when the display device part is moved to the use position. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a novel electronic device. More specifically, the present invention relates to a technology for effectively dissipating heat generated during use in an electronic device including a display device portion rotatably provided with respect to a device main body portion having a component that generates heat therein.
[0002]
[Prior art]
In electronic devices having components with heat generation therein, for example, small electronic devices such as notebook type personal computers and laptop type word processors, since the internal space is narrow, heat generated from a plurality of electronic components is small. Due to the thermal characteristics of the electronic component itself, there is a major problem in maintaining performance. Recently, small personal computers have been increasingly miniaturized and the calculation speed has been remarkably increased. As a result, the amount of heat generated by the processor and the like has tended to increase. is there.
[0003]
Conventionally, as shown in FIG. 18, for example, as shown in FIG. 18, a forced exhaust means, for example, an electric fan c is disposed in a device main body b of a small electronic device, The high-temperature air is exhausted to the outside of the device main body from an exhaust hole e provided on the back surface of the device main body b, and the inside d of the device main body b is replaced by air flowing into the device main body b from an intake port (not shown). It was common to try to cool.
[0004]
However, the above-described exhaust port e is required to have a size that does not allow foreign matter to enter the device body b. Therefore, the exhaust port e is extremely small, has a large flow resistance, and cannot effectively dissipate heat. is there.
[0005]
Therefore, in FIG. 1A of Patent Document 1, a large opening (5) is formed in the upper surface of the main body (2), and a board (20) for opening and closing the opening (5) is provided. A small electronic device (1) having a heat radiating structure in which a heat radiating plate (21) having good thermal conductivity, which is in contact with a heat generating component (CPU) (4) when opened, is exposed from an opening (5). Have been.
[0006]
Further, Patent Document 2 discloses an electronic device (portable device) in which the display devices (3) and (4) are opened to be in an operation state, thereby expanding the space inside the device and obtaining a heat radiation effect by the expanded space. Type information device).
[0007]
[Patent Document 1]
JP-A-9-138717
[Patent Document 2]
JP-A-11-224987
[0008]
[Problems to be solved by the invention]
By the way, in the small electronic device (1) disclosed in Patent Document 1 described above, when the board (20) is opened, the radiator plate (21) is exposed to the outside. There is a fear that the user touches the plate (21) and feels hot.
[0009]
Therefore, as in the prior art, the opening for exhausting by forced exhaust means such as a fan is enlarged, and a cover for opening and closing the opening is provided to prevent foreign matter from entering from the opening. It is conceivable that the opening is closed by a cover.
[0010]
However, it is inevitable that the user forgets to close the opening as long as a person uses it, and there is a risk that foreign matter may enter the device main body due to forgetting to close the exhaust opening.
[0011]
Further, in an electronic device (portable information device) disclosed in Patent Document 2, a first device main body housing (1) and a second device main body housing (2) are used as device main bodies. And a display unit having a display unit (3) and a display unit support (4), and the four parts are first to fourth hinge units (5), (6), (7). And (8), the structure is such that they are rotatably connected to each other, so that the number of components is large and the mechanism is complicated.
[0012]
Therefore, the present invention increases the size of the exhaust opening to reduce the flow path resistance and improve the cooling efficiency, and also prevents the exhaust opening from being forgotten to be closed when not in use. The task is to
[0013]
Another object of the present invention is to improve the cooling efficiency by increasing the internal space of the device main body during use, and to simplify a mechanism for changing the internal space of the device main body.
[0014]
[Means for Solving the Problems]
In order to solve the above-described problems, the electronic device according to the present invention is configured such that the display device unit is configured to rotate between a storage position covering an upper surface of the device main body and a use position rising from the device main body. A ventilation opening provided on the upper surface of the main body, and a cover for opening and closing the ventilation opening, wherein the cover can open the ventilation opening when the display device is moved to a use position. It is in a state.
[0015]
Therefore, the ventilation opening can be opened when the electronic device is in use.
[0016]
Another electronic device of the present invention has a portion (hereinafter, referred to as a “front-end portion”) of the upper surface portion of the device main body portion, which is located forward of a connection portion of the display device portion with the device main body portion, in order to solve the above another problem. The front end of the tilting surface portion) is tiltably connected to the front end of a portion other than the tilting surface portion of the device main body portion, and the display device portion is used in a storage position covering the upper surface of the device main body portion and standing from the device main body portion. And a rotatable roller at the base end of the display unit, and the rotation of the tilting surface at a position slightly closer to the rotation end than the base end. A connecting portion connected to the moving end portion is formed, and the tilting end of the tilting surface portion moves upward by rotating the display device portion to the use position, and the tilting surface portion is tilted slightly forward and downward, When the display unit is rotated to the use position, the above rollers are It is obtained so as to roll with respect to the bottom surface.
[0017]
Therefore, in another electronic device of the present invention, the inclined surface portion is tilted in response to the movement of the display device portion without adopting a complicated structure.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the details of the electronic device of the present invention will be described with reference to the accompanying drawings.
[0019]
1 and 2 are perspective views schematically showing a first embodiment of the electronic apparatus of the present invention.
[0020]
Here, the electronic device 1 includes a display device unit 3 that is rotatably provided with respect to a device main body unit 2 having components that generate heat therein. As such electronic devices, there are a small personal computer called a notebook type or a laptop type, a small word processor, and the like. Note that the electronic device here does not mean only a small personal computer or word processor, but includes a display device unit that can rotate with respect to the device main unit, such as various information processing devices such as a network terminal or a workstation. In addition, the present invention can be applied to any device having a component that generates heat in the device main body. Here, description will be given assuming that the illustrated electronic device 1 is a small personal computer.
[0021]
The device main body 2 includes a flat box-shaped housing 4 having a flat shape and a slightly horizontally long rectangle, and various devices and members such as a storage device and an interface are arranged on the housing 4 in addition to a motherboard. ing. Although not shown, various input / output ports such as a serial port, a parallel port, a PS / 2 port such as a mouse, and a JOG port such as a game controller are provided on the outside of the housing 4. In addition, a removable storage medium such as a flexible disk, a compact disc read only memory (CD-ROM), a compact disc recordable (CD-R), and a compact disc rewriteable (CD-RW) is provided. In addition, mainly the motherboard is mounted with components such as CPU (Central Processing Unit) chips that generate heat as the operation proceeds.
[0022]
The display device 3 is rotatably supported by the device main body 2. The display unit 3 is formed by supporting a liquid crystal display panel 6 on a flat box-shaped housing 5 and has a planar shape substantially the same size as the planar shape of the device body 2. One end of the housing 5 is attached to the rear end of the housing 4 of the device main body 2 so that the display unit 3 can rotate between the use position shown in FIG. 1 and the storage position shown in FIG. It is rotatably supported by a hinge mechanism (not shown). In the storage position shown in FIG. 2, the display device unit 3 is positioned so as to cover the upper surface of the device main body 2 with the display surface 6a of the liquid crystal display panel 6 facing the upper surface of the device main body 2; In the use position shown in (1), the display surface 6a faces substantially forward in a state of rising from the rear end of the device main body 2. Although the liquid crystal display panel 6 is shown as a display unit of the display unit 3, this does not mean that the display unit of the display unit 3 is limited to the liquid crystal display panel. Other display means, for example, other types of display means such as EL (Electro Luminescence) and a plasma display may be used.
[0023]
Most of the upper surface of the device main body 2 is an operation unit (keyboard unit) 7, and a large number of operation members such as operation keys 7a, 7a,.
[0024]
In the non-use state of the electronic device, that is, in the state where the display device unit 3 is in the storage position, the upper surface of the housing 4 of the device main body unit 2 is covered by the display device unit 3 and the use state of the electronic device, that is, A ventilation opening 8 is formed in a portion that is not covered by the display device portion 3 when the display device portion 3 is in the use position, for example, in a portion between the operation portion 7 and a portion where the display device portion 3 is supported. Is done. Then, a cover 8 a for opening and closing the ventilation opening 8 is rotatably supported by the housing 4. The formation position of the ventilation opening 8 is not limited to the above-mentioned position, and does not hinder the operation of the operation members such as the operation keys 7a, 7a,. Any portion may be used as long as it is covered by the display device unit 3 in the state and is opened in the use state. For example, as shown in FIG.
[0025]
For example, a small motor fan 9 is disposed as a forced exhaust unit at a position in the housing 4 close to the ventilation opening 8.
[0026]
In the non-use state shown in FIG. 2, the electronic apparatus 1 has a state in which the upper surface of the apparatus main body 2 is covered by the display unit 3 in the storage position. The ventilation opening 8 is kept closed, so that there is no danger that the ventilation opening 8 will be opened, so that foreign matter can be completely prevented from entering the device main body 2 through the ventilation opening 8.
[0027]
When the display device unit 3 is opened with respect to the device main unit 2 during use and moved to the use position shown in FIG. 1, there is no covering of the upper surface of the device main unit 2. It can be moved to the open position indicated by the solid line. Therefore, in the use state, the ventilation opening 8 is opened by moving the cover 8a to the open position shown by the solid line, and the air in the device main body 2 passes through the ventilation opening by driving the forced exhaust means 9. As a result, the air inside the device main body 2 is circulated with the outside air, and the inside of the device main body 2 is effectively cooled.
[0028]
In the electronic device 1 described above, by providing the ventilation opening 8 that can be opened by moving the display device unit 3 to the use position, the large ventilation opening 8 is opened at the time of use. And the large volume of air is exhausted from the inside of the device main body 2, so that the cooling efficiency inside the device main body 2 is improved. In addition, when the display device section 3 is moved to the use position, that is, in the use state in which the heat generated by the heat-generating component needs to be radiated, the ventilation opening can be opened only after the use state. In a non-use state of the electronic device 1 in which the unit 3 is in the storage position, that is, in a state where cooling in the device main body 2 is not required, the cover 8 a cannot be moved to the open position and is provided inside the device main body 2. In a non-use state in which the generated heat-generating component does not generate heat, the ventilation opening 8 is not opened, and there is no possibility that foreign matter enters the device main body 2.
[0029]
The cover 8a for opening and closing the ventilation opening 8 described above may be opened manually by the user, that is, manually. However, for example, when the display unit 3 is moved to the use position, the cover 8a is automatically opened. The convenience is improved by moving to.
[0030]
As a method of automatically moving the cover 8a toward the open position, a method of providing a resilient urging means that constantly urges the cover 8a toward the open position, or a method of attaching the cover 8a to the housing 4 of the device main body 2 is provided. A method of directly driving a rotating shaft rotatably supported may be considered. Various springs can be considered as the above-described elasticity urging means, that is, means for storing the elasticity that attempts to return to the original shape by being deformed. For example, a compression coil spring, a plate spring, a torsion coil spring, and the like are considered. Can be considered. Further, as a method of directly driving a rotation shaft that rotatably supports the cover 8a with respect to the housing 4, the rotation of the motor is directly or indirectly transmitted to the rotation shaft via a gear reduction mechanism. The transmission unit transmits the rotation of the rotation axis of the display unit 3 accompanying the rotation of the display unit 3 from the storage position to the use position to the rotation axis of the cover 8a via a gear transmission mechanism. A method is conceivable.
[0031]
When the cover 8a is automatically moved to the open position by using the above-described elasticity urging means, the display device 3 is rotated toward the storage position to thereby rotate the housing of the display device 3. When the rotating end of the cover 8a is pressed by the front surface of the body 5, that is, the surface 5a on the display surface 6a side, the cover 8a rotates toward the closing position against the urging force of the elastic urging means. However, a means for automatically moving the cover 8a to the closed position with the movement of the display device unit 3 to the storage position may be taken.
[0032]
For example, when a means for driving the rotation axis of the cover 8a by a motor is employed, when the rotation of the display unit 3 to the storage position is detected, the motor is rotated in the direction opposite to the opening direction. Thus, the cover 8a can be moved to the closed position. In this case, by selecting the timing for moving the cover 8a, the cover 8a can be moved to the closed position before coming into contact with the display unit 3, and the contact between the cover 8a and the display unit 3 is repeated. For example, it is possible to prevent inconvenience, for example, damage to the cover 8a and the display device unit 3.
[0033]
In addition, as described above, when the method of transmitting the rotation of the rotation axis of the display unit 3 to the rotation axis of the cover 8a via the gear transmission mechanism is adopted, the display unit 3 is moved to the storage position. As a result, the cover 8a is necessarily moved to the closed position.
[0034]
Furthermore, when the above-mentioned elasticity urging means is adopted, it is conceivable to separately provide an automatic closing means for moving the cover 8a to the closing position. For example, a string-like member wound by a motor or the like, that is, a force that moves both ends in the opposite direction, that is, a high rigidity against a pulling force, but hardly resists a force that moves both ends closer. A structure is conceivable in which an elongate member having no force or only a weak resistance is provided, and the tip of the cord-like member is connected to a position near the turning end of the cover 8a. When the motor is rotated and the string-shaped member is wound up, the portion of the cover 8a near the rotating end is pulled toward the closed position, so that the cover 8a is closed against the urging force of the elastic urging means. Will move towards. As described above, the driving force of the motor may be used to wind up such a string-shaped member. A method may be employed in which the rotation is used for driving a winding shaft that winds the cord-like member via a gear transmission mechanism. In such a case, when the display unit 3 is rotated to the use position, the winding shaft is inevitably rotated in the direction opposite to the winding direction. The cover 8a is moved to the open position by the urging force of the elastic urging means. However, when the structure in which the string-like member is wound by the driving force of the motor is adopted, when the cover 8a is moved to the open position, the motor is rotated in the opposite direction to the time of winding, for example, in the form of a string. It is necessary to dispose a clutch mechanism between the winding shaft for winding the member and the motor, and disconnect the cooperation between the motor and the winding shaft by the clutch mechanism when the cover 8a is moved to the open position.
[0035]
When means for rotating the rotating shaft of the cover 8a by a motor with respect to the movement of the cover 8a to the open position is adopted, the cover 8a is urged to the open position by the resilient urging means and the cord is wound by the motor. In the case where the means is adopted, the degree of opening of the ventilation opening 8 can be appropriately controlled by controlling the angle of the cover 8a. The degree of heat generation of the heat-generating component may vary depending on the usage state of the electronic device 1. For example, in a small personal computer, assuming that the performance of the CPU is, for example, 2 GHz (gigahertz), the performance is used at 2 GHz, which is the maximum performance. The amount of heat generated by the CPU differs depending on the case. When there is such a difference in the amount of generated heat, it is not necessary to always use the same degree of opening of the ventilation opening 8. In other words, when used in high performance, it is necessary to increase the degree of opening of the ventilation openings 8 to increase the exhaust flow rate to obtain a high cooling effect, and conversely, in the save mode in which the performance is reduced. When used, since a high cooling effect is not required, it is advisable to lower the degree of opening of the ventilation opening 8 and rather reduce the possibility of foreign matter intrusion. Further, when the temperature inside the device main body 2 becomes high, the degree of opening of the ventilation opening 8 needs to be increased. When the temperature inside the device main body 2 is not so high, the degree of opening of the ventilation opening 8 becomes low. May be.
[0036]
FIG. 4 shows an example of controlling the degree of opening of the ventilation opening 8 as described above.
[0037]
First, in step 1 (S1), it is determined whether the normal mode, the high performance mode, or the power save mode is selected. If it is determined that the normal mode is selected, the process proceeds to step 2 (S2). When it is determined that the high performance mode is selected, the process proceeds to step 7 (S7), and when it is determined that the power save mode is selected, the process proceeds to step 10 (S10).
[0038]
In step 2 (S2), each unit of the electronic device 1 is set so that the operation in the normal mode is performed, and the process proceeds to step 3 (S3).
[0039]
In step 3 (S3), it is determined whether the normal mode has been completed. If the normal mode has been completed, the process returns to step 1 (S1). If the normal mode has been continued, the process proceeds to step 4 (S4).
[0040]
In step 4 (S4), it is determined whether the value of the temperature sensor provided in the device body 2 is higher or lower than the reference value. If the value of the temperature sensor is higher than the reference value, the process proceeds to step 5 (S5), If the sensor value is lower than the reference value, the process proceeds to step 6 (S6).
[0041]
In step 5 (S5), the angle of the cover 8a is increased to increase the degree of opening of the ventilation opening 8, and the cooling efficiency is increased, and the process returns to step 3 (S3).
[0042]
In step 6 (S6), the angle of the cover 8a is reduced to reduce the degree of opening of the ventilation opening 8, and the cooling efficiency is reduced, and the process returns to step 3 (S3).
[0043]
In step 7 (S7), which was determined in step 1 (S1) that the high performance mode was selected, the angle of the cover 8a was maximized to maximize the opening degree of the ventilation opening 8, and the cooling efficiency was maximized. Then, the process proceeds to step 8 (S8).
[0044]
In step 8 (S8), each unit of the electronic device 1 is set so that the operation in the high performance mode is performed, and the process proceeds to step 9 (S9).
[0045]
In step 9 (S9), it is determined whether or not the high performance mode has ended. If it is determined that the high performance mode has ended, the process returns to step 1 (S1), and it is determined that the high performance mode is continuing. If so, the process returns to step 7 (S7).
[0046]
In step 10 (S10), which is determined in step 1 (S1) that the power save mode is selected, the angle of the cover 8a is minimized to minimize the opening degree of the ventilation opening 8, and the cooling efficiency is minimized. The process proceeds to step 11 (S11).
[0047]
In step 11 (S11), each unit of the electronic device 1 is set so that the operation in the power save mode is performed, and the process proceeds to step 12 (S12).
[0048]
In step 12 (S12), it is determined whether or not the power save mode has ended. If it is determined that the power save mode has ended, the process returns to step 1 (S1), and the power save mode is continued. If it is determined, the process returns to step 10 (S10).
[0049]
By controlling the degree of opening of the ventilation openings 8 as described above, it is possible to perform optimal air cooling control according to the operation state of the electronic device 1.
[0050]
Next, some specific application examples of the first embodiment will be described.
[0051]
FIGS. 5 and 6 show a first application example, in which a compression coil spring is applied as a resilient biasing means, and a mechanism for closing a cover by winding a string-like member around a winding shaft is applied. Things.
[0052]
A small personal computer 10A, which is an electronic device, has a display unit 30 having a liquid crystal display panel (not shown) rotatably supported at the rear end of a device main unit 20 having a heat-generating component such as a CPU (not shown) inside. . An operation unit 40 provided with a large number of operation members such as operation keys is provided on a front portion of the upper surface of the housing 21 of the device main body 20.
[0053]
A ventilation opening 22 is formed in a portion of the upper surface of the housing 21 of the device main body 20 between a portion supporting the display device unit 30 and a portion provided with the operation unit 40. The inside of the device main body 20 communicates with the outside air through the opening 22.
[0054]
A cover 23 for opening and closing the ventilation opening 22 is rotatably provided on the device main body 20. The cover 23 has a plate shape large enough to cover the ventilation opening 22, and an end on the near side is rotatably supported by a housing (not shown) on the housing 21 at an edge on the near side of the ventilation opening 22. ing.
[0055]
The cover 23 is urged by a compression coil spring 51 as a resilient urging means to turn the power toward the open position shown in FIG. That is, one end of the compression coil spring 51 is supported by the bottom surface of the housing 21 of the device main body 20, and the other end is supported by the base end of the cover 23, that is, a portion near the end supported by the housing 21. Compressed in state.
[0056]
A motor 60 is disposed in the device body 20, and an output shaft 61 of the motor 60 is a winding shaft. For example, a DC motor with a speed reducer can be applied to the motor 60, but a stepping motor or the like can also be applied to control the cover angle as described above. Of course, when controlling the angle of the cover, a DC motor may be applied.
[0057]
As a string-shaped member, for example, one end of a wire 70 is wound around the winding shaft 61, and the other end of the wire 70 is connected to a portion of the cover 23 near the turning end.
[0058]
A motor fan 80 is disposed as a forced exhaust unit at a position corresponding to the ventilation opening 22 inside the device main body 20.
[0059]
In the small personal computer 10A described above, the display device 30 is moved from the use state, that is, as shown in FIG. 5, from the state where the display device 30 is in the use position and the cover 23 is in the open position, to the storage position. When the wire 70 is rotated, the motor 60 is driven to rotate the winding shaft 61 in a direction in which the wire 70 is wound. As a result, the wire 70 is wound on the winding shaft 61. Then, the turning end of the cover 23 is pulled, and the cover 23 is turned toward the closed position, that is, is turned in the direction of arrow A in FIG. 5 to the closed position shown in FIG.
[0060]
The display device 30 is rotated toward the use position from the non-use state, that is, the state where the display device 30 is in the storage position and the cover 23 is in the closed position as shown in FIG. Then, since the motor 60 rotates in the direction in which the wire 70 is rewound, the wire 70 is loosened. Accordingly, the cover 23 is turned toward the open position by the urging force of the compression coil spring 51, that is, is turned in the direction of arrow B in FIG. 6 to the open position shown in FIG.
[0061]
In this application example, both opening and closing of the cover 23 are automatically performed.
[0062]
As described above, as a structure for automatically opening and closing the cover 23, a structure in which the rotating shaft supporting the cover 23 with respect to the housing 21 of the device main body 20 is directly rotated by a motor or the like is also conceivable. The use of a cord-like member such as the wire 70 as in this application example is advantageous in protecting the mechanism for opening and closing the cover 23. For example, when a motor is connected to the rotating shaft of the cover 23 directly or via a speed reduction mechanism, when a force indicated by an arrow C in FIG. At first, it acts on the motor and the speed reduction mechanism connected to the rotation shaft, and there is a possibility that these may be destroyed. However, as described above, in the structure in which the cover 23 is opened by the resilient urging means and the cover 23 is closed by winding the wire 70, if the wire 70 is not wound up, as shown in FIG. Even if a force in the direction of arrow C is applied to the cover 23, as shown in FIG. 8, only the wire 70 bends, and the force in the direction of arrow C exerts no load on the mechanism for winding the wire 70, that is, the motor 60 or the like. And never.
[0063]
Therefore, even if the winding of the wire 70 is not performed when the display device 30 is rotated to the storage position for some reason such as a failure, as shown in FIG. The cover 23 is moved to the closed position by abutting on the distal end of the cover 23 and pressing toward the closed position.
[0064]
As described in the description of the above embodiment, the rotation of the display device unit 30 may be transmitted by the gear linkage mechanism to rotate the winding shaft 61.
[0065]
FIG. 9 shows a second application example. A small personal computer 10B according to the application example employs a torsion coil spring 52 as a resilient urging means for urging the cover 23 to an open position. Others are the same as the first application example 10A. That is, the coil portion 52a of the torsion coil spring 52 is supported by the housing 21 of the device main body 20, one arm 52b is elastically contacted with the bottom of the housing 21, and the other arm 52c is elastically contacted with the cover 23. Thus, the cover 23 is urged in the direction of arrow B in FIG.
[0066]
FIG. 10 shows a third application example. In the small personal computer 10C according to the application example, a leaf spring 53 is applied as an elastic urging means for urging the cover 23 to the open position. Are the same as the first application example 10A and the second application example 10B. That is, the leaf spring 53 is bent in a substantially inverted “H” shape when viewed from the side, the first half 53 a is supported by the housing 21 of the device main body 20, and the other half 53 b is supported by the cover 23, As a result, the cover 23 is urged in the direction of arrow B in FIG.
[0067]
FIG. 11 shows a fourth application example. In the small personal computer 10D according to this application example, a portion from the winding shaft 61 of the wire 70 to the tip of the cover 23 is defined as a device main body. It is wrapped around a pulley 71 rotatably supported by a housing 21 of 20. In this way, by winding the wire 70 around the pulley 71, the path from the rotating shaft 61 to the tip of the cover 23 can be appropriately set, and the place where the motor 60 can be arranged is restricted, and the winding is performed. Even if the wire 70 cannot be directly extended from the shaft 61 to the tip of the cover 23, the pulley 71 is arranged at an appropriate position to allow the wire 70 to move between the winding shaft 61 and the tip of the cover 23. Can be connected. The number of the pulleys 71 interposed between the winding shaft 61 and the distal end of the cover 23 is not limited to one, but may be plural.
[0068]
FIG. 12 shows a fifth application example. In the small personal computer 10 </ b> E according to this application example, a locking member 90 that rotates with the rotation of the display device unit 30 is provided inside the housing 21 of the device main body 20. A locking claw 91 is formed. On the other hand, a hook 23a is formed at a position near the front end of the lower surface of the cover 23.
[0069]
In the small personal computer 10E, when the use state, that is, the state where the display unit 30 is in the use position and the cover 23 is in the open position, is changed to the non-use state, the upper surface of the cover 23 is indicated by an arrow. While applying a force in the direction D to move the cover 23 to the closing position, the display device 30 is rotated toward the storage position, that is, rotated in the direction of the arrow E. As a result, a state similar to that shown in FIG. 7 is obtained, that is, a state in which the front end of the cover 23 is pressed toward the closed position on the front surface of the display device unit 30, so that the display device unit 30 is directly turned to the storage position. When the display device 30 reaches the storage position, the cover 23 reaches the closing position and the ventilation opening 22 is closed at the same time. The locking member 90 also rotates in the direction of arrow F with the rotation of the display device 30 toward the storage position, and when the display device 30 reaches the storage position, the locking claw 91 of the locking member 90 is moved. The cover 23 is engaged with the hook 23 a of the cover 23, and the cover 23 is held at the closed position by the locking member 90. In addition, a limiter is interposed in the middle of a mechanism for coordinating the rotation of the locking member 90 and the rotation of the display unit 30, and the rotation transmission torque of the limiter is resiliently biased by the urging means (for example, the compression coil spring 51). By setting the biasing force larger than the above, it is possible to prevent breakage of each mechanism and to surely hold the cover 23 at the closed position.
[0070]
When the display device section 30 is rotated from the storage position to the use position when the small personal computer 10E is changed from the non-use state to the use state, the locking member 90 rotates in the direction opposite to the arrow F direction. Then, the engagement between the locking claw 91 and the hook 23a of the cover 23 is released. Therefore, the cover 23 is rotated to the open position by the urging force of the elastic urging means (for example, the compression coil spring 51).
[0071]
FIG. 13 shows a sixth application example. The small personal computer 10F according to this application example is different from the first to fifth application examples in that the opening and closing direction of the cover 23F is reversed. That is, the rear edge of the cover 23F is rotatably supported by the rear edge of the ventilation opening 22 provided on the upper surface of the housing 21 of the device main body 20. Then, the cover 23F is urged toward the open position by the compression coil spring 51, and is turned toward the closed position by the wire 70 wound around the winding shaft 61 of the motor 60.
[0072]
Next, FIGS. 14 to 17 show a second embodiment of the electronic apparatus of the present invention.
[0073]
The electronic device 100 such as a small personal computer includes a device main body 110 and a display device 120. The display device 120 is rotatable at the rear end of the device main body 110, that is, as shown in FIGS. It is configured to move between the storage position and the use position shown in FIGS.
[0074]
The device main body 110 includes a flat box-shaped housing 130 having a flat shape and a somewhat horizontally long rectangle, and various devices and members such as a storage device, an interface, and the like are arranged on the housing 130 in addition to a motherboard. ing. Although not shown, various input / output ports such as a serial port, a parallel port, a PS / 2 port such as a mouse, and a JOG port such as a game controller are provided on the outside of the housing 130. In addition, a removable storage medium such as a flexible disk, a compact disc read only memory (CD-ROM), a compact disc recordable (CD-R), and a compact disc rewriteable (CD-RW) is provided. In addition, mainly the motherboard is mounted with components such as CPU (Central Processing Unit) chips that generate heat as the operation proceeds.
[0075]
The casing 130 of the device main body 110 is roughly divided into three parts. The base 131 has a bottom plate 131a that is slightly oblong in plan view, a front plate 131b that rises upward from the front edge of the bottom plate 131a, and a side that rises upward from the left and right side edges of the bottom plate 131a. The portions 131c, 131c and the rear surface portion 13d rising upward from the rear edge of the bottom plate portion 131a are integrally formed. The side surfaces 131b, 131b are inclined such that the upper edges thereof gradually increase from the front end to the rear end, so that the height of the front surface 131b is lower than the height of the rear surface 131d.
[0076]
The upper surface of the base portion 131 is covered with the tilting surface portion 132 except for a small portion at the rear end. The tilting surface portion 132 has a flat shape and a slightly horizontally long rectangular shape, and cutouts 132a, 132a are formed on both sides of the rear end portion. The tilting surface portion 132 has a front edge portion supported by an upper edge portion of the front portion 131b of the base portion 131 by a hinge member 132b so as to be tiltable in a vertical direction. A number of operation members 141, 141,... Such as operation keys are arranged on the upper surface of the tilting surface 132 to form an operation section 140.
[0077]
The upper surface of the rear end of the base 131 is covered with the tilt cover 133. The tilting cover 133 is formed by integrally forming an upper surface portion 133a extending in a band shape to the left and right in a planar shape, and side surfaces 133b and 133b protruding downward from both left and right edges of the upper surface portion 133a. The edges are connected by a hinge member 133c so as to be tiltable. Further, a large number of ventilation holes 133d, 133d,... Are formed in the upper surface portion 133a.
[0078]
The display unit 120 is formed by supporting a liquid crystal display panel 122 on a flat box-shaped housing 121 and has a planar shape substantially the same size as the planar shape of the device main body 110. On both left and right sides of the base end of the housing 121, supported portions 123, 123 protruding substantially forward and serving as connecting portions with the tilting surface portion 132 are formed. The rear edge of the tilting surface 132 and the supported portions 123, 123 of the display unit 120 are tiltably connected by connecting shafts 124, 124 while being positioned in the notches 132a, 132a of the tilting surface 132. I have. Supporting pieces 125, 125 project further downward (at the use position) from both left and right sides of the base end of the housing 121, and rollers 126, 126 are rotatable on the supporting pieces 125, 125. Supported by The display unit 120 is tiltable with respect to the rear end of the tilting surface 132 between the use position shown in FIGS. 14 and 16 and the storage position shown in FIGS. 15 and 17. In the storage position shown in FIGS. 15 and 17, the display unit 120 is configured such that the display surface 122 a of the liquid crystal display panel 122 faces the upper surface of the device main body 110, that is, the upper surface of the tilting surface 132. In the use position shown in FIGS. 14 and 16, the display surface 122a faces substantially forward while standing up from the rear end of the device main body 110 in the use position shown in FIGS. Although the liquid crystal display panel 122 is shown as a display unit of the display device unit 120, it does not mean that the display unit of the display device unit 120 is limited to the liquid crystal display panel. Other display means, for example, other types of display means such as EL (Electro Luminescence) and a plasma display may be used.
[0079]
A motor fan 150 is disposed inside the device main body 110 at the rear end of the base 131 of the housing 121 as forced exhaust means.
[0080]
When the electronic device 100 is not in use, the display device unit 120 is in the storage position covering the upper surface of the device main body unit 110, the tilting surface portion 132 of the housing 121 is in a substantially horizontal state, and the rotating cover 133 is on the upper surface. The unit 133a is placed on the rear surface of the base end of the housing 121 of the display unit 120 in a substantially horizontal state. The side surfaces 133b and 133b of the tilt cover 133 are in contact with the rear ends of the side surfaces 131c and 131c of the base 131 from outside.
[0081]
When the display device unit 120 is rotated toward the use position from the non-use state, the display device unit 120 rotates about the connection shafts 124 and 124 with the tilting surface 132 of the housing 130. Eventually, the rollers 126 and 126 come into contact with the bottom plate 131a of the housing 130 and roll forward on the bottom plate 131a. As the rollers 126, 126 roll on the bottom plate 131a, the position of the lower end of the display unit 120 is defined. Therefore, as the posture of the display unit 120 rises, the positions of the connection shafts 124, 124 gradually increase. Therefore, the position of the rear end of the tilting surface portion 132 is displaced upward. On the other hand, the front edge of the upper surface 133a of the tilt cover 133 is pushed upward by the rear surface of the housing 121 of the display device unit 120, so that the tilt cover 133 tilts so that the front edge of the upper surface 133a is displaced upward. Go.
[0082]
Then, when the display device section 120 reaches the use position, the tilting surface section 132 is in a state in which the rear end moves slightly upward and is inclined forward and downward, so that when the volume inside the device main body 110 is in the unused state, Increase compared to. Further, since the operation unit 140 is inclined slightly downward, it becomes easy to perform key operations and the like. Further, the tilting cover 133 is rotated until the upper surface portion 133a is close to an upright position, so that the volume of the rear end portion of the device main body 110 where the motor fan 150 is disposed is remarkably compared to when the non-use state. Increase. As described above, the volume inside the device main body 110, that is, the ventilation space when the motor fan 150 is driven increases, so that the cooling efficiency increases.
[0083]
As described above, in the electronic device 100, an excellent cooling effect can be obtained. In addition, since the tilt cover 133 is automatically rotated with the rotation of the display unit 120, the tilt cover 133 is moved to a position where the internal volume of the device main body 110 is increased only when necessary, and cooling is required. When the motor fan 150 is not used, that is, when the motor fan 150 is not used, the motor fan 150 is partially closed, so that foreign matter can be prevented from entering.
[0084]
Further, since the motor fan 150 is located on the rear side of the display unit 120, the operation sound of the motor fan 150 is cut off by the display unit 120.
[0085]
Furthermore, as compared with a mechanism using a display device section that is divided into two parts, a display section and a display section support, and uses a large number of hinge units, the mechanism can be simplified and provided at low cost.
[0086]
It should be noted that the shapes and structures of the respective parts shown in the above-described embodiments are merely examples of the specifics performed when carrying out the present invention, and the technical scope of the present invention is limited by these. It must not be interpreted in a tentative way.
[0087]
【The invention's effect】
As is apparent from the above description, the electronic device of the present invention is an electronic device including a display device unit that is rotatably provided with respect to a device main unit having a component that generates heat. The display unit is configured to rotate between a storage position covering the upper surface of the device main body and a use position rising from the device main body, and a ventilation opening provided on the upper surface of the device main body. And a cover for opening and closing the ventilation opening, wherein the cover is in a state in which the ventilation opening can be opened when the display unit moves to a use position.
[0088]
Therefore, in the electronic device of the present invention, the ventilation opening can be opened only when necessary, that is, only when used, so that it is possible to prevent forgetting to close when it is no longer needed, and to securely close when not in use. And the entry of foreign matter and the like is reliably prevented.
[0089]
According to the invention described in claim 2, an operation unit having operation members such as operation keys is provided on a portion of the upper surface of the device main body portion that is on a front side of a portion supporting the display device portion, Since the ventilation opening is formed at a portion between the operation unit and the display unit and / or at a side portion of the operation unit, the ventilation opening and a cover for opening and closing the ventilation opening obstruct the operation of the operation member. Nor does it hinder the visual recognition of the display surface of the display unit.
[0090]
According to the third aspect of the invention, since the cover has the elastic urging means for urging the cover toward the open position where the ventilation opening is opened, the cover is reliably moved to the open position, It is possible to prevent forgetting to open the ventilation opening during use.
[0091]
According to the invention described in claim 4, a wire connected to the cover and wire winding means for winding the wire are provided, and the wire is wound by the wire winding means so that the cover can be ventilated. Since it is moved to the closing position for closing the ventilation opening, the ventilation opening can be automatically closed. Moreover, since the wire can be bent, even if a force for closing the cover is forcibly applied, no excessive load is applied to the mechanism for opening and closing the cover.
[0092]
According to the invention described in claim 5, since the wire winding means is driven and the wire is wound by moving the display device to the storage position, the display device is not moved to the storage position. When the state is set, the cover is always moved to the closed position.
[0093]
According to the invention described in claim 6, since the cover is moved to the closed position by being pressed by the display device by the movement of the display device to the storage position, the display device is not moved to the storage position. When the state is set, the cover is always moved to the closed position.
[0094]
According to the invention described in claim 7, since a temperature sensor is provided, and the opening angle of the cover is controlled in accordance with a result of temperature detection by the temperature sensor, air cooling is performed by an exhaust amount corresponding to a temperature in the device main body. Air flow rate can be adjusted.
[0095]
According to the invention described in claim 8, the ability level can be selected, and the opening angle of the cover is controlled according to the selected ability level. Since the opening angle of the cover is controlled, the flow rate of the air for cooling can be adjusted by the exhaust amount corresponding to the amount of heat generated due to the difference in the performance level.
[0096]
According to the ninth aspect of the present invention, since the forced exhaust means for forcibly exhausting the air in the device main body from the ventilation opening in the device main body is provided, the air flow for lowering the temperature in the device main body is reduced. Can be effectively produced.
[0097]
Another electronic device according to the present invention is an electronic device including a display device unit rotatably provided with respect to a device main unit having a component that generates heat therein, and includes an upper surface portion of the device main unit. A front end of a portion (hereinafter, referred to as a “tilting surface portion”) of the display device portion located forward of a connection portion with the device main body portion is tiltably connected to a front end portion of a portion other than the tilting surface portion of the device main body portion, The display unit is configured to rotate between a storage position covering the upper surface of the device main unit and a use position rising from the device main unit, and a rotatable roller is provided at a base end of the display unit. In addition, a connecting portion that is connected to the turning end of the tilting surface portion is formed at a position slightly closer to the turning end side from the base end portion, and the tilting surface portion is formed by turning the display device portion to the use position. The tilting end moves upward, and the tilting surface Is oblique, also the roller during rotation to the use position of the display device section, characterized in that the roll with respect to the bottom surface of the main body portion.
[0098]
Therefore, in another electronic device of the present invention, the volume in the device main body during use is increased from the volume in the device main body when not in use by a simple structure, and the air flow rate in the device main body is increased. Thus, the inside of the device body can be effectively cooled.
[0099]
Further, when the display device is rotated to the use position, the roller rolls with respect to the bottom surface of the device main body, so that the operation of lifting the rotation end of the rotation surface can be performed smoothly.
[0100]
Further, since the tilting surface portion is tilted forward and downward in the use state, the operation portion can be easily operated by providing the operating portion on the tilting surface portion.
[0101]
According to the invention as set forth in claim 11, at least a part of the upper surface of the device main body portion on the rear side of the display device portion is opened, and the open portion, that is, the open portion is covered and A movable cover is provided, and the cover is moved upward by moving the display unit to the use position, so that the volume of the portion of the device body unit behind the display unit in the use state further increases. As a result, the cooling effect increases accordingly.
[0102]
Further, when not in use, the cover is closed by moving the display device to the storage position, so that forgetting to close the cover is prevented.
[0103]
According to the twelfth aspect of the present invention, since the forced exhaust means for forcibly exhausting the air in the device main body is disposed substantially below the opening, the air flow for lowering the temperature in the device main body is effectively reduced. Can be produced
[0104]
Further, since the forced exhaust means is disposed on the rear side of the display unit, noise caused by driving of the forced exhaust means is isolated.
[Brief description of the drawings]
FIG. 1 shows a first embodiment of the electronic apparatus of the present invention together with FIG. 2, and is a schematic perspective view showing a use state.
FIG. 2 is a schematic perspective view showing an unused state.
FIG. 3 is a schematic perspective view showing another formation position of a ventilation opening.
FIG. 4 is a flowchart showing a flow of an operation when controlling the degree of opening of the ventilation opening.
5 shows a first application example of the first embodiment together with FIG. 6 to FIG. 8, and FIG. 5 is a schematic side view showing a use state with a part cut away.
FIG. 6 is a schematic side view showing a non-use state with a part cut away.
FIG. 7 is a schematic side view illustrating a state in which the display device unit is pressing the cover toward the closed position, with a part thereof being cut away.
FIG. 8 is a schematic side view showing a state in which the cover is forcibly pushed into the closed position, with a part thereof being cut away.
FIG. 9 is a schematic cross-sectional view of a main part showing a second application example of the first embodiment.
FIG. 10 is a schematic sectional view of a main part showing a third application example of the first embodiment.
FIG. 11 is a schematic sectional view of a main part showing a fourth application example of the first embodiment.
FIG. 12 is a schematic sectional view of a main part showing a fifth application example of the first embodiment.
FIG. 13 is a schematic side view showing a sixth application example of the first embodiment, with a part cut away.
FIG. 14 shows a second embodiment of the electronic apparatus of the present invention together with FIGS. 15 to 17, and is a schematic perspective view showing a use state.
FIG. 15 is a schematic plan view showing an unused state.
16 is a cross-sectional view of the state of use cut along the line XVI-XVI of FIG. 15, and omitting an internal structure.
17 is a cross-sectional view of the unused state cut at the same site as in FIG. 16 and omitting the internal structure.
FIG. 18 is a cross-sectional view of a main part showing an example of a conventional electronic device.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Electronic equipment, 2 ... Device main body part, 3 ... Display device part, 7 ... Operation part, 7a ... Operation key, 8 ... Ventilation opening, 8a ... Cover, 9 ... Motor fan (forced exhaust means), 10A ... Small Personal computer (electronic device), 20: device body, 22: ventilation opening, 23: cover, 30: display device, 40: operation unit, 51: compression coil spring (elastic biasing means), 61: winding Shaft (wire winding means), 70: wire, 80: motor fan (forced exhaust means), 10B: small personal computer (electronic device), 52: torsion coil spring (elastic biasing means), 10C: small personal Computer (electronic device), 53: leaf spring (elastic biasing means), 10D: small personal computer (electronic device), 10E: small personal computer (electronic device), 10F: small Personal computer (electronic device), 23F cover, 100 electronic device, 110 device main body, 120 display device portion, 123 supported portion (connecting portion), 126 roller, 132 tilting surface portion, 133 Tilt cover (cover), 150 ... motor fan (forced exhaust means)

Claims (12)

An electronic device including a display device unit rotatably provided with respect to a device main unit having a component with heat generation therein,
The display device is configured to rotate between a storage position covering the upper surface of the device main body and a use position rising from the device main body,
A ventilation opening provided on the upper surface of the device body,
With a cover that opens and closes the ventilation opening,
The electronic device, wherein the cover is in a state where the ventilation opening can be opened when the display device moves to a use position. An operation unit provided with operation members such as operation keys is provided on a portion of the upper surface of the device main body that is on the front side of a portion supporting the display device unit,
2. The electronic apparatus according to claim 1, wherein the ventilation opening is formed in a portion between the operation unit and the display unit and / or a side portion of the operation unit. 3. 2. The electronic apparatus according to claim 1, further comprising: a resilient urging unit that urges the cover toward an open position where the ventilation opening is opened. A wire connected to the cover and wire winding means for winding the wire,
4. The electronic apparatus according to claim 3, wherein the cover is moved to a closing position for closing the ventilation opening by winding the wire by a wire winding unit. The electronic apparatus according to claim 4, wherein the wire winding means is driven by moving the display unit to the storage position, and the wire is wound. 4. The electronic apparatus according to claim 3, wherein the cover is moved to a closed position by being pressed by the display device by the movement of the display device to the storage position. 2. The electronic device according to claim 1, further comprising a temperature sensor, wherein an opening angle of the cover is controlled according to a result of temperature detection by the temperature sensor. The ability level can be selected,
The electronic device according to claim 1, wherein an opening angle of the cover is controlled according to the selected ability level. 2. The electronic apparatus according to claim 1, further comprising a forced exhaust unit for forcibly exhausting the air in the apparatus main body from the ventilation opening in the apparatus main body. An electronic device including a display device unit rotatably provided with respect to a device main unit having a component with heat generation therein,
The front end of a portion (hereinafter, referred to as a “tilting surface portion”) of the upper surface portion of the device main body portion that is located forward of a connection portion of the display device portion with the device main body portion is a portion other than the tilting surface portion of the device main body portion It is tiltably connected to the front end,
The display unit is configured to rotate between a storage position covering the upper surface of the device main unit and a use position rising from the device main unit, and a rotatable roller is provided at a base end of the display unit. Also, a connecting portion that is connected to the turning end of the tilting surface portion is formed at a position slightly closer to the turning end side than the base end,
When the display device rotates to the use position, the tilt end of the tilting surface moves upward, the tilting surface tilts slightly forward, and the roller is rotated when the display device rotates to the use position. The electronic device rolls with respect to the bottom surface of the device main body. At least a portion of the upper surface of the device main body portion on the rear side of the display device portion is opened, and a cover that covers the open portion, that is, the open portion and that is movable in the vertical direction is provided,
The electronic device according to claim 10, wherein the cover is moved upward by moving the display device to a use position. 12. The electronic device according to claim 11, wherein a forced exhaust unit for forcibly exhausting air in the device main body is disposed substantially below the opening.

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