JP2005003125A - Hinge device and electronic equipment using the same - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a hinge device for precisely and accurately preventing excessive-turn more than required, and to provide electronic equipment using the same. <P>SOLUTION: A turning shaft portion 6 is provided on a first connection portion 5 to be connected to a first member 2, a bearing portion 8 with which the turning shaft portion 6 tunably engages is provided on a second connection portion 7 to be connected to a second member 4, and a cam portion 9 having a protruded portion 9A to be turned together with the turning shaft portion 6 or a cam engagement portion 10 having a recessed portion 10A is provided on the first connection portion 5. On the cam engagement portion 10 or the cam portion 9, a protruded lock portion 15 is integrally formed which is locked to a locking portion 8A of the bearing portion 8 and protruded to the opposite side of the bearing portion 8. The protruded lock portion 15 or an interlock portion 16 to be turned with the turn of the protruded lock portion 15 is formed as a stopper portion 13A, preventing the turn of the second member 4 relative to the first member 2 at a preset angle or larger. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
In the present invention, for example, the base end portions of the first member and the second member are pivotally attached, and either one of the first member and the second member is rotated to a predetermined opening angle from the closed state where both are superposed. The invention relates to a hinge device that can be opened and closed in the open state, or one of the first member and the second member can be rotated and rotated (for example, rotating in the opposite direction), and electronic devices such as mobile phones and personal computers using the hinge device It is.
[0002]
[Prior art and problems to be solved by the invention]
For example, in a notebook computer or word processor or an openable / closable mobile phone, an open / close lid part (overlapping part) provided with a display part can be freely opened and closed via a hinge device with respect to a main body part provided with an operation part. The hinge device is provided with a superposition holding function to maintain the closed state so that the open / close lid portion does not open without permission when the open / close lid portion is closed to the main body. ing.
[0003]
That is, for example, a main body part or a cam part that rotates with the rotation of the superposition part, and a cam that rotates with the rotation of the superposition part or the main part, which are provided so as to be rotatable relative to each other about the rotation shaft part of the hinge device. When the engaging portion is in the closed overlapping state, the overlapping state is engaged and held by the convex portion provided on the cam portion and the concave portion provided on the cam engaging portion. Further, it is configured such that the concave and convex portions are engaged again at the time of opening rotation and the predetermined rotation position is engaged and held.
[0004]
In addition, in an electronic device such as a personal computer or a mobile phone, one of the hinges (first member) is an operation main body having an input operation portion, and the other (second member) is an opening / closing overlapping portion having a display portion. In such a way that it can be pivoted to open and close or rotate freely, and is held in place by engaging and disengaging at a predetermined rotational position, but to prevent further over-rotation so as not to disturb the wiring. It is necessary to provide a rotation stopper mechanism. However, various stopper mechanisms have been proposed in the past, but all of them have complicated structures, increase the number of parts, increase costs, and are inferior in mass productivity. It was not possible to prevent excessive rotation more than necessary.
[0005]
According to the present invention, a cam portion and a cam engagement that engage with each other by rotating relative to each other around a rotation shaft portion that is rotatably inserted in a bearing portion that is generally used in the related art is used a predetermined number of times. Paying attention to the rotating position holding mechanism that engages and holds the moving position, the cam part or cam engaging part of this rotating position holding mechanism is integrally formed with the cam part or cam engaging part to lock and fix it to the bearing part. The stopper part is used as a stopper part, and the stopper stopper part provided on the turning shaft part realizes a turning stopper mechanism, which does not increase the number of parts and increase the cost. The cam part and the cam engagement part of the existing rotation position holding mechanism can be used, and mass production is possible because the rotation stopper mechanism is realized by using the locking part that is integrally molded to lock and fix to the bearing part. Excellent accuracy without complicating assembly work And its object is to provide an electronic device using an innovative hinge device and the hinge device can be prevented indeed unnecessary excessive rotation.
[0006]
[Means for Solving the Problems]
The gist of the present invention will be described with reference to the accompanying drawings.
[0007]
A hinge device that pivotally attaches the first member 2 and the second member 4 and rotates the first member 2 relative to the second member 4, and is connected to the first member 2. A rotation shaft portion 6 is provided in the portion 5, a bearing portion 8 is provided in the second connection portion 7 that is connected to the second member 4, and the rotation shaft portion 6 is rotatably engaged with the first connection portion 5. The cam engaging portion 10 having the cam portion 9 having the convex portion 9A rotating with the rotating shaft portion 6 or the concave portion 10A and the cam engaging portion 10 having the concave portion 10A rotating with the bearing portion 8 is provided. A cam portion 9 having a convex portion 9A is provided in the second connecting portion 7, and at least one of the cam portion 9 and the cam engaging portion 10 which are engaged with each other by sliding relative to each other is slidable in an engagement / disengagement direction. And at least one of the cam portion 9 and the cam engaging portion 10 is separated when being disengaged. An engagement biasing mechanism 11 that biases in the engagement direction when moved in the direction is provided, and the first member 2 and the second member 4 are rotated relative to each other at a predetermined rotation position. The cam engaging portion 10 is configured to be in a concave-convex engagement or in the middle of engagement, and the engagement urging mechanism 11 holds or urges the engagement. The cam portion 9 is engaged with and disengaged from the cam engaging portion 10 by rotating either one of the joint portions 10 while moving in the separation direction against the engagement biasing mechanism 11. In the hinge device configured to rotate the second member 4 relative to the member 2, the cam engagement is fixed to the bearing portion 8 provided in the second connecting portion 7 in a non-rotating state. The portion 10 or the cam portion 9 is locked to the locking portion 8A of the bearing portion 8 and the opposite side of the bearing portion 8 The protruding locking portion 15 that protrudes is integrally formed, and the protruding locking portion 15 or the interlocking locking portion 16 that rotates with the rotation of the protruding locking portion 15 serves as a stopper portion 13A. The stopper shaft 13 is provided with a stopper locking portion 13B that the stopper portion 13A abuts and locks to prevent the second member 4 from rotating more than a predetermined angle relative to the first member 2. The present invention relates to a hinge device characterized in that a rotating stopper mechanism 13 is provided.
[0008]
Further, the rotating shaft portion 6 that rotates with the rotation of the first member 2 is configured to be rotatably inserted into the bearing portion 8 that rotates with the rotation of the second member 4. The cam engaging portion 10 or the cam portion 9 having an insertion hole that communicates with the insertion hole of the bearing portion 8 is superposed on the bearing portion 8, and the locking portion 8A of the bearing portion 8 and the cam engagement are overlapped. The locking portion 15 or the protruding locking portion 15 of the cam portion 9 is locked and overlapped and fixed in a non-rotating state. The stopper locking portion 13B provided on the rotating shaft portion 6 and the bearing portion 8 The cam engagement portion 10 or the cam engagement portion 15 provided in the cam portion 9 or the rotation engagement portion 15 together with the protrusion engagement portion 15 that performs the detent engagement action with the bearing portion 8 provided on the rotary shaft portion 6. With the stopper portion 13A which is the interlocking locking portion 16 which rotates relative to the Those of the hinge device according to claim 1, characterized in that constitute the dynamical stopper mechanism 13.
[0009]
Further, at least the rotation shaft portion 6 is fitted to prevent rotation, and the stopper engagement portion forming member 17 having the stopper engagement portion 13B or the rotation shaft portion 6 is rotatably fitted, The interlocking locking part forming member 18 having the interlocking locking part 16 that rotates with the rotation of the protruding locking part 15 with respect to the rotating shaft part 6 is formed of metal. It concerns on the hinge apparatus of any one of these.
[0010]
Further, the cam engagement portion 10 or the cam portion 9 is overlapped and fixed to one side of the bearing portion 8 in a non-rotating state, and a stopper engagement member having the stopper engagement portion 13B on the opposite side of the bearing portion 8 is provided. The stopper part forming member 17 is overlapped with the rotation shaft part 6 that overlaps the stopper part forming member 17 and penetrates the stopper part forming member 17, respectively. The hinge device and the hinge device according to the item.
[0011]
Further, a guide groove portion 19 for guiding the rotational movement of the stopper portion 13A is provided around the rotation shaft portion 6, and a protrusion is provided on the guide groove portion 19 so that the stopper portion 13A comes into contact with and comes into contact with the stopper. 5. The hinge device according to claim 1, wherein the portion 13B is provided on the rotating shaft portion 6.
[0012]
When the operation unit 1 is not operated, the main body unit provided with the operation unit 1 and the superposition unit provided with the display unit 3 are superposed so as to cover the operation unit 1, and from the superposed state, the superposition unit is provided. The main body part and the superposition part are pivotally connected so that the operation part 1 can be exposed by relatively rotating the main part and the superposition part can be rotated as much as possible. A hinge device is provided, wherein the main body portion is the first member 2 or the second member 4, and the overlapping portion is the second member 4 or the first member 2. The present invention relates to an electronic apparatus using a hinge device, wherein the hinge device according to any one of the above is used.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of the present invention (how to carry out the invention) considered to be suitable will be briefly described with reference to the drawings, showing its effects.
[0014]
For example, when the second member 4 is rotated relative to the first member 2 to be in an overlapped state, the cam portion 9 and the cam engagement are pressed and urged by the engagement urging mechanism 11 about the rotation shaft portion 6. For example, the convex portion 9A of the cam portion 9 and the concave portion 10A of the cam engagement portion 10 are engaged with each other in the concave-convex engagement or in the middle of engagement.
[0015]
Accordingly, the pressing force by the engagement biasing mechanism 11 and the cam engagement biasing by the concave and convex suction force cause a rotation biasing (blocking biasing) in the superposition direction, and the engagement biasing mechanism 11 is biased. The overlapped state is engaged and held by the uneven engagement.
[0016]
As described above, although not limited to the overlapped closure, the cam portion 9 and the cam engagement portion 10 are engaged with each other so that the predetermined rotation position is held or biased by this cam engagement. However, in the present invention, a rotation stopper mechanism 13 is provided for preventing the second member 4 from rotating relative to the first member 2 by a predetermined angle or more.
[0017]
The rotation stopper mechanism 13 is engaged with the cam engaging portion 10 or the cam portion 9 that is overlapped and fixed to the bearing portion 8 in a non-rotating state by being engaged with the engaging portion 8A of the bearing portion 8. The protrusion locking portion 15 protruding to the opposite side of the portion 8 is integrally formed, and the protrusion locking portion 15 or the interlocking locking portion 16 that rotates with the rotation of the protrusion locking portion 15 is used as a stopper portion 13A. The stopper shaft 13 is provided with a stopper locking portion 13 </ b> B at which the stopper portion 13 </ b> A abuts and locks by rotating, and the rotation locking engagement between the bearing portion 8 and the cam portion 9 or the cam engagement portion 10 is provided. This is a configuration in which the engaging portion is used as a stopper.
[0018]
That is, for example, the relative rotation of the second member 4 with respect to the first member 2 causes the cam engagement portion 10 that rotates together with the rotation shaft portion 6 and the cam portion 9 that rotates together with the bearing portion 8 to rotate relative to each other. The cam portion 9 and the cam engagement portion 10 are urged and engaged by the engagement urging mechanism 11 so as to engage with each other in a state of being engaged and urged. The rotation position holding mechanism is configured to hold a state in which the second member 4 is rotated by a predetermined angle or rotated by a predetermined angle relative to the one member 2, and the cam that overlaps the bearing portion 8 A protrusion locking portion 15 that is locked to the locking portion 8A of the bearing portion 8 and protrudes to the opposite side of the bearing portion 8 is formed integrally with the portion 9, and the protruding locking portion 15 or the protruding locking portion 15 is The interlocking locking portion 16 that rotates together with the rotation is used as a stopper portion 13A. A stopper locking portion 13B, which the upper portion 13A abuts and locks, is provided in the rotating shaft portion 6, and the relative position between the stopper portion 13A and the stopper locking portion 13B is set with respect to the first member 1. The second member 2 is prevented from relatively rotating by a predetermined angle or more.
[0019]
Accordingly, the locking portion 15 integrally formed with the cam portion 9 or the cam engaging portion 10 is used as the stopper portion 13A in order to lock and fix the cam portion 9 or the cam engaging portion 10 of the rotating position holding mechanism to the bearing portion 8. The rotation stopper mechanism 13 can be realized by using this and the stopper locking portion 13B provided on the rotation shaft portion 6, and the number of parts does not increase and the cost is not increased. The cam portion 9 and the cam engaging portion 10 can be used, and the rotation stopper mechanism 13 is realized by using the locking portion 15 that is integrally formed for locking and fixing to the bearing portion 8. It is excellent and the assembly work is not complicated, and it is possible to prevent excessive rotation more accurately and reliably.
[0020]
【Example】
Specific embodiments of the present invention will be described with reference to the drawings.
[0021]
As shown in FIGS. 1 and 6, the present embodiment is applied to a laptop-type notebook computer. The main body having the key operation unit 1 is used as the second member 4, and the display unit 3 ( An opening / closing lid portion (overlapping portion) having an LCD) is used as the first member 2, and the first member 2 is raised from the closed state in which the first member 2 and the second member 4 are overlapped, and is in an open state (use position). The hinge device of the present invention is applied to a pivoting structure that can be configured as follows (in the present embodiment, the case where it is provided on both the left and right sides is shown).
[0022]
In this embodiment, the first connecting portion 5 (connecting bracket) connected to the first member 2 (overlapping portion) is provided with a rotation shaft portion 6 in a non-rotating state, and connected to the second member 4 (main body portion). A bearing portion 8 through which the rotating shaft portion 6 is rotatably inserted and engaged is provided in the two connecting portions 5 (connecting metal fittings), and a concave portion 10A that rotates together with the first connecting portion 5 and the rotating shaft portion 6. The first engagement portion 5 is provided with a cam engagement portion 10 having That is, the cam engaging portion 10 is fitted on the rotating shaft portion 6 of the first connecting portion 5 in a non-rotating state so as to be slidable in the axial direction.
[0023]
A cam portion 9 having a convex portion 9 </ b> A that rotates together with the bearing portion 8 is provided in the bearing portion 8 of the first connecting portion 5. That is, although there is also a method of integrally forming the bearing portion 8, in this embodiment, the cam portion 9 is locked to the bearing portion 8 in a non-rotating state on the side facing the cam engaging portion 10 and engaged, The cam portion 9 is overlapped and fixed so that the insertion hole through which the rotation shaft portion 6 is inserted is in communication with the insertion hole of the bearing portion 8.
[0024]
That is, the cam engaging portion 10 that engages with the concave and convex portions by rotating relative to the cam portion 9 is slidably movable in the engagement / disengagement direction and is provided in the rotation shaft portion 6 in a non-rotating state. An engagement urging mechanism 11 that urges the cam engagement portion 10 in the engagement direction when the cam engagement portion 10 moves in the separation direction is provided. Specifically, in this embodiment, a plurality of disc springs 11A provided in a fitted state on the rotating shaft portion 6 by the pressing portion 12 are slidably fitted on the rotating shaft portion 6 in a non-rotating state. When the cam engagement portion 10 is pressed and urged, the cam portion 9 and the cam engagement portion 10 are engaged and urged, and when the concave and convex engagement between the cam portion 9 and the cam engagement portion 10 is released, the cam engagement portion 10 is rotated. It is configured to rotate against the disc spring 11A.
[0025]
Therefore, when the overlapping portion 2 is rotated with respect to the main body portion 4, the rotation shaft portion of the first connecting portion 5 provided in the overlapping portion 2 with respect to the bearing portion 8 of the second connecting portion 7 provided in the main body portion 4. 6 rotates. That is, the cam engaging portion 10 provided in the rotation preventing state on the rotation shaft portion 6 rotates relative to the cam portion 9 provided in the rotation preventing state on the bearing portion 8.
[0026]
Accordingly, when the overlapping portion 2 is rotated relative to the main body portion 4 to be in the overlapping state, the cam portion 9 is pressed and urged by the disc spring 11A of the engagement urging mechanism 11 around the rotating shaft portion 6. The convex portion 9A of the cam portion 9 is in the middle of the concave-convex engagement with the concave portion 10A of the cam engaging portion 10 by rotating relative to the cam engaging portion 10.
[0027]
Accordingly, the pressing force by the engagement biasing mechanism 11 and the cam engagement biasing by the concave and convex suction force cause a rotation biasing (blocking biasing) in the superposition direction, and the engagement biasing mechanism 11 is biased. The overlapped state is engaged and held by the uneven engagement.
[0028]
Further, in this embodiment, a first concave portion 10 </ b> A in which the first convex portion 9 </ b> A provided in the cam portion 9 is engaged is provided in the cam engaging portion 10, and a second convex portion provided in the cam portion 9. The second concave portion 10A with which 9A is engaged is provided in the cam engagement portion 10, and the first and second convex portions 9A and the first convex portion 9A and the first convex portion are provided at 180 ° relative positions. When the concave portion 10A is in the middle of the overlapped state, the second convex portion 9A and the second concave portion 10A are engaged with each other when the concave portion 10A is turned about 180 degrees in the opening direction. Thus, the opening rotation position is configured to be held by clicking.
[0029]
Therefore, by setting the rotation friction between the cam portion 9 and the cam engagement portion 10 due to the biasing by the engagement biasing mechanism 11 to be appropriate, the rotation is smooth and at the position where the hand is released. A free stop in which the rotation position is held by this friction can be realized, and the free stop can be freely adjusted to a free opening angle while being engaged and held in a predetermined release rotation position.
[0030]
Further, the friction for this free stop can be adjusted by the state of the rotating contact surface, the biasing force of the engagement biasing mechanism 11, and the like.
[0031]
In the present embodiment, the following rotation stopper mechanism 13 is provided.
[0032]
The cam engaging portion 10 or the cam portion 9 which is overlapped and fixed to the bearing portion 8 in a non-rotating state is engaged with the engaging portion 8A of the bearing portion 8 and protrudes to the opposite side of the bearing portion 8. The protrusion locking part 15 is integrally formed, and the protrusion locking part 15 or the interlocking locking part 16 that rotates with the rotation of the protrusion locking part 15 is used as a stopper part 13A. Is provided with a stopper locking portion 13B that contacts and locks, and a rotation stopper mechanism 13 that prevents the second member 4 from rotating more than a predetermined angle relative to the first member 2 is provided. .
[0033]
That is, in the present embodiment, as described above, the rotation shaft portion 6 that rotates with the rotation of the first member 2 (overlapping portion 2) is used together with the rotation of the second member 4 (main body portion 4). The bearing portion 8 is configured to be rotatably inserted into the rotating bearing portion 8, and the cam portion 9 having an insertion hole communicating with the insertion hole of the bearing portion 8 is superposed on the bearing portion 8. The locking portion 8A provided in a cutout shape on the outer edge of 8 and the protruding locking portion 15 formed integrally protruding on the cam portion 9 are locked and overlapped and fixed in a detent state, and the rotating shaft portion The stopper locking portion 13B provided on the cam portion 9 which performs the locking action between the stopper locking portion 13B provided on the bearing 8 and the bearing portion 8 provided on the bearing portion 8 or the protrusion locking With the stopper portion 13 </ b> A that is the interlocking locking portion 16 that rotates together with the portion 15 with respect to the rotation shaft portion 6. Constitute a Kikaido stopper mechanism 13.
[0034]
Further, in the first embodiment shown in FIGS. 1 to 5, locking portions that are locked to the two notch locking portions 8 of the bearing portion 8 are protruded from the cam portion 9, and one of these is a bearing portion. 8 is made to project on the opposite side to 8 as the projecting locking portion 15, which is directly used as the stopper portion 13 </ b> A.
[0035]
Further, in the first embodiment, the cam portion 9 is overlapped and fixed to one side of the bearing portion 8 in a non-rotating state, and the stopper engagement member having the stopper engaging portion 13B on the opposite side of the bearing portion 8 is provided. The stopper forming member 17 is overlapped, and the stopper engaging portion forming member 17 is configured to be fitted to the rotation shaft portion 6 penetrating therethrough.
[0036]
The stopper engaging portion forming member 17 has a shape in which a predetermined range of the outer edge portion of the ring-shaped portion is cut out, and a stopper engaging portion 13B is formed at the end of the range, and the stopper portion 13A is formed between the stopper engaging portions 13B. The rotation movement is allowed, and the stopper portion 13A abuts against the stopper locking portion 13B at the end thereof, so that excessive rotation is prevented.
[0037]
6 to 11 show a second embodiment. In this embodiment, the protrusion locking portion 15 is not directly used as the stopper portion 13A, and the rotation shaft portion 6 is moved along with the rotation of the protrusion locking portion 15. An interlocking locking portion 16 that rotates relative to the stopper locking portion 13B is provided as the stopper locking portion 13A.
[0038]
Specifically, an interlocking locking portion forming member 18 having the interlocking locking portion 16 on the opposite side of the bearing portion 8 is rotatably fitted to the rotating shaft portion 6, and the bearing portion 8 and the cam portion are arranged. 9 together with the rotation of the protruding locking portion 15 of the cam portion 9, the interlocking locking portion forming member 18 is also rotated with respect to the rotating shaft portion 6, and the interlocking locking portion forming member 18 is interlocked. The part 16 is configured to rotate as the stopper part 13A.
[0039]
Further, a guide groove portion 19 for guiding the rotation movement of the stopper portion 13A (interlocking locking portion 16) is provided around the rotation shaft portion 6, and a pin is screwed into the guide groove portion 19 to provide a protrusion. The stopper engaging portion 13 </ b> B with which the stopper portion 13 </ b> A abuts and contacts is provided on the rotating shaft portion 6.
[0040]
Further, in the first embodiment, at least the rotation shaft portion 6 is fitted to be prevented from rotating, and the stopper locking portion forming member 17 having the stopper locking portion 13B, in the second embodiment, the rotation shaft portion. The interlocking locking portion forming member 18 having the interlocking locking portion 16 that is rotatably fitted with respect to 6 and rotates with the rotation of the protruding locking portion 15 relative to the rotating shaft portion 6 is made of metal. It is integrally formed. Therefore, the rotation position for preventing over-rotation can be easily formed with high accuracy.
[0041]
Note that the present invention is not limited to this embodiment, and the specific configuration of each component can be designed as appropriate.
[0042]
【The invention's effect】
Since the present invention is configured as described above, the locking portion integrally formed with the cam portion or the cam engaging portion is a stopper in order to lock and fix the cam portion or the cam engaging portion of the rotational position holding mechanism to the bearing portion. This is used as a part and a stopper mechanism provided on the turning shaft part realizes a turning stopper mechanism, which does not increase the number of parts, increase the cost, and maintain the existing turning position. The cam part and the cam engaging part of the mechanism can be used, and the rotation stopper mechanism is realized by using the locking part that is integrally formed to lock and fix to the bearing part. However, it is possible to provide an innovative hinge device and an electronic device using the hinge device that can accurately and reliably prevent excessive rotation without being complicated.
[0043]
In the inventions of claims 2 to 5, the present invention can be realized more easily, and the hinge device and the electronic device using the hinge device are excellent in practicality.
[0044]
The invention according to claim 6 is an electronic apparatus using a hinge device that exhibits the excellent actions and effects, is extremely easy to assemble, and has excellent practicality.
[0045]
In particular, in the invention according to claim 3, one of the stopper portion and the stopper locking portion can be formed integrally with the cam portion, the cam engaging portion or the rotating shaft portion or can be easily formed, and the other is formed integrally with the metal plate. For this reason, the rotation position for preventing the excessive rotation can be easily formed with high accuracy.
[Brief description of the drawings]
FIG. 1 is an explanatory perspective view showing a use state of a first embodiment.
FIG. 2 is an exploded perspective view of the first embodiment.
FIG. 3 is a perspective view of the first embodiment.
FIG. 4 is a front view of the first embodiment.
FIG. 5 is an explanatory sectional view showing the operation of the rotation stopper mechanism of the present embodiment.
FIG. 6 is an explanatory perspective view showing a usage state of the second embodiment.
FIG. 7 is an exploded perspective view of a second embodiment.
FIG. 8 is a perspective view of the second embodiment attached to one side.
FIG. 9 is a perspective view of what is attached to the opposite side of the second embodiment.
FIG. 10 is a sectional view of the second embodiment in use.
FIG. 11 is an explanatory sectional view showing the operation of the rotation stopper mechanism of the second embodiment.
[Explanation of symbols]
2 First member 4 Second member 6 Rotating shaft portion 8 Bearing portion 8A Locking portion 9 Cam portion 9A Protruding portion 10 Cam engaging portion 10A Recessed portion 11 Connecting portion 12 Connecting portion 13 Rotating position holding mechanism 13A Stopper portion 13B Stopper Locking portion 14 Rotating stopper mechanism 15 Protruding locking portion 16 Interlocking locking portion 17 Stopper locking portion forming member 18 Linking locking portion forming member 19 Guide groove portion

Claims (6)

A hinge device for pivotally attaching a first member and a second member and rotating the first member relative to the second member, wherein the first connecting portion connected to the first member has a rotation shaft. And a second connecting portion connected to the second member is provided with a bearing portion in which the rotating shaft portion is rotatably engaged, and the first connecting portion is a convex portion that rotates together with the rotating shaft portion. A cam engaging portion having a recess or a cam engaging portion having a recess, and a cam engaging portion having a recess rotating with the bearing portion or a cam portion having a protrusion provided in the second connecting portion, and rotating relative to each other. As a result, at least one of the cam portion and the cam engagement portion engaged with the concave and convex portions is slidably movable in the engagement / separation direction, and at least one of the cam portion and the cam engagement portion is moved in the separation direction when the cam portion is engaged / disengaged. An engagement biasing mechanism for biasing in the engagement direction is provided, and the first member and the The cam part and the cam engaging part are engaged with each other at a predetermined rotational position by rotating the two members relative to each other, and the engagement is maintained or engaged by the engagement biasing mechanism. It is configured to be urged, and is rotated with respect to the cam engagement portion by rotating either one of the cam portion or the cam engagement portion against the engagement urging mechanism while moving in the separation direction. In the hinge device configured to engage and disengage the cam portion and rotate the second member relative to the first member, the bearing portion provided in the second connecting portion is in a non-rotating state in a state of being rotated. A protruding locking portion that locks with the locking portion of the bearing portion and protrudes to the opposite side of the bearing portion is integrally formed with the cam engaging portion or the cam portion to be fixed. The interlocking locking part that rotates with the rotation of the protrusion locking part is used as the stopper part, In this way, a stopper locking portion that the stopper portion abuts and locks is provided on the rotation shaft portion, and the second member is prevented from rotating more than a predetermined angle relative to the first member. A hinge device comprising a moving stopper mechanism. The rotation shaft portion that rotates with the rotation of the first member is configured to be rotatably inserted into the bearing portion that rotates with the rotation of the second member, and an insertion hole of the bearing portion The cam engagement portion or the cam portion having an insertion hole that is in a communicating state is superposed on the bearing portion, and the locking portion of the bearing portion and the cam engagement portion or the protruding locking portion of the cam portion are combined. The cam mechanism that locks and locks in a non-rotating state and performs a locking stop action between the stopper locking portion provided on the rotating shaft portion and the bearing portion provided on the bearing portion. The rotation stopper mechanism is formed by the protrusion locking portion provided in the joint portion or the cam portion or the stopper portion that is the interlocking locking portion that rotates relative to the rotation shaft portion together with the protrusion locking portion. The hinge device according to claim 1, wherein the hinge device is configured. A stopper locking portion forming member having at least the rotation locking portion and having the stopper locking portion, or a rotation locking portion that is rotatably fitted to the rotation shaft portion. The hinge device according to any one of claims 1 and 2, wherein the interlocking locking portion forming member having the interlocking locking portion rotating with the rotation with respect to the rotation shaft portion is formed of metal. . The cam engagement portion or the cam portion is overlapped and fixed to one side of the bearing portion in a non-rotating state, and a stopper locking portion forming member having the stopper locking portion on the opposite side of the bearing portion is overlapped. The hinge device and the hinge device according to any one of claims 1 to 3, wherein the stopper engaging portion forming member is fitted to the rotation shaft portion that passes through each of the rotating shaft portions. A guide groove portion that guides the rotational movement of the stopper portion is provided around the rotation shaft portion, and a protrusion is provided in the guide groove portion so that the stopper engaging portion abuts against and contacts the rotation shaft portion. The hinge device according to any one of claims 1 to 4, wherein the hinge device is provided. A main body part provided with an operation part and a superposition part provided with a display part are arranged so as to cover the operation part when the operation part is not operated, and the superposition part is relatively moved from the superposed state. A hinge device that pivotally connects the main body portion and the overlapping portion so that the operation portion can be exposed by rotating, or the overlapping portion can rotate and rotate as much as possible. In this hinge device, the hinge according to any one of claims 1 to 5, wherein the main body portion is the first member or the second member, and the overlapping portion is the second member or the first member. An electronic device using a hinge device characterized by using the device.

Images