JP6040566B2 - Chair - Google Patents

Description

  The present invention relates to a chair that can be synchronized.

  Conventionally, as this type of chair, a support base supported by a leg, a back support structure supported by the support base and capable of tilting backward, and a seat support structure disposed above the support base And a synchro-rocking mechanism including the support base, the back support structure, and the seat support structure as link elements, and the backrest supported by the back support structure is rearward. A structure is known in which the seat supported by the seat support structure tilts synchronously when tilted (see, for example, Patent Document 1).

  Conventionally, a reaction force mechanism for returning the backrest and seat to the initial position is provided inside the support base, and the reaction force mechanism rotates the back support structure forward with respect to the support base. It is trying to be energized. However, in such a case, the reaction force mechanism including the spring or the like must be accommodated in the space inside the support base, so there are design restrictions, and the support base is downsized or dead space outside the support base is effectively used. There was a problem that it was difficult to use and the degree of freedom of design was low.

JP 2007-130341 A

  An object of this invention is to provide the chair which can eliminate the subject mentioned above.

The present invention employs the following configuration in order to solve the above-described problems. That is, the chair according to the present invention includes a support base supported by a leg, a back support structure that is supported by the support base and can be tilted backward, and a seat support disposed above the support base. A backrest supported by the back support structure, comprising a structure and a synchro-rocking mechanism including the support base, the back support structure, and the seat support structure as link elements. A chair that is configured such that the seat supported by the seat support structure tilts synchronously when tilted backward, the exterior of the support base, and the seat support structure; , between the link elements other than the seat supporting structure constituting the synchronous locking mechanism, which was provided with a reaction force mechanism for self-returning back supporting structure to an initial position before the rear tilting operation Yes, link elements other than the seat support structure The back support structure, wherein the synchro-rocking mechanism includes the support base, the back support structure supported by the support base via a first shaft mounting portion, and the front side of the support base. And the seat support structure with the rear side supported by the back support structure via the third shaft attachment portion. The reaction force mechanism is located on the rear side of the third shaft attachment portion .

  Here, the “back support structure” may be any structure as long as it supports the backrest so as to be able to perform a locking operation. And an outer shell having

  If it is such, since there is no design restriction that the reaction force mechanism must be incorporated in the support base, the degree of freedom in design can be increased.

Link elements other than the seat supporting structure, Ru back supporting structure der.

  The reaction force mechanism includes a rod having one end supported by a seat support structure and a link element other than the seat support structure penetrating the other end, and the other end of the rod. What is provided with the receiving member provided in the part and the elastic body provided between this receiving member and link elements other than the said seat support structure is preferable.

  As a preferred embodiment of the elastic body, there may be mentioned a plurality of compression coil springs having different diameters arranged such that the axial center coincides with the axial center of the rod.

  The receiving member is screwed to a male screw portion provided at the other end of the rod so as to be able to advance and retract. The cover also serves as a grip surrounding the elastic body. Those are preferred.

The synchro-rocking mechanism includes the support base, the back support structure supported by the support base via a first pivot attachment, and the front side via the second pivot attachment by the support base. causes supported, Ru Tei includes a rear to said back support structure for a third said seat supporting structure is supported via the shaft attachment portion.

  At this time, as the support base portion, the upper end of the leg is moved forward from the upper end of the leg so that the backrest supported by the back support structure is substantially parallel to the seat support structure when the backrest is tilted backward. Those that are elongated are preferred.

  As described above, according to the present invention, the degree of freedom in design can be increased.

The whole perspective view from the back of the chair of a 1st embodiment of the present invention. The rear view which omitted the leg of the chair of the embodiment. The top view which abbreviate | omitted the leg of the chair of the embodiment. The right view which omitted the leg of the chair of the embodiment. AA line sectional view in FIG. The upper expanded sectional view in FIG. The lower expanded sectional view in FIG. The BB sectional drawing which abbreviate | omitted the chair main body and seat in FIG. The CC expanded top sectional view in FIG. The perspective view from the back which shows the principal part of the embodiment. The perspective view from the lower part which shows the principal part of the embodiment. Action | operation explanatory drawing shown in the center side cross section of the principal part of the embodiment. Action | operation explanatory drawing shown in the center side cross section of the principal part of the embodiment. Action | operation explanatory drawing shown in the side cross section of the principal part of the embodiment. Action | operation explanatory drawing shown in the side cross section of the principal part of the embodiment. Action | operation explanatory drawing shown in the side cross section of the principal part of the embodiment. The DD sectional view taken on the line in FIG. The perspective view from the upper part which shows the principal part of the embodiment.

  Hereinafter, an embodiment in which the present invention is applied to a synchro tilt type office rotary chair 1 will be described with reference to FIGS.

  The chair 1 is movable with respect to the floor. As shown in FIGS. 1 to 18, the chair body 2, the backrest 3 and the seat 4 supported by the chair body 2, and the back And a handle 5 supported by the drool 3.

<Chair body>
As shown in FIGS. 1, 2, 4, 5, 7, and 10 to 18, the chair body 2 is supported by a leg base 21 and is supported by the support base 22. A back support structure 23 that can be tilted backward, a seat support structure 24 disposed above the support base 22, the support base 22, the back support structure 23, and the seat support structure And a synchro-rocking mechanism 25 having 24 as a link element 254. The chair body 2 is configured such that the seat 4 supported by the seat support structure 24 tilts synchronously when the backrest 3 supported by the back support structure 23 tilts backward. It has been done. That is, an operation in which the seat 4 sinks at a constant angle ratio with respect to the backward tilting operation of the backrest 3, in other words, a synchro tilting operation is realized. In association with the synchro-rocking mechanism 25, a reaction force mechanism 26 for self-returning the backrest 3 to an initial position and a locking mechanism 27 for locking the backrest 3 at a predetermined tilting position are provided. ing.

<Legs>
As shown in FIGS. 1 and 10, the leg body 21 includes a leg blade type leg base 212 having casters 211, and a leg column 213 erected at the center of the leg base 212. The leg support 213 is a gas spring type, and is a normal one that elastically expands and contracts in the vertical direction and can be locked at a desired position. That is, the leg support 213 includes a gas spring main body (not shown) fitted on the leg base 212 and a rod (not shown) protruding from the upper end of the gas spring main body. The operation button for unlocking is not projected. This unlocking operation button is operated by an elevating operation lever 200 which is an operating means provided below the seat 4.

  As shown in FIGS. 17 and 18, the operating lever 200 is for applying an operating force in the vertical direction to the pressing portion 201 that faces the unlocking operation button. The operating lever 200 includes a shaft 202 that extends from the pressing portion 201. A first bent portion 203 having one end bent downward, a second bent portion 204 having one end of the shaft 202 bent sideward below the first bent portion 203, and the second A grip portion (not shown) for placing the hand on the bent portion 204 is provided. This operation lever 200 is formed by a straight line between a fulcrum 205 mainly constituted by the first bent portion 203, an action point 206 mainly constituted by the pressing portion 201, and a force point 207 mainly constituted by the gripping portion. Are not in line. The extension line of the shaft of the fulcrum 205 and the line connecting the force point 207 and the action point 206 are configured to be orthogonal to each other.

  The support base 22 is attached to the upper end of the leg support 213, more specifically to the upper end of the rod.

<Support base>
As shown in FIGS. 2, 4, 5, 7, and 11 to 18, the support base 22 is configured so that the seat when the backrest 3 supported by the back support structure 23 is tilted backward is used. It extends forward from the upper end of the leg 21 so as to be substantially parallel to the support structure 24. Specifically, the support base portion 22 is supported by the leg body 21 so as to be horizontally rotatable, and includes a main housing 221 attached to the leg support 213 and a sub housing rigidly connected to the main housing 221. 222. The main housing 221 is made of metal, and includes a bottom wall 223 having a boss portion 228 into which the upper end of the leg support 213 is fitted, and left and right side walls 224 erected from the left and right side edges of the bottom wall 223. It is provided and is open front and rear and upward. The sub-housing 222 is made of metal and has a bottom wall 225 whose base end portion is disposed in the main housing 221 and has a distal end extending forward, and left and right edges raised from the left and right edges of the bottom wall 225. Side walls 226 and ridges 227 extending outward from the upper edges of the both side walls 226. The sub-housing 222 abuts the lower surfaces of the two flanges 227 against the upper edges of the left and right side walls 224 of the main housing 221, and makes the left and right side walls 226 closely contact the inner surfaces of the left and right side walls 224 of the main housing 221. In this state, it is integrated with the main housing 221 by welding or the like.

  The support base portion 22 thus configured supports the back support structure 23 via the main shaft 28 so as to be able to tilt backward, and can rotate the front side of the seat support structure 24 via the front connection shaft 29. And it is supported so that it can slide back and forth. Specifically, the back support structure 23 is connected to both ends of the main shaft 28 that is rotatably passed between the side walls 224 of the main housing 221. Long holes 220 extending in the front-rear direction are provided in the side walls 226 of the sub-housing 222, and the front side of the seat support structure 24 is connected to both ends of the front connecting shaft 29 inserted through the long holes 220. doing. Since the reaction force mechanism 26 and the locking mechanism 27 are provided outside the support base 22, no space for providing these mechanisms is provided in the support base 22. That is, the support base 22 of the present embodiment is much smaller than the support base provided with a reaction force mechanism or the like inside as in the prior art.

<Back support structure>
As shown in FIGS. 5 to 7 and FIGS. 10 to 18, the back support structure 23 has a function as a so-called back support rod. For example, the back support structure 23 forms a pair disposed on both sides of the support base 22. A back frame 231 and a plurality of horizontal members 234, 235, 236 connecting the left and right back frames 231 are provided. The back frame 231 includes a lower frame element 232 that extends rearward with the base end portion 237 supported by the main shaft 28, and an upper frame element 233 that is bent upward from the rear end portion of the lower frame element 232 and extends. It has an L shape when viewed from the side. The lower frame element 232 and the upper frame element 233 are integrally formed by bending a pipe material. The lower frame element 232 is connected by a lower horizontal member 234, and the upper frame element 233 is connected by an intermediate horizontal member 235 and an upper horizontal member 236, respectively. The lower horizontal member 234 has a channel shape opened downward, and both side portions are coupled to the inner side of the lower frame element 234 via welding joints. The intermediate horizontal member 235 and the upper horizontal member 236 have a channel shape opened to the front, and are joined to the back side of the upper frame element 233 via welding joints. Plate-shaped mounting brackets 238 and 230 having bolt holes 238a and 230a are provided on the outer sides of the joint portions of the intermediate horizontal member 235 and the upper horizontal member 236.

<Seat support structure>
As shown in FIGS. 5, 7, and 11 to 16, the seat support structure 24 has a function as a so-called seat receiver and has a disk shape. The seat support structure 24 does not have a portion protruding toward the bottom surface. The front end portion of the seat support structure 24 is provided with a pair of left and right front brackets 241 that hang downward. By attaching these front brackets 241 to both ends of the front connecting shaft 29, The seat support structure 24 is supported on the support base 22 so as to be rotatable and slidable. A rear bracket 242 is formed at the rear end of the seat support structure 24 so as to be paired left and right. The rear bracket 242 is connected to the back support structure 23 via the rear connecting shaft 20. The left and right back frames 231 are rotatably supported.

  On the lower surface of the seat support structure 24, an armrest attachment structure 243 is attached. Both ends of the armrest mounting structure 243 are extended outward from the left and right ends of the seat support structure 24 so that an armrest (not shown) can be detachably attached to the both ends. It is. The seat support structure 24 and the armrest mounting structure 243 are coupled so that the bottom side is substantially flush. In other words, the left and right armrest attachment structures 243 are attached so that there is no portion protruding to the bottom surface when combined with the seat support structure 24.

<Synchloro-packing mechanism>
As shown in FIGS. 5, 7, and 11 to 16, the synchro-rocking mechanism 25 includes the support base 22 and the back support that is supported by the support base 22 via a first shaft mounting portion 251. The structure 23 and the front side are supported by the support base 22 via the second pivoting portion 252 and the rear side is supported by the back support structure 23 via the third pivoting portion 253. The seat support structure 24 is provided. The first shaft attachment portion 251 is configured mainly with the main shaft 28, and is a portion on which the back support structure 23 is rotatably attached to the support base portion 22. The second shaft attachment portion 252 is configured mainly with the front connection shaft 29, and the seat support structure 24 is attached to the support base portion 22 so as to be able to rotate and slide back and forth. Part. The third shaft mounting portion 253 is configured mainly with the rear connecting shaft 20, and is a portion on which the seat support structure 24 is rotatably mounted with respect to the back support structure 23. It is. In other words, the synchro-rocking mechanism 25 includes three link elements 254 including the support base 22, the seat support structure 24, and the back support structure 23 in the first, second, and third shafts. It is configured by being axially attached via attachment portions 251, 252 and 253. In this embodiment, when the backrest 3 supported by the back support structure 23 tilts backward, the seat 4 supported by the seat support structure 24 tilts synchronously. The support base 22 and the seat support structure 24 are set to be in a substantially parallel state with a minimum gap.

<Reaction mechanism>
As shown in FIGS. 1, 2, 4, 5, 7, and 10 to 16, the reaction force mechanism 26 self-returns the back support structure 23 to the initial position before the backward tilting operation. It is provided outside the support base 22. More specifically, the reaction force mechanism 26 is provided between the seat support structure 24 and a link element 254 other than the seat support structure 24 constituting the synchro-rocking mechanism 25. is there. In this embodiment, the reaction force mechanism 26 is provided between the seat support structure 24 and the back support structure 23, and supports the one end 264 on the seat support structure 24. A link element 254 other than the seat support structure 24, that is, a rod 261 that penetrates the back support structure 23 and extends the other end 265 to the outside, and a receiver provided on the other end 265 of the rod 261 A member 262 and an elastic body 263 provided between the receiving member 262 and the link element 254 other than the seat support structure 24, that is, the back support structure 23 are provided.

  As shown in FIGS. 5, 7, and 11 to 16, the rod 261 has an upper end that is the one end 264 side supported by the rear end of the seat support structure 24, and the other end 265 side. A male screw portion 266 is provided at a lower end portion. The rod 261 is inserted through a through-hole 239 provided in the lower horizontal member 234 of the back support structure 23, and the lower end protrudes below the lower horizontal member 234.

  As shown in FIGS. 1, 2, 4, 5, 7, and 10 to 16, the receiving member 262 can be screwed into and out of a male threaded portion 266 provided at the other end 265 of the rod 261. The cover member 262 is also provided with a cover 267 that also serves as a grip surrounding the elastic body 263. Specifically, the receiving member 262 includes a receiving tray 268 that receives the lower end portion of the elastic body 263, a nut 269 that is screwed to the male threaded portion 266 of the rod 261 so as to support the receiving tray 268 from the lower side, A stopper 260 provided at the lower end of the rod 261 to prevent the nut 269 from coming off from the male threaded portion 266, and a cover 267 that is fixed to the nut 269 and covers the outer periphery of the tray 268 and the elastic body 263. It becomes. The tray 268 is made of a sheet metal material, and the cover 267 is made of a synthetic resin.

  As shown in FIGS. 5, 7, and 11 to 16, the elastic body 263 is a plurality of compression coil springs 263 a and 263 b having different diameters and having an axial center aligned with the axial center of the rod 261. Specifically, the elastic body 263 is first wound between the receiving tray 268 of the receiving member 262 and the lower horizontal member 234 of the back support structure 23 while being wound around the rod 261. The compression coil spring 263a and the lower horizontal member of the back support structure 23 and the receiving plate 268 of the receiving member 262 are positioned in an annular space formed between the first compression coil spring 263a and the rod 261. 234 and a second compression coil spring 263b interposed therebetween. The first compression coil spring 263a and the second compression coil spring 263b are wound in different directions.

<Locking mechanism>
As shown in FIGS. 5, 7, and 11 to 18, the locking mechanism 27 is for locking the back support structure 23 at a predetermined tilting position, and is near the outside of the support base 22. And a connecting member 271 that rigidly couples the two back frames 231 and an engagement that is supported by the support base 22 so as to be pivotable in the front-rear direction via an operation shaft 272 and engageable with a predetermined portion of the connecting member 271. A member 273, and an operating means 274 for operating the engaging member 273 between an engaging position (B) for engaging the connecting member 271 and a retracting position (A) where the engaging member 271 cannot be engaged A moderation mechanism 275 for selectively holding the engagement member 273 at either the engagement position (B) or the retracted position (A) is provided.

  As shown in FIGS. 7 and 11 to 16, the connecting member 271 has a metal plate shape. In this embodiment, the connecting member 271 has a rectangular shape having a substantially horizontal upper edge 61 and a lower edge 62. belongs to. The left and right ends of the connecting member 271 are rigidly connected to the inside of the back frame 231 via welding joints. An engagement hole 64 is formed in the intermediate portion 63 located between the upper edge 61 and the lower edge 62 of the connecting member 271.

  As shown in FIGS. 7 and 11 to 18, the engaging member 273 has a base end portion 237 fixed to the operation shaft 272 and is disposed at a rear opening end portion of the main housing 221 of the support base portion 22. The moving plate 65 and a claw 66 projecting rearward from the rotating end of the rotating plate 65 are provided. The engaging member 273 is made of metal, and the rotating plate 65 and the claw 66 are integrally formed.

  As shown in FIGS. 1, 2, 4, 11, 17, and 18, the operating means 274 is for applying an operating force in the rotational direction to the operating shaft 272, and is one end of the operating shaft 272. And a gripping portion (not shown) for placing the hand on the bent portion 67.

  As shown in FIGS. 7 and 11 to 17, the moderation mechanism 275 is provided on the inner surface of the support base 22 and engages with the outer edge of the rotating plate 65, and elastically supports the moderation element 68. The elastic support element 69 is provided. Specifically, the elastic support element 69 includes a mounting base 691 attached to the inner surface of the side wall 224 of the main housing 221 of the support base 22 and an elastic wall 692 supported by the mounting base 691 and elastically deformed in the thickness direction. Therefore, the moderating element 68 having a hemispherical shape is provided on the side opposite to the mounting base 691 of the elastic wall 692. The mounting base 691, the elastic wall 692, and the moderation element 68 are integrally formed of synthetic resin. When the engaging member 273 is in the retracted position (A), the moderation element 68 is engaged with the back surface 651 side of the rotating plate 65. When the rotating plate 65 is rotated backward to move the engaging member 273 to the engaging position (B) from this state, the rotating plate 65 is biased and elastically supported by the elastic wall 692. The moderation element 68 is temporarily retracted to the side, and when the engagement member 273 reaches the engagement position (B), the moderation element 68 is elastically restored and engaged with the front surface 652 side of the rotating plate 65. It is supposed to be.

<Backrest>
As shown in FIGS. 1 to 10, the backrest 3 is supported by the back support structure 23 of the chair body 2, and includes an exterior material 32 and a back support structure that holds the exterior material 32. And a body 31.

  As shown in FIGS. 5 to 10, the back support structure 31 has a form called a so-called inner shell, and is integrally formed of synthetic resin such as nylon. The back support structure 31 includes a shell body 33 that defines the overall shape of the backrest 3, a rib 34 that reinforces the back surface of the shell body 33, and a back frame for mounting the back support structure 23. An attachment portion 35 and a handle attachment portion 36 for attaching the handle 5 are provided. The back frame mounting portion 35 is formed with boss portions having female screw holes (not shown) at portions corresponding to the bolt holes 238a and 230a provided in the mounting brackets 238 and 230 of the intermediate horizontal member 235 and the upper horizontal member 236, respectively. It is a thing. The handle attachment portion 36 is formed by forming a plurality of boss portions 361 having female screw holes 362 in a portion for attaching the handle 5 described later.

  As shown in FIGS. 1 to 10, the exterior material 32 covers a cushion 37 attached to the front surface of the back support structure 31 and the periphery of the cushion 37 and the back support structure 31. A tension fabric 38 and an outer shell 39 provided on the back surface of the back support structure 31 so as to hide the edge 381 of the tension fabric 38 are provided. The edge portion 381 of the upholstery 38 is turned to the back side of the back support structure 31 and is fixed to the back support structure 31 using a tacker (not shown) or the like. The outer shell 39 is made of synthetic resin, and includes an engaging claw 391 in the vicinity of the peripheral edge portion of the front surface portion. The outer shell 39 is attached to the back support structure 31 by elastically engaging the engaging claws 391 with the outer shell attachment portion 30 provided in the vicinity of the peripheral edge 381 of the back support structure 31. It has been. A cutout portion 392 for avoiding interference with the handle 5 is provided at the upper edge portion of the outer shell 39.

<Za>
As shown in FIGS. 1 to 5, 7, and 10, the seat 4 is supported by the seat support structure 24 of the chair body 2, and holds the exterior material 42 and the exterior material 42. And a structure 41 for a seat shape. The structure 41 for the seat shape is a so-called inner shell, and is integrally formed of a synthetic resin such as nylon. The exterior material 42 includes a cushion 43 attached to the upper surface of the seat retaining structure 41, and a tension fabric 44 that covers the cushion 43 and the periphery of the seat retaining structure 41.

<Hands>
As shown in FIGS. 1 to 6 and FIGS. 8 to 10, the handle 5 is provided on the back support structure 31. Arm portion 52 extended to each other, a gripping member 53 laid between the distal ends of these arm portions 52, and a blindfold member 54 laid between the base ends of the arm portions 52. It is integrally molded with resin.

  As shown in FIGS. 9 and 10, each mounting portion 51 has a disk shape having bolt holes 511 that make a pair in the vertical direction. Then, bolts 512 that are fastening tools inserted through the bolt holes 511 of the attachment portions 51 are respectively screwed into the female screw holes 362 of the boss portions 361 constituting the handle attachment portions 36 of the back support structure 31. Thus, the handle 5 is attached to the back support structure 31 that is an inner shell. In other words, the chair 1 includes the outer shell 39 attached to the back surface of the inner shell in a state where the portion other than the attachment portion 51 of the handle 5 is exposed.

  As shown in FIGS. 1 to 3, 8, and 10, each arm portion 52 is a plate-shaped member having a positioning projection 521 on the outer surface, and the positioning projection 521 is a notch portion of the outer shell 39. The handle 5 and the outer shell 39 can be positioned by engaging with a positioning recess 393 provided in the 392.

  As shown in FIGS. 1 to 6 and FIGS. 8 to 10, the gripping member 53 is a belt-plate-like member whose center portion curves in a direction protruding backward, and the curvature in plan view is the backrest 3 in plan view. It is larger than the curvature of the upper edge, and has a shape in which the vertical dimension is gradually increased from the center toward the outside in the rear view.

  As shown in FIGS. 1, 3, 5, 6, 8, and 9, the blindfold member 54 has a shape corresponding to the opening shape of the notch 392 of the outer shell 39. In a state where the 52 and the outer shell 39 are positioned, the back surface 541 of the blindfold member 54 and the back surface 394 of the outer shell 39 are set to be flush with each other.

  In this positioning state, the upper surface 522 of the arm portion 52 and the upward surface 395 of the outer shell 39 are flush with each other, and the back surface 531 of the gripping member 53 and the back surface 394 of the outer shell 39 are flush with each other. Is set to That is, the arm portion 52, the gripping member 53, and the blindfold member 54 each have an outer surface that is continuous with the outer surface of the outer shell 39.

  The chair 1 can also be expressed as follows with respect to the handle 5. That is, this chair 1 is provided with a handle 5 on a backrest 3 provided with an exterior member 32 on the back, and the handle 5 has an upper surface extending rearward along a horizontal plane. A pair of left and right projections 55 projecting from the back surface of the backrest 3 and a gripping member 53 that is installed between the projections 55 and has an upper surface continuous with the upper surfaces of the projections 55. is there. The projecting portion 55 is formed by the arm portion 52 and a bulging portion 396 formed integrally with the outer shell 39 so as to be continuous with the arm portion 52, and the projecting dimension toward the rear is directed outward. The shape is gradually reduced. A cavity 7 is formed between the gripping member 53 and the backrest 3 so as to communicate with the top and bottom, and the back surface of the backrest 3 below the gripping member 53 is covered with an outer shell 39.

<Operation description>
Next, the operation of the chair 1 will be described with reference to FIGS.

  When a rearward load is applied to the backrest 3 from the initial state shown in FIGS. 12, 14, and 17, the first support portion 251 configured by the main shaft 28 of the support base 22 is formed on the back support structure 23. Tilt back around. When the back support structure 23 is tilted backward, the rear end side of the seat support structure 24 pivotally attached to the lower frame element 232 of the back support structure 23 via the third shaft mounting portion 253 is It moves downward while moving backward. At that time, the front end side of the seat support structure 24 supported by the support base portion 22 via the second shaft mounting portion 252 rotates slightly while moving backward. As a result, as shown in FIG. 13 and FIG. 16, the backrest 3 is synchronized to rotate backward so that the seat 4 sinks backward while tilting backward. At that time, the distance between the rear end portion of the seat support structure 24 and the lower frame element 232 of the back support structure 23 is increased, and the elastic body 263 of the reaction force mechanism 26 is compressed to accumulate the repulsive force. It will be. That is, when the distance between the rear end portion of the seat support structure 24 and the lower frame element 232 of the back support structure 23 is increased, the seat support structure 24 is supported via the rod 261. The distance between the receiving member 262 and the lower horizontal member 234 provided on the lower frame element 232 of the back support structure 23 is reduced, and the elastic body 263 is compressed.

  When the rearward load acting on the backrest 3 is released or reduced, the repulsive force of the elastic body 263 performs an operation opposite to the above-described operation, and the backrest 3 rotates and returns to the front. At the same time, the seat 4 returns to the initial position. The repulsive force can be adjusted by changing the preload of the elastic body 263 by operating the cover 267 also serving as a grip and adjusting the position of the receiving member 262.

  If the engaging member 273 of the locking mechanism 27 is held at the retracted position (A) by the moderation mechanism 275, the above-described synchronization operation can be performed freely.

  If it is desired to stop the synchro operation halfway, the operation member 274 may be operated at the desired tilt position to rotate the engagement member 273 to the engagement position (B). That is, as shown in FIG. 17, when the operating member 274 is operated from the retracted position (A) to the engaged position (B) by operating the operating means 274 at the initial position, the engaging member 273 is used for back support. It will be engaged with the lower edge 62 of the connecting member 271 provided at the base end of the structure 23, and the backrest 3 is locked in the initial position as shown in FIGS. Thereby, the seated person can take a working posture. Further, when the operating member 274 is operated from the retracted position (A) to the engaged position (B) by operating the operating means 274 at an intermediate tilt position between an initial position and a final tilt position described later, the engagement member 273 engages with the engagement hole 64 of the connecting member 271 provided at the base end of the back support structure 23, and as shown in FIG. 15, the backrest 3 is locked at the intermediate rearward tilt position. Thereby, the seated person can take an intermediate posture. Furthermore, when the operating member 274 is operated from the retracted position (A) to the engaged position (B) by operating the operating means 274 at the last tilted position, the engaging member 273 becomes the base end of the back support structure 23. 13 and FIG. 16, the backrest 3 is locked at the last tilted position. Thereby, the seated person can take an easy posture.

<Effect of this embodiment>
Since the chair 1 includes the handle 5 on the back surface of the backrest 3, the chair 1 can be moved freely by placing a hand on the handle 5. Therefore, it can suppress that the backrest 3 gets dirty or damaged compared with the case where the chair 1 is moved by putting a hand on the upper edge of the backrest 3. That is, in the chair 1 in which the back support structure 23 as shown in the present embodiment is hidden inside by the exterior material 32 such as the cushion 37 and the outer shell 39, the chair is held by grasping the back support structure 23 from the outside. Since 1 cannot be moved, it is possible to suitably solve the problem that the exterior material 32 has been conventionally required to be in contact with the exterior material 32.

  And since the cavity 7 is provided between the holding member 53 of the handle 5 and the back surface of the backrest 3, the hand can be applied from the top or the bottom, and the usability is not only good. It is also possible to hang a belonging such as a stall on the member 53.

  As described above, the chair 1 according to the present embodiment includes the support base 22 supported by the legs 21, the back support structure 23 supported by the support base 22 and capable of backward tilting operation, A seat support structure 24 disposed above the support base 22; and a synchro-rocking mechanism 25 including the support base 22, the back support structure 23, and the seat support structure 24 as link elements 254. When the backrest 3 supported by the back support structure 23 is tilted backward, the seat 3 supported by the seat support structure 24 tilts synchronously. It is a thing. A back support structure outside the support base 22 and between the seat support structure 24 and a link element 254 other than the seat support structure 24 constituting the synchro-rocking mechanism 25. Since the reaction force mechanism 26 for self-returning the body 23 to the initial position before the backward tilting operation is provided, a design restriction that has conventionally arisen that the reaction force mechanism has to be incorporated into the support base portion. The freedom of design can be increased. That is, it becomes easy to arrange the reaction force mechanism 26 freely, and if it is arranged outside the support base 22 like the reaction force mechanism 26 of the present embodiment, the dead space can be effectively utilized and the support base 22 can be used. Can be made compact.

  In addition, since the support base 22 has a relatively simple structure, it is possible to share the chair and the parts that do not have the above-described synchro-rocking mechanism. As such a chair, for example, a so-called back tilt type chair in which the backrest tilts is conceivable, but a back support structure other than covers arranged on the lower surface side of the seat, a seat support structure, The force mechanism, armrests, and related covers can be shared. Therefore, in manufacturing such a plurality of types of chairs, it is possible to reduce the mold cost for metal parts and resin parts at the time of manufacture.

  Further, in the chair 1 having the synchro-rocking mechanism 25 of the present embodiment as compared with the back tilt type chair, the cover disposed on the lower surface side of the seat 4 is operated for raising and lowering because the seat 4 is inclined at the time of locking. In order to suppress the occurrence of the problem of interference with the lever 200 and the operating means 274 of the locking mechanism 27, there is a restriction that the seating surface must be set high. However, according to the present embodiment, since the lower surface side of the seat support structure 24 is flattened and the vertical dimension of the entire support base 22 is reduced, the lowest position of the seat surface can be made lower than before. It is easy for a seated person with a relatively small body.

  Further, according to the reaction force mechanism 26 of the present embodiment, the repulsive force can be easily adjusted as compared with the conventional arrangement of the support base.

  In the present embodiment, the link elements 254 other than the seat support structure 24 are the back support structure 23, so that the repulsive force of the elastic body 263 is effectively transmitted to the back support structure 23. be able to. That is, since the reaction force mechanism 26 is disposed between the seat support structure 24 and the back support structure 23, the back support structure 23 and the seat support structure 24 in the initial state And the separation distance between the back support structure 23 and the seat support structure 24 in the state where the synchro-rocking operation is performed is relatively large, so that the compression coil springs 263a and 263b are compressed. It is easy to accumulate repulsive force.

  The reaction force mechanism 26 has one end 264 supported by the seat support structure 24, the rod 261 penetrating the back support structure 23 and extending the other end 265 side to the outside, and the rod 261. Since the receiving member 262 provided at the other end 265 portion and the elastic body 263 provided between the receiving member 262 and the back support structure 23 are provided, the elastic body 263 is compressed. Thus, a repulsive force for returning the back support structure 24 to the initial position can be accumulated.

  Since the elastic body 263 is two compression coil springs 263a and 263b having different diameters, the axial center of which is aligned with the axial center of the rod 261, a relatively narrow space between the left and right back frames 231 is effectively utilized. Thus, the elastic body 263 can be disposed. In particular, in this embodiment, when the backrest 3 tilts backward, the compression coil springs 263a and 263b receive a compression force while being twisted. In other words, since the compression coil springs 263a and 263b are rarely compressed in a straight direction along the axial direction, if the elastic body 263 having a relatively small spring constant that is relatively deformable is used. The reaction force mechanism 26 can be made compact in the longitudinal direction, and the operation of the reaction force mechanism 26 can flexibly correspond to the backward tilting operation of the backrest 3.

  The receiving member 262 is screwed to a male screw portion 266 provided at the other end 265 portion of the rod 261 so as to be able to be screwed forward / backward. The receiving member 262 also serves as a grip surrounding the elastic body 263. Since the cover 267 is provided, when the user rotates the cover 267, the receiving plate 268 of the receiving member 262 on which the two compression coil springs 263a, 263b are arranged and the lower side of the back support structure 23 are provided. The distance to the frame member 234 can be changed. Thereby, the preload of the compression coil springs 263a and 263b can be changed, and the repulsive force of the back support structure 23 can be adjusted. Since the reaction force mechanism 26 can be disposed in the dead space behind the support base 22 and below the seat 4 as compared with the conventional chair, and the operation unit for operating the reaction force mechanism 26 can be disposed. Space can be used effectively.

  The synchro-rocking mechanism 25 includes the support base 22, the back support structure 23 supported by the support base 22 via the first shaft mounting portion 251, and the front side to the support base 22. Since the seat support structure 24 is supported through the shaft mounting portion 252 and the rear side is supported by the back support structure 23 through the third shaft mounting portion 253. The rattling of the joint portion of the synchro-rocking mechanism 25 can be eliminated by the urging force of the reaction force mechanism 26. In particular, in the present embodiment, a so-called three-joint link structure having the first, second, and third pivoting portions 251, 252, and 253 as joint portions is formed. By the urging force of the elastic body 263 disposed between the back support member 23 and the lower horizontal member 234, rattling of all three joint portions can be eliminated.

  Further, the leg base is configured so that the support base 22 is substantially parallel to the seat support structure 24 when the backrest 3 supported by the back support structure 23 is tilted backward to the last tilt position. Since the support base 22 and the seat support structure 24 can be made as close as possible, the useless space between the conventional support base and the seat support structure can be obtained. Can be eliminated. In particular, in the present embodiment, the sub-housing 222 of the support base 22 extends straight forward and upward from the leg 21, and the bottom side of the front half of the seat support structure 24 has a portion protruding downward. Therefore, the space between the support base 22 and the seat 4 can be reduced, thereby contributing to space saving. The support base 22 of this embodiment can contribute to the space saving described above because the reaction force mechanism 26 is disposed outside the support base 22.

  Further, the raising / lowering operation lever 200 of the present embodiment has a configuration in which the fulcrum 205, the action point 206, and the force point 207 are not aligned on a straight line. Therefore, it can be installed in relation to the support base 22 that is narrow in the left-right direction as in this embodiment. That is, by bending the operation lever 200 as in the present embodiment, the action point 206 is extended forward from the fulcrum 205 along the main housing 221 of the support base 22 so that the fulcrum 205 and the action point 206 are The position of the force point 207 can be set so that the grip portion extends to the side of the seat 4 that is easy for the user to operate while securing the distance between them. The operation lever 200 is configured so that the extension line of the shaft of the fulcrum 205 and the line connecting the force point 207 and the action point 206 are orthogonal to each other. Can do.

  The present invention is not limited to the embodiment described above.

  The elastic body of the present invention is not limited to the compression coil spring described above, and can be variously changed. For example, instead of two compression coil springs, another elastic body such as a leaf spring may be used, a single compression coil spring, three or more compression coil springs, or a plurality of compression coil springs. Instead of being stacked, they may be arranged in parallel.

  The handle of the present invention may be anything as long as it is provided in the back support structure, and the backrest mode is not limited to that described above. For example, the handle may be attached to a backrest that does not include an outer shell.

  The shape and size of the handle are not limited to those described above, and can be variously changed. For example, the attachment portion is not limited to the left and right two places, and may be one place or three places or more, and the attachment method is not limited to that described above.

  You may use the handle attachment part provided in the structure for back support shapes in order to attach components other than a handle. For example, using the female screw hole of this boss part, the base end part of the headrest, the base end part of the hanger, the core material for the high back specification, in other words, the core material for extending the vertical direction of the backrest It is conceivable to attach optional members such as.

  Also, other parts may be attached to the handle. That is, since a cavity is formed between the handle and the backrest, for example, it is conceivable to attach an optional member such as a base end portion of a hanger to the grip member of the handle.

  The locking mechanism only needs to be open at least behind the support base, and the forms of the connecting member and the engaging member are not limited to those described above. In the above-described embodiment, the engagement hole is provided at a predetermined height position of the intermediate part of the connecting member. However, the engagement hole is not provided, or a plurality of pairs of engagements are provided at intervals in the vertical direction. It may be provided with a hole. That is, the backrest may be fixed at two backward tilt positions, or may be fixed at four or more rearward tilt positions. Further, such engagement holes are not limited to those divided in the left-right direction. In addition, if a guide surface for smoothly guiding engagement / disengagement is provided on at least one of the connection member and the engagement member at a position where the connection member and the engagement member are locked, The rattling can be suppressed, and the seated person can smoothly operate the operation member.

  The structure for supporting the back is not limited to the above-described back frame or the like, and any structure may be used as long as the backrest is supported so as to be able to perform a synchro-rocking operation. It may be an outer shell having rigidity to be substituted. Further, the backrest can be variously changed. For example, the back retaining structure may be a back frame, a shape retaining back frame, etc., in addition to the back inner shell. In addition to what is attached, a shell-shaped so-called resin mesh having appropriate rigidity and elasticity, such as a so-called resin mesh, may be formed integrally with the exterior material and the back-holding structure.

  In addition, various changes may be made without departing from the spirit of the present invention.

DESCRIPTION OF SYMBOLS 1 ... Chair 21 ... Leg 22 ... Support base 23 ... Back support structure 24 ... Seat support structure 25 ... Synchro-rocking mechanism 251 ... 1st axis attachment part 252 ... 2nd axis attachment part 253 ... 3rd 254 ... link element 26 ... reaction mechanism 262 ... receiving member 263 ... elastic body 263a, 263b ... compression coil spring 264 ... one end 265 ... other end 266 ... male screw 267 ... cover 3 ... backrest 4 ... seat

Claims (5)

A support base supported by the legs, a back support structure supported by the support base and capable of backward tilting; a seat support structure disposed above the support base; the support base; A back support structure and a synchro-rocking mechanism having the seat support structure as a link element, and when the backrest supported by the back support structure is tilted backward, the seat A chair configured such that a seat supported by a supporting structure tilts synchronously,
Outside the support base, between the seat support structure and a link element other than the seat support structure that constitutes the synchro-rocking mechanism, the back support structure is not tilted backward. Provided with a reaction force mechanism for self-return to the initial position ,
The link element other than the seat support structure is the back support structure,
The synchro-rocking mechanism includes the support base, the back support structure supported by the support base via the first pivot attachment, and the front side via the second pivot attachment by the support base. The seat support structure and the back support structure supported by the back support structure via a third pivot part, while being supported,
The chair , wherein the reaction force mechanism is located on the rear side of the third shaft attachment portion . The reaction force mechanism has one end supported by the seat support structure and a link element other than the seat support structure penetrating the other end, and the other end of the rod. The chair according to claim 1, further comprising: a receiving member provided in a portion; and an elastic body provided between the receiving member and a link element other than the seat support structure. The chair according to claim 2, wherein the elastic body is a plurality of compression coil springs having different diameters, the axial centers of which are aligned with the axial center of the rod. The receiving member is screwed to a male screw portion provided at the other end of the rod so as to be able to advance and retreat, and a cover that also serves as a grip surrounding the elastic body is provided on the receiving member. The chair according to claim 2 or 3. The support base extends forward from the upper end of the leg so as to be substantially parallel to the seat support structure when the backrest supported by the back support structure is tilted backward. The chair according to claim 1, 2, 3 or 4.

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