JP4512986B2 - Hinge device - Google Patents

Description

  The present invention relates to a hinge device used for angle adjustment of a heavy panel display such as an LCD monitor or an LCD TV.

  In the apparatus as described above, the orientation of the panel display needs to be adjusted and held at a user's preferred angle. For this reason, Patent Document 1 discloses a structure for holding the angle-adjusted panel display by a frictional force. A hinge device is described.

The hinge device described in Patent Document 1 has a structure in which a coil spring is attached to a rotating shaft disposed between a movable member and a fixed member, and the movable member is held at an arbitrary angle by the spring force of the coil spring. It has become.
Japanese Patent Laid-Open No. 9-196048

  Conventional hinge devices are intended for use in small devices such as personal computers and word processors. In the case of small devices, the weight of the display is small, so angle adjustment and angle holding can be performed only with a coil spring. Yes. On the other hand, large and heavy panel displays such as LCD monitors and LCD televisions require a large holding force.

  In order to apply a large holding force, it is necessary to increase the spring force of the coil spring. For this purpose, the coil diameter increases and the hinge device becomes large. Further, since the torque changes depending on the number of coil turns, the variation is large and the operation becomes unstable. Furthermore, in the case of a coil spring, the direction of the force is one direction in which the coil diameter is reduced, so that it is only convenient for one-way swinging. ) Is inconvenient.

  The present invention has been made in consideration of such conventional problems, and can be applied to a large panel display without using a coil spring, can be downsized, and can be adjusted in angle. An object of the present invention is to provide a hinge device capable of improving operability.

In the hinge device of the present invention, the support-side bracket is fixed to the support-side member having a U-shaped cross section that is rotatably supported by the fixing member via the mounting shaft, and within a certain angle range in a direction tilting with respect to the vertical line. A hinge mechanism is attached to the support-side bracket for holding the movable-side member that rotates in a rotatable manner and applying a friction torque for stopping the tilting rotation of the movable-side member to the movable-side member. A hinge shaft that penetrates the side bracket and the movable side member, and a plate-like member that is attached along the axial direction of the hinge shaft and that is directly or indirectly overlapped with the movable side member to apply a friction torque to the movable side member The friction torque applying member and the hinge shaft are penetrated, and both end portions are directly or indirectly locked to the support side member and the movable side member, and the movable side member is tilted. And a torsion bar by being twisted by rolling storing torque for biasing the movable member in the direction opposite to the rotational direction, a pair of hinge assembly is configured by the support bracket and hinge mechanism, the torsion Two sets of hinge assemblies are arranged on the support side member so that the bar extends along the length direction of the support side member, and a bridging member is provided at the end of each of the two sets of hinge assemblies to the support side member. Is fixed in a bridge shape .

In the present invention configured as described above, the movable member is held at a predetermined tilt angle by the frictional force of the frictional torque applying member. At this time, the torsion bar of the hinge mechanism stores torque that biases the movable member in the direction opposite to the rotation direction by being twisted by the tilting rotation of the movable member. Thereby, the weight torque of the movable member can be balanced by the torque of the torsion bar. Therefore, the tilt angle of the movable side member can be adjusted with substantially the same force as the friction torque of the friction torque applying member, and the operability is greatly improved. Moreover, it is possible to handle not only one-way usability but also two-way usability.

  Further, by changing the accumulated torque to the torsion bar, the tilting operation force to the movable side member can be arbitrarily changed. For example, the tilting operation from the front side to the rear side can be changed from the rear side to the front side. It is possible to change the tilting operation with a light force.

In the present invention, since the torsion bar passes through the hinge shaft, the radial space can be reduced, and the torsion bar does not vary in torque as in the case of the coil spring. Can be secured.

Furthermore, attaching the hinge mechanism to support bracket, the support bracket has a structure having a greater rigidity by fixing the support member of the U-shaped cross-section, because it supports the hinge mechanism by the structure It can be suitably applied to a heavy panel display.

Further , by attaching the two sets of hinge assemblies to the support side member, the tilting rotation of the movable side member and the holding at that angle can be performed more reliably and stably.

Further , the bridging member acts to increase the rigidity of the two sets of hinge assemblies and the rigidity of the locking end of the torsion bar. For this reason, it is possible to stabilize the operation of the hinge mechanism.

Te hinge device smells like above, adjustment bracket having a hook groove has rotated displaceably mounted on the movable member in the through state of the torsion bar, the ends of the torsion bar is engaged with the hook groove It is preferable . The end of the torsion bar is locked in the hook groove of the adjustment bracket, and the torque of the torsion bar can be adjusted by rotating the adjustment bracket in this state. Therefore, the tilting operation force to the movable member can be arbitrarily changed, and the operability is further improved.

Further , the torsion bar preferably stores a torque that contradicts the weight torque of the movable side member that changes with the tilting rotation of the movable side member , and the torsion bar has a torque that contradicts the weight torque of the movable side member. Therefore, the movable side member can be rotated in the opposite direction with a small force, and the operability is improved .

  According to the present invention, since the torsion bar is twisted by the tilting rotation of the movable side member, the torque that biases the movable side member in the direction opposite to the rotation direction is stored. Thus, the operability of adjusting the tilt angle of the movable member can be greatly improved, and not only the ease of swinging but also the ease of swinging can be handled. Further, since the tilting operation force to the movable member can be arbitrarily changed by changing the accumulated torque on the torsion bar, the operability can be improved according to the tilting rotation direction.

  Further, in the present invention, since the torsion bar penetrates the hinge shaft, the radial space can be reduced, and the torsion bar does not vary in torque as in the case of the coil spring. Can be secured.

  Furthermore, in the present invention, since the hinge mechanism is attached to the support side bracket and the support side bracket is fixed to the support side member having a U-shaped cross section, the structure has great rigidity, so that it can be suitably applied to a heavy panel display. can do.

  Hereinafter, the present invention will be specifically described with reference to embodiments shown in the drawings. In each embodiment, the same members are assigned the same reference numerals.

  1 to 12 show a hinge device according to an embodiment of the present invention. FIG. 1 is a side view showing a state in which a panel display is mounted on the hinge device, FIG. 2 is a plan view of the hinge device, and FIG. FIG. 4 is a side view.

  The hinge device 1 is used for adjusting the tilt angle (tilt angle) of the panel display 2 by attaching the panel display 2 as shown in FIG. As the panel display 2, a large and heavy display such as an LCD monitor or an LCD TV is used. In addition to adjusting the tilt angle of the panel display 2, the hinge device 1 adjusts the horizontal angle (swivel angle).

  The hinge device 1 includes a support side member 4 that is rotatably supported by a base 3 as a fixed member, a movable side member 5 that supports the panel display 2, and a hinge mechanism 6 that adjusts the tilt angle of the movable side member 5. And.

  As shown in FIG. 5, the support side member 4 is formed in a horizontally long shape, and is attached to the base 3 so as to be rotatable in a horizontal plane by a swivel shaft 7 as an attachment shaft. The support side member 4 is formed in a U-shaped cross section including a horizontally long attachment surface 4a attached to the base 3 and standing surfaces 4b rising from both sides of the attachment surface 4a. Thus, the support side member 4 is in a state where rigidity is imparted by forming it in a U-shaped cross section. The standing surface 4b regulates the rotation angle caused by the tilt of the movable member 5 described later within a certain range.

  A circular through hole 4d through which the swivel shaft 7 passes is formed in the center portion in the length direction on the attachment surface 4a of the support side member 4, and a support side bracket 8 (see FIG. 11) described later is fixed. Mounting holes 4e are formed at four locations around the through hole 4d. The mounting hole 4e is a countersunk hole as shown in FIG.

  As shown in FIG. 6, the swivel shaft 7 is formed with a shaft portion 7a, a flange portion 7b, a shaft portion 7c, and a screw portion 7d in order along the length direction. The shaft portions 7a and 7c are formed in a non-circular shape in which a circle is cut in parallel. The shaft portion 7a includes a friction plate 11 (see FIG. 7), a spring washer 12 (see FIG. 8), and a pressing plate (not shown). It is attached.

  As shown in FIG. 7, the friction plate 11 is made of a plate material having a circular outer shape, and a non-circular through hole 11a through which the shaft portion 7c passes is formed. As shown in FIG. 8, the spring washer 12 is curved so as to have a U-shaped cross section, and is attached to the shaft portion 7a in this curved state. In the spring washer 12, a through hole 12a through which the shaft portion 7a passes is formed in a shape corresponding to the outer shape of the shaft portion 7a. The holding plate is attached to the shaft portion 7a from the outside of the spring washer 12, and a non-circular through hole similar to the shaft portion 7a is formed.

  The friction plate 11 is attached to the shaft portion 7c and overlapped with the flange portion 7b with respect to the swivel shaft 7 described above, while the shaft portion 7a is passed through the through hole 4d of the support side member 4, and the spring washer 12 and the holding plate are attached to the shaft. It attaches to the part 7a. The spring washer 12 is attached to the shaft portion 7a so that the U-shaped top portion is in contact with the support side member 4, and then the holding plate is attached to the shaft portion 7a and the spring washer 12 is bent. Clamp the end of the. Thereby, when the support side member 4 rotates (turns) with respect to the swivel shaft 7, both sides of the attachment surface 4a of the support side member 4 and the friction plates and the spring washers 12 attached to both sides in a pressed state are provided. Friction torque is generated between the two. Since the support side member 4 stops at an appropriate angular position by this friction torque, the panel display 2 can be directed to an angle that is easy for the user to see in the horizontal plane.

  The support side bracket 8 is fixed to the support side member 4 described above. The support-side bracket 8 is fixed to the attachment surface 4a while being sandwiched between the upright surfaces 4b of the support-side member 4, and as shown in FIG. 11, the attachment surface 8a abuts on the attachment surface 4a. The bent shape includes a rising surface 8b rising from one side of the mounting surface 8a and a fixing surface 8c continuously provided in a state slightly higher than the mounting surface 8a on the other side of the mounting surface 8a. Yes.

  A female screw hole 8e for fixing to the support side member 4 is formed in the mounting surface 8a. The standing surface 8b is through which a hinge shaft 15 (described later) passes, and a through hole 8f is formed therefor. The through hole 8f is a non-circular shape obtained by cutting a circle in parallel. The fixing surface 8c fixes one end 16a of a torsion bar 16 described later in a locked state, and a female screw hole into which a fixing screw 17 (see FIG. 2) for locking is screwed. 8 g is formed.

  The hinge mechanism 6 is attached to the support side bracket 8 described above, and the movable side member 5 is attached to the hinge mechanism 6 so that the tilt angle can be adjusted.

  As shown in FIG. 10, the movable side member 5 has an attachment surface 5a for attaching the panel display 2 and supported surfaces 5b integrally formed on both lower sides of the attachment surface 5a. On the mounting surface 5a, mounting holes 5c for fixing the panel display 2 are formed at the four corners. The attachment surface 5a rises substantially vertically by attaching the movable member 5 to the hinge mechanism 6, whereby the panel display 2 is supported upright.

  The supported surface 5b is bent in the same direction from both lower sides of the mounting surface 5a. The supported surface 5b is through which the hinge shaft 15 of the hinge mechanism 6 passes, and a circular through hole 5d for penetrating the hinge shaft 15 is formed. When the hinge shaft 15 passes through the through hole 5d, the movable member 5 is rotatably attached to the hinge mechanism 6.

  In this embodiment, the other end portion 16 b of the torsion bar 16 of the hinge mechanism 6 is directly locked to the movable member 5. In order to perform this locking, a hook groove 5e into which the other end portion 16b of the torsion bar 16 is inserted is formed below the support surface 5b of the movable side member 5.

  Further, a rotation restricting portion 5 f is formed on the supported surface 5 b of the movable side member 5. The rotation restricting portion 5f is formed so as to be positioned on both sides of the hook groove 5e. When the rotation restricting portion 5f comes into contact with the rising surface 4b of the support side member 4, the angle of the movable side member 5 is within a certain range. It is regulated to be inside (see FIG. 4).

  The movable member 5 described above rotates so as to tilt with respect to the vertical line, and the tilt angle of the panel display 2 is changed by this rotation.

  The hinge mechanism 6 includes a hinge shaft 15 shown in FIG. 9, a torsion bar 16 shown in FIG. 12, a friction plate 11 shown in FIG. 7, and a spring washer 12 shown in FIG. The washer 12 constitutes a plate-like friction torque applying member.

  As shown in FIG. 9, the hinge shaft 15 has a shaft portion 15a, a flange portion 15b, and a shaft portion 15c formed in this order along the length direction. Further, the hinge shaft 15 is formed with a through hole 15d through which the torsion bar 16 passes along the axial direction.

  The shaft portions 15a and 15c are formed in a non-circular shape in which a circle is cut in parallel. The shaft portion 15a penetrates the through hole 5d of the movable side member 5, and the spring washer 12 and the pressing plate 19 (see FIG. 2). Is attached. Further, the friction plate 11 is attached to the shaft portion 15c. In order to perform this attachment, the spring washer 12, the friction plate 11, and the holding plate 19 are formed with non-circular through holes corresponding to the shaft portions 15a and 15c.

  The shaft portion 15c of the hinge shaft 15 passes through the non-circular through hole 8f of the support side bracket 8. Therefore, the hinge shaft 15 is supported by the support side bracket 8 in a rotationally restricted state. By attaching the shaft portion 15c to the through hole 8f, the entire hinge mechanism 6 is supported by the support side bracket 8.

  The friction plate 11 is attached to the shaft portion 15c and overlaps the flange portion 15b with respect to the hinge shaft 15, while the shaft portion 15a is passed through the through hole 5d of the movable member 5, and the spring washer 12 and the pressing plate are connected to the shaft portion 15a. Attach to. The spring washer 12 is attached to the shaft portion 15a so that the U-shaped top portion comes into contact with the movable member 5, and then the press plate 19 is attached to the shaft portion 15a and the spring washer 12 is bent. Clamp the end of 15a. Thus, when the movable member 54 tilts and rotates with respect to the hinge shaft 15, both sides of the supported surface 5 b of the movable member 5, and the friction plate 11 and the spring washer 12 attached to both sides in a pressed state are provided. Friction torque is generated between the two. Therefore, the tilt rotation of the movable member 5 can be stopped by the friction torque, and the tilt angle of the panel display 2 can be adjusted.

  The torsion bar 16 is attached to the shaft 15 by passing through the through hole 15 d of the hinge shaft 15. In this case, the torsion bar 16 is disposed so as to extend substantially in parallel along the length direction of the support side member 4. Further, by passing through the hinge shaft 15, the torsion bar 16 penetrates the movable side member 5 and also penetrates the through hole 8 f formed in the standing surface 8 b of the support side bracket 8.

  Then, one end portion 16 a penetrating the hinge shaft 15 is locked to the screw 17 by being wound around a fixing screw 17 screwed into the female screw hole 8 g of the support side bracket 8. The other end 16b of the torsion bar 16 is locked to the hook groove 5e of the movable member 5 by being bent in a U shape. Accordingly, when the movable side member 5 is tilted and rotated, the torsion bar 16 is twisted, so that torque for urging the movable side member 5 in the direction opposite to the rotation direction is stored.

  In this embodiment, the hinge mechanism 6 and the support-side bracket 8 described above constitute a set of hinge assemblies, and two sets of the hinge assemblies are attached to the support-side member 4 (FIG. 2). reference). At the time of attachment to the support side member 4, the hinge assembly is arranged so that one end 16 a of the torsion bar 16 in the hinge mechanism 6 is close to each other.

  When the tilt angle of the panel display 2 is adjusted according to the above embodiment, the upper portion of the panel display 2 is manually pushed in the front-rear direction. By this operation, the panel display 2 and the movable member 5 are tilted and rotated in the operation direction about the hinge shaft 15 as indicated by the solid line and the chain line in FIG. When the operation force to the panel display 2 is released, the panel display 2 is held at the tilt angle by the friction torque of the friction torque applying member including the friction plate 11 and the spring washer 12.

  By such a tilting rotation of the movable side member 5, the torsion bar 16 is twisted, and torque that urges the movable side member 5 in a direction opposite to the rotation direction is stored. For this reason, the weight torque of the panel display 2 and the movable member 5 can be balanced by the torque of the torsion bar 16. Therefore, the tilt angle of the movable member 5 (panel display 2) can be adjusted with substantially the same force as the friction torque of the friction plate 11 and the spring washer 12, and the operability is greatly improved. Moreover, it is possible to handle not only one-way usability but also two-way usability.

  FIGS. 13 to 18 are graphs for explaining the operability in this embodiment in comparison with the comparative example. FIGS. 13 and 14 show the friction caused by the friction plate 11 and the spring washer 12 without using the torsion bar 16. A comparative example in which the angle of the swing of the panel display 2 is adjusted only by the torque, FIGS. 15 and 16 show a case where the angle of the swing of the embodiment using the hinge mechanism 6 is adjusted.

  13 to 16, the characteristic curve L1 is the weight torque of the panel display 2 according to the tilt angle in the embodiment and the comparative example, and the characteristic curve L2 is the friction when the panel display 2 is tilted forward in the comparative example. The torque and characteristic curve L3 are friction torque when the panel display 2 is tilted rearward in the comparative example. The characteristic curve L4 is the operation torque and characteristic curve L5 when the panel display 2 is tilted forward in the comparative example. In the comparative example, the operation torque when the panel display 2 is tilted rearward, the characteristic curve L6 is the torque of the torsion bar 16 in the embodiment, and the characteristic curve L7 is when the panel display 2 is tilted forward in the embodiment. The operation torque and the characteristic curve L8 are obtained when the panel display 2 is tilted rearward in the embodiment. Operation is the torque.

  In the comparative example, as indicated by the characteristic curves L4 and L5, the operation torque changes greatly as the tilt angle of the panel display 2 increases. For this reason, it is necessary to change the operating force according to the tilt angle of the panel display 2.

  On the other hand, in the embodiment, as shown by the characteristic curves L7 and L8, even if the tilt angle of the panel display 2 changes, the operation torque hardly changes. Therefore, the panel display 2 is tilted with a constant operating force. It is possible. Thereby, the usability of one-sided swing is improved.

  FIGS. 17 and 18 show the angle adjustment of the swing according to the embodiment using the hinge mechanism 6. In this both swings, the panel display 2 is tilted back and forth from the vertical position, and the operating torque hardly changes as shown by the characteristic curves L7 and L8. It can be operated with force, and the usability of both swings is good.

  In addition to the operation as described above, in this embodiment, since the torsion bar 16 penetrates the hinge shaft 15, the radial space can be reduced. Moreover, since the torsion bar 16 does not vary in torque unlike the coil spring, a stable operation can be ensured.

  Further, by attaching the hinge mechanism 6 to the support side bracket 8 and fixing the support side bracket 8 to the support side member 4 having a U-shaped cross section, a structure having great rigidity can be obtained. And since the hinge mechanism 6 is supported by the structure with rigidity, even if it is a heavy panel display 2, it can endure the weight. Moreover, since it can isolate | separate from the panel display 2 only by removing the movable side member 5 from the panel display 2, the replacement | exchange with respect to the panel display 2 can be performed easily.

  Furthermore, since two sets of hinge assemblies are attached to the support side member 4 and the hinge mechanism 6 in each hinge assembly holds the tilt angle of the panel display 2, stable angle holding can be performed.

  19 to 21 show another embodiment of the present invention. In this embodiment, the hinge mechanism 6 in the two sets of hinge assemblies attached to the support side member 4 is connected by the bridging member 31.

  As shown in FIG. 21, the bridging member 31 is formed of a rectangular metal plate, and through holes 31 a through which the fixing screws 17 are inserted are formed at both end portions in the length direction. The bridging member 31 is fixed to the engagement end (the other end portion 16b) of the support side member 4 in the torsion bar 16 in a spanning manner. That is, in a state where the through hole 31a is aligned with the female screw hole 8g of the support side bracket 8, the fixing screw 17 is inserted into the through hole 31a and lightly engaged with the female screw hole 8g. The bridging member 31 is stretched over the locking ends of the two torsion bars 16 by locking the other end portion 16b of the first member and then tightening the fixing screw 17.

  By providing such a bridging member 31, the left and right hinge mechanisms 6 are connected to increase the rigidity. For this reason, the operation of the hinge mechanism 6 can be stabilized.

  22 to 24 show still another embodiment of the present invention. In this embodiment, the torque of the torsion bar 16 can be adjusted by using the adjustment bracket 33.

  As shown in FIG. 23, the adjustment bracket 33 is formed with a shaft hole 33a through which the spring washer 12 and the holding plate 19 are inserted in the center portion, and an adjustment hole 33b made of an ellipse outside the adjacent portion of the shaft hole 33a. Is formed. Further, a hook groove 33c into which the other end 16b of the torsion bar 16 is inserted and locked is formed on the outer peripheral surface.

  The adjustment bracket 33 is attached to the supported surface 5b of the movable side member 5 in a state where the spring washer 12 and the pressing plate 19 are inserted, and the escape recess 5h is provided outside the supported surface 5b of the movable side member 5. Is formed. The escape recess 5h is for enabling the other end 16b of the torsion bar 16 to be displaced. Further, a female screw hole 5 i for screwing the adjustment bracket 33 is formed in the supported surface 5 b of the movable member 5.

  In this embodiment, as shown in FIG. 22, the bracket fixing screw 34 is passed through the adjustment hole 33b in a state where the adjustment bracket 33 is in contact with the supported surface 5b of the movable member 5, and the supported surface 5b is formed. Screwed into the female screw hole 5i. Then, the other end 16 b of the torsion bar 16 is passed through the escape recess 5 h to be engaged with the hook groove 33 c of the adjustment bracket 33. Accordingly, in this embodiment, the other end 16 b of the torsion bar 16 is indirectly locked to the movable member 5 via the adjustment bracket 33.

  In such a locked state, the bracket fixing screw 34 is loosened, the adjustment bracket 33 is rotated, the torsion bar 16 is twisted, and the bracket fixing screw 34 is tightened. Thereby, the torque of the torsion bar 16 can be adjusted, and the tilting operation force to the panel display 2 can be arbitrarily changed. Thereby, there exists a merit which operativity improves further.

  25 to 27 show still another embodiment of the present invention. In this embodiment, the reinforcing plate 37 is attached to the support side member 4.

  The reinforcing plate 37 is made of a substantially egg-shaped metal plate, and has a through hole 37a corresponding to the through hole 4d of the support side member 4 through which the swivel shaft 7 is inserted, as shown in FIG. Fixing holes 37b are provided at both end portions sandwiching 37a.

  On the other hand, a pin projection 4g into which the fixing hole 37b is fitted is formed on the mounting surface 4a of the support side member 4. The pin protrusions 4g are formed on the upper and lower surfaces of the mounting surface 4a, so that the reinforcing plate 37 is mounted in a state of being in contact with the upper and lower surfaces of the mounting surface 4a.

  By attaching such a reinforcing plate 37 to the support side member 4, the strength of the reinforcing plate attaching portion in the support side member 4 is increased. For this reason, a metal such as aluminum which is more fragile than the friction plate 11 and the spring washer 12 can be used as the material of the support side member 4. This makes it possible to reduce the weight and improve workability. The reinforcing plate 37 can be similarly increased in strength by being attached to the supported surface 5 b of the movable member 5.

It is a side view at the time of applying one embodiment of the present invention to a panel display. It is a top view which shows the hinge apparatus of one embodiment of this invention. It is a front view of the hinge apparatus of one embodiment. It is a side view of the hinge apparatus of one embodiment. (A), (b), (c), (d), (e) is the top view of a support side member, a front view, a bottom view, a side view, and a fragmentary sectional view. (A), (b), (c) is the top view, front view, and bottom view of a swivel shaft. (A), (b) is the top view and side view of a friction board. (A), (b) is the top view and sectional drawing of a spring washer. (A), (b), (c), (d) is the left view of a hinge shaft, a front view, a right view, and a longitudinal cross-sectional view. (A), (b), (c) is the top view of a movable side member, a front view, and a side view. (A), (b), (c), (d) is the top view, left side view, front view, and right side view of a support side bracket. (A), (b), (c) is the top view of a torsion bar, a bottom view, and a right view. It is a graph which shows the change of the torque of the swing in a comparative example. It is a graph which shows the change of the operation force of the single swing in a comparative example. It is a graph which shows the change of the torque of one swing in embodiment. It is a graph which shows the change of the operating force of the single swing in embodiment. It is a graph which shows the change of the torque of the double swing in embodiment. It is a graph which shows the change of the operating force of the double swing in embodiment. It is a top view of another embodiment of the present invention. It is a front view of another embodiment of this invention. It is a top view of a bridge member. It is a side view of another embodiment of this invention. It is a side view of an adjustment bracket. It is a side view of the movable side member which attaches an adjustment bracket. (A), (b), (c) is the top view of the support side member in another embodiment, a front view, and a bottom view. It is a top view of a reinforcement board. (A), (b) is the top view and right view of a support side member to which a reinforcement board is attached.

DESCRIPTION OF SYMBOLS 1 Hinge apparatus 2 Panel display 3 Base 4 Support side member 5 Movable side member 6 Hinge mechanism 7 Swivel shaft 8 Support side bracket 11 Friction plate 12 Spring washer 15 Hinge shaft 16 Torsion bar 16a, 16b End part 31 of torsion bar Bridging member 33 Adjustment bracket 37 Reinforcing plate

Claims (3)

A support-side bracket is fixed to a U-shaped support-side member that is rotatably supported by a fixed member via an attachment shaft, and a movable-side member that rotates within a certain angle range in a direction inclined with respect to a vertical line. A hinge mechanism is attached to the support side bracket for holding the rotatable side and applying a friction torque for stopping the tilting rotation of the movable side member to the movable side member,
The hinge mechanism is
A hinge shaft penetrating the support side bracket and the movable side member;
A plate-like friction torque applying member that is attached along the axial direction of the hinge shaft and that is directly or indirectly superimposed on the movable side member to apply a friction torque to the movable side member;
While penetrating the hinge shaft, both ends are directly or indirectly locked to the support side member and the movable side member, and twisted by the tilting rotation of the movable side member, thereby moving the movable side member in the direction opposite to the rotation direction. With a torsion bar that stores energizing torque ,
A pair of hinge assemblies is constituted by the support side bracket and the hinge mechanism, and two sets of hinge assemblies are arranged on the support side member so that the torsion bar extends along the length direction of the support side member,
A hinge device characterized in that a bridging member is fixed in a bridging manner to a locking end of each of the two sets of hinge assemblies to the support side member .   The adjustment bracket having a hook groove is attached to the movable side member so as to be able to rotate and displace in a state where the torsion bar is penetrated, and an end of the torsion bar is locked to the hook groove. Hinge device. 3. The hinge device according to claim 1, wherein the torsion bar stores a torque opposite to the weight torque of the movable side member that changes with the tilting rotation of the movable side member.

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