JP4152638B2 - Locking device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a locking device that supports a supported member in a swingable manner with respect to a support member. More specifically, the present invention relates to a locking device capable of fixing tilting.
[0002]
[Prior art]
There is a chair provided with a locking device with a lock mechanism that allows the seat and back of the chair to be locked back and forth and that can be fixed with the seat and back tilted. For example, the locking device shown in FIG. 23 has a front seat frame 101 fixed to a leg, a rear seat frame 102 that can swing with respect to the leg, and a reaction that applies a force to return the rear seat frame 102 to its original position. A force applying mechanism (not shown) and a lock mechanism 107 made of a gas spring that can be fixed while the rear seat frame 102 is tilted are provided (refer to Japanese Patent Laid-Open No. 4-193108). In this chair, the seat 103 and the backrest 105 can be locked by bringing the lock mechanism 107 into an unlocked state. Then, by setting the lock mechanism 107 to the locked state, the seat 103 and the backrest 105 are locked while being tilted.
[0003]
However, in this locking device, when the locking mechanism 107 is in the unlocked state, the seat 103 and the backrest 105 are always unlocked and can be locked, so the seat 103 and the backrest 105 are inclined and locked. If the locking mechanism 107 is operated in an unlocked state when a person is not sitting in the state, the seat 103 and the backrest 105 may jump up suddenly due to the reaction force of the reaction force applying mechanism.
[0004]
In order to solve this problem, as shown in FIGS. 24 and 25, when the seat and the backrest are tilted and locked, the seat and the backrest remain inclined even if the lock is released when standing. A locking device having a so-called self-holding function that is held has been developed (see Japanese Patent Application Laid-Open No. 11-276287). In the locking device 200, the seat plate 203 is swingably supported around the support shaft 202 with respect to the seat receiving member 201, and the reaction force applying mechanism 204 biases the seat plate 203 toward the initial position. . A locked member 206 having a plurality of engaging grooves 205 arranged in the swing direction is attached to the seat plate 203. The seat receiving member 201 is provided with a lock member 207 that is slidable in the direction of entering and exiting the engagement groove 205 and that locks the tilt of the seat plate 203 when fitted into the engagement groove 205. Further, the seat receiving member 201 is provided with a switching lever 208 that is switched between a locked position and an unlocked position and held at each position.
[0005]
Then, between the switching lever 208 and the lock member 207, the movement of the switching lever 208 is transmitted to the lock member 207, and the twist that elastically biases the lock member 207 in the direction of pulling it out of the engagement groove 205. A coil spring 209 and a transmission lever 210 are provided.
[0006]
According to the locking device 200, when the switching lever 208 is in the locked position and the lock member 207 is fitted in the engagement groove 205 of the locked member 206, the seat receiving member 201 to which the lock member 207 is attached and the engagement groove Since the locking member 207 exists over 205, the tilting of the seat plate 203 is locked. Here, the seat plate 203 is biased so as to return to the initial position upon receiving a large reaction force of the reaction force applying mechanism 204. For this reason, since the inner wall of the engagement groove 205 of the locked member 206 and the lock member 207 are pressed against each other, the switching lever 208 is operated to the unlock position to try to extract the lock member 207 from the engagement groove 205. However, the lock member 207 cannot move due to large friction with the inner wall of the engagement groove 205. Therefore, the tilting lock of the seat plate 203 is maintained, and at the same time, the torsion coil spring 209 is stored. Thereby, the inclined state of the seat plate 203 is self-held.
[0007]
[Problems to be solved by the invention]
However, in the locking device 200 having the self-holding function described above, a plurality of engagement grooves 205 arranged in the swinging direction of the seat receiving member 201 are formed in the locked member 206 attached to the seat receiving member 201. Therefore, it becomes a thick structure in the vertical direction. For this reason, the locking device 200 is increased in size, and the chair on which the locking device 200 is mounted is also increased in size.
[0008]
Further, since the member 206 to be locked is fixed to the seat plate 203, it can move only the same amount as the swing amount of the seat plate 203. For this reason, since the moving width of the member to be locked 206 is small, the number of the engaging grooves 205 cannot be increased, and the number of steps that can lock the seat plate 203 becomes insufficient.
[0009]
Therefore, an object of the present invention is to provide a locking device that can be locked at many stages and is small in size and has a self-holding function.
[0010]
[Means for Solving the Problems]
In order to achieve this object, the invention according to claim 1 is a locking device that supports the supported member in a swingable manner with respect to the supporting member and urges the supported member toward the original position by the reaction force applying mechanism. The support member and the supported member are attached to the support member and moved by the swinging of the supported member, and the relative movement amount of the support member and the supported member is amplified to engage the engagement portion. A member to be locked, and a support member or a member to be supported, which is attached to either the support member or the support member so as to be able to move in and out of the engagement portion. A locking member that locks the locking member, a first urging means that urges the locking member in a direction to engage the engaging part, a second urging means that urges the locking member in a direction to extract the locking member from the engaging part, 1 biasing means or 2 biasing means A state where the urging force to the lock member is changed by the switching and the urging force is applied to the connected urging means. and a sustainable operation means, the locking member engagement portion with a pivotable in a horizontal plane is in so that disposed on the circumferential surface around the rotation center of the lock member.
[0011]
Therefore, in a state where the operating means is at the lock position and the lock member is fitted into the engaging portion of the locked member, the locking member is present straddling the supporting member to which the locking member is attached or the supported member and the engaging portion. Therefore, the swing of the supported member is locked. In this state, if no external force is applied to the supported member or only a slight external force is applied, the supported member is biased so as to return to the initial position under the large reaction force of the reaction force applying mechanism. Has been. Here, since the inner wall of the engaging part of the locked member and the locking member are pressed against each other, the operating member is operated to the unlock position and the locking member is pulled out of the engaging part by the urging force of the second urging member. Even if it tries to come out, the lock member cannot move due to large friction with the inner wall of the engaging portion. For this reason, the second biasing means is stored at the same time as the rocking lock of the supported member is maintained. Thereby, the inclined state of the supported member is self-held.
In addition, since the member to be locked can swing in a horizontal plane and the engaging portion is disposed on the circumferential surface around the rotation center of the member to be locked, the thickness of the locking device in the vertical direction is reduced. can do. For this reason, this locking device can be incorporated in, for example, a chair seat.
[0012]
When an external force that weakens the reaction force by the reaction force application mechanism is applied to the supported member in the self-held state, the pressing force is reduced between the inner wall of the engaging portion and the lock member, and the frictional force is weakened. . Further, when the total amount of the frictional force and the urging force of the first urging means becomes smaller than the urging force in the pulling-out direction of the lock member by the second urging means, the lock member becomes the second urging means. Is pulled out of the engaging portion. As a result, the locked state by the locking member and the engaging portion is released, and the supported member becomes unlocked and can be swung. Therefore, the supported member returns to the initial position by the urging of the reaction force applying mechanism.
[0013]
Here, since the locked member amplifies the relative movement amount of the supporting member and the supported member and moves the engaging portion, the number of stages where the supported member can be locked can be increased. Further, since the moving direction of the locked member can be made different from the swinging direction of the supported member, the locked member is moved in a direction having a sufficient space according to the shape of the supporting member and the supported member. In this way, the locking device can be reduced in size.
[0014]
According to a second aspect of the present invention, in the locking device according to the first aspect, the operating means is connected to the second urging means and can be held in the unlocked position. According to a third aspect of the present invention, in the locking device according to the first aspect, the operating means is connected to the first urging means and can be held in the locked position. Therefore, it is possible to select whether the operating means can be held only in the unlocked position, can be held only in the locked position, or can be held in both positions. Depending on the type, it is possible to form an operation means with preferable operability.
[0016]
Furthermore, in the invention according to claim 4, in the locking device according to any one of claims 1 to 3 , the first biasing means and the second biasing means are tension coil springs having the same spring constant. . Therefore, the parts of the first urging means and the second urging means can be shared.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the configuration of the present invention will be described in detail based on an example of an embodiment shown in the drawings. As shown in FIGS. 1 to 4, the locking device 11 of the present embodiment supports the back support rod 3 and the seat 4 that are supported members so as to be swingable with respect to the seat receiving member 2 that is a support member. The back support rod 3 and the seat 4 are urged toward the original position by the reaction force applying mechanism 5. The reaction force applying mechanism is an urging spring 5 made of a compression coil spring.
[0018]
In this locking device 11, the seat 4 and the backrest 10 remain inclined even when the lock is released when the seat 4 and the backrest 10 are inclined and locked at the position desired by the user while standing. It has a so-called self-holding function that is held. As shown in FIGS. 5 to 10, the locking device 11 includes a locked member 32 having a plurality of engaging portions 31 and attached to the seat receiving member 2 and the seat 4 (seat frame 13), and the seat frame 13. Alternatively, the lock member 33 that locks the swing of the seat frame 13 when it is attached to the seat receiving member 2 and fitted into the engagement portion 31, and the first biasing the lock member 33 in the direction of engaging the engagement portion 31. A biasing means 34, a second biasing means 36 that biases the lock member 33 in the direction of extracting the lock member 33 from the engaging portion 31, and an operation means 35 that can be switched between a lock position and an unlock position are provided.
[0019]
The locked member 32 is a link (hereinafter referred to as a locked link). The locked link 32 moves due to the swing of the seat 4 and the back support 3 and also amplifies the amount of relative movement between the seat receiving member 2 and the seat 4 and moves the engaging portion 31. In the present embodiment, the locked link 32 is generally fan-shaped, a first mounting pin 37 provided near the central angle, a second mounting pin 38 provided closer to the center than the first mounting pin 37, The flange part 39 of the circumferential surface centering on this 2nd attachment pin 38 is provided, and the engaging part 31 which consists of a through-hole arrange | positioned along the circumferential direction to this flange part 39 is provided. The second attachment pin 38 is attached to the seat frame 13 so as to be rotatable in a horizontal plane. Further, the first mounting pin 37 and the tip end portion of the seat receiving member 2 are connected by a connecting link 40. For this reason, when the seat frame 13 swings, the relative positions of the first mounting pin 37 and the second mounting pin 38 change, so that the locked link 32 rotates.
[0020]
And it arrange | positions so that the space | interval of the 2nd attachment pin 38 and the engaging part 31 may become larger than the space | interval of each pin 37,38. For this reason, the relative movement amount of the seat frame 13 and the seat receiving member 2 is amplified, and the engaging portion 31 is moved. Therefore, when the member to be locked is directly attached to the seat 4 or the like as in the prior art, a large number of engaging portions cannot be provided. be able to. For example, in the chair 8 of this embodiment, the back and forth movement of the seat frame 13 is about 30 mm. Therefore, even if a member to be locked is directly attached thereto, only a few lock points are provided. Since the movement is amplified, for example, five stages of lock points can be provided. In addition, since a sufficient margin is provided in the interval between the engaging portions 31, a robust structure can be achieved.
[0021]
The locked link 32 is provided so as to swing in a horizontal plane. For this reason, the thickness of the locking device 11 in the vertical direction can be reduced, and the locking device 11 can be incorporated without increasing the thickness of the seat 4. In other words, the rocking direction of the locked link 32 can be made different from the rocking direction of the seat 4, so that the locked link 32 can be moved in a direction with sufficient space according to the shape of the seat receiving member 2 and the seat 4. The locking device 11 can be reduced in size by being moved.
[0022]
In the present embodiment, the locked links 32 are provided on the left and right. Since the left and right locked links 32 theoretically move symmetrically, the engaging portions 31 face each other and the lock member 33 penetrates. However, when there is a possibility that the left and right locked links 32 may be displaced due to a dimensional error or the like, a gear portion that meshes with each locked link 32 may be provided to completely match the operations.
[0023]
The lock member 33 is slidably attached to the guide tube 41 of the seat frame 13 so as to be able to enter and exit the engaging portion 31. When the lock member 33 is fitted into the engaging portion 31, the tilting of the seat 4 and the backrest 10 can be locked. This is because the seat frame 13 and the seat receiving member 2 form a fixed chain by the lock member 33 and the locked link 32. In the present embodiment, the lock member 33 is attached to the engaging portion 31 so as to appear and disappear by sliding. However, the present invention is not limited to this, and for example, the lock member 33 may appear and appear by rotating.
[0024]
The operating means 35 is connected to the lock member 33 via the second urging means 36 and changes the urging force applied to the lock member 33 by switching between the lock position and the unlock position. Further, the operation means 35 is composed of, for example, a lever mechanism and can be maintained in a state in which a biasing force is applied to the second biasing means 36, that is, in a state in the unlock position. Here, the first biasing means 34 and the second biasing means 36 are tension coil springs having the same spring constant. Therefore, the parts of the first urging means 34 and the second urging means 36 can be shared.
[0025]
Further, a link 42 is connected between the base end portion of the lock member 33 and the seat frame 13. Then, the lock member 33 is provided so as to appear in and out of the engaging portion 31 as the link 42 swings. Further, a first urging means 34 is attached between the link 42 and the seat frame 13, and urges the lock member 33 in a direction to be depressed into the engaging portion 31. A second urging means 36 is attached between the link 42 and the operation means 35. Here, since there is a force point 42c between the fulcrum 42a and the action point 42b of the link 42 (see FIG. 7), the movement of the first urging means 34 and the second urging means 36 is amplified and the lock member 33 is moved. It can be slid.
[0026]
Therefore, as shown in FIG. 7, when the operating means 35 is in the locked position and the lock member 33 is fitted in the engaging portion 31 of the locked link 32, the locking is performed between the guide tube 41 and the engaging portion 31 of the seat frame 13. Since the member 33 is straddling, the tilting of the seat 4 and the backrest 10 is locked. In this state, if an external force is not applied to the seat 4 and the backrest 10 or only a slight external force is applied, the seat frame 13 receives a large reaction force of the urging spring 5 and returns to the initial position. Is being energized. Here, since the inner wall of the engaging portion 31 of the locked link 32 and the locking member 33 are pressed against each other, the operating means 35 is operated to the unlocked position as shown in FIG. Even if the lock member 33 is to be extracted from 31, the lock member 33 cannot move due to large friction with the inner wall of the engaging portion 31. For this reason, the lock of the tilting of the seat 4 and the backrest 10 is maintained, and at the same time, the second urging means 36 is stored. Thereby, the inclination state of the seat 4 and the backrest 10 is self-held.
[0027]
When an external force that weakens the reaction force by the biasing spring 5 is applied to the self-held seat 4 and backrest 10, the pressing force is reduced between the inner wall of the engaging portion 31 and the lock member 33. Frictional force is weakened. Further, when the total amount of the frictional force and the urging force of the first urging means 34 becomes smaller than the urging force in the pulling direction of the lock member 33 by the second urging means 36, as shown in FIG. In addition, the lock member 33 is pulled out of the engaging portion 31 by the second urging means 36. At this time, the lock member 33 is held so as not to move in a balanced manner by the first urging means 34 and the second urging means 36. Then, the locked state by the lock member 33 and the engaging portion 31 is released, and the seat frame 13 is unlocked and can be swung, so that the seat 4 and the backrest 10 are moved to the initial position by the biasing of the biasing spring 5. Or is swung to an arbitrary position by the seated person as shown in FIG.
[0028]
On the other hand, as shown in FIGS. 1 to 4, the reaction force adjustment mechanism 1 of the present embodiment adjusts the magnitude of the locking reaction force of the urging spring 5. The reaction force adjusting mechanism 1 includes an adjusting lever 6 that changes the entire length of the biasing spring 5 according to the principle of the lever, and a fixing means 7 that fixes the position of the adjusting lever 6. For this reason, since the length of the urging spring 5 can be changed by operating the adjusting lever 6 using the lever principle, the reaction force can be adjusted with a light force. Further, even when a larger reaction force is adjusted, the force required for the adjustment can be suppressed to the same level as in the past.
[0029]
In this embodiment, the locking device 11 and the reaction force adjusting mechanism 1 are mounted on a rocking chair 8 as shown in FIGS. The chair 8 includes a leg 9, a seat receiving member 2 supported by the leg 9, a seat 4 whose front part is supported by the seat receiving member 2 so as to be rotatable and movable back and forth, and the seat receiving member 2 and the seat 4. The back support rod 3 that is rotatably supported with respect to the seat 4, the backrest 10 attached to the back support rod 3, and the biasing force of the biasing spring 5 are used to support the back support rod 3 and the seat. 4 includes a locking device 11 for returning 4 to an initial position, and a reaction force adjusting mechanism 1 for adjusting the magnitude of the locking reaction force of the urging spring 5.
[0030]
The seat 4 includes a seat body 12 having a seating surface 12a, and a seat frame 13 that supports the seat body 12 so as to be movable back and forth from below. The seat body 12 includes a seat plate serving as a core material, a cushion placed on the seat plate, and an upholstery covering the cushion. An inner guide groove 14 and an outer guide groove 77 are formed in the front end portion of the seat frame 13 with the longitudinal direction in the front-rear direction. Further, a guide hole 78 having a longitudinal direction in the front and rear direction is formed in the rear portion of the seat frame 13. The seat body 12 is supported by the outer guide groove 77 and the guide hole 78 of the seat frame 13 so as to be movable back and forth with respect to the seat frame 13 by using pin members and bolts.
[0031]
The inner guide groove 14 is slidably and rotatably attached to a front support shaft 15 provided at the upper part of the front end of the seat receiving member 2. A rear end portion of the seat frame 13 is rotatably attached to a rear support shaft 16 provided on the back support rod 3. As a result, when the back support rod 3 is tilted backward, the rear portion of the seat frame 13 is pulled backward and simultaneously the front portion rotates and slides backward.
[0032]
2 to 4, the locking device 11 includes a central support shaft 17 rotatably attached to the central portion of the seat receiving member 2, a pressing lever 18 that rotates integrally with the central support shaft 17, and one end. Includes a biasing spring 5 that is supported by the pressing lever 18 and has the other end supported by the seat receiving member 2 via the reaction force adjusting mechanism 1, and a spring mount 19 that holds both ends of the biasing spring 5. Yes. The biasing spring 5 is a compression coil spring. For this reason, when the central support shaft 17 is rotated by the backward inclination of the back support rod 3, the pressing lever 18 can compress the biasing spring 5 to obtain a reaction force. When the external force that tilts the back support rod 3 backward is released, the back support rod 3 is restored to the original position by the biasing force of the biasing spring 5.
[0033]
The adjustment lever 6 of the reaction force adjustment mechanism 1 is L-shaped with a long side portion 20 positioned along the biasing spring 5 and a short side portion 21 attached to the biasing spring 5. For this reason, since the long side part 20 is along the urging | biasing spring 5, the whole urging | biasing spring 5 and the reaction force adjustment mechanism 1 can be put together compactly. The urging springs 5 are arranged on both the left and right sides in parallel with the long side portion 20 of the adjustment lever 6 interposed therebetween. For this reason, it is possible to obtain a reaction force twice that of the case where only one urging spring 5 is attached and to make the urging spring 5 sufficiently long regardless of the presence of the reaction force adjusting mechanism 1. A large reaction force can be obtained.
[0034]
The distal end portion of the short side portion 21 of the adjustment lever 6 is supported so as to be rotatable with respect to the seat receiving member 2. A spring bearing shaft 22 that engages with the spring mount 19 of the biasing spring 5 is attached to the L-shaped corner portion of the adjustment lever 6. Therefore, the adjustment lever 6 is always urged by the urging spring 5 in the direction of rotating forward. A fixing means 7 is attached to the long side portion 20 of the adjustment lever 6. In the present embodiment, the fixing means 7 functions to suppress the adjustment lever 6 from rotating forward.
[0035]
The fixing means 7 is an adjustment screw that can swing the adjustment lever 6. Therefore, since the adjustment lever 6 can be swung by rotating the fixing means 7, the reaction force can be easily adjusted with a light force. In this embodiment, the fixing means 7 is rotatably attached to the bottom 2a of the seat receiving member 2. The fixing means 7 includes an operation knob 23 provided on the outer side of the seat receiving member 2 and a male screw portion 24 provided on the inner side of the seat receiving member 2. The shape of the operation knob 23 can be a flat shape along the longitudinal direction of the male screw portion 24, or a cylindrical shape.
[0036]
The male screw portion 24 of the fixing means 7 passes through a through hole 20 a formed in the long side portion 20 of the adjustment lever 6. Furthermore, a slider 25 having an internal thread portion is screwed to the external thread portion 24 of the fixing means 7. The slider 25 has a rectangular parallelepiped shape and is sandwiched between the left and right side walls of the adjustment lever 6 so as not to rotate. For this reason, even if the fixing means 7 is rotated, the slider 25 slides along the longitudinal direction of the male screw portion 24 without rotating.
[0037]
Thus, when the slider 25 is lowered downward by tightening the fixing means 7, the adjustment lever 6 rotates backward to compress the biasing spring 5 and increase the reaction force (shown by a solid line in FIG. 3). ). Further, when the slider 25 is lifted upward by loosening the fixing means 7, the adjustment lever 6 rotates forward by the spring force of the biasing spring 5, and the biasing spring 5 can be extended to reduce the reaction force (FIG. 3 is indicated by a two-dot chain line).
[0038]
In the present embodiment, the reaction force adjusting mechanism 1 is disposed on the side of the urging spring 5. Therefore, the total longitudinal length L of the biasing spring 5 and the reaction force adjusting mechanism 1 can be suppressed to be slightly longer than the longitudinal length of the biasing spring 5. Therefore, the overall longitudinal length of the biasing spring 5 and the reaction force adjusting mechanism 1 is much shorter than the conventional length obtained by adding the longitudinal lengths of the biasing spring 5 and the reaction force adjusting mechanism 1 together. Accordingly, the length of the guide groove 14 of the seat receiving member 2 that supports the front end portion of the seat 4 so as to be movable back and forth can be sufficiently secured. The reclining effect can be enhanced. That is, it is possible to secure a large inclination angle and amount of movement of the seat 4 and the backrest 10 between the upright position and the reclining position by sufficiently increasing the longitudinal movement amount of the seat 4. Moreover, since the distance from the front end of the seat 4 to the front end of the seat receiving member 2 can be made sufficiently long, the mechanical part below the seat 4 becomes difficult to see when the chair 8 is viewed from the front, and the appearance is improved. Can do.
[0039]
Furthermore, in this embodiment, the biasing spring 5 is provided to be inclined with respect to the front-rear direction of the chair 8. Therefore, the longitudinal length of the biasing spring 5 and the reaction force adjusting mechanism 1 can be further shortened.
[0040]
In FIG. 4, reference numeral 26 denotes an elevating lever for pressing an adjustment pin of the gas spring 28 built in the leg 9, and reference numeral 27 denotes a cable attached to swing the elevating lever 26.
[0041]
As shown in FIGS. 1 and 2, the back support rod 3 has an L shape having a substantially horizontal front portion 29 and a substantially upright rear portion 30. The front end portion of the back support rod 3 is fixed to the central support shaft 17 of the locking device 11 so as to rotate integrally. A rear support shaft 16 to which the rear end of the seat 4 is rotatably connected is formed at the center of the front portion 29 of the back support rod 3.
[0042]
On the other hand, a lumbar support adjustment mechanism 43 that adjusts the protruding amount of the lumbar support of the backrest 10 is provided at the rear portion of the front portion 29 of the back support rod 3. The backrest 10 is supported at the lower portion by the lumbar support adjusting mechanism 43 and at the center by being screwed to the upper end portion of the rear portion 30 of the back support rod 3.
[0043]
As shown in FIG. 11, the backrest 10 is made of, for example, a plastic frame-like inner member 44 and a bag-like skin member 45 that is made of, for example, an elastomer such as rubber or elastic polyester and encloses the inner member 44. And. Since the inner member 44 has a frame shape, the back of the seated person is supported only by the skin member 45, so that a high cushioning property can be obtained and the sitting comfort can be improved.
[0044]
As shown in FIGS. 2 and 11 to 13, the lumbar support adjusting mechanism 43 is fixed to the lower part of the backrest 10 and can push it forward, and the support body 46 is attached to the back support 3. A support shaft 47 that is attached and supported slidably in the front-rear direction with respect to the back support rod 3, a rotatable screw shaft 48 provided along the support shaft 47, and a slider screwed to the screw shaft 48 49, and a link 50 that rotatably connects the slider 49 and the support shaft 47.
[0045]
The support body 46 includes a guide groove 51 into which a mounting portion 51 to which a lower portion of the backrest 10 is attached, a support hole 52 through which the support shaft 47 passes, and a guide pin 53 formed in the back support rod 3 are fitted and slid. 54, and a seat support portion 55 that is screwed to the rear portion 12b of the seat body 12 and supports the rear portion of the seat 4 from below. The back support rod 3 is formed with a support groove 56 that supports the support shaft 47 so as to be movable back and forth. Here, the support groove 56 and the guide groove 54 are formed to have an angle of about 25 degrees, for example. For this reason, when the support shaft 47 slides in the support groove 56, the support main body 46 also moves back and forth. At this time, the guide groove 54 tilts and moves by 16 degrees, so that the support main body 46 as a whole is supported by the support groove 56. And the normal of the guide groove 54 will rotate around the point C where they intersect.
[0046]
Since the lower part of the backrest 10 and the rear part of the seat body 12 are fixed to the support body 46, the shape of the backrest 10 changes due to the inclination of the support body 46, and at the same time the seat body 12 moves back and forth. The shape changes. That is, the backrest 10 has a relatively flat shape and the seat body 12 is positioned on the front side (indicated by a two-dot chain line in FIG. 12), or the waist portion of the backrest 10 projects and the seat body 12 The state can be changed to a state located on the rear side (indicated by a solid line in FIG. 12). Accordingly, when supporting a posture in which the spine has an I-shape with a relatively flat shape (see FIG. 14), the waist portion protrudes as a lumbar support, and the seat body 12 is pulled rearward so that the spine is S This can correspond to the case of supporting the character-shaped posture (see FIG. 15).
[0047]
Further, as shown in FIG. 13, the screw shaft 48 is formed with a right-hand screw and a left-hand screw with a central portion as a boundary. Then, two sliders 49 are provided with the central portion interposed therebetween. Accordingly, by rotating the screw shaft 48, the two sliders 49 slide in opposite directions. And when each link 50 becomes parallel, the support shaft 47 is located in the foremost position (indicated by a solid line in FIG. 13). When the screw shaft 48 is rotated from this state, both the sliders 49 are separated or approached so that the links 50 are not parallel, and the support shaft 47 is pulled backward. Accordingly, the support body 46 is rotated to adjust the height of the lumbar support. The screw shaft 48 may be adjusted using, for example, a tool such as a screwdriver, or may be performed by operating an operation knob that rotates integrally with the screw shaft 48.
[0048]
When the above-described chair 8 is used, the seated person can lock the backrest 10 by putting his weight on the backrest 10 and tilting it. Then, the reaction force of the locking can be adjusted by operating the reaction force adjusting mechanism 1.
[0049]
Further, when the seat 4 and the backrest 10 are tilted and locked and the seat is stood and the lock is released, the seat 4 and the backrest 10 are held by themselves while being tilted. Then, the self-holding is released by seating again, and the lock of the seat 4 and the backrest 10 is released, and the locking becomes possible.
[0050]
In this embodiment, since the seat 4 and the backrest 10 are positioned by the engagement of the locked link 32 and the lock member 33, the spring of the biasing spring 5 is compared with the case where a gas spring with a lock mechanism is used. It is necessary to strengthen the power. However, since the operating force of the reaction force adjusting mechanism 1 here is small, the reaction force can be easily adjusted.
[0051]
The above-described embodiment is an example of a preferred embodiment of the present invention, but is not limited thereto, and various modifications can be made without departing from the scope of the present invention. For example, in the present embodiment, the lumbar support adjusting mechanism 43 adjusts the height of the lumbar support by moving the support body 46 fixed to the lower part of the backrest 10 as shown in FIGS. 2 and 11 to 13. However, it is not limited to this. For example, as shown in FIGS. 14 to 17, the lumbar support adjusting mechanism 43 is supported so as to swing up and down with respect to the back support rod 3 and a guide rail 57 that supports the lower portion of the backrest 10 so that it can be raised and lowered. As an operation lever 58, a part of the operation lever 58 and the lower part of the backrest 10 are connected, and the lower part of the backrest 10 is guided by the guide rail 57 as the operation lever 58 moves up and down. You may make it do.
[0052]
In this embodiment, the guide rails 57 are provided on the left and right back support rods 3, and connecting members 59 that connect the guide rails 57 are provided. The operation lever 58 is provided on the left and right sides of the central portion of the connecting member 59. An inner end 58a of each operation lever 58 is rotatably provided at the center of the connecting member 59, and an outer end 58b is provided through the guide rail 57 so as to be operable from the outside. Further, the lower portion of the backrest 10 is attached to the central portion 58 c of each operation lever 58. Here, a horizontally long through hole 60 is formed in the lower portion of the backrest 10 (see FIG. 18), and the backrest 10 is screwed to the operation lever 58 by a bolt passing through the through hole 60.
[0053]
Therefore, when the operation lever 58 is at the lowest position, the lower portion of the backrest 10 is also located at the lowermost position (FIG. 17A). At this time, the backrest 10 has a relatively flat shape and is suitable for supporting a posture in which the spine has an I-shape (FIG. 14). When the operation lever 58 is at the uppermost position, the lower part of the backrest 10 is also positioned at the uppermost position (FIG. 17B). At this time, the waist portion of the backrest 10 protrudes and is suitable for supporting a posture in which the spine is S-shaped (FIG. 15).
[0054]
In the above-described embodiment, as shown in FIG. 11, the central portion of the backrest 10 is attached to the upper portion of the back support rod 3 that is about half the height of the backrest 10 by screwing. I can't. For example, as shown in FIGS. 14, 15, and 18 to 20, the back support rod 3 having the same height as the backrest 10 may be provided so as to be swingable in the front-rear direction at the center. In this case, as shown in FIG. 18, the back support rod 3 includes a lower half 61 attached to the seat receiving member 2 and an upper half 62 attached rotatably to the lower half 61. . Here, the upper half 62 has a frame shape. The upper half 62 and the lower half 61 are attached so as to be rotatable forward and backward by means of left and right connecting pins 63.
[0055]
The backrest 10 includes, for example, a plastic frame-like inner member 44 and a bag-like skin member 45 made of an elastomer such as rubber or elastic polyester and enclosing the inner member 44. A horizontal opening 64 is formed in the center of the back surface of the skin member 45. The upper skin member 65 above the opening 64 is formed in a bag shape larger than the inner member 44. The upper half 62 is hidden inside the upper skin member 65. For this reason, the appearance of the backrest 10 can be enhanced.
[0056]
Further, the lower portion of the upper half 62 is screwed to the inner member 44 of the backrest 10 as shown in FIG. The upper end portion of the upper half 62 is engaged with the inner member 44 of the backrest 10 as shown in FIG. The mode of engagement is not particularly limited, and a convex portion 66 and a concave portion 67 that completely fit as shown in FIG. 5A are formed, or a peak portion that is simply caught as shown in FIG. 68 and valleys 69 may be formed. Thus, by fixing the upper half 62 to the inner member 44 of the backrest 10, the upper half 62 can be prevented from falling down.
[0057]
According to the backrest 10 and the backrest 3, the shape of the backrest 10 is such that the upper half of the backrest 10 swings as the lower portion of the backrest 10 is moved up and down by the lumbar support adjusting mechanism 43. Will change.
[0058]
In the embodiment shown in FIGS. 18 and 19, the upper part of the back support rod 3 is hidden inside the upper skin member 65, but the present invention is not limited to this. For example, as shown in FIG. 21, an outer cover 70 that hides the upper half 62 of the back support 3 between the backrest 10 and the backrest 10 may be attached from the rear.
[0059]
In this embodiment, a compression coil spring is used as the reaction force application mechanism, but the present invention is not limited to this, and a torsion bar or a gas spring may be used. In the above-described embodiment, the first urging means 34 and the second urging means 36 are tension coil springs having the same spring constant, but are not limited thereto, and may be tension coil springs having different spring constants. Further, the first urging means 34 and the second urging means 36 are not limited to the tension coil springs, and may apply an urging force to the lock member 33 by a weight load. Alternatively, as the first urging means 34 and the second urging means 36, a mechanism such as a balance is used, and when the weight is placed on one side of the balance, the weight is urged toward the lock position and the weight is placed on the other side. It may be configured such that when it is placed, it is urged to the unlock position side, and the weight position is changed between the one side and the other side by the operating means 35.
[0060]
On the other hand, in the locking device 11 shown in FIGS. 5 to 10 described above, the lock member 33 is provided on the seat frame 13. However, the lock member 33 is not limited to this and may be provided on the seat receiving member 2. Further, although the locked link 32 is provided so as to swing by relative movement between the seat receiving member 2 and the seat frame 13, the present invention is not limited to this, and the locked link 32 may be linearly moved. In either case, the locking device 11 can be reduced in size by moving the locked link 32 in a direction with a sufficient space according to the shape of the seat receiving member 2 and the seat 4.
[0061]
Furthermore, in the locking device 11 shown in FIGS. 5 to 10 described above, a locked link is used as the locked member 32, but the present invention is not limited to this. For example, a gear or the like may be used.
[0062]
In the above-described embodiment, as shown in FIGS. 7 to 10, the operation means 35 can be held at the unlock position, and the first urging means 34 is interposed between the seat frame 13 and the lock member 33. The first urging means 34 and the second urging means are attached when the second urging means 36 is attached between the operation means 35 and the lock member 33 and the operation means 35 is held in the unlocked position. 36, the lock member 33 is held in the unlocked position, and when the operating means 35 is set to the locked position, the first biasing means 34 holds the lock member 33 in the locked position. Is not limited.
[0063]
For example, as shown in FIG. 22, the operating means 35 can be held in the locked position, and the second biasing means 36 is attached between the seat frame 13 and the lock member 33, and the first biasing means. 34 may be attached between the operation means 35 and the lock member 33. In this case, when the operating means 35 is held in the locked position, the first urging means 34 and the second urging means 36 are balanced and the lock member 33 is held in the locked position, and the operating means 35 is set in the unlocked position. Then, the lock member 33 is held at the unlock position by the second urging means 36. Even in this case, even when the operation means 35 is set to the locked position and the lock member 33 is inserted into the engaging portion 31, the operation means 35 is operated to the unlocked position to extract the lock member 33 from the engaging portion 31. The locking member 33 cannot move due to a large friction with the inner wall of the engaging portion 31, and the locking of the tilting of the seat 4 and the backrest 10 is maintained and self-held.
[0064]
Moreover, in each embodiment mentioned above, although the locking device 11 is applied to the rocking chair, it is not restricted to this, What supports a to-be-supported member with respect to a supporting member so that rocking is possible, especially a to-be-supported member and a supporting member Can be applied to all of them that swing around the rotation axis. For example, it can be used for a table or a drawing table of a heavy computer desk. Such a table top has a considerable weight, so a great reaction force is applied to balance it. In this case, when the operation lever is operated to the unlock side when no load is applied to the table plate, the table plate is self-held, so that it is possible to prevent a phenomenon in which the table plate suddenly jumps up. Further, by using the reaction force adjusting mechanism 1, the reaction force of locking can be adjusted with a light force.
[0065]
【The invention's effect】
As is clear from the above description, according to the locking device of the first aspect, since the member to be locked amplifies the relative movement amount of the supporting member and the member to be supported, the number of stages in which the member to be supported can be locked is obtained. Can be increased. In addition, since a sufficient margin is provided for the interval between the engaging portions, a robust structure can be achieved.
[0066]
Further, since the movement direction of the locked member can be made different from the swinging direction of the supported member, it can be covered in a spatially-spaced direction according to the shape of the supporting member and the supported member, that is, in the horizontal plane. the locking member as well as so as to swing, the engagement portion is disposed on the circumferential surface around the rotation center of the lock member, it is possible to reduce the thickness in the vertical direction of the locking device, small Can be achieved. For this reason, this locking device can be incorporated in, for example, a chair seat.
[0067]
Furthermore, according to the locking device according to claims 2 and 3, the operating means can be held only in the unlocked position, can be held only in the locked position, or can be held in both positions. Depending on the type of the locking device, it is possible to form an operating means with preferable operability.
[0069]
Further, according to the locking device of the fourth aspect , since the first urging means and the second urging means are tension coil springs having the same spring constant, parts of the first urging means and the second urging means are provided. Can be shared.
[Brief description of the drawings]
FIG. 1 is a central longitudinal cross-sectional side view showing an overview of a chair equipped with a reaction force adjusting mechanism.
FIG. 2 is an exploded perspective view showing a main part of a chair equipped with a reaction force adjustment mechanism.
FIG. 3 is a central longitudinal sectional view showing a reaction force adjusting mechanism and a locking device.
FIG. 4 is a perspective view showing a reaction force adjusting mechanism and a locking device.
FIG. 5 is a perspective view showing a state in which a seat frame is attached to a seat receiving member.
FIG. 6 is a perspective view of the locking device of the present invention as viewed from below.
FIG. 7 is a plan view showing the locking device when the seat and the backrest are locked.
FIG. 8 is a plan view showing the locking device when the seat and the backrest are self-held.
FIG. 9 is a plan view showing the locking device when the seat and backrest are unlocked.
FIG. 10 is a plan view showing the locking device when the seat and the backrest are locked.
FIG. 11 is a perspective view showing a back support rod and a backrest.
FIG. 12 is a central longitudinal cross-sectional side view showing a back support rod and a backrest.
FIG. 13 is a plan view showing a main part of the lumbar support adjusting mechanism.
FIG. 14 is a side view showing a state in which the spine is seated in an I-shaped posture.
FIG. 15 is a side view showing a state where the spine is seated in an S-shaped posture.
FIG. 16 is a perspective view showing another embodiment of the lumbar support adjusting mechanism.
17A and 17B are front views showing another embodiment of the lumbar support adjusting mechanism, in which FIG. 17A shows a state where the lumbar support is low, and FIG. 17B shows a state where the lumbar support is high.
FIG. 18 is a perspective view showing another embodiment of a back support rod and a backrest.
FIG. 19 is a central longitudinal sectional side view showing another embodiment of a back support rod and a backrest.
20A and 20B are central longitudinal cross-sectional side views showing a connection structure of a back support rod and a backrest, in which (A) engages a concave portion and a convex portion, and (B) engages a mountain portion and a valley portion, respectively.
FIG. 21 is a perspective view showing another embodiment of a back support rod and a backrest.
FIG. 22 is a plan view showing another locking device.
FIG. 23 is a side view showing a conventional locking device with a locking mechanism.
FIG. 24 is a central longitudinal cross-sectional side view showing a conventional locking device having a self-holding function.
FIG. 25 is a perspective view showing a biasing member of a locking device having a conventional self-holding function.
[Explanation of symbols]
2 Seat receiving member (supporting member)
3 Back support (supported member)
4 seats (supported members)
5 Biasing spring (reaction force application mechanism)
11 Locking device 31 Engagement section 32 Locked link (locked member)
33 Locking member 34 First biasing means 35 Operating means 36 Second biasing means

Claims (4)

A locking device that supports a supported member in a swingable manner with respect to the supporting member and urges the supported member toward an original position by a reaction force applying mechanism. A locked member that is attached to the supported member and moves by swinging the supported member, and further amplifies a relative movement amount of the supporting member and the supported member to move the engaging portion; When it is attached to either the support member or the supported member so as to be able to move in and out of the engagement portion and is fitted into the engagement portion, the swing of the supported member is locked at a position desired by the user. A first biasing means for biasing the lock member in a direction in which the lock member is engaged with the engagement portion; a second biasing means for biasing the lock member in a direction of extracting the lock member from the engagement portion; The first biasing hand Alternatively, it is connected to the lock member via the second urging means, and is switched between a lock position and an unlock position, and the urging force to the lock member is changed by the switching, and the connected Operating means capable of maintaining a state in which a biasing force is applied to the biasing means, the locked member is swingable in a horizontal plane, and the engaging portion is centered on the rotation center of the locked member. locking device characterized that you have been placed on the circumference surface.   2. The locking device according to claim 1, wherein the operating means is connected to the second urging means and can be held in an unlocked position.   2. The locking device according to claim 1, wherein the operating means is connected to the first urging means and can be held in a locked position. It said first biasing means and the second biasing means locking apparatus according to any of claims 1, wherein the tension coil Banedea Rukoto the same spring constant to 3.

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