JP4924497B2 - Slide / rotary mounting unit and electronic equipment - Google Patents

Description

  The present invention relates to a slide / rotation mounting unit for mounting a movable housing so as to rotate while sliding at least partially overlapping a holding base, and an electronic apparatus using the unit.

  In recent years, in electronic devices such as mobile phones and notebook personal computers, there are increasing opportunities to display horizontally long images such as one seg, photographs, and applications on a display. In notebook computers, the display is a landscape screen on almost all models, but the portrait screen is easier to use when creating documents and browsing the Internet homepage. In addition, since the display is connected to the main body by a hinge that can be opened and closed, the display cannot be a vertically long screen.

  Various contents for mobile phones and notebook PCs (including general PCs) are expected to continue to increase. Therefore, electronic devices having a function of rotating a display of a mobile phone or a laptop computer to switch to a portrait screen or a landscape screen in response to the content image content (portrait image or landscape image) have been provided. It is coming.

In particular, since the display of a mobile phone is generally a vertically long screen, in order to view a horizontally long image, it is necessary to place the mobile phone horizontally. For this reason, mobile phones that can make the screen horizontally long by rotating the display by 90 ° have been provided (see Patent Document 1).
JP 2003-338866 A

  However, in the conventional electronic device, since the display (movable casing) is manually rotated, when an image is displayed on a portrait or landscape screen depending on the application, a person manually rotates the display. There was a problem that it was necessary and time-consuming to operate.

  When the electronic device is a mobile phone, there are many people who generally perform various operations of the mobile phone with one hand. However, it is necessary to use both hands for rotating the display, and there is a problem that the operability is poor.

  The present invention has been made in view of the above points, and an object of the present invention is to provide a slide / rotation mounting unit and an electronic apparatus that can improve operability while having a movable housing.

From the first aspect of the present invention, the above problem is
A slide / rotation mounting unit for mounting the movable housing so as to rotate while sliding at least partially over the holding base,
In the basic use state of the movable casing, the holding base, a base plate attached to the holding base side, a plate cam attached to the movable casing side, and a surface of the base plate facing the plate cam. A slide guide made of a slit or groove along the vertical direction in a certain reference posture, a guide pin positioned on the extension of the lower end of the slide guide, and a slide cam that is slidable and rotatable with respect to the slide guide. A connecting pin to be coupled, a first recess disposed on an outer periphery of the plate cam and engaged with the guide pin when the movable casing is in the reference posture, and the movable casing is unidirectional from the reference posture A second recess that engages with the guide pin when rotated 90 degrees to the right, and engages with the guide pin when the movable housing rotates 90 degrees in the other direction from the reference posture. A third recess, an arm member connected to the plate cam and rotating integrally with the plate cam, and rotating about a position different from the rotation center of the plate cam, and the arm member accompanying the rotation This can be solved by a slide / rotation mounting unit that includes a lever member that engages with the arm member to rotate and bias the arm member to rotate the movable housing, and a drive mechanism that rotationally drives the lever member.

  According to the present invention, it is possible to automatically rotate the movable housing by 90 ° in one direction and the other direction irrespective of manual operation, and the operability can be improved.

  Next, the best mode for carrying out the present invention will be described with reference to the drawings.

  1 to 3 show a slide / rotation mounting unit 1 according to an embodiment of the present invention. The slide / rotation mounting unit 1 is mainly applied to an electronic device. In the present embodiment, an example in which the slide / rotation mounting unit 1 is applied to a mobile phone will be described.

  FIG. 1A is a view of the slide / rotation mounting unit 1 as viewed from the front side of the movable casing 3, and FIG. 1B is a view of the slide / rotation mounting unit 1 as viewed from the back side of the movable casing 3. It is a figure. The slide / rotation mounting unit 1 is housed in a casing (case) that constitutes the movable casing 3, but is shown as a perspective view through the casing for convenience of illustration and description. FIG. 2 is a perspective view of a mobile phone to which the slide / rotation mounting unit 1 is applied. Further, FIG. 3 is a partially transparent view showing the back surface of the mobile phone to which the slide / rotation mounting unit 1 is applied.

  As shown in FIG. 2, the mobile phone to which the slide / rotation mounting unit 1 is applied has an elbow 5 at one end of a base case 4 of the mobile phone having a transmitter and an input unit (both not shown). It is set as the structure where the holding | maintenance base 2 was connected via. When the hinge 5 is rotated, the holding base 2 can be rotated with respect to the base housing 4 by, for example, about 0 ° to 170 °.

  The holding base 2 is provided with a movable housing 3 having a receiving part and a display part (both not shown) via a slide / rotation mounting unit 1. At this time, the movable housing 3 is attached to the holding base 2 so as to slide and rotate in the directions of arrows X1 and X2 in the drawing.

  A specific configuration of the slide / rotation mounting unit 1 will be described with reference to FIG. First, FIG. 1 (A) is mainly used for the configuration of the surface side (the side that becomes the inner side when folded, the side on which the display device is disposed) with respect to the base plate 10 of the slide / rotation mounting unit 1. It explains using.

  The slide / rotation mounting unit 1 is provided with a base plate 10 attached to the holding base 2 and a plate cam 11 attached to the movable housing 3 on the opposing surface of the holding base 2 and the movable housing 3.

  Near the center of the base plate 10, there is formed a slide guide 100 made up of slits or grooves along the vertical direction in the reference posture which is the basic use mode (vertical display mode) of the movable housing 2. On the extension of the lower end of the slide guide 100, a guide pin 101 protruding toward the plate cam 11 is attached.

  Further, the plate cam 11 is provided with a connecting pin 12 that is slidably and rotatably engaged with the slide guide 100 in a state of being prevented from coming off, and the plate cam 11 and the base plate 10 are slid to each other by this connecting pin. And connected so as to rotate.

  In this embodiment, the connecting pin 12 has a hollow portion continuous in the axial direction and has a flange-like locking portion at one end. The connecting pin 12 is passed through the slide guide 100 in a state in which the locking portion is locked to both sides of the slide guide 100 of the base plate 10 in a retaining manner, and the other end is attached to the mounting hole of the plate cam 11. Insert and fix (for example, by caulking). At this time, the arm member 15 disposed on the back side with respect to the base plate 10 is also integrally fixed to the plate cam 11 using the connecting pin 12. Accordingly, the plate cam 11, the arm member 15, and the movable housing 3 are configured to rotate integrally around the connection pin 12.

  Further, first to third recesses 110, 111, and 112 are formed on the outer periphery of the plate cam 11. The first recess 110 engages with the guide pin 101 when the movable housing 3 is in the reference posture. The second recess 111 engages with the guide pin 101 when the movable housing 3 is rotated 90 degrees in one direction (clockwise) from the reference posture. Further, the third recess 112 is configured to engage with the guide pin 101 when the movable casing 3 is rotated 90 degrees from the reference posture in the other direction (counterclockwise).

  Further, an urging member 13 that constantly urges the plate cam 11 downward (X2 direction) is provided at an upper position of the base plate 10 (X1 direction side is an upper portion). The urging member 13 is provided so as to exert an urging force on the base plate 10 when the guide pin 101 is urged in the direction guided to the concave portions 110, 111, 112 of the plate cam 11. Can do. However, the urging member 13 is preferably installed in a state in which the urging force acts on the plate cam 11 in the direction in which the load of the movable housing 3 acts. As the urging member 13, a torsion spring can be used, but other springs can also be used.

  Further, the outer peripheral portion of the convex portion 113 in the circumferential direction between the first concave portion 110 and the second concave portion 111 of the plate cam 11, and the first concave portion 110 and the third concave portion 112 of the plate cam 11 The outer peripheral portion of the convex portion 114 in the circumferential direction is formed in a contour that continuously slides on the guide pin 101 when the plate cam 11 rotates.

  Next, the structure arrange | positioned by the back side with respect to the base board 10 of the slide and rotation attachment unit 1 is demonstrated mainly using FIG. 1 (B). As described above, the arm member 15 is integrally fixed to the plate cam 11 using the connecting pin 12. Therefore, the arm member 15 is configured to be movable in the directions of the arrows X1 and X2 along the slide guide 100 integrally with the plate cam 11 and the movable housing 3 fixed to the plate cam 11, and the connection pin 12 is centered. It can be rotated as.

  The arm member 15 has two arm portions 151 and 152. The first arm portion 151 is used when the plate cam 11 is rotated in one direction (the direction indicated by arrow A2), and the second arm portion 152 is the other direction (indicated by the arrow A1). Direction).

  The first arm portion 151 extends at an angle of 45 ° from a vertical line X (one-dot chain line indicated by an arrow X in FIG. 1) passing through the rotation center of the plate cam 11 (that is, the center of the connecting pin 12). It is formed as follows. Further, the second arm portion 152 is formed so as to extend from the vertical line X at an angle of 45 ° obliquely in the direction opposite to the extending direction of the first arm portion 151. Accordingly, the angle formed by the first arm portion 151 and the second arm portion 152 is 90 °.

  Further, pins 153 and 154 are erected at the tip portions of the first and second arm portions 151 and 152. The pins 153 and 154 engage with a lever member 16 described later when the movable housing 3 rotates.

  The lever member 16 is disposed below the arm member 15. The lever member 16 is supported by a rotating shaft 161 and is configured to be rotatable in the directions of arrows A1 and A2 in the drawing. The rotating shaft 161 is a pin fixed at a fixed position regardless of the movement of the arm member 15. The rotating shaft 161 may be disposed on the base plate 10 or may be disposed on the holding base 2.

  The lever member 16 includes first and second rotation lever portions 162 and 163 and first and second return lever portions 164 and 165. The first rotating lever portion 162 is used when the plate cam 11 is rotated by 90 ° in one direction (A2 direction). Further, the first return lever portion 164 is used when the plate cam 11 is returned from the state rotated by 90 ° in one direction by the first rotation lever portion 162 to the reference posture before the rotation.

  The second rotating lever portion 163 is used when the plate cam 11 is rotated 90 ° in the other direction (A1 direction). Further, the second return lever portion 165 is used when the plate cam 11 is returned from the state rotated by 90 ° in the other direction by the second rotation lever portion 163 to the reference posture before the rotation.

  The lever member 16 configured as described above is driven by a drive mechanism 17. The drive mechanism 17 includes a motor 171, a worm gear 172, a worm wheel 173, and the like.

  The motor 171 is a miniaturized motor and has a shape that can be stored in the hinge 5. A worm gear 172 is attached to the rotating shaft of the motor 171.

  A worm wheel 173 is rotatably disposed on the holding base 2. The worm wheel 173 is configured to mesh with the worm gear 172. Further, a concentric gear 174 </ b> A is provided on the back side of the worm wheel 173. Further, a clutch mechanism 175 is disposed between the worm wheel 173 and the gear 174A. As this clutch mechanism 175, for example, application of a clutch using sliding friction can be considered.

  On the other hand, the lever member 16 is provided with a gear 174B that rotates integrally therewith. The gear 174B is configured to mesh with the gear 174A. Therefore, the rotational force of the motor 171 is transmitted to the lever member 16 via the worm gear 172, the worm wheel 173, the clutch mechanism 175, the gear 174A, and the gear 175B by the drive mechanism 17 configured as described above. That is, in the slide / rotation mounting unit 1 according to the present embodiment, the lever member 16 is rotated by the rotational force of the motor 171.

  The clutch mechanism 175 generates a slip between the worm wheel 173 and the gear 174A when a strong force is applied between the worm wheel 173 and the gear 174A. It is transmitted to the element and has a function of preventing the element from being destroyed. The strong force may be, for example, a case where the movable casing 3 is forcibly rotated manually.

  Next, the operation of the slide / rotation mounting unit 1 configured as described above will be described. In the following description, a case where the plate cam 11 is rotated in the one direction (arrow A2 direction) by the slide / rotation mounting unit 1 will be described. By rotating the plate cam 11 in one direction (arrow A2 direction), the movable housing 3 rotates in the direction indicated by the arrow B1 in FIG.

  FIG. 4 shows a state when the movable housing 3 is in the reference posture (vertical posture in which the display unit is in the reference display mode). At this time, as shown in FIG. 4B, the plate cam 11 is not rotated in one direction or the other direction, and the guide pin 101 of the base plate 10 is engaged with the first recess 110 of the plate cam 11. It is in a state. Further, the connecting pin 12 is located at the lower end portion of the slide guide 110.

  Further, as shown in FIG. 4C, the first and second arm portions 151 and 152 of the arm member 15 are in a state of extending at an angle of 45 ° with respect to the vertical line X described above. . Further, the lever member 16 also includes the first rotation lever portion 162 and the first return lever portion 164, and the second rotation lever portion 163 and the second return lever portion 165 with respect to the vertical line X. It is in a stopped state at a symmetrical position.

  When the drive mechanism 17 is activated in this reference posture, the rotational force of the motor 171 is transmitted to the lever member 16, whereby the lever member 16 starts rotating in one direction (A1 direction).

  As the lever member 16 rotates in one direction (A1 direction), the first rotating lever portion 162 formed on the lever member 16 engages with the pin 153 of the first arm portion 151. When the lever member 16 further rotates in the A1 direction, the pin 153 is biased relatively toward the rotating shaft 161 side on the first rotating lever portion 162. In this way, the pin 153 is urged by the first rotation lever portion 162, whereby the arm member 15 is counterclockwise in FIG. 4C (shown by an arrow B1 in FIG. 4) with the connecting pin 12 as the center. Direction).

  FIG. 5 shows a state in which the plate cam 11 (movable housing 3) is rotated by 10 ° from the reference posture, and FIG. 6 shows a state in which the plate cam 11 (movable housing 3) is rotated by 20 ° from the reference posture. Is shown. As is apparent from the movement of the arm member 15 and the lever member 16 from the state shown in FIG. 5 to the state shown in FIG. 6, the lever member 16 rotates in one direction (A1 direction), so that the arm member 15 moves in the B1 direction. And the connecting pin 12 moves along the slide guide 100 in the X1 direction. That is, as the lever member 16 rotates in one direction (A1 direction), the plate cam 11 and the movable housing 3 rotate in the B1 direction and slide upward (arrow X1 direction).

  FIG. 7 shows a state in which the plate cam 11 and the movable housing 3 are rotated by 45 ° from the reference posture. At this time, as shown in FIG. 7C, the first rotating lever portion 162 is engaged with the pin 153 provided at the tip of the first arm portion 151, so that the arm member 15 is moved by the lever member 16. The state in which the rotation is biased in the B1 direction is maintained.

  On the other hand, as shown in FIG. 7B, the guide pin 101 is in sliding contact with the protruding end of the convex portion 113 in the circumferential direction between the first and second concave portions 110 and 111. When the movable casing 3 is slightly rotated clockwise (A2 direction) in FIG. 7B from this state, the movable casing 3 together with the plate cam 11 is shown in FIG. As shown in the figure, it rotates at a stroke until it reaches 90 °. As a result, the guide pin 101 engages with the second recess 111 of the plate cam 11, so that the plate cam 11 and the movable casing 3 are stopped, and the movable casing 3 is converted into a horizontally long posture.

  As described above, when the guide pin 101 is slightly rotated clockwise (A2 direction) from the protruding end of the convex portion 113, the plate cam 11 is suddenly moved to the 90 ° position by the urging force of the urging member 13. Note that an electronic device that is a mobile phone is provided with a switch that detects when the movable housing 3 is converted into a horizontally long posture and the guide pin 101 engages with the second recess 111. With this switch, the motor 171 of the drive mechanism 17 is stopped.

  On the other hand, in order to convert the movable casing 3 to the vertically long posture, from the state of FIG. 8, a current in the direction opposite to that when the plate cam 11 is rotated in one direction (A2 direction) with respect to the motor 171 of the drive mechanism 17 Supply. As a result, the motor 171 rotates in the opposite direction to that when the plate cam 11 is rotated in one direction (A2 direction), and the first return lever portion 164 engages with the pin 153 of the first arm portion 151. . As a result, the arm member 15 is urged to rotate in the B2 direction, and the plate cam 11 and the movable casing 3 also start to rotate in the B2 direction.

  Further, even when the plate cam 11 and the movable housing 3 are rotated 45 ° in the other direction from the horizontally long posture, the guide pin 101 has the convex portion 113 in the circumferential direction between the first and second concave portions 110 and 111. It will be in the state which slidably contacted to the tip. When the movable casing 3 is slightly rotated counterclockwise (A1 direction) in FIG. 7B from this state, the movable casing 3 is shown together with the plate cam 11 in FIG. It rotates at once to the position that becomes the reference posture.

  Note that the electronic device is provided with a switch for detecting when the guide pin 101 is engaged with the first recess 110. With this switch, the motor 171 of the drive mechanism 17 is stopped.

  In the above description of the operation of the slide / rotation mounting unit 1 according to the present embodiment, the example in which the plate cam 11 is rotated in one direction (A2 direction) has been described. However, the plate cam 11 is rotated in the other direction (A1 direction). In this case, the difference is only that the first rotating lever portion 162 becomes the second rotating lever portion 163 and the first returning lever portion 164 becomes the second returning lever portion 165. Since the operation is the same, the description thereof will be omitted.

  As described above, according to the slide / rotation mounting unit 1 according to the present embodiment, the guide pin 101 is engaged with each of the recesses 110, 111, and 112 in order to electrically rotate the plate cam 11 and the movable housing 3. By using a switch that operates when combined, when the image is displayed on a portrait or landscape screen depending on the application, the movable housing 3 having the display unit automatically rotates and is optimal for the image to be displayed. It is also possible to have a simple screen orientation (portrait / landscape).

  Moreover, since the plate cam 11 and the movable casing 3 are rotated electrically, it is not necessary to manually operate the movable casing 3 having the display unit. In particular, since the frequency of keyboard operation with one hand is high in a mobile phone, the movable housing 3 (display unit) can be rotated with one hand operation by applying the slide / rotation mounting unit 1 of the present embodiment to the mobile phone. Therefore, the operability can be improved.

  FIG. 9 shows a modification of the slide / rotation mounting unit 1 according to the above-described embodiment. In the slide / rotation mounting unit 1 </ b> A according to this modified example, claw portions 166 to 169 are provided at the distal ends of the lever portions 162 to 165 provided on the lever member 16.

  In the above-described embodiment, when the lever member 16 is rotated in the A1 direction and brought into contact with the pin 153, the angle formed by the first arm portion 151 and the first rotation lever portion 162 is less than 90 °. The first arm portion 151 may rotate in the direction opposite to the original rotation due to the rotation of the first rotation lever portion 162.

  However, by providing the claw portions 166 to 169 at the tip end portions of the lever portions 162 to 165 as in this modification, the pins 152 and 153 are hooked by the claw portions 166 to 169 so that the arm portions 151 and 152 are moved. Can be rotated. Thereby, the reliability of 1 A of slide / rotation attachment units can be improved.

The following additional notes are further disclosed with respect to the embodiment including the above examples.
(Appendix 1)
A slide / rotation mounting unit for mounting the movable housing so as to rotate while sliding at least partially over the holding base,
A base plate attached to the holding base side;
A plate cam attached to the movable housing side;
On the side of the base plate facing the plate cam, a slide guide consisting of a slit or a groove along the vertical direction in a reference posture that is a basic use state of the movable housing;
A guide pin located on the lower end extension of the slide guide;
A connecting pin that is slidably and rotatably engaged with the plate cam in a state of retaining the slide guide;
A first recess disposed on an outer periphery of the plate cam and engaged with the guide pin when the movable housing is in the reference posture;
A second recess that engages with the guide pin when the movable casing is rotated 90 degrees in one direction from the reference orientation;
A third recess that engages with the guide pin when the movable housing is rotated 90 degrees from the reference posture in the other direction;
An arm member connected to the plate cam and rotating integrally with the plate cam;
A lever member that rotates about a position different from the rotation center of the plate cam, engages with the arm member with the rotation, urges the arm member to rotate, and rotates the movable housing;
A drive mechanism for rotating the lever member;
A slide / rotation mounting unit.
(Appendix 2)
The arm member is
A first arm portion used when rotating the plate cam in the one direction;
The slide / rotation mounting unit according to appendix 1, further comprising a second arm portion used when the plate cam is rotated in the other direction.
(Appendix 3)
The first arm portion extends at an angle of 45 ° obliquely from a vertical line passing through the rotation center of the plate cam,
The slide / rotation according to claim 2, wherein the second arm portion extends at an angle of 45 ° obliquely in a direction opposite to the extending direction of the first arm portion from a vertical line passing through the rotation center of the plate cam. Mounting unit.
(Appendix 4)
4. The slide / rotation mounting unit according to appendix 2 or 3, wherein a pin is disposed at the tip of the first and second arm portions.
(Appendix 5)
The lever member is
A first rotating lever portion used when rotating the plate cam in the one direction;
A first return lever portion used when returning the plate cam from the state rotated 90 degrees in the one direction;
A second rotating lever portion used when rotating the plate cam in the other direction;
A second return lever portion used when returning the plate cam from the state rotated 90 degrees in the other direction;
The slide / rotation mounting unit according to any one of appendices 1 to 4, having the following.
(Appendix 6)
The drive mechanism is
A motor,
A gear train for transmitting the rotational force of the motor to the lever member;
The slide / rotation mounting unit according to any one of appendices 1 to 5 having:
(Appendix 7)
The drive mechanism is
The slide / rotation mounting unit according to appendix 6, having a clutch mechanism in the middle of transmission of the rotational force from the motor to the lever member.
(Appendix 8)
The lever member is
The slide / rotation mounting unit according to any one of appendices 4 to 7, further comprising a claw portion that engages with the pin formed on the arm member at a distal end portion.
(Appendix 9)
Comprising the slide / rotation mounting unit according to any one of appendices 1 to 8,
The holding base is pivotally attached to a base casing having an input portion by a hinge,
The movable housing includes a display unit.
(Appendix 10)
The base case is a transmitter side case of a mobile phone;
The electronic device according to appendix 12, wherein the movable casing is a receiver-side casing of a mobile phone.
(Appendix 11)
Comprising the slide / rotation mounting unit according to any one of appendices 6 to 8,
The holding base is pivotally attached to a base casing having an input portion by a hinge,
The movable housing has a display unit,
And the electronic device by which the said motor is arrange | positioned inside the said hinge.

  The above embodiment is an example in which the slide / rotation mounting unit 1 is folded and used for a mobile phone. The mounting unit 1 has a holding base 2 that slides on a base housing 4 and is attached to the holding base 2. The same can be applied to the case where the movable casing 3 is mounted on the top.

  In addition, when the mounting unit 1 is provided with a desktop holding base separately from the input unit and the personal computer main body, and the movable housing which is the input unit side housing is attached to these holding bases so as to partially overlap. Can be used as well.

FIG. 1 shows an example in which a slide / rotation mounting unit according to an embodiment of the present invention is applied to a mobile phone. FIG. 1 (A) is a perspective view of the slide / rotation mounting unit as seen from the front side of a movable housing. (B) is a perspective view of the slide / rotation mounting unit as seen from the back side of the movable housing. FIG. 2 is a perspective view of a mobile phone to which a slide / rotation mounting unit according to an embodiment of the present invention is applied. FIG. 3 is a partial perspective view showing the back surface of the mobile phone to which the slide / rotation mounting unit according to the embodiment of the present invention is applied. 4A and 4B are diagrams showing a state in which the plate cam of the slide / rotation mounting unit is not rotated. FIG. 4A is a front view of the mobile phone, FIG. 4B is a front view of the slide / rotation mounting unit, and FIG. FIG. 4 is a rear view of the slide / rotation mounting unit. FIG. 5 is a rear view of the slide / rotation mounting unit showing a state in which the plate cam is rotated by 10 ° from the state shown in FIG. 4. FIG. 6 is a rear view of the slide / rotation mounting unit showing a state in which the plate cam is rotated by 20 ° from the state shown in FIG. 4. 7 is a view showing a state in which the plate cam is rotated 45 ° from the state shown in FIG. 4, (A) is a front view of the mobile phone, (B) is a front view of the slide / rotation mounting unit, (C ) Is a rear view of the slide / rotation mounting unit. 8 is a view showing a state in which the plate cam is rotated by 90 ° from the state shown in FIG. 4. FIG. 8A is a front view of the mobile phone, FIG. 8B is a front view of the slide / rotation mounting unit, and FIG. ) Is a rear view of the slide / rotation mounting unit. FIG. 9 is a rear view of a modification of the slide / rotation mounting unit according to the embodiment of the present invention shown in FIG. 1 as viewed from the back side of the movable housing.

Explanation of symbols

1, 1A Slide / rotation mounting unit 2 Holding base 3 Movable housing 4 Base housing 5 Hinge 10 Base plate 11 Plate cam 12 Connecting pin 13 Energizing member 15 Arm member 16 Lever member 17 Drive mechanism 100 Slide guide 101 Guide pin 104c , 105c Convex stopper 110 First concave portion 111 Second concave portion 112 Third concave portion 113, 114 Convex portion 116 First protrusion 117 Second protrusion 151 First arm portion 152 Second arm portion 153 Pin 154 Pin 161 Rotating shaft 162 First rotating lever 163 Second rotating lever 164 First returning lever 165 Second returning lever 166, 167, 168, 169 Claw 171 Motor 175 Clutch mechanism

Claims (10)

A slide / rotation mounting unit for mounting the movable housing so as to rotate while sliding at least partially over the holding base,
A base plate attached to the holding base side;
A plate cam attached to the movable housing side;
On the side of the base plate facing the plate cam, a slide guide consisting of a slit or a groove along the vertical direction in a reference posture that is a basic use state of the movable housing;
A guide pin located on the lower end extension of the slide guide;
A connecting pin that is slidably and rotatably engaged with the plate cam in a state of retaining the slide guide;
A first recess disposed on an outer periphery of the plate cam and engaged with the guide pin when the movable housing is in the reference posture;
A second recess that engages with the guide pin when the movable casing is rotated 90 degrees in one direction from the reference orientation;
A third recess that engages with the guide pin when the movable housing is rotated 90 degrees from the reference posture in the other direction;
An arm member connected to the plate cam and rotating integrally with the plate cam;
A lever member that rotates about a position different from the rotation center of the plate cam, engages with the arm member with the rotation, urges the arm member to rotate, and rotates the movable housing;
A drive mechanism for rotating the lever member;
A slide / rotation mounting unit. The arm member is
A first arm portion used when rotating the plate cam in the one direction;
The slide / rotation mounting unit according to claim 1, further comprising a second arm portion used when the plate cam is rotated in the other direction. The first arm portion extends at an angle of 45 ° obliquely from a vertical line passing through the rotation center of the plate cam,
3. The slide according to claim 2, wherein the second arm portion extends at an oblique angle of 45 ° in a direction opposite to the extending direction of the first arm portion from a vertical line passing through the rotation center of the plate cam. Rotating mounting unit.   The slide / rotation mounting unit according to claim 2 or 3, wherein a pin is disposed at a tip of each of the first and second arm portions. The lever member is
A first rotating lever portion used when rotating the plate cam in the one direction;
A first return lever portion used when returning the plate cam from the state rotated 90 degrees in the one direction;
A second rotating lever portion used when rotating the plate cam in the other direction;
A second return lever portion used when returning the plate cam from the state rotated 90 degrees in the other direction;
The slide / rotation mounting unit according to any one of claims 1 to 4, further comprising: The drive mechanism is
A motor,
A gear train for transmitting the rotational force of the motor to the lever member;
The slide / rotation mounting unit according to any one of claims 1 to 5. The drive mechanism is
The slide / rotation mounting unit according to claim 6, further comprising a clutch mechanism in the middle of transmission of the rotational force from the motor to the lever member. The lever member is
The slide / rotation mounting unit according to any one of claims 4 to 7, further comprising a claw portion that engages with the pin formed on the arm member at a distal end portion. Comprising the slide / rotation mounting unit according to any one of claims 1 to 8,
The holding base is pivotally attached to a base casing having an input portion by a hinge,
The movable housing includes a display unit. Comprising the slide / rotation mounting unit according to any one of claims 6 to 8,
The holding base is pivotally attached to a base casing having an input portion by a hinge,
The movable housing has a display unit,
And the electronic device by which the said motor is arrange | positioned inside the said hinge.

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