TWI361970B - - Google Patents

Description

1361970. EMBODIMENT OF THE INVENTION The present invention relates to an electronic device such as a notebook type personal computer having a hinge that allows the display unit to be rotatable. [Prior Art] A personal computer of the notebook type has a hinge portion that allows the display portion on the LCD (Liquid Crystal Display) side to be rotatable with respect to the main body portion on the keyboard side. For example, a power switch is provided at one side end of the hinge portion, and a connector for a power supply connection terminal is provided at the other side end. This connector is a housing that is attached to the display side (for example, refer to Patent Document 1). [Patent Document 1] Japanese Laid-Open Patent Publication No. 2005- 1 28 8 05 (paragraph [0141], FIG. 24) [Problems to be Solved by the Invention] However, in the technique of Patent Document 1, When the user opens and closes the display unit to the main body, the connector provided on the display unit also rotates integrally with the display unit. Therefore, there is a problem that a load in the hinge portion is applied to a wire such as a cable wire connected to the connector. In view of the above circumstances, an object of the present invention is to provide an electronic device including a connector portion that does not impair the design of the pattern and does not rotate due to opening and closing of the display portion (5-15361970) An electronic device according to the invention includes an electronic device body portion, a display portion, a hinge portion, a housing portion, a connector portion, and a cap member. The display unit is electrically connected to the electronic device body unit. In the hinge portion, the display unit is rotatably coupled to the main body portion of the electronic device. The accommodating portion houses the hinge portion. The connector portion is provided at one end of the hinge portion of the housing portion in the rotation axis direction, and has a connection portion that can connect the external terminals. The cap member is rotatably integrally rotatable with the display portion, and surrounds the connector portion except the connecting portion. In the present invention, since the connector portion is provided at one end portion of the hinge portion of the accommodating portion in the rotational axis direction, the display portion can prevent the connector portion from rotating even if it is rotated. Since the cap member is rotatably integrally formed with the display portion, the cap member is integrally rotated with the display portion when the display portion is rotated with respect to the electronic device body portion. As a result, the user can see that the connector portion rotates integrally with the cap member to prevent detrimental pattern design. Further, a wiring that is connected to the connector portion in the housing portion may be provided. Thereby, even if the display portion rotates with respect to the electronic device body portion, since the connector portion does not rotate, it is possible to prevent the load from being applied to the wiring. The hinge portion includes a tubular member through which the second wiring that connects the electronic device body portion and the display portion is inserted, and is rotatably coupled to the tubular portion -6 - 1361970 03⁄4, and one end is fixed to the hinge portion The connecting portion of the display portion may be used. Thereby, even if the display portion rotates with respect to the electronic device main body portion, the connecting portion rotates integrally with the display portion for the tubular member. As a result, the load applied to the wiring can be surely reduced at the time of the rotation of the display portion. The hinge portion includes a plurality of hinge mechanisms provided at both end portions of the back surface of the electronic device main body portion, and the storage portion may integrally accommodate the plurality of hinge mechanisms. Thus, the display portion can be surely rotatable It is freely provided on the main body of the electronic device. The electronic device body portion and the cap member may be separated. Thereby, the connector portion is integrally provided with the display portion, and the display portion can be clearly displayed. When the display portion is rotated about the electronic device body portion, the state in which the cap member is rotated allows the user to easily display the result, and the display portion is displayed on the display portion. When the rotation is made, the user can see that the connector portion is rotated and the connector portion can be stably arranged. The display unit has an annular portion that is led out from the display unit and is disposed apart from an outer circumferential surface of the connector portion, and the cap member is provided in the connector portion via the annular portion, and the sliding member is It may be located between the outer peripheral surface of the connector portion and the inner peripheral surface of the annular portion. Thereby, since the sliding member is positioned between the outer peripheral surface of the connector portion and the inner peripheral surface of the annular portion, the outer peripheral surface of the connector portion and the inner peripheral surface of the annular portion can be prevented from being rotated during the display portion. The friction caused by the friction, and 1361970 can reinforce the connector. Further, the power supply button that is provided integrally with the display portion and that has a pressing surface for the user, is provided at the other end of the accommodating portion, and the power button is surrounded by the pressing surface. A switch cap member that can rotate integrally with the display portion may be used. Thereby, when the display unit is rotated to the electronic device main body portion, the cap member of the connector portion and the switch cap member of the power switch can be rotated integrally with the display portion. That is, it is possible to prevent damage to the style design. [Effects of the Invention] As described above, according to the present invention, it is possible to provide an electronic device including a connector portion that does not impair the design of the pattern and does not rotate due to opening and closing of the display portion. [Embodiment] Hereinafter, embodiments of the present invention will be described based on the drawings. In the present embodiment, the electronic device is an example of a personal computer of a notebook type. Fig. 1 is a perspective view showing a state of an opening of an electronic device according to an embodiment of the present invention, and Fig. 2 is a perspective view showing a state in which the electronic device shown in Fig. 1 is closed. The electronic device 1 includes a display unit 2, a main body unit 3, and a hinge connecting portion 4 -81-3361970 in which the display unit 2 and the main body unit 3 are rotatably coupled, and the display unit 2 is interposed therebetween. 4 The main body portion 3 can be opened and closed. The display unit 2 includes a housing 5 including a display unit 2, a display surface 6, and a display processing unit (not shown) that performs display processing in the housing 5. The casing 5 is an external equipment component of the display unit 2 that houses a display processing unit (not shown). The display surface 6 is opposite to the main body unit 3 in a state in which the information display screen is closed. The main body portion 3 is a member including a housing 7 of the main body portion 3, a keyboard unit 8, a central processing unit (not shown), and a hard disk device (not shown). The casing 7 is an external equipment component of the body portion 3. The keyboard unit 8 • ' is a function of an input unit of the electronic device 1 including, for example, a plurality of buttons. The central processing unit is a multilayer printed circuit board that is mounted in the housing 7. The central processing unit receives various types of processing such as input signals from the keyboard unit 8, calculation processing, control processing, image processing, and output processing to the display unit 2, and functions as a substantial functional function of the electronic device 1. . The hinge connecting portion 4 includes a DC socket portion 10, a power switch 11, and a hinge housing portion 12 provided integrally with the main body portion 3. The DC socket portion #10' is a left end that is disposed in the axial direction of the hinge coupling portion 4 (Y direction in Fig. 1). The power switch 11 is disposed at the right end of the hinge connecting portion 4 in the axial direction (Y direction of Fig. 1). Fig. 3 is a partial perspective view of the vicinity of the DC jack portion 10 of the electronic device 1 shown in Fig. 1. The DC socket portion 10 is an end portion disposed on the back side of the main body portion 3. The DC socket portion 10 includes an external equipment component, that is, a cap member -9-1361970 15, and a DC jack connector portion 16 housed in the cap member 15. The cap member 15 has a cap shape. In the side surface 51 of the cap member 15, an opening 17 having a substantially circular shape is formed. The DC jack connector portion 16 is such that its connection terminal connecting portion 14 is exposed from the opening 17. A connection terminal for power supply (not shown) is connected to the connection terminal connecting portion 14. The hinge housing portion 12 is formed in a substantially cylindrical shape. The diameter of the hinge receiving portion 12 is slightly the same as the diameter of the cap member 15. Thereby, the style design can be improved. Fig. 4 is a partial perspective view of the vicinity of the DC jack portion 10 of the electronic device 1 shown in Fig. 1. The DC socket portion 10 is provided separately from the main body portion 3. That is, a gap G is formed between the DC socket portion 1A and the body portion 3. In particular, as shown in Fig. 4, in a state where the display unit 2 is opened to the main body portion 3, the user can easily see the gap G. When the user opens and closes the display unit 2 with respect to the main body unit 3, the cap member 15 rotates in the same manner as the display unit 2. At this time, the DC jack connector portion 16 in the cap member 15 does not rotate integrally with the cap member 15, but remains fixed to the main body portion 3 without rotating. Fig. 5 is a partial perspective view showing a state in which the cap member 15 of the DC socket portion 10 of the electronic device 1 is removed, and Fig. 6 is a cross-sectional view taken along line A-A of the electronic device 1 shown in Fig. 3. The hinge housing portion 12 has a cylindrical shape. The hinge housing portion 12 is formed by combining the outer equipment component parts on the upper surface side of the main body portion 3, that is, the palm portion 21, and the outer equipment components on the bottom surface side of the main body portion 3. In the hinge housing portion 12, a plurality of cable wires 23 are mounted. These cable wires 23 are inserted into the hinge mechanism portion 25 of the hinge - 10 · 1361970 as shown in Fig. 6. The hinge mechanism portion 25' is housed in the hinge housing portion 12. The hinge mechanism portion 25 includes a tubular member 26, a main body side connecting member 27, and a display portion side connecting member 28. The tubular member 26 has a cylindrical shape. The tubular member 26 is a through hole 29 in which a plurality of cable wires 23 are inserted and integrated. The cable wires 23 are connected to the respective portions of the main body portion 3, and are inserted through the through holes 29, and are connected to the respective portions on the display unit 2 side. One end portion of the main body side connecting member 27 is fixed to the outer case bottom 22, for example. A through hole 30 into which the tubular member 26 is inserted is formed at the other end portion of the main body side connecting member 27. The main body side connecting member 27 is a predetermined position in which the tubular member 26 is placed in the hinge housing portion 12. The display unit side connecting member 28 is formed with a through hole 31 as shown in Fig. 6 . The tubular member 26 is inserted into the through hole 31 of the display unit side connecting member 28. The display unit side connecting member 28 is fixed to the display unit 2 side. The display unit side connecting member 28 is rotatable toward the periphery of the tubular member 26 integrally with the display unit 2 in accordance with the rotation of the display unit 2. That is, the display unit 2 is rotatable with respect to the main body portion 3 with the rotation axis Y of the hinge mechanism portion 25 as an axis. As shown in FIG. 6, the DC socket portion 10 includes a cap member 15, a DC socket connector portion 16, and a slide member 33. The cap member 15 surrounds the DC jack connector portion 16 except for the connection terminal connecting portion 14. The cap member 15 is a top cover 35 and a panel 36 that are fixed to the display unit 2. An annular portion 94 that surrounds a portion of the DC socket connector portion 16 by the top cover 35 and the panel 36 is formed. In other words, the display unit -11 - 1361970 2 is provided with an annular portion 94 that is led out from the display unit 2 and separated from the outer peripheral surface 38 of the DC jack connector portion 16 as shown in Fig. 5 of Fig. 5 . The cap member 15 is provided in the DC jack connector portion 16 via the annular portion 94. The connection terminal connecting portion 14 of the DC jack connector portion 16 is exposed from the opening 17 of the cap member 15 to the outside. The DC jack connector portion 16 is fixed to the case bottom portion 22. The DC power supply wiring (not shown in Fig. 6) and the ground wiring 43 are pulled out from the DC jack connector portion 16. The slide member 33 is provided between the outer peripheral surface 38 of the DC jack connector portion 16 and the inner peripheral surface 39 of the top cover 35 as shown in Fig. 6. The coefficient of friction of the sliding member 3 3 is smaller than the coefficient of friction of, for example, the top cover 35 and the panel 36. The structural material of the sliding member 33 is, for example, a POM polyacetal which is excellent in fatigue resistance and abrasion resistance. Polyacetal is a crystalline resin having a balance of mechanical properties, and is particularly excellent in fatigue resistance. It has excellent properties such as resistance to friction, drift resistance, and dimensional stability. The temperature range that can be used is very wide (for example, _ 4 0 . . . + + 1 5 0. (:). Fig. 7 is a six-sided view of the DC jack connector portion 16. Fig. 7 (A) to (F) The plan view, the left side view, the front view, the right side view, the rear view, and the bottom view of the DC jack connector portion 16 are not shown.

The DC jack connector portion 16 is provided with terminals 41 and 42 as shown in Fig. 7(a). The terminal 41' is connected to, for example, the ground wiring 43. The terminal 42' is connected to the power supply wiring 44. As shown in Fig. 7(b), a connection terminal connecting portion 14 into which a DC-12-1361970 terminal can be inserted is formed in the side surface 45 of the DC jack connector portion 16. As shown in Fig. 7 (B) to (E), the terminals 41 and 42 are set to different heights so that the ground wiring 43 and the power supply wiring 44 do not intersect each other. Fig. 8 is a cross-sectional view taken along line B-B of the cap member 15 covering the DC jack connector portion 16 and a right side view. Fig. 8(A) to Fig. 8(G) are respectively a plan view, a left side view, a front view, a right side view, a rear view, a bottom view, and a B-B sectional view of the right side view of the cap member 15. The cap member 15 has an opening 17 formed in the side surface 51 as shown in Figs. 8(B) and (D). The diameter of the opening 17 is not particularly limited as long as the connection terminal for power supply can be connected to the DC jack connector portion 16, and can be appropriately changed, for example, according to the design of the pattern. In the side peripheral surface 52 of the cap member 15, an opening 53 is formed. The diameter of the opening 17 is smaller than the diameter of the opening 53. In the cap member 15, as shown in Fig. 8(G), a space K in which the DC socket connector portion 16 can be accommodated is formed. The side surface 51 is recessed from the side peripheral surface 52 of the cap member 15 toward the center of the side peripheral surface 52 toward the space K. In the side peripheral surface 52, a notch 55 is formed. FIG. 9 is a six-side view of the hinge mechanism portion 25 of the electronic device 1. Fig. 9 (A) to (F) are each a plan view, a left side view, a front view, a right side view, a rear view, and a bottom view of the hinge mechanism portion 25. The tubular member 26 has a cylindrical shape as shown in Figs. 9(B) and 6 and has a through hole 29 formed therein. In the tubular member 26, the main body side connecting member 27 and the display unit side connecting member 28 are rotatably coupled to the rotating shaft Y shown in Fig. 9(C) as a rotating shaft. The main body side connecting member 27 is fixed to the main body portion 3 side by a plurality of holes 57 shown in Fig. 9(A). The main body side connecting member 27 has a step portion 47 as shown in Fig. 9(B). Further, the number and position of the holes 57, the shape of the step portion 47, and the like can be appropriately changed in accordance with the shape of the main body portion 3. The display unit side connecting member 28 is fixed to the display unit 2 side by a plurality of holes 58 shown in Fig. 9(C). Fig. 10 is a cross-sectional view of the power switch 11 of the electronic device 1. The power switch 11 includes a switch cap member 61 provided with an annular light-emitting portion 70, a power button 62, an optical diffusion sheet 63, a diffusion lens 64, a SW substrate holder 65, an LED 100, a diffusion sheet 101, and a transparent light guide 102. These components are combined to form. Fig. 11 is a six-side view of the switch cap member 61 of the power switch 11, and a C-C cross-sectional view of the right side view of the switch cap member 61. Fig. 1 (a) to (G) are front view, left side view, bottom view, right side view, plan view and rear view of the switch cap member 61. The switch cap member 61 has a side surface 66 and a side peripheral surface 67. In the side surface 66, a through hole 68 having a substantially circular shape is formed as shown in Fig. 11(B). The switch cap member 61 is formed with a space S in which the power button 62 or the like can be housed as shown in Fig. 11(G). The side surface 66 is recessed from the side peripheral surface 67 of the switch cap member 61 toward the center of the side surface 66 toward the space S. In the side peripheral surface 67, a notch 69 is formed. In the side peripheral surface 67, an annular light-emitting portion 70 is formed. The annular light-emitting portion 70 is formed in a ring shape in the switch cap member 61 as shown in Fig. 1 . The annular light-emitting portion 70 is disposed on the side peripheral surface 67 so as to straddle the entire circumference. The structural material of the annular light-emitting portion 70 is, for example, a transparent member. The light that is emitted in the space S by the LED described later is irradiated to the outside of the switch cap member 61 by the ring-14-1361970-like light-emitting portion 70. FIG. 12 is a power button 62 of the power switch π of the electronic device 1. Six-sided picture. Fig. 12 (Α) to (F) are a front view, a plan view, a left side view, a bottom view 'right side view, and a rear view of the power button 62, respectively. The power button 62 includes a disk-shaped base portion 71, a convex portion 72 projecting from the disk-shaped base portion 71, and a plurality of projections 73. The outer diameter of the base portion 71 is larger than the outer diameter of the convex portion 72. The φ convex portion 72' has a pressing surface 74 pressed by the user as shown in Fig. 12(Β). The protruding portion 73' protrudes from the bottom surface 75 of the base portion 71 toward the side opposite to the convex portion 72 side. The plurality of protrusions 73 are separated from each other in the diameter of the base portion "71 as shown in Fig. 2(D). The diameters of the projections 73 are different from each other. As shown in Fig. 12(D), the display power button 62 is a symbol (mark) of the power switch, and is provided on the bottom surface 75 of the base portion 71. Therefore, when the LED described later emits light, the symbol (mark) Μ of the power button 62 is irradiated, and the symbol (mark) Φ Μ illuminates from the side of the pressing surface 74 of the power button 62. Figure 13 is a side view of the optical diffusion sheet 63 of the power switch 11 and a plan view. The optical diffusion sheet 63 has a substantially circular plate shape and is attached to the bottom surface 75 of the power button 62. The optical diffusion sheet 63 is a notch 75 having a concave shape at a position corresponding to the projection 73. The optical diffusion sheet 63 diffuses light incident from the LED side to be described later. Further, the shape of the notch 75 may be the same shape, and different shapes may be used. Fig. 14 is a six-side view of the diffusion lens 64 of the power switch 11. Figs. -15 - 1361970 14 (A) to (F) are a front view, a plan view, a left side view, a bottom view, a right side view, and a rear view of the diffusion lens 64. The diffusion lens 64 includes a base portion 81 that is formed in a substantially circular plate shape, and a protruding portion 82 that protrudes from the vicinity of the outer peripheral edge of the base portion 81. The diffusion lens 64' is composed of a milky white resin material containing, for example, a diffusing material that diffuses light. The projection 82 is provided at a position facing the switch 95 mounted on the SW substrate 90 as shown in Fig. 10. The diffusion lens 64 is a hook portion 83 for fixing to the SW substrate holder 65 as shown in Figs. 14(B) and (D). The hook portion 83 protrudes toward the opposite side in a manner of holding the center of the diffusion lens 64. The hook portion 83, is a SW substrate holder 65 that is fitted to the tenth figure. As shown in Fig. 10, the surface 81a of the diffusion lens 64 and the surface 83a of the SW substrate holder 65 are located in the same plane. The diffusion lens 64' has a function as a light guide plate and a diffusion plate which are diffused from the light emitted from the LEDs 97 and 98 to be described later and guided to the power button 62 side. Fig. 15 is a six-side view of the SW substrate holder 65 holding the SW substrate of the power switch 11. 15(A) to 15(F) are a front view, a left side view, a bottom view, a right side view, a rear view, and a plan view, respectively, of the SW substrate holder 65. The SW substrate holder 65 is a SW substrate as shown in FIG. 90 is held, and the diffusion lens 64 and the power button 62 are elastically held. The material of the SW substrate holder 65 is a milky white resin material or the like which contains a diffusing material that disperses, for example, light. The SW substrate holder 65 is provided with an annular holding portion 83, an elastic supporting portion 84, an SW substrate holding portion 85, and a supporting portion 86, and these portions are integrally formed. -16- 1361970 The annular holding portion 83' has a ring shape as shown in Fig. 15(D). In the annular holding portion 83, a through hole 91 capable of holding the diffusion lens 64 shown in Fig. 14 is formed. The diffusion lens 64 is fitted to the through hole 91, and the diffusion lens 64 is fixed to the annular holding portion 83. In the annular holding portion 83, a plurality of through holes 92 are formed at positions corresponding to the plurality of projections 73 of the power button 62 shown in Fig. 12. The plurality of through holes 92 are inserted into the plurality of projections 73 shown in Fig. 12, and the power button 62 is fixed to the annular holding portion 83. The diameter of these through holes 92 differs depending on the diameter of the projections 73. The elastic support portion 84 has a curved shape. The elastic support portion 84 is integrally fixed to the annular holding portion 83 and the support portion 86. The elastic supporting portion 84' elastically supports the annular holding portion 83. In other words, the elastic support portion 84 is elastically supported by the power button 62, the diffusion lens 64, and the annular holding portion 83 as shown in Fig. 10 . Specifically, the elastic support portion 84 is a way in which the power button 62 is recessed in the Y direction when the user presses the pressing surface 74 of the power button 62, and returns to the initial position when the user does not press the pressing surface 74. The holding portion 83 is elastically supported. For example, when the user presses the pressing surface 74 of the power button 62, the elastic supporting portion 84 is elastically deformed. At this time, the protruding portion 82 is pressed by the switch 95 which is mounted on the SW substrate 90 shown in Fig. 1 . The SW substrate holding portion 85 has a pair of arm shapes that hold the SW substrate 90 as shown in Fig. 15(B) from both sides. The support portion 86' supports the SW substrate holding portion 85 and the elastic support portion 84. -17- 1361970 In the light-emitting portion 104, as shown in Fig. 10, the support portion 86 and the transparent light guide body 102 are screwed at different positions. The transparent light guide body 102 is disposed so as to correspond to the inner peripheral surface side of the annular light-emitting portion 70. The LED 100 is fixed to the transparent light guide 102's LED 100 and is provided in the vicinity of a position corresponding to, for example, the center point of the diffusion lens 64. The LED 100 is illuminated toward the side opposite to the power button 62 side in the direction of the arrow shown in Fig. 10. That is, the LED 100 emits light in a direction opposite to the direction in which the LEDs 97 and 98 emit light. The diffusion sheet (optical sheet) 101 is fixed to the SW substrate holder 65 in parallel with, for example, the SW substrate 90. As shown in Fig. 10, the light emitted from the LED 100 is irradiated toward the side opposite to the power button 62 side, passes through the transparent light guide 102 and the annular light-emitting portion 70, and enters the diffusion sheet 101. The light incident on the diffusion sheet 101 is diffused by the diffusion sheet 101. The light diffused by the diffusion sheet 101 is incident on the annular light-emitting portion 70 through, for example, the transparent light guide 102, and is irradiated to the outside. On the surface of the SW substrate 90 on the power button 62 side, as shown in Fig. 10, LEDs 97 and 98 and a switch 95 are mounted. The LEDs 97, 98 can emit light of different colors toward the diffusion lens 64. For example, one of the LEDs 97 emits green light, and the other LED 98 emits red (orange) light. Further, the number of the LEDs 97 and 98 and the luminescent color are not particularly limited. The light emitted from the LEDs 97, 98 is diffused by the diffusion lens 64, and the diffused light is incident on the optical diffusion sheet 63. The light incident on the optical diffusion sheet 63 is diffused by the optical diffusion sheet 63, and is irradiated to the outside of the power source by the power button 62 toward the power source -18-1361970 button 62. The switch 95 is switched in contact with the protrusion 82 in an on/off state. According to the present embodiment, the DC socket connector portion 16 is disposed at one end portion of the housing bottom portion 22 in the rotation axis direction (Y direction of Fig. 6) of the hinge mechanism portion 25 of the hinge housing portion 12. Further, the cap member 15 is provided to be rotatable integrally with the display unit 2. Therefore, even if the display portion 2 is rotated, the DC jack connector portion 16 can be prevented from rotating. When the display portion 2 is rotated about the main body portion 3, the cap member 15 is integrally rotated with the display portion 2. As a result, the user can see that the DC jack connector portion 16 is integrally rotated with the same cap member 15 to prevent the loss of pattern design. Further, when the display unit 2 of the main body unit 3 is rotated, the load applied to the ground wiring 43 and the power supply wiring 44 connected to the DC jack connector unit 16 can be reduced. The hinge mechanism portion 25 is provided with a tubular member 26 that allows the cable portion 2 3 that connects the main body portion 3 and the display portion 2 to be inserted, and that is rotatably coupled to the tubular member 26 and that is fixed at one end. The display unit side connecting member 28 of the display unit 2 and the main body side connecting member 27 that is coupled to the tubular member 26 and whose one end is fixed to the main body portion 3 are provided. Thereby, even if the display unit 2 rotates with respect to the main body unit 3, the display unit side connecting member 28 rotates integrally with the display unit 2 with respect to the tubular member 26. As a result, the load applied to the distribution cable 23 can be surely reduced at the time of the rotation of the display unit 2. The hinge mechanism portion 25 is a plurality of end portions provided in the hinge housing portion 12 of the back surface of the main body portion 3. Thereby, the display unit 2 can be reliably rotated with respect to the main body portion 3. -19- 1361970 The main body portion 3 and the cap member 15 are formed separately as shown in Fig. 4 . Since the 'DC socket connector portion 16 is integrally provided with the display unit 2, it can be more clearly understood that when the display unit 2 is rotated about the main body portion 3, the user can easily understand how the cap member 15 rotates. As a result, the user can see that the DC connector connector portion 16 is rotated and the DC jack connector portion 16 can be stably disposed when the display portion 2 is rotated. The sliding member 33 is positioned between the outer circumferential surface 38 of the DC socket connector portion 16 and the inner circumferential surface 39 of the annular portion 94. Thereby, abrasion of the top cover 35, the panel 36, and the like caused by the friction between the outer circumferential surface 38 of the DC socket connector portion 16 and the inner circumferential surface 39 of the annular portion 94 can be prevented during the rotation of the display portion 2, and The DC jack connector portion 16 is reinforced. When the display unit 2 rotates the main body unit 3, the DC jack connector unit 16 does not rotate. Therefore, when the connection terminal for power supply (not shown) is connected to the connection terminal connecting portion 14, the connection to the power supply can be reduced. The load of the cable to which the terminal is connected. Further, when the connection terminal for supplying power to the connection terminal connecting portion 14 has a shape of, for example, an L-shaped connector, the L-shaped connector can be prevented from rotating together with the opening and closing of the display unit 2. As a result, the load of the cable to be connected to the L-shaped connector can be reduced. The hinge mechanism portion 25 can be inserted into the through hole 29 or the like by providing the tubular member 26, and when the electronic device 1 is manufactured, assembly can be prevented. By providing the tubular member 26, the hinge mechanism portion 25 can be hinged and simplifies the path of the cable 23 from the display unit 2 side.

1361970 Achieve the efficiency of space. The electronic device 1 is provided with a power switch 1 1 at an end portion on the opposite side of the DC jack of the hinge housing portion 12. The power switch 11 is rotatably movable with the display unit 2. The power switch 11 is a switch cap member 61 which is provided with a power button 62 that can be rotatably coupled to the display unit 2 and a button 62 that is surrounded by the pressing surface 74 and that is rotatable with the display body. Thereby, when the body portion 3 of the display unit 2 is rotated, the cap member 15 of the DC jack connector portion 16 and the switch cap member 61 of the switch 11 can be integrally rotated with the display portion 2, and the design of the pattern can be prevented from being impaired. The power switch 11 is provided with a transparent light guide 102, and the transparent 102 is provided with an LED 100. The support portion 65 is provided with a diffusion sheet (sheet) 101. The shutoff cap member 61 is provided with an annular light emitting portion 70. When the LED 100 emits light, the light emitted from the LED 100 is irradiated on the opposite side to the side of the electricity 62, and the transparent light guide 102 passes through the ring 70 and enters the diffusion sheet 101 and is diffused by the diffusion sheet 101. The light that has been diffused by 1〇1 is incident on the annular light-emitting portion 70 through the transparent light guide, and is irradiated toward the outside. As a result, with the transparent light guide 102, the annular light-emitting portion 70 can be made of high luminance, and since the diffusion sheet (optical sheet) 101 is provided, the brightness can be increased. [First Modification] Next, an example of a DC socket portion according to a first modification will be described. On the S 10 side, it is set to: Set the power supply unit 2 to the power supply. That is, the light guide body is optically thin, and therefore, the light source of the source button is diffused. 102, by use of light. The same components as those of the above-described embodiment are denoted by the same reference numerals, and the description thereof will be omitted, and only the differences will be mainly described. Fig. 16 is a partial perspective view showing the vicinity of the Dc socket of the electronic device according to the first modification. The electronic device 1A according to the first modification of the present invention includes a display unit 2A and a main body unit 3A. The display unit 2A is provided to be rotatable (opening and closing) with respect to the main body unit 3A via the hinge connecting portion 4A. The hinge connecting portion 4A is fixed to the main body portion 3A. The DC jack connector portion 16A of the DC jack portion 10A is fixed to the hinge joint portion 4A cap member 15A and is fixed to the display portion 2A. A gap GA is formed between the body portion 3A and the DC cap 15A. As described above, the same effect as the above-described embodiment can be obtained by the notebook type personal computer designed in the same manner as the above-described embodiment. [Second Modification] FIG. 17 is a DC of the electronic device according to the second modification. A partial perspective view of the vicinity of the socket. The electronic device 1B according to the second modification of the present invention includes the display unit 2B' and the main body portion 3B. The display unit 2B is provided to be rotatable (opening and closing) with respect to the main body portion 3B via the hinge connecting portion 4B or the like. A hinge connecting portion 4B is fixed to the main body portion 3B. The hinge connecting portion 4C is fixed to the display portion 2B. The end portion 10B is provided with, for example, a connector portion 16A cap member 15B, and is fixed to, for example, the display portion 2B side. Further, the cap member 15B may be fixed to the main body portion 3B side. In this way, the notebook type -22- 1361970 personal computer designed in other styles can also obtain the same effects as the above embodiment. The present invention is not limited to the embodiments and modifications described above, and various modifications can be made. In the above embodiment, the 'DC socket connector portion 16 is an example of being disposed at the end portion of the casing bottom 22 which constitutes the display body portion 3. However, the DC jack connector portion 16 may be disposed on another member constituting the main body portion 3 side. According to this configuration, the DC jack connector portion 16 can be prevented from rotating during the rotation of the display unit 2, and the load on the power supply wiring 44 and the ground wiring 43 can be reduced. [Brief Description of the Drawings] [Fig. 1] Fig. 1 is a perspective view showing a state of an opening of an electronic device according to an embodiment of the present invention. [Fig. 2] A perspective view showing a state in which the electronic device shown in Fig. 1 is closed. # [Fig. 3] A partial perspective view of the vicinity of the DC jack of the electronic device shown in Fig. 1. Fig. 4 is a partial perspective view of the vicinity of a DC socket portion of the electronic device shown in Fig. 1. [Fig. 5] A partial perspective view showing a state in which the cap of the DC socket portion of the electronic device is removed. [Fig. 6] A-A cross-sectional view of the electronic device shown in Fig. 3. [Fig. 7] A six-sided view of the body portion of the DC jack. [Fig. 8] A six-side view of the cap covering the main body of the DC jack and a cross-sectional view taken along line B-B of the right side view -23-1361970. [Fig. 9] A six-side view of the hinge mechanism portion of the electronic device. [Fig. 10] A cross-sectional view of a power switch of an electronic device. [Fig. 1 1] A six-side view of the cap of the power switch and a C-C cross-sectional view of the right side view of the cap. [Fig. 12] A six-side view of the power button of the power switch of the electronic device. _ [Fig. 13] Side view and plan view of the optical diffusion sheet of the power switch 〇 [Fig. 14] Six-side view of the diffusion lens of the power switch. [Fig. 15] A six-side view of the SW substrate holder holding the SW substrate of the power switch. [Fig. 16] A partial perspective view of the vicinity of a DC socket portion of an electronic device according to a first modification. [17] A partial perspective view of the vicinity of the DC socket portion of the electronic device according to the second modification. [Description of main component symbols] Y : Rotary axis 1 : Electronic device 1A : Electronic device 1B : Electronic device 2 : Display unit 2A : Display unit 2B : Display unit - 24 - 1361970 3 : Main body 3A : Main body 3B : Main body 4 : Hinge connection portion 4A : Hinge connection portion 4B : Hinge connection portion 4C : Hinge connection portion _ 5 : Frame 6 : Display surface - 7 : Frame. 8 : Keyboard assembly 1 0 : DC socket portion 1 0A : DC socket Portion 10B: End portion 1 1 : Power switch # 12 : Hinge housing portion 14 : Connection terminal connecting portion 1 5 : Cap member 1 5 A : DC cap 1 5 A : Cap member 1 5 B : Cap member 16: DC socket connection Portion 16A: DC socket connector unit 1 7 : Opening □ -25- 1361970 21 : Palm portion 22 : Housing bottom 23 : Cable connection 25 : Hinge mechanism 2 6 : Cylindrical part 2 7 : Main body side connection Member 2 8 : Display portion side connecting member 2 9 : Through hole 3 0 : Through hole 3 1 : Through hole 3 3 : Sliding member 35 : Top cover 3 6 : Panel 38 : Outer peripheral surface 39 : Inner peripheral surface 41 , 42 : Terminal 43 : Ground wiring 44 : Power supply wiring 4 5 : Side surface 47 : Step portion 5 1 : Side surface 5 2 : Side peripheral surface 5 3 : Opening □ 55 : Notch -26 - 1361970 Hole switch Cap member power button optical diffusion sheet diffusion lens SW substrate holder side peripheral surface through hole notch annular light emitting portion base convex portion protruding portion pressing surface bottom surface base portion: surface protruding portion annular holding portion: surface elastic supporting portion SW substrate holding portion supporting portion -27- 1361970 90 : SW substrate 9 1 : through hole 92 : through hole 94 : annular portion 9 5 : switch 101 : diffusion sheet 102 : light guide body

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Claims (1)

1361970 Patent Application No. 098丨25902 Amendment of Chinese Patent Application Scope Amendment of December 21, 100 of the Republic of China VII. Scope of Application: 1. An electronic machine having: an electronic machine body and the aforementioned electronic machine body a display portion that is electrically connected, a hinge connecting portion that rotatably connects the display portion to the electronic device body portion, and an accommodating portion that accommodates the hinge connecting portion and a rotation of the hinge portion provided in the accommodating portion One end portion in the axial direction and a connector portion having a connection portion to which the external terminal can be connected, and a cap member that is rotatable integrally with the display portion and that surrounds the connector portion except the connection portion. 2. The electronic device according to claim 1, wherein the electronic device connected to the connector portion in the housing portion is further provided. 3. The electronic device of the second aspect of the invention, wherein the hinge connecting portion includes: a cylindrical member that is inserted through a cable connecting the electronic device body portion and the display portion, and the tubular member The component is rotatably coupled and one end is fixed to the connecting member of the display unit. 4. The electronic device of the third aspect of the invention, wherein the hinge connection portion includes a plurality of hinge mechanisms provided at both end portions of a back surface of the electronic device body portion, and 1361970 The hinge mechanism is integrally housed. 5. The electronic device of claim 4, wherein the electronic device body portion and the cap member are separated. 6. The electronic device according to claim 5, wherein the display unit has an annular portion that is led out from the display portion and is disposed apart from an outer circumferential surface of the connector portion, and the cap member is interposed The annular portion is provided in the connector portion, and the sliding member is located between the outer circumferential surface of the connector portion and the inner circumferential surface of the annular portion. 7. The electronic device according to claim 6, further comprising: a power button provided at the other end of the accommodating portion so as to be rotatable integrally with the display portion and having a pressing surface for a user And a switch cap member that surrounds the power button in addition to the pressing surface and that is rotatable integrally with the display portion. -2 ·