JP5630802B2 - Chair - Google Patents

Description

  The present invention relates to a chair in which a seat moves rearward and downward in conjunction with backrest tilting backward.

  This type of conventional chair has a seat and a backrest with respect to the lower structure, an initial position where the seat is substantially horizontal and the backrest is substantially vertical, and the backrest is tilted backward, and In conjunction with this, there is a structure in which the seat is supported so as to be movable to the reclining position moved rearward and downward, and the seat and the backrest are always urged toward the reclining position by the urging means. (For example, refer to Patent Document 1).

JP 2006-87583 A

  However, in the one described in Patent Document 1, when the strength of the spring for biasing the backrest or the like toward the initial position is set to be strong, when a lighter person falls into the backrest, the backrest does not occur. When the backrest is difficult to tilt back or when the backrest is returned to the initial position, the backrest may turn sharply, which may cause discomfort to the seated person.

  Also, if the spring strength is set low, when a heavy weight person leans back, the back will suddenly turn to the reclining position, causing the seated person to feel uncomfortable or putting the back in the standing position. When returning, there is a problem that the backrest is difficult to return.

  In view of the above-mentioned problems of the prior art, the present invention not only provides an appropriate resistance to the movement of the backrest and seat (hereinafter referred to as backrest), but also the load applied to the backrest and the like. By making it possible to adjust the above-mentioned resistance to the optimum value based on the size, even if the difference in weight or the momentum at the time of drowning is different, the backrest moves rapidly, An object of the present invention is to provide a chair in which the backrest or the like can move smoothly at an optimal speed at all times without causing the drooping or the like to reach the reclining position.

According to the present invention, the above problem is solved as follows.
(1) The seat and backrest with respect to the lower component of the chair, the initial position where the seat is almost horizontal and the backrest is almost vertical, and the backrest is tilted backwards and interlocked with it. In the chair in which the seat is supported so as to be movable to the reclining position moved rearward and downward, and the seat and the backrest are always urged toward the initial position by the urging means. The body is provided with a pivot that turns in the left-right direction that rotates in conjunction with the rotation of the backrest , and provides resistance to the seat or backrest when the seat and backrest move from the initial position to the reclining position. The urging force that constantly urges the seat and the backrest of the urging means toward the initial position acts on a substantially central portion of the pivot , , one of the left and right of the pivot It includes a first resistance applying means provided on the parts, and a second resistance applying means provided on the end portions of the right and left the other of the pivot, and applying the resistance force at both ends of the pivot, the first The first resistance force applying means applies the same resistance force to the rotation of the pivot in both directions, and the second resistance applying means is used when the backrest is rotated from the initial position to the reclining position. Based on the magnitude of the rotation moment, a function to automatically adjust the applied resistance force so as to increase as the rotation moment increases is provided.

With such a configuration, when a person with a large weight falls on the backrest, or when he / she leans backrest vigorously, the rotational moment acting on the backrest becomes large, so the first and second A large resistance force is applied to the rotation of the backrest and movement of the seat (hereinafter referred to as movement of the backrest, etc.) from the resistance applying means, and the backrest does not move abruptly at an appropriate speed from the initial position. Moving to the reclining position, the seated person can lean back and back smoothly and comfortably.
In addition, when a child with a small body weight leans backrest or slowly leans backrest, the rotational moment acting on the backrest is small, and only a small resistance force is applied from the second resistance applying means. Without being applied to the rotation of the backrest, the backrest and the like can be moved from the initial position to the reclining position lightly and smoothly, and the seated person can lean on the backrest smoothly and comfortably.
Therefore, even if the weight of the seated person and the momentum when leaning are different, the moving speed from the initial position such as the backrest to the reclining position can be made closer to each other.

(2) In the above item (1), when the backrest is rotated from the reclining position to the initial position, the second resistance applying means is turned backrest, and the backrest is rotated from the initial position to the reclining position. It is assumed that a resistance equivalent to the minimum resistance applied to the is applied.

With such a configuration, when the backrest rotates from the reclining position to the initial position, a resistance force equivalent to the minimum resistance force provided when the backrest rotates from the initial position to the reclining position is applied. Therefore, when returning the backrest to the initial position, the backrest is difficult to return, or the backrest moves suddenly and does not cause discomfort to the seated person. Can be slowly rotated from the initial position to the initial position, and smoothness and comfort when returning to the initial position, such as backrest, can be ensured.

(3) In the above item (1) or (2), the second resistance applying means is a rotary damper that applies resistance to a pivot that rotates integrally with the backrest.

With this configuration, the configuration of the second resistance applying means simplified, it is possible to inexpensively manufacture, the second resistance force application means, on the side of the backrest and the pivot which rotates integrally , It can be arranged in a good manner without conspicuous.

(4) In any one of the above items (1) to (3) , the resistance applying means further includes a telescopic damper that is a third resistance applying means that expands and contracts in conjunction with the rotation of the backrest.

  With such a configuration, the configuration of the resistance applying means can be simplified and manufactured at low cost, and the resistance applying means is arranged in a good manner without conspicuous in the center in the left-right direction below the seat. Can be set.

  (5) In the above (4), the biasing means is a gas spring with a lock, and the third resistance applying means is incorporated in the gas spring with a lock.

  With such a configuration, the third resistance applying unit can be incorporated in the gas spring with a lock as the urging unit, the configuration can be simplified, and an accommodation space for the third resistance applying unit can be provided. There is no need to secure, and the entire chair can be made simple.

  According to the present invention, it is possible not only to give an appropriate resistance to movement of the backrest, but also to adjust the resistance to an optimum one based on the magnitude of the load applied to the backrest, etc. Therefore, even if the difference in weight or momentum when leaning is different, the backrest does not move suddenly or the backrest does not reach the reclining position, and the backrest is always optimal It is possible to provide a chair that can move smoothly at a high speed.

It is a front view of the reclining chair which is one embodiment of the present invention. Similarly, it is a side view. It is a disassembled perspective view of a main member. It is an enlarged side view of the principal part when a backrest is made into an upright position. It is an enlarged side view of the principal part when the backrest is tilted backward. FIG. 5 is a partial plan view taken along line VI-VI in FIG. 4. It is a disassembled perspective view of the tilting apparatus of a backrest. It is a center vertical side view of a support. It is a longitudinal front view which follows the IX-IX line of FIG. It is a vertical side view along the XX line of FIG. It is a cross-sectional plan view which follows the XI-XI line of FIG. It is a vertical side view along the XII-XII line of FIG. It is the elements on larger scale of XIII of FIG. It is the elements on larger scale of XIV of FIG.

Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
In this embodiment, the present invention is applied to a chair similar to the reclining chair described in Patent Document 1, and a configuration similar to the conventional configuration is described (paragraphs 0023 to 0055). A specific configuration of the invention will be described.

As shown in FIGS. 1 to 3, the reclining chair includes a leg body 3 having five leg rods 2 each having a radial shape with a caster 1 provided at the tip. In the center of the leg 3, a telescopic leg column 5 having a gas spring 4 is erected, and the rear part of the support base 6 is fixed to the upper end of the leg column 5.
The lower structural body of the chair is formed by the leg 3, the pillar 5, the support base 6, and the like.

  The support base 6 has a substantially hollow box-like support basic body 6a having a rhombus shape in plan view and opened on the upper surface of the front half extending toward the front upper side, and the opening on the upper surface of the front half is detachable. Covered by the upper cover 7. A pair of left and right arm portions 6b that extend obliquely upward toward the left and right sides on the front side surfaces of the support basic body 6a, and whose top end surface is located above the support basic body 6a. 6b is integrally formed.

  In the center of the support base body 6a in the front-rear direction, a pivot shaft 8 that has square shaft portions 8a, 8a facing the left and right directions passes through both ends, and both ends of the pivot shaft 8 projecting to both sides from the support base body 6a. The left and right cylindrical portions 10a10a formed on the front ends of the lower portions of the pair of left and right backrest support rods 10 and 10 that support the backrest 9 are fixedly fitted to the square shaft portions 8a and 8a. The pivot 8, the backrest support rods 10, 10, and the backrest 9 can be rotated with respect to the support base 6 integrally with each other about the axis of the pivot 8.

The support base 6 is provided with a biasing means A that biases the backrest 9 in a direction to stand up via the pivot 8 and the backrest support rods 10 and 10.
As shown in FIG. 3, the urging means A includes a rotating urging means B composed of two rubber torsion springs 11 and 11 for urging the pivot 8 counterclockwise in FIG. 2, and its urging force. An adjusting means C (see FIGS. 7 and 11) and a gas spring unit D including a gas spring 12 are provided.
The urging means A will be described in detail later, and the schematic configuration of the entire reclining chair will be briefly described first.

  The lower surfaces of the left and right rubber torsion springs 11 and 11 are covered with a pair of left and right lower covers 13 and 13 detachably provided on the lower surface of the support basic body 6a.

  As shown in FIGS. 3 to 6, short standing arms 10 b and 10 b are provided to protrude slightly upward from the pivot 8 in the left and right backrest supporting rods 10 and 10, and each standing arm 10 b The rear end portions of a pair of left and right seat receiving frames 15 and 15 that support both side portions of the seat 14 are connected to the upper end portion of the seat 14 with a shaft 16 that faces the left and right directions.

The front part of each seating frame 15 forms a box shape with an upper surface open and extends downward, and its lower end surface forms an inclined surface 17 that inclines rearward and downward, and at the rear end of the inclined surface 17. Continuously, an upright wall 18 facing rearward and upward is formed.
Each inclined surface 17 is slidably mounted in the front-rear direction on an inclined receiving surface 19 that is formed on the upper surface of the distal end portion of the arm portion 6b of the support base 6 and is inclined downward.

Between the front end portion of the arm 6 b in the support base 6 and the front portion of the seat receiving frame 15, there is provided a detachment prevention means 20 that prevents the inclined surface 17 from separating upward from the inclined receiving surface 19. Yes.
In this example, the detachment preventing means 20 includes a long hole 21 provided in the inclined surface 17 facing in the front-rear direction, a protrusion provided on the inclined receiving surface 19, and slidably fitted in the long hole 21. A headed shaft 22 having an enlarged head 22 a larger than the width of the hole 21, but the long hole 21 is provided in the inclined receiving surface 19 and the headed shaft 22 is provided in the inclined surface 17. Also good. In the illustrated example, the portion corresponding to the shaft portion of the headed shaft 22 is a vertical plate shape facing the front-rear direction, but this may be a circular shaft.

  The long hole 21 extends rearward from the vicinity of the front end of the inclined surface 17, and the rear end opens rearward from the standing wall 18. The standing wall 18 is provided with an opening 23 that is in communication with the long hole 21 and through which the enlarged head 22a of the headed shaft 22 projects 19 from the inclined receiving surface.

  Therefore, the inclined surface 17 is slid rearward along the inclined receiving surface 19 while the headed shaft 22 is introduced from the opening 23, and the back end portion of each seat receiving frame 15 is supported by the back with the shaft 16. By connecting to the heel 10, each seat receiving frame 15 can be easily and quickly assembled to the support base 6 and the back support heel 10.

  After the assembly, the seat back frames 15 and the seats 14 supported thereby are moved from the substantially horizontal state shown in FIG. 4 in conjunction with the backrest 9 being tilted rearward from the substantially vertical standing position. As shown in FIG. 5, the inclined surface 17 is moved rearward and downward while sliding along the inclined receiving surface 19.

By the movement of the backrest 9 and the seat 14 at this time, the angle between the seated person's back and the thigh, and the thigh and the lower leg is naturally expanded, and the lower leg is connected. Centering on the heels of the feet, it can be gently tilted backwards, giving the seated person a comfortable and comfortable feeling of movement.
In addition, when the backrest 9 is moved from the rearward tilt position to the standing position, the seat 14 moves in the reverse direction to the above, and at this time, it is possible to give the seated person a comfortable and comfortable feeling of movement. .

  Hereinafter, the position where the seat 14 is substantially horizontal and the backrest 9 is substantially vertical is defined as the initial position, the backrest 9 is tilted rearward, and the position where the seat 14 is moved rearward and downward is reclined. It is said to be a position.

  In addition, when the inclined surface 17 and the inclined receiving surface 19 are completely straight lines when viewed from the side, when the seat 14 moves rearward and downward in conjunction with the backward inclination of the backrest 9, the line from the surface contact becomes a line. Although it may change to contact, it is desirable to make the inclined surface 17 and the inclined receiving surface 19 into gentle curved surfaces so that they always make surface contact in a wide range.

  The seat 14 includes a stretchable sheet material 14b made of, for example, a mesh fabric using stretchable fibers, a fabric such as a plain woven fabric, or a synthetic resin film, etc. When the seated person is seated, the sheet material 14b extends, the seat surface center part is recessed downward along the seated person's buttocks, and the sheet material 14b center part sinks. Thus, a comfortable seating feeling can be given to the seated person.

  In order to allow the central portion of the seat 14 to sink when seated, the upper surfaces of the tip portions of the pair of left and right arms 6b, 6b and the standing arms 10b, 10b in the backrest support rods 10, 10 are used. Thus, substantially four corners of the seat frame 14a are lifted and supported higher than the support base 6, so that the lower surface central portion of the seat 14 bends downward between the lower surface of the central portion of the seat 14 and the upper surface of the support basic body 6a. A void 24 that can be removed is formed.

  The backrest 9 is also formed by stretching a sheet material 9b having a stretchability similar to that of the sheet material 14b on a backrest frame 9a having a substantially rectangular frame shape when viewed from the front.

The seat 14 is mounted on a pair of left and right seat receiving frames 1515 so that the front and rear positions can be adjusted. However, since the specific configuration therefor is not directly related to the present invention, detailed illustration and description thereof will be omitted. .
If the seat 14 is not adjusted in the longitudinal position, the rear portion of the seat 14 is directly connected to the upper portions of the standing arms 10b and 10b of the left and right back support rods 10 and 10 with the shaft 16, and The front lower surface may be directly attached to the upper surfaces of the distal end portions of the left and right arm portions 6b, 6b so as to be slidable in the front-rear direction.

    Each backrest support rod 10 is provided with an armrest 25, but since this is not directly related to the present invention, detailed illustration and description thereof will be omitted.

Next, the details of the urging means A will be described with reference to FIGS. 3 and 7 to 11.
As shown in FIG. 7, the urging means A is provided at the upper part of the rotation urging means B including the two rubber torsion springs 11, 11 provided at the lower part of the support base 6. An urging force adjusting means C and a gas spring unit D including the gas spring 12 are provided.

As shown in FIGS. 8 and 9, an arm portion 26 is provided at the center of the pivot 8 so as to be substantially downward so as to be orthogonal thereto, and rubber torsion springs 11 and 11 are arranged on both sides thereof. It is installed.
Each of the rubber torsion springs 11 is filled between the outer cylinder 27 and the pivot 8 which are pivoted around the support base 6 so as to be concentric with the pivot 8. And an elastic body 28 such as rubber which is elastically deformed by rotating the pivot 8 about the central axis with respect to the outer cylinder 27 to give a return turning force to the pivot 8.

  Bearings 29 and 29 each having a positioning projection 29 a provided at the center of the upper surface are fitted on both sides of the pivot 8 that protrudes outward from the rubber torsion springs 11.

  A semi-cylindrical portion 6c is formed in the lower center of the support basic body 6a so as to face in the left-right direction and open at the bottom surface. A pair of left and right lower covers 13, 13 are attached with set screws 30, 30 (see FIG. 10).

  A pair of left and right rubber torsion springs 11 and 11 and outer bearings 29 and 29 that are fitted to the pivot 8 and the left and right rubber torsion springs 11 and 11 are formed of a semi-cylindrical portion 6c and lower covers 13 and 13, respectively. The outer bearings 29 and 29 are sandwiched between the semi-cylindrical portion 6c and the lower covers 13 and 13 (see FIG. 10). Further, both sides of the pivot 8 protruding outwardly pass through semicircular cutouts 33 and 34 provided at opposite edges of both sides of the semicylindrical part 6c and the lower covers 13 and 13 (see FIG. 9), and is accommodated between the semi-cylindrical portion 6 c of the support base 6 and the lower covers 13 and 13.

A rear lower end portion of the gas spring 12 facing the front upper side is connected to a lower end portion of the arm portion 26 that hangs down between the left and right lower covers 13 and 13 with a shaft 35 facing the left and right direction.
The front upper end portion of the gas spring 12 is connected to the center portion of the front end of the support basic body 6a with a head cover 36 and a shaft 37 facing in the left-right direction.
The gas spring 12 can be expanded and contracted while being urged to extend by the urging force of the internal gas pressure (or the built-in auxiliary spring) when the operation knob 38 provided at the front end thereof is pushed to the operating position. Further, when the operation knob 38 is returned to the non-operating position, the expansion and contraction is disabled. The specific internal structure will be described later.

  In the head cover 36, an operation lever 39 that is pivotally attached to an intermediate portion of the upright arm 10 b of the right back support rod 10 is directed to an outer side through a wire 41 that passes through the flexible outer tube 40. A connected operation lever 42 is provided. When the operation lever 39 pushes the operation knob 38 to the operation position by pulling the operation lever 39 outward and upward, and the hand is released from the operation lever 39, the operation knob 38 is operated. The operating lever 42 and the operating lever 39 are returned to the original inoperative position by the return force to the inoperative position. The operation lever 39 may be provided with a spring (not shown) for returning to the inoperative position. One end of the outer tube 40 is fixed to the inner surface of the upright arm 10b of the backrest support rod 10 and the other end is fixed to the head cover 36, so that the wire 41 inserted therethrough moves smoothly in the axial direction. ing.

  A gas spring unit D is formed by the gas spring 12, the arm portion 26, the shafts 35 and 37, the head cover 36, and the like. This gas spring unit D acts to assist the urging force of the rotation urging means B when the operation knob 38 is located at the operating position, and by setting the operation knob 38 to the inoperative position, The backrest 9 can be stopped steplessly at an arbitrary inclination angle.

  As shown in FIG. 11, the urging force adjusting means C for adjusting the initial urging force of the rotating urging means B is pivotally supported substantially at the upper center of the support basic body 6a, and is provided on the left and right sides near the center. An operation shaft 46 having a forward screw portion 43 and a reverse screw portion 44 and projecting outward from the support basic body 6a. In this example, the operation handle 45 is provided at the left end and faces the left-right direction. , A pair of left and right moving pieces 49, 50 having female screw holes 47, 48 to be screwed into the forward screw portion 43 and the reverse screw portion 44, and a rear end portion (base end portion) of the left and right rubber torsion springs 11, 11 and the outer peripheral portions of the outer cylinders 27, 27 connecting the outer peripheral portions of the outer cylinders 27, 27, which are connected to a shaft 51 that faces the left-right direction, and a shaft 53 that has a rear end portion that faces the moving pieces 49, 50 and faces the vertical direction. The front end portion is connected to the front end portion (tip portion) of the connecting rod 52, and the operation shaft 4 is connected. In conjunction with the rotation of 6, each of the connecting rods 52 is moved in the front-rear direction by opening and closing each other in the shape of a plane in plan view, and the left and right outer cylinders 27, 27 are rotated about the central axis thereof. A pair of links 54 and 55 are provided.

In this example, the front end portion of the connecting rod 52 is supported by the support basic body 6a so as to be slidable in the front-rear direction, and the front end portion of the base piece 52a facing forward in the connecting rod 52 has a backward U-shape in a side view. And the front ends of the links 54 and 55 are simply brought into contact with the inner corners of the side protrusions 52b and the base piece 52a so as to be rotatable around the vertical axis. is there.
Even in such a configuration, the urging force of the rubber torsion springs 11 and 11 acts so as to always pull the connecting rod 52 backward, and the pair of left and right links 54 and 55 having a C shape in plan view. Since the front ends are always positioned inward from the rear ends, the front ends of the left and right links 54 and 55 are disengaged outward from the inner corners of the side protrusions 52b and the base piece 52a. There is nothing.

  However, the connecting rod 52 has a front end portion of each link 54, 55 and an axis (not shown) parallel to the vertical axis 53 connecting the rear end portion of each link 54, 55 to each moving piece 49, 50. You may pivot to the front-end | tip part.

  Thus, when the operation shaft 46 is rotated by the operation handle 45, the pair of moving pieces 49, 50 move toward and away from each other, and accordingly, the pair of links 54, 55 having a C-shape are opened and closed with respect to each other. The collar 52 is moved rearward and forward, whereby the outer cylinders 27 and 27 are pivoted around the pivot axis, and the desired biasing force of the pivoting biasing means B, and accordingly the total biasing force of the backrest 9 is increased. Strength is weakened or strengthened.

At this time, the operation handle 45 can be easily operated by the seated person extending his hand below the right side of the seat 14 while in the sitting posture.
Further, in this example, the biasing force of the rotation biasing means B is obtained by the pair of moving pieces 49 and 50 approaching each other and the pair of links 54 and 55 having a letter C shape moving in a closing direction. Therefore, even if the amount of forward movement of the connecting rod 52 per rotation of the operation shaft 46 gradually decreases and the desired biasing force of the backrest increases, the rotation of the operation shaft The resistance does not increase, and the operation handle can always be operated with light force.

An operation lever 56 similar to the operation lever 39 provided in the intermediate portion of the standing arm 10b of the right backrest support rod 10 is provided in the middle part of the standing arm 10b of the left backrest support rod 10 in the front-rear direction. It is mounted so that it can be rotated around the axis that faces it.
The operation lever 56 is connected to an operation lever (not shown) for operating the gas spring 4 of the pedestal 5 provided at the rear portion of the support base 6 through a wire 58 inserted through the flexible outer tube 57. By rotating the operation lever 56 outward and upward, the operation knob (not shown) of the gas spring 4 is pushed to the operating position so that the pedestal 5 can be freely expanded and contracted. By rotating downward, the operation knob (not shown) of the gas spring 4 is returned to the inoperative position, and the pedestal 5 can be stopped steplessly in the expanded and contracted state at that time. ing.

The urging means A includes a rotation urging means B for applying a turning force in the direction in which the backrest 9 stands to the pivot 8, and a distal end portion and a support base of the arm portion 26 extending in a direction orthogonal to the pivot 8. 6 are connected to each other, and can be expanded and contracted by moving an operation knob 38 provided at one end to an operating position, and cannot be expanded and contracted by returning the operating knob 38 to an inoperative position. Since the gas spring 12 is provided, the rotation biasing means B can strongly bias the backrest 9 in the direction in which the backrest 9 rises. It can be stopped steplessly at an inclination angle.
When the operation knob 38 of the gas spring 12 is set to the operating position, the urging force of the rotation urging means B can be assisted by the urging force of the gas spring 12, so that the rotation urging means B is attached. It can be a small one with a small power.

According to the present invention, the following components are added to the above configuration.
That is, the first resistance applying means E as a disk damper is provided on any one side surface of the support base 6 which is a part of the lower structure, and the rotary damper is provided on any other side surface of the support base 6. The second resistance applying means F is provided, and the gas spring 12 is provided with third resistance applying means G.

  The disk damper, which is the first resistance applying means E, acts in both directions so as to apply the same resistance to the pivoting of the pivot 8 in both the direction in which the backrest 9 stands and the direction in which it tilts backward. It is a known type of mold.

As shown in FIG. 9, FIG. 12, and FIG. 13, the rotary damper as the second resistance applying means F is fixed to the side surface of the support base 6, and internally includes a pair of inward projections 61a, 61a. A casing 61 having a pair of partitioned arc-shaped fluid chambers 62 and 62, and a pivot shaft 8 provided at the center of curvature of the fluid chambers 62 and 62 in the casing 61. A rotor 63 that is inserted so as not to be relatively rotatable and rotates integrally with the backrest 9, and a pair of vanes 64 that protrude from the outer periphery of the rotor 63 and rotate in the fluid chambers 62 and 62. 64, an orifice 65 that is provided in each vane 64 and communicates with a pair of pressure chambers 62a and 62b in the fluid chamber 62 partitioned by the vane 64, and provided in each vane 64, and in the pressure chamber 62a. Pressure P And an adjustment valve 66 for controlling the opening degree of the orifice 65 to be smaller as the pressure difference P2-P1 is larger, based on the pressure difference P2-P1 between the pressure P2 and the pressure P2 in the pressure chamber 62b. is there.

  In the example shown in FIG. 13, the adjustment valve 66 is fixed at one opening edge of the orifice 65 in each vane 64 with a fixing screw 67 and the orifice 65 opens toward the free end. The vane 64 is formed of a substantially arcuate leaf spring 68 having a polygonal shape that gradually separates from the side surface of the vane 64 at a required angle.

  According to this adjustment valve 66, when the backrest 9 and the seat 14 are located in the reclining position and no external force is applied to the backrest 9 and the seat 14, the leaf spring 68 is shown by a solid line in FIG. In addition, the free end portion is located farthest from the side surface of the vane 64 and is located at the position a where the orifice 65 is fully opened, but when the backrest 9 and the seat 14 move from the reclining position toward the initial position, In conjunction with this, the rotor 63 rotates clockwise in FIG. 12, and the pressure P2 in the pressure chamber 62b in each fluid chamber 62 becomes larger than the pressure P1 in the pressure chamber 62a. The pressure flows from the pressure chamber 62b to the pressure chamber 62a through the orifice 65, and the pressure difference between the pressure P2 in the pressure chamber 62b and the pressure P1 in the pressure chamber 62a in each fluid chamber 62 at that time. As 2-P1 becomes larger, the leaf spring 68 gradually approaches the side surface of the vane 64 as shown by the two-dot chain lines in FIG. The orifice 65 is gradually closed by gradually narrowing the orifice 65 and finally reaching the position d.

  The resistance force applied to the vane 64 at that time is the resistance force from the second resistance applying means F against the backrest 9 and the movement of the seat 14 from the reclining position to the initial position, and the resistance force acts on the backrest 9. As the rotational moment increases, the pressure difference P2-P1 between the pressure chamber 62b and the pressure chamber 62a increases, and the leaf spring 68 gradually moves from the position a shown in FIG. , D becomes larger as it moves to the position d.

  When the leaf spring 68 reaches the position d, a hole (not shown) having a smaller diameter than the orifice 65 is provided in the leaf spring 68 so that the opening of the orifice 65 is not completely closed. preferable.

  Further, by making the shape of the leaf spring 68 not a polygonal shape but a gentle arc shape, the opening of the orifice 65 can be controlled to open and close steplessly rather than stepwise.

  When the backrest 9 and the seat 14 are rotated from the initial position to the reclining position, the rotor 63 is rotated in the counterclockwise direction in FIG. 12, and the pressure in the pressure chambers 62 a in the respective fluid chambers 62. P1 becomes larger than the pressure P2 in the pressure chamber 62b, and the working fluid flows through the orifice 65 and flows from the pressure chamber 62a to the pressure chamber 62b. At this time, the flow of the working fluid through the orifice 65 is regulated valve 66. Accordingly, the backrest 9 and the seat 14 recline from the second resistance applying means F with respect to the movement of the backrest 9 and the seat 14 from the initial position to the reclining position. A resistance force equivalent to the minimum resistance force applied when moving from the position to the initial position is applied to the rotation of the backrest 9 from the second resistance force applying means F.

  By adopting such a rotary damper as the second resistance applying means F, when the backrest 9 and the seat 14 are returned from the reclining position to the initial position, resistance is applied to the rotation of the backrest 9 and The drooping 9 and the seat 14 do not move suddenly, and the back of the seated person is pushed by the backrest 9, or the backrest 9 abuts on the back of the seated person, giving the uncomfortable feeling to the seated person Can be eliminated.

Further, based on the magnitude of the turning moment when the backrest 9 is turned from the reclining position to the initial position, the resistance applied from the second resistance applying means F increases as the turning moment increases. Therefore, the backrest 9 can return and rotate to the initial position at substantially the same speed regardless of whether the rotational moment is large or small.
Therefore, when the seated person returns from the backward tilted position to the standing position, when the seated person tries to slowly return to the standing position, the resistance force applied from the second resistance force applying means F becomes small, and the backrest 9 Because the assist power by increases, it is comfortable to use.

  Further, when the backrest 9 is rotated from the initial position to the reclining position, resistance force is applied to the rotation of the backrest 9 from the second resistance applying means F to prevent the backrest 9 from rotating suddenly. Can be used and can be used comfortably.

  As shown by a two-dot chain line in FIG. 13, an adjustment valve 66 ′ similar to the adjustment valve 66 at one opening edge is provided at the other opening edge of the orifice 65 in each vane 64. Also when the pressure chamber 62a flows from the pressure chamber 62a to the pressure chamber 62b, the opening degree of the orifice 65 is reduced as the pressure P1 in the pressure chamber 62a becomes larger than the pressure P2 in the pressure chamber 62b, and the second resistance force A large resistance force may be applied to the rotation from the initial position of the backrest 9 to the reclining position from the applying means F.

  By doing so, when a person with a large weight falls on the backrest 9 or on the backrest vigorously, the rotational moment acting on the backrest 9 becomes large, and the second resistance applying means F A large resistance force is applied to the rotation of the backrest 9 and the backrest 9 rotates from the initial position to the reclining position at an appropriate speed without suddenly rotating, so that the seated person can smoothly and comfortably back. Can drown.

In addition, when a child with a small body weight leans on the backrest 9 or slowly leans on the backrest 9, the rotational moment acting on the backrest 9 is small, and the second resistance applying means F Only a small resistance force is applied to the rotation of the backrest 9, and the backrest 9 can rotate smoothly and smoothly from the initial position to the reclining position, and the seated person can lean on the backrest 9 smoothly and comfortably. be able to.
Therefore, even if the weight of the seated person, the momentum at the time of sitting, and the like are different, the rotational speed of the backrest 9 from the initial position to the reclining position can be made closer to each other.

  As shown in FIGS. 8 and 14, the gas spring 12 has a base end portion pivotally attached to the lower end portion of the arm portion 26 that rotates integrally with the pivot shaft 8 with a shaft 35, and a fluid chamber 72 therein. A first pressure chamber that is fitted in the cylinder 71 so as to be slidable in the axial direction, and in which compressed gas is sealed near the base end in the fluid chamber 72 of the cylinder 71. A free piston 73 partitioning 72a and a fluid chamber of the cylinder 71 that is slidably fitted in the axial direction closer to the free end portion of the cylinder 71 than the free piston 73 in the cylinder 71 and forward of the first pressure chamber 72a. 72, an operating piston 74 that partitions a second pressure chamber 72 b and a third pressure chamber 72 c in which a working fluid such as oil is sealed, a rear end thereof is integrally connected to the operating piston 74, and the front of the cylinder 71 The piston rod 75 that penetrates the front portion and extends forward and upward and has a front end portion fixed to the head cover 36 and a through hole 76 provided in the center of the operating piston 74 and the piston rod 75 are slidably provided. An enlarged diameter head portion 77a is formed at the base end portion located in the second pressure chamber 72b, a reduced diameter portion 77b is formed at the intermediate portion, and a distal end portion protruding forward from the piston rod 75 is an operation knob 38. And the inner end of the through-hole 76 is open to a portion of the operating rod 77 that is always opposed to the reduced diameter portion 77b of the operating rod 77, and the outer end is located on the outer peripheral surface closer to the free end of the piston rod 75 than the inner end. An orifice 78 provided in the piston rod 75 is provided so as to be inclined with respect to the central axis of the piston rod 75.

  The portion of the operating rod 77 from the rear end of the reduced diameter portion 77b to the enlarged diameter head portion 77a allows the second pressure chamber 72b and the third pressure chamber 72c to communicate with each other or be blocked through the through hole 76 and the orifice 78. The valve body 77c is opened by pushing the operating knob 38, and when the pushing force of the operating knob 38 is released, the working fluid in the second pressure chamber 72b is formed. Due to this pressure, the entire operating rod 77 is pushed forward to close the valve.

A shallow recessed portion 79 is provided at the opening edge of the orifice 78 on the outer peripheral surface of the piston rod 75, where a pressure difference P4-P3 between the pressure P3 in the pressure chamber 72b and the pressure P4 in the pressure chamber 72c. Is provided with an adjustment valve 80 for controlling the opening degree of the orifice 78 to be smaller as the pressure difference P4-P3 is larger.
The adjustment valve 80 and the orifice 78 form third resistance applying means G in the gas spring 12.

  The adjusting valve 80 has a base end portion fixed to the opening edge of the orifice 78 in the recessed portion 79 and is free from the base end portion, similarly to the adjusting valve 66 in the rotary damper which is the second resistance applying means F. The plate spring 81 is formed in a polygonal shape that gradually separates from the outer peripheral surface of the piston rod 75 at a required angle toward the end, and is generally composed of a substantially arcuate leaf spring 81, and acts in the same manner as the adjustment valve 66. It is.

  That is, when the backrest 9 is located at the reclining position, no external force is applied to the backrest 9 and the valve body 77c is closed, the backrest 9 is blocked by the valve body 77c and the valve body 77c. The inside of the through-hole 76 is communicated by an orifice 78 and is at the same pressure. In this state, the leaf spring 81 has a free end portion of the piston rod 75 as shown by a solid line in FIG. It is farthest from the outer peripheral surface and is located at the position a where the orifice 78 is fully opened.

  From this state, when the operation knob 38 is pushed in and the valve body 77c is opened, the second pressure chamber 72b and the third pressure chamber 72c communicate with each other through the through hole 76 and the orifice 78, and the operating piston 74 and the piston rod 75 can slide in the longitudinal direction with respect to the cylinder 71.

  At this time, the backrest 9 is rotated from the reclining position toward the initial position mainly by the urging force of the rotation urging means B. Accordingly, the operating piston 74 and the piston rod 75 are moved to the cylinder 71. The working fluid in the pressure chamber 72c flows through the orifice 78 and the through hole 76 to the pressure chamber 72b.

  As the pressure difference P4-P3 between the pressure P4 in the pressure chamber 72c and the pressure P3 in the pressure chamber 72b increases, the leaf spring 81 is moved to each of the positions b, c, and d indicated by a two-dot chain line in FIG. Thus, gradually approaching the outer surface of the piston rod 75, the opening of the orifice 78 gradually narrows in a portion near the base end portion thereof, and finally reaches the position d, so that the orifice 78 is fully closed. To do.

  The resistance force applied to the operating piston 74 and the piston rod 75 at that time is the resistance force from the third resistance applying means G against the rotation of the backrest 9 from the reclining position to the initial position, and the resistance force is the backrest. As the rotational moment acting on 9 increases, the pressure difference P4-P3 between the pressure chamber 72c and the pressure chamber 62b increases, and the leaf spring 81 gradually increases from the position a shown in FIG. As it moves to the b, c, d position, it becomes larger.

  In order to prevent the opening of the orifice 78 from being completely closed when the leaf spring 81 reaches the position d, a leaf (not shown) having a smaller diameter than the orifice 78 is provided in the leaf spring 81. preferable.

  Further, by making the shape of the leaf spring 81 not a polygonal shape but a gentle arc shape, the opening of the orifice 78 can be controlled to open and close steplessly rather than stepwise.

  When the operation lever 42 is returned to the inoperative position while the backrest 9 is stopped at the initial position or at any inclined position, the operation rod 77 is moved to the working fluid in the second pressure chamber 72b. The pressure body is pushed forward by the pressure, the valve body 76c is closed, the communication between the second pressure chamber 72b and the third pressure chamber 72c is cut off, the gas spring 12 is locked, and the backrest 9 is interlocked with the backrest 9. The seat 14 is locked in that position.

  After the operation knob 38 is pushed in and the valve element 77c is opened, when the backrest 9 is rotated from the initial position to the reclining position, the operating piston 74 and the piston rod 75 slide backward in the cylinder 71. To do.

  At this time, the working fluid in the pressure chamber 72b flows to the pressure chamber 72c through the through hole 76 and the orifice 78. At this time, the flow of the working fluid through the orifice 78 is a plate which is the regulating valve 80. Since it is not obstructed by the spring 81, the backrest 9 rotates from the reclining position to the initial position from the initial position of the backrest 9 to the reclining position from the third resistance applying means G. A resistance force equivalent to the minimum resistance force applied at that time is applied from the third resistance force applying means G to the rotation of the backrest 9 and the movement of the seat 14.

  Since the gas spring 12 is provided with such a third resistance force applying means G and having a lock function, the lock function is released and the backrest 9 is returned to the initial position from the reclining position. A resistance force is applied to the rotation of the seat 9, so that the backrest 9 does not turn suddenly, and the back of the seated person is pushed by the backrest 9, or the backrest 9 comes into contact with the back of the seated person. Thus, discomfort to the seated person can be solved.

Further, based on the magnitude of the turning moment when the backrest 9 is turned from the reclining position to the initial position, the resistance applied from the third resistance applying means G increases as the turning moment increases. Therefore, the backrest 9 can return and rotate to the initial position at substantially the same speed regardless of whether the rotational moment is large or small.
Therefore, when the seated person returns from the backward tilted position to the initial position, when the seated person tries to slowly return to the standing position, the resistance force applied from the third resistance applying means G becomes small, and the backrest 9 Because the assist power by increases, it is comfortable to use.

  Further, when the backrest 9 is rotated from the initial position to the reclining position, a resistance force is applied to the rotation of the backrest 9 from the third resistance applying means G to prevent the backrest 9 from rotating suddenly. Can be used and can be used comfortably.

  As shown by a two-dot chain line in FIG. 14, a shallow recessed portion 79 ′ similar to the recessed portion 79 is provided on the opening edge of the orifice 78 on the inner surface of the piston rod 75. When the working fluid flows from the pressure chamber 72b to the pressure chamber 72c through the orifice 78, the pressure P3 in the pressure chamber 72b becomes larger than the pressure P4 in the pressure chamber 72c. The opening degree of the orifice 65 may be narrowed so that a large resistance force is applied from the third resistance force applying means G to the rotation of the backrest 9 from the initial position to the reclining position.

  By doing so, when a person with a large weight falls on the backrest 9 or on the backrest vigorously, the rotational moment acting on the backrest 9 becomes large, and the third resistance applying means G A large resistance force is applied to the rotation of the backrest 9 and the backrest 9 rotates from the initial position to the reclining position at an appropriate speed without suddenly rotating, so that the seated person can smoothly and comfortably back. Can drown.

Further, when a child with a small weight falls on the backrest 9 or slowly falls on the backrest 9, the rotational moment acting on the backrest 9 is small. Only a small resistance force is applied to the rotation of the backrest 9, and the backrest 9 can rotate smoothly and smoothly from the initial position to the reclining position, and the seated person can lean on the backrest 9 smoothly and comfortably. be able to.
Therefore, even if the weight of the seated person, the momentum at the time of sitting, and the like are different, the rotational speed of the backrest 9 from the initial position to the reclining position can be made closer to each other.

  In order to prevent the opening of the orifice 78 from being completely closed when the leaf spring 81 reaches the position d, a leaf (not shown) having a smaller diameter than the orifice 78 is provided in the leaf spring 81. preferable.

  Further, by making the shape of the leaf spring 81 not a polygonal shape but a gentle arc shape, the opening of the orifice 78 can be controlled to open and close steplessly rather than stepwise.

  Further, by setting the plate thickness of the leaf springs 68 and 81 in the regulating valves 60 ′ and 80 ′ to be larger than the plate thickness of the leaf springs 68 and 81 in the regulating valves 60 and 80, the backrest 9 is moved from the initial position to the reclining position. Can be made larger than the resistance force when the backrest 9 is rotated from the reclining position to the initial position, and is necessary when the backrest 9 is tilted backward and when standing. It is possible to cope with the difference in the magnitude of the resistance force.

  As is clear from the above, according to this embodiment, when the seat 14 and the backrest 9 are moved from the initial position to the reclining position, the first structure that applies resistance to the seat 14 or the backrest 9 is applied to the lower structure. ˜Third resistance applying means E, F, G are provided, and the first to third resistance applying means E, F, G are used to turn the backrest 9 from the initial position to the reclining position. Since the function of automatically adjusting the applied resisting force so as to increase as the rotational moment increases, the resisting force to be applied is moderately resistant to the movement of the backrest 9 and the seat 14. Can be adjusted to the optimum resistance based on the magnitude of the load on the backrest 9 etc. Even if it is different, backrest 9 etc. moves rapidly Or, without backrest 9 and the like or may not reach the reclined position, it can backrest 9 and the like to smoothly move constantly optimum speed.

It should be noted that the present invention can be implemented in many different forms without departing from the scope of the claims.
For example, the first resistance applying means E can be omitted, or one of the second and third resistance applying means F, G can be omitted.
Further, as the rotation urging means B, a torsion coil spring or a single or three or more rubber torsion springs can be used.

  Furthermore, in the said embodiment, the urging means A and the 1st-3rd resistance-force provision means E, F, G urge the backrest 9 directly, or provide resistance to the rotation. However, by directly urging the seat 14 or imparting a resistance force to the movement, the backrest 9 is indirectly urged through the seat 14 or the rotation is resisted. You may make it give force.

A urging means B rotating urging means C urging force adjusting means D gas spring unit E first resistance force applying means (disk damper)
F Second resistance applying means (rotary damper)
G 3rd resistance giving means 1 caster 2 leg rod 3 leg 4 gas spring 5 pedestal 6 support base 6a support basic body 6b arm 6c semi-cylindrical part 7 upper cover 8 pivot (core)
8a Square shaft portion 9 Backrest 9a Backrest frame 9b Seat material 10 Backrest support collar 10a Tube portion 10b Standing arm 11 Rubber torsion spring 12 Gas spring 13 Lower cover 14 Seat 14a Seat frame 14b Seat material 15 Seat receiving frame 16 Shaft 17 Inclined surface 18 Standing wall 19 Inclined receiving surface 20 Detachment prevention means 21 Long hole 22 Headed shaft 22a Expanding head 23 Opening 24 Space 25 Armrest 26 Arm part 27 Outer cylinder 28 Elastic body 29 Bearing 29a protrusion 30 Set screw 31, 32 Recess 33, 34 Notch 35 Shaft 36 Head cover 37 Shaft 38 Operation knob 39 Operation lever 40 Outer tube 41 Wire 42 Actuation lever 43 Forward screw portion 44 Reverse screw portion 45 Operation handle 46 Operation shaft 47, 48 Female screw holes 49, 50 Moving piece 51 Shaft 52 Connecting rod 52a Base piece 52b Side protrusion 53 Shaft 54, 5 Link 56 Operation lever 57 Outer tube 58 Wire 61 Casing 61a Inward projection 62 Fluid chamber 62a, 62b Pressure chamber 63 Rotor 64 Vane 65 Orifice 66, 66 'Adjusting valve 67 Fixing screw 68 Leaf spring 71 Cylinder 72 Fluid chamber 72a 1st Pressure chamber 72b Second pressure chamber 72c Third pressure chamber 73 Free piston 74 Actuating piston 75 Piston rod 76 Through hole 77 Operating rod 77a Expanded head portion 77b Reduced diameter portion 77c Valve element 78 Orifices 79, 79 'Recessed portions 80, 80 '' Regulating valve 81 Leaf spring

Claims (5)

The seat and backrest with respect to the lower component of the chair, the initial position where the seat is almost horizontal and the backrest is almost vertical, the backrest tilts backward, and in conjunction with it, the seat In a chair that is supported so as to be movable to a reclining position moved rearward and downward, and the seat and the backrest are always urged toward the initial position by the urging means,
The lower structure is provided with a pivot in the left-right direction that rotates in conjunction with the rotation of the backrest, and resists the seat or the backrest when the seat and the backrest move from the initial position to the reclining position. Providing resistance applying means for applying force,
The urging force that constantly urges the seat and the backrest of the urging means toward the initial position acts on a substantially central portion of the pivot .
The resistance applying means comprises a first resistance applying means provided on one of the left and right ends of the pivot, and a second resistance applying means provided on the end portions of the right and left the other of the pivot , Applying the resistance to both ends of the pivot ,
The first resistance applying means is intended to impart a similar resistance to both the rotation of the pivot, the second resistance applying means is rotated from the initial position of the backrest to recline position A chair provided with a function of automatically adjusting a resistance force to be applied based on the magnitude of a turning moment at a time so that the resistance force increases as the turning moment increases. When the backrest rotates from the reclining position to the initial position, the second resistance applying means is equivalent to the minimum resistance applied to the backrest when the backrest rotates from the initial position to the reclining position. The chair according to claim 1, wherein resistance is given. The chair according to claim 1 or 2, wherein the second resistance applying means is a rotary damper that applies resistance to a pivot that rotates integrally with the backrest. The chair according to any one of claims 1 to 3, wherein the resistance force applying means further includes an extendable damper that is a third resistance force applying means that expands and contracts in conjunction with the rotation of the backrest.   The chair according to claim 4, wherein the biasing means is a gas spring with a lock, and the third resistance applying means is incorporated in the gas spring with a lock.

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