JP2008080089A - Chair - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enhance the user-friendly property of a chair in which at least a lumber support part of the backrest can be moved forward when a person is seated. <P>SOLUTION: An interlocking device for converting the downward movement of a seat to the forward movement of the backrest comprises a second interlocking link 39 disposed in a receiving member 35 fixed to an oscillation frame and a third interlocking link 41 to rotate following the second interlocking link 39. The rotation force of the second interlocking link 39 is transmitted to the third interlocking link 41 via a spring 40. A locking device 60 to be operated by a lever attached to the seat, etc. is disposed in the receiving member 35. A locking body 67 of the locking device 60 is inserted or taken out under a forward overhanging part 41a in the third interlocking link 41 by the operation of a wire 70. Accordingly, the state of the third interlocking link 41 can be switched to the rotatable state or to the rotation-impossible state. <P>COPYRIGHT: (C)2008,JPO&INPIT

Description

  The present invention relates to a chair in which when a person is seated, the seat moves downward and at least the lumbar support part of the backrest can move forward.

  In a chair with a backrest, the importance of supporting the seated person's lumbar area (lumbar vertebrae and pelvis) from behind has been recognized, and it has been proposed and implemented to give the backrest a lumbar support function. . In this case, the lumbar support function is exhibited by a person sitting deeply.

On the other hand, for example, when a chair is used by a person to perform various operations in an office or the like, the person does not necessarily sit deeply and often sits shallowly. The conventional chair has a problem that the lumbar support function is not exhibited when a person sits shallowly (or does not sit deeply). Therefore, the applicant of the present application has proposed a chair in which at least the lumbar support part of the backrest greatly advances when a person is seated in the previous application (Patent Document 1).
Japanese Patent Application No. 2005-237660

  According to Patent Document 1, there is an advantage that the lumbar support function can be accurately exhibited even if a person is seated shallowly. In particular, when the seat moves so that the seat moves backward while being retracted, the lumbar support part not only moves forward but also the body approaches the backrest, so that it can be said that it is particularly suitable for a state in which it automatically sits deep. . On the other hand, the preference of the person using the chair varies, and in some cases, it is speculated that the user wants a state in which the backrest does not move forward.

  This invention is made | formed in view of such a present condition, and makes it a subject to provide the chair with high user friendliness which can respond to a user's liking exactly.

  The present invention comprises a seat that moves downward when a person sits down, and a backrest having a lumbar support portion that can support the waist of a seated person, and at least the lumbar support portion of the backrest can advance by the downward movement of the seat Further, a lock device is provided for preventing or regulating the forward movement of the backrest.

  The present invention can be developed in various ways. An example is given in claim 2. According to a second aspect of the present invention, in addition to the structure of the first aspect, a support base supported by legs, a swing frame connected to the support base so as to be tiltable rearwardly, and a rear tilt of the swing frame elastically. The seat is connected to the support base and the swing frame via a support link, and when the person is seated, the support link tilts backward so that the seat can be lowered. ing.

  The swing frame is provided with a back frame that extends upward on the back side of the backrest, the upper portion of the backrest is attached to the back frame, and the lumbar support portion of the backrest is interlocked with the swing frame. It is connected to the mechanism, and when the seat is lowered, the lumbar support part moves forward through the interlocking mechanism.

  Further, the interlocking mechanism has a plurality of rotational interlocking links, and the rotation of one interlocking link drives the adjacent interlocking link via a spring, and the movement of one interlocking link Is transmitted to an adjacent interlocking link via a spring, and the interlocking link rotated by the spring is rotated and movable by a movable lock body provided in the lock device. It can be switched to a disabled state.

  In the present invention, for example, the backrest can be switched between a state of advancement and a state of non-advancement by sitting, so that the user can select one of the modes according to his / her preference. . In addition, as a lock | rock aspect of a backrest, when stopping in the state which does not advance at all, both the cases where the distance (stroke) which moves forward are suppressed are included.

  There are various methods for preventing the backrest from moving forward. According to the second aspect, one interlocking link is always rotated by the downward movement of the seat, and the other interlocking link is rotated. Therefore, the forward movement of the backrest can be stopped without hindering the downward movement of the seat. Even if the backrest is in a state where it can move forward, if the person sits down deeply, the backrest hardly advances. That is, the seat is always lowered by a certain amount, but the forward movement amount of the backrest differs depending on the depth of the seat, and the gap between them is absorbed by the deformation of the spring. Therefore, it can be said that the configuration of claim 2 is particularly suitable.

Next, an embodiment of the present invention will be described with reference to the drawings. This embodiment is applied to a swivel chair for office use etc.
(1). Outline of Chair First, the outline of the chair will be described with reference to FIGS. 1 is an overall perspective view of the chair, FIG. 2A is a front view of the chair, FIG. 3B is a side view of the chair, FIG. 3 is a rear view of the chair, and FIG. FIG. 5 is a partially broken side view, FIG. 5 is a plan view of VV in FIG. 4, and FIG. 6 is a schematic diagram showing the interlocking relationship.

  The chair includes a leg 1, a seat 2, and a backrest 3. The leg 1 includes a group of branch legs 4 extending horizontally and a leg column (gas cylinder) 5, and a base 6 made of a metal plate opened upward is attached to the upper end of the leg column 5. As shown in FIG. 4, the seat 2 includes a resin seat inner shell (seat plate) 2a and a seat outer shell 2b that supports the seat from below, and a cushion is provided on the upper surface of the seat inner shell (seat plate) 2a. Is stretched. The seat inner shell 2a is fixed to the seat outer shell 2b with screws, for example.

  The front portion of the seat 2 is connected to the base 6 via left and right front support links 7 and left and right laterally long first support shafts 8. The first support shaft 8 may be rephrased as a slide shaft. A pair of left and right front brackets 9 sandwiching the front support link 7 from both the left and right sides are integrally formed at the front portion of the seat outer shell 2b, and the front bracket 9 and the front support link 7 are rotated relative to each other by a front pin 10. It is linked movably.

  A pair of left and right swing frames 11 are disposed on both left and right sides of the base 6 so as to be tilted backward as viewed from the side and extend rearward of the base 6. 12 is fixed. In the present embodiment, the swing frame 11 and the back frame 12 constitute a back support frame. The swing frame 11 and the back frame 12 can be integrated with each other, and the back frame 12 can be rephrased as a back column.

  The swing frame 11 is connected to the rear portion of the base 6 by a second support shaft 13 so as to tilt backward about the front end portion thereof. The rear portion of the seat 2 and the swing frame 11 are connected to each other via a pair of left and right rear support links 14 so as to be relatively rotatable. In the present embodiment, the front support shaft link 6 and the rear support link 14 form the core of the seat lowering allowance device. An upper end portion of the rear support link 14 is connected to a rear bracket portion 15 provided on the seat outer shell 6 by a rear pin 16.

  In the neutral state in which no person is seated, the front support link 7 and the rear support link 14 are slightly tilted backward with respect to the vertical line in a side view. Therefore, when a person is seated, the support links 7 and 14 are tilted backward. Accordingly, the seat 2 moves backward (or slides obliquely backward) while descending with almost no change in the posture in side view.

  The backrest 3 is made of a single resin member having flexibility. Of course, a structure in which a cushion is stretched on the inner shoulder can also be adopted. A large number of longitudinal ribs 17 are formed at substantially equal intervals on the front and rear surfaces of the backrest 3. The backrest 3 is gently curved in a forward-facing concave shape in plan view in both upper and lower parts. Moreover, the lower end of the backrest 3 is located near the seat 2 in the non-sitting state, and the lower portion of the backrest 3 is a lumbar support portion 3a that is curved in a forwardly convex shape with a loose curvature.

  The upper end portion of the back plate 17 is attached to the back frame 12 so as not to be separated, while the left and right end portions of the lumbar support portion 3a of the backrest 3 are connected to the fifth interlocking link 18, and the lower end portion of the lumbar support portion 3a. In addition, the left and right intermediate portions are connected to the fourth interlocking link 19, and when the seat 2 descends and retracts, the lumbar support portion 3a greatly moves forward. The fourth interlocking link 19 and the fifth interlocking link 18 constitute a part of the interlocking device.

(2) Details of the peripheral part of the base Next, the structure of the part centering on the base 6 will be described. As described above, the base 6 is formed in a box shape that opens upward, and the reinforcing bracket 21 is fixed to the inside and the rear portion of the base 6, and the bush 22 is fixed to the base 6 and the reinforcing bracket 21 (see FIG. 4). ) Is attached to the upper end of the leg support 5.

  In the front part of the left and right side plates of the base 6, there is an elongated hole 24 having a side-view shape in which the first support shaft 8 is slidably fitted in the front-rear direction. A resin bush 25 is open in the long hole 24. A slider 26 is slidably fitted to the bush 25 so as not to rotate from the outside, and the first support shaft 8 is fitted to the left and right sliders 26. The first support shaft 8 is fixed to the slider 26.

  Inside the base 6, two right and left locking springs (compression coil springs) 27 are arranged in a posture extending in the front-rear direction, and a front spring receiver 28 is fitted into the first support shaft 8 from the rear. On the other hand, the reinforcing bracket 21 is formed with a receiving wall 21 a that supports a fixed rear spring receiver 29. When the operating rod 30 protruding from the side surface of the support base 6 is rotated, the initial elastic force of the locking spring 27 changes. As shown in FIG. 5, a return spring 31 is fitted into the bearing body 26 (or the return spring 31 is built in a space in the front support link 7. For example, as shown in FIG. The swing frame 11 is fitted to the side plate of the base 6 via the bush 32. The second support shaft 13 is held by the swing frame 11 so as not to be detached by screws or snap rings (not shown). .

  The left and right oscillating frames 11 are connected by a connecting shaft 33 at a position somewhat rearward of the second support shaft 13, and the interlocking shaft 32 and the first support shaft 8 are connected by a left and right interlocking member 34. Yes. As shown in FIG. 5, the swing frame 11 is formed with a bearing portion 11 a into which the connecting shaft 33 is fitted. As partially shown in FIG. 2B and FIG. 3, a receiving member 35 for arranging the interlocking device is arranged between the left and right swing frames 11.

  The receiving member 35 is fixed to both swing frames 11 with screws, and the lower portion of the rear support link 14 is connected to the receiving member 35 by a drive shaft 36. Therefore, the rear support link 14 is in the same state as being connected to the swing frame 11 so as to be relatively rotatable. The seat 2 moves downward by the seating, but the swinging frame 11 does not tilt backward only by the person sitting.

  As shown in FIG. 6, the interlocking device (interlocking mechanism) for converting the downward movement of the seat 2 into the forward movement of the lumbar support portion 3 a includes a first interlocking link 38 fixed to the drive shaft 36 so as not to be relatively rotatable. The second interlocking link 39 that is rotated by the first interlocking link 38, the third interlocking link 41 that is rotated by the interlocking spring 40 when the second interlocking link 39 rotates, The fourth interlocking link 19 and the fifth interlocking link 18 are provided.

  The first interlocking link 38 extends backward from the pivoting fulcrum, the second interlocking link 39 extends from the pivoting fulcrum to the near side, and the interlocking spring 40 is attached to the second interlocking link 39. The third interlocking link 41 is a rotation fulcrum common to the second interlocking link 39, and extends upward from the rotation fulcrum. The fourth interlocking link 19 is connected to the upper halfway height position of the third interlocking link 41, and the fifth interlocking link 18 is connected to the upper end portion of the third interlocking link 41. When a person is seated and the seat 2 is lowered, each interlocking link rotates in a ballistic manner, and the lumbar support portion 3a of the backrest 3 moves forward (for example, about 50 to 100 mm).

(3). Specific structure of interlocking device Next, a specific structure of the interlocking device will be described with reference to FIGS. 7 and 8 are separated perspective views of main members, FIG. 9 is a separated plan view, FIG. 10 is a partial separated plan view, and FIG. 11 is a longitudinal side view.

  The receiving member 35 has a box shape opened upward, and the drive shaft 36 and the rear support link 14 are rotatably fitted to the front portion thereof, and the second interlocking link 39 is rotated to the rear end portion thereof. It is connected freely. In this embodiment, the drive shaft 36 uses a round bar, and the rear support link 14 is connected so as not to be relatively rotatable by forming flat surfaces at both ends thereof. The second interlocking link 39 is connected to the receiving member 35 via the left and right stepped bushes 42 (see FIG. 10) and the second pin 43.

  For example, as can be understood from FIG. 8, the first interlocking link 38 of the present embodiment is made of a metal plate and is formed in a substantially U shape in a front view having left and right side plates 43 b. Then, a long groove 45 having a rearward opening in which the first pin 44 can be fitted is formed in the side plate 38a. The first interlocking link 38 is fixed to the drive shaft 36 by welding.

  The second interlocking link 39 is made of a metal plate, and is formed in a generally downward opening U-shape as a whole. The left and right side plates 39 b constituting the second interlocking link 39 are extended forward, and the extension portion is connected to the receiving member 35 by a first pin 43.

  The top plate 39b of the second interlocking link 39 has a downward piece 45 formed by cutting and raising. A cylindrical body 47 is attached to the downward piece 45 and one side plate 39a via a pin 46, and the cylindrical body 47 is used for interlocking. The spring 40 is fitted from the outside.

  The interlocking spring 40 is a torsion spring in which a load acts in the coil winding direction, and both the one end 40a and the other end 40b extend in the tangential direction of the coil. For example, as clearly shown in FIG. 11, one end 40 a of the interlocking spring 40 is in contact with the top plate 39 b of the second interlocking link 39 from below. A forward projecting portion 41 a is formed at the lower end portion of the third interlocking link 41, and the other end portion 40 b of the interlocking spring 40 is in contact with the forward projecting portion 41 a of the third interlocking link 41 from above. Accordingly, the rotation of the second interlocking link 39 is transmitted to the third interlocking link 41 via the interlocking spring 41.

  A downwardly extending stopper groove 41b is formed in the forward projecting portion 41a of the third interlocking link 41, while the second interlocking link 39 is fitted in the stopper groove 41b on the left and right side plates 41a of the third interlocking link 41. A stopper pin 49 is mounted. The forward projecting portion 41a of the third interlocking link 41 is pushed by the stopper pin 49 by the interlocking spring 40, and therefore follows the state in which there is no backlash with respect to the third interlocking link 41 and the second interlocking link 39. .

  The left and right side plates 39a of the second interlocking link 39 are integrally formed with opposing U-shaped hook-shaped guide portions 39c, and a resin slider 50 (see FIG. 10) is provided on the left and right hook-shaped guide portions 39c. The first pin 44 is slidably fitted through the first pin 44 and the first pin 44 is fitted in the long groove 45 of the first interlocking link 38 as described above. Therefore, when the first interlocking link 38 rotates, the second interlocking link 39 rotates via the first pin 44.

  In the present embodiment, a damper unit that provides resistance to the rotation of the first interlocking link 38 is provided. For example, as shown in FIG. 8, the damper means includes a pair of left and right rotary dampers 52 and an arm body 53 disposed between the left and right rotary dampers 52. The rotary damper 52 uses a viscous fluid.

  The rotary damper 52 is fitted in a receiving recess 53 formed in the receiving member 35 and is held so as not to be removed by a lid 54, and its fixed shaft 52 a is fitted in a vertical groove 55 formed in the receiving member 35 so as not to rotate. The movable shaft 52b is fitted in a state in which it does not rotate relative to the arm body 53. A first pin 44 is fitted to the upper end of the arm body 53.

Therefore, when the first interlocking link 38 falls and rotates, the rotary damper 52 acts as a resistance against the rotation. For this reason, the seat 2 moves slowly and does not give a strange feeling to the person. The rotary damper 52 provides resistance against the return rotation of the first interlocking link 38, but the resistance is lighter than that when the rotary damper 52 is turned down (oil can escape quickly).
(4). Locking device As shown in FIG. 11, there is a certain gap between the forward projecting portion 41 a of the third interlocking link 41 and the bottom surface 35 a of the receiving member 35. Then, when the lock body of the locking device enters and leaves this gap, the third interlocking link 41 is switched between a rotatable state and a non-rotatable state. Next, the locking device will be described with reference to FIG.

  12 is a perspective view of members constituting the locking device 60, FIG. 13A is a plan view of the receiving member 35 with a part of the locking device 60 being attached, and FIG. 14A is a plan view of the locking device 60 in a free state (unlocked state), FIG. 14B is a BB view of FIG. FIG. 16 is a sectional front view showing the overlapping of the members of the locking device 60, FIG. 17 is a sectional view taken along line XVII-XVII in FIG. 15 in an assembled state, and FIG. FIG. 6B is a plan view of the locking device 60 in FIG. 4B, and FIG. 5B is a cross-sectional view taken along the line B-B in FIG.

  The lock device 60 includes a base body 61 fixed to the receiving member 35 with screws 62, a main slider 63 disposed on the upper surface of the base body 61 so as to be freely slidable back and forth, an auxiliary slider 64 mounted on the main slider 63, a main spring 65, and an auxiliary A spring 66 and a lock body 67 rotatably attached to the base body 61 are configured.

  The base body 61 is substantially plate-shaped and extends in the front-rear direction, and is disposed near the end of the receiving member 35 in a state of partially overlapping the second interlocking link 39 in plan view. The base body 61 is provided at the rear end of the base body 61 and is fitted in the forward rib 69a of the member 35 by receiving the recess 68 of the rearward opening, so that the base body 61 is held on the rearward rib 69b so as not to be displaced.

  In addition, a holding portion 72 for locking the end portion of the tube 71 into which the wire 70 is slidably fitted is formed in the front portion of the base body 61. The holding portion 72 is opened outward (laterally), and a holder portion 73 fixed to the end portion of the tube 71 is forcibly fitted into the holding portion 72 (the holding portion 72 is elastically deformed). The holder part 73 has an engaging groove 73a.

  The base body 61 includes a slide surface 61a extending in the front-rear direction, and the main slider 63 overlaps the slide surface 61a. The main slider 63 is formed in a box shape opened upward, and a main spring 65 is mounted on a claw portion 74 formed at the rear end thereof and a claw portion 75 formed at the rear end of the base body 61. Accordingly, the main slider 63 is always pulled backward by the main spring 65. The spring force of the main spring 65 is set smaller than the spring force of the auxiliary spring 66.

  For example, as shown in FIG. 17, a meat stealing portion 76 is formed so that the outer edge portion of the slide surface 61a of the base body 61 is a thin portion, while the main slider 63 has a base as an example of a guide means. A holding portion 77 that enters the meat stealing portion 76 of the body 61 is formed, and thus the main slider 63 is held so as not to be separated vertically.

  The auxiliary slider 64 is hollow and circular, and a rectangular flange 64 a is formed at the rear thereof, and is slidably fitted into the main slider 63. Further, a protrusion 64 b protruding left and right is formed on the flange 64 a, and this protrusion 64 b is forcibly fitted into a slit 78 formed on the main slider 63. For this reason, the auxiliary slider 64 is held inside the main slider 63 so as not to be detached.

  An auxiliary spring 66 is fitted on the auxiliary slider 64. For this reason, the auxiliary slider 64 is urged backward by the auxiliary spring 66. Furthermore, a ball 79 fixed to the end of the wire 70 is fitted into the auxiliary slider 64. The auxiliary slider 64 is formed with a slit 80 for allowing the wire 70 to escape in the longitudinal direction, and a relief slit 80 for passing the wire 70 is also formed on the front wall of the main slider 63.

  The base body 61 is integrally formed with an overhang portion 61b that protrudes from the slide surface 61a toward the receiving member 35, and a shaft hole 82 penetrating vertically is formed in the overhang portion. On the other hand, the lock body 67 is integrally formed with an arm portion 67a that overlaps the protruding portion 61b of the base body 61 from above, and the auxiliary slider 64 has a flange piece 64a that overlaps the arm portion 67a of the lock body 67 from above. Are integrally formed, and the projecting portion 61b of the base body 61, the arm portion 67a of the lock body 67, and the flange piece 64a of the auxiliary slider 64 are connected by a connecting pin 83 so as to be relatively movable.

  In this case, the hole into which the connecting pin 83 fits in the flange piece 64a of the auxiliary slider 64 is a long hole 84. Therefore, the main slider 63 is allowed to slide back and forth. The arm portion 57 a of the lock body 67 is formed with a large-diameter hole 85 into which the connecting pin 83 is fitted, and a narrow slit 86 communicating with the large-diameter hole 85. Therefore, the lock body 67 can rotate around the connecting pin 83.

  Further, a downward projection 87 is formed outside the elongated hole 84 in the flange piece 64 a of the main slider 63, and this projection 87 is fitted in the slit 86 of the arm portion 67 a in the lock body 67. For this reason, when the main slider 63 slides back and forth, the lock body 67 can rotate around the connecting pin 83 by the pressing action of the protrusion 87.

  A step portion 88 is formed on the lower surface of the periphery of the overhang portion 61 b in the base body 61, while a stopper portion 67 b that enters the step portion 88 is formed on the lock body 67. For this reason, the lock body 67 rotates without raising upward.

  In the state where the main slider 63 is fully retracted, the lock body 67 is positioned below the forward projecting portion 41a in the third interlocking link 41 as shown in FIG. 18, and therefore the third interlocking link 41 is tilted forward. As a result, the lumbar support portion 3a of the backrest 3 does not move forward. Further, the forward tilting of the second interlocking link 39 is allowed by the elastic deformation of the interlocking spring 40, and therefore there is no problem in the downward movement of the seat 2. When the main slider 63 is moved all the way forward, the lock body 67 moves to the front of the third interlocking link 41, so that the third interlocking link 41 is in a free state in which it can tilt.

  As shown in FIG. 2B, the lever 89 for operating the wire 70 is arranged coaxially with the rear pin 16 to which the upper part of the rear support link 14 is connected. Then, the lever 89 may be operated in the locked state. In this case, if the main slider 63 is simply pulled by the main spring 65, the third interlocking link 41 is moved by a person leaning on the backrest 3 or the like. If it is tilted forward, the lock body 67 is unable to rotate, and even if the lever 89 is operated in that state, if the lever 89 does not move, it will be mistaken for a person, or too much force will be applied. The lever 89 may be damaged.

  On the other hand, when the auxiliary slider 64 and the auxiliary spring 65 are provided as in the present embodiment, when the lever 89 is pulled while the lock body 67 is not rotatable, the auxiliary slider 64 slides to rotate the lever 89. Can be prevented, so that the accident of breakage of the lever 89 can be prevented. Further, when the force on the third interlocking link 41 is released, the lock body 67 rotates to the unlocking posture.

  The lever 89 needs to be selectively held in the locked posture and the unlocked posture, and as a means for that, a stopper 90 provided on the lever 89 is formed on the seat outer shell 6 as shown in FIG. The two recesses 91 are selectively fitted.

(5). Preferred Arrangement Mode of Operation Lever and Wire As described above, the tube-containing wire 70 for lumbar lock is drawn out to the upper surface of the outer shell 2b, but the hole for passing the wire 70 is formed in the outer shell 2b. Therefore, as shown in FIG. 2 (B), the wire 70 (or the tube 71) is in a state of being greatly curved like a laterally open U-shape in a side view. Yes.

  On the other hand, attaching an elevating lever to the outer shell and drawing the wire to the upper surface portion of the outer shell is disclosed in, for example, Japanese Patent Application Laid-Open No. 11-56516 and Japanese Utility Model Laid-Open No. 2-136551. However, in these cases, the lever is attached to the outer shell in a state in which the lever rotates around the axial center extending in the front-rear direction in the front view of the chair, and therefore, the portion of the wire attached to the lever is the upper surface of the outer shell. Since the wire extends in the left-right direction at the location, if the wire extends in the front-rear direction below the outer shell, the wire becomes twisted and the resistance to the tube increases, so smooth movement In order to prevent this, it is necessary to sufficiently lengthen the wire and increase the curvature radius of the bend.

  On the other hand, if the operating lever 89 is attached to the outer shell so as to rotate about the horizontally long axis as in this embodiment, the wire only bends in a U-shaped natural state. There is an advantage that smooth movement can be secured without increasing the length. This can be an independent invention regardless of the claims. Of course, the type of lever is not limited to the lumbar lock, and can be applied to a locking lock lever that restricts the movement of the backrest 3 (for example, to switch between a lockable state and a non-lockable state). In many cases, the rocking clock mechanism operated by a wire is arranged inside the support base.

  Further, the lever does not necessarily have to be attached to the pin 16, and a dedicated bearing portion for attaching the lever can be formed on the outer shell (in this case, the lever may be fixed with a pin or U-shaped). In addition, it is also possible to fit the shaft portion integrally formed with the lever into the bearing portion having a constricted opening.)

  Furthermore, it is preferable to arrange the lever for lumbar lock or locking lock at the rear part of the outer shell (behind the front / rear intermediate point) as in this embodiment. The reason for this is that the human arm can be operated in a natural state because it is located behind the seat in a sitting state, and that it can be operated in a natural state even in a locked state.

(6). Others The present invention is not limited to the above embodiment, and can be embodied in various ways. For example, it can be arbitrarily selected as necessary to prevent the movement of the backrest by stopping the movement of which member. For example, it is possible to stop the downward movement of the seat with a lock body. Of course, the structure for lowering the seat is not limited to the use of a link, but it is also possible to use a direct-acting guide means or a cylinder.

  In addition, the interlocking device is not limited to the one using the interlocking link, and there is no limitation such as one using a wire or one using a cylinder (pneumatic pressure or hydraulic pressure). The locking device depends on the structure of the interlocking device. The structure of is also different.

  Further, as a mode of switching the forward movement of the backrest, it is held in a state where it is fully advanced, a range (stroke) in which the backrest can move is adjusted, or a stop position where the backrest does not move back and forth is adjusted. (In this case, the use of a gas cylinder has the advantage that it can be locked in any forward position). As described above, there are various variations in the back-and-forth movement restriction mode in the present invention. It is also possible to advance the backrest as a whole.

FIG. 1 is an overall perspective view of a chair. (A) is a front view of a chair, (B) is a side view of a chair. It is a rear view of a chair. It is a partially broken isolation | separation side view which shows the support structure of a seat. FIG. 5 is a V-V separated plan view of FIG. 4. It is a schematic diagram which shows the interlocking relationship between a seat and a backrest. It is a separation perspective view of the main member of an interlocking device. It is a separation top view of the main member of an interlocking device. It is a separation top view of the main member of an interlocking device. It is a separation top view of the main member of an interlocking device. It is a vertical side view of a locking device. It is a perspective view of the member which comprises a locking device. (A) is a top view of the receiving member 35 in the state which attached the one part member of the locking device 60, (B) is BB sectional drawing of (A). (A) is a top view in the free state (lock release state) of the locking device 60, (B) is a BB view of (A). It is a separation top view of a locking device. It is a separation front sectional view showing overlap of members of a locking device. It is the XVII-XVII sectional view taken on the line of FIG. 15 in the assembled state. (A) is a plan view of the locking device in the locked state, and (B) is a cross-sectional view taken along the line BB in (A) with the third interlocking link 41 displayed. It is a sectional side view which shows the attachment structure of a lever.

Explanation of symbols

2 seats 3 backrest 3a lumbar support portion 11 swing frame 12 back frame 18 fifth interlocking link 19 second interlocking link 35 receiving member 36 drive shaft 38 first interlocking link 39 second interlocking link 40 interlocking spring 41 third interlocking link 60 Locking device (lumbar locking device)
61 Base body 63 Main slider 64 Auxiliary slider 65, 66 Spring 67 Lock body

Claims (2)

It is equipped with a seat that moves downward when a person sits down and a backrest that has a lumbar support portion that can support the waist of the person who is seated, and at least the lumbar support portion of the backrest can be advanced by the downward movement of the seat Furthermore, a locking device for preventing or regulating the forward movement of the backrest is provided.
Chair. The seat further comprises: a support base supported by legs; a swing frame coupled to the support base so as to be tiltable backward; and spring means for elastically supporting the rear tilt of the swing frame; Is connected to the support base and the swinging frame via a support link, and when the person is seated, the support link is tilted backward to allow the seat to move downward,
The swing frame is provided with a back frame that extends upward on the back side of the backrest, the upper portion of the backrest is attached to the back frame, and the lumbar support portion of the backrest is connected to an interlocking mechanism disposed on the swing frame. It is connected, and when the seat descends, the lumbar support part moves forward through the interlocking mechanism,
Further, the interlocking mechanism has a plurality of rotational interlocking links, and the rotation of one interlocking link drives the adjacent interlocking link via a spring, and the movement of one interlocking link Is transmitted to an adjacent interlocking link via a spring, and the interlocking link rotated by the spring is rotated and movable by a movable lock body provided in the lock device. Can be switched to the disabled state,
The chair according to claim 1.

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