This application claims priority of Japanese Patent Applications No. 2021-162893 filed on Oct. 1, 2021. The contents of the applications are incorporated herein by reference in their entirety
The present invention relates to a chair that is suitably utilized in an office or the like and is movable in front-rear, left-right, and diagonal directions.
For example, chairs having a seat that is tiltable in front-rear, left-right, and diagonal directions include chairs known from Japanese Unexamined Patent Application Publication No. 2009-82521 and Japanese Unexamined Patent Application Publication No. 2009-297319 (hereinafter referred to as Patent Documents 1 and 2).
Patent Document 1 describes a configuration in which a plurality of fluid bags are connected by a flow path and a seat is tilted when air moves.
Patent. Document 2 describes a configuration in which a plurality of independent air cushions are covered with a cover member and fitted into a recess of a seat to provide a cushioning property to a person sitting in the chair.
In the configurations of Patent Documents 1 and 2, the seat can move freely by the cushioning effect. However; the degree of freedom of deformation of the seat is too high for a seated person to hold his or her posture on the seat, and therefore, the seated person needs to follow a movement of the seat rather than the seat following a movement of the seated person. As a result, the conventional seats are not designed suitably for supporting a movement of the seated person continuously changing his or her posture while the seated person balances his or her load.
To solve such a problem, it is conceivable to provide rolling surfaces facing each other to allow the rolling surfaces to roll in directions of 360 degrees, and to swingable attach a seat to the upper one of the rolling surfaces.
In a configuration having such rolling surfaces facing each other, it:
is necessary to hide a space between the rolling surfaces from the viewpoint of preventing the intrusion of foreign bodies and the appearance of the design. However, a structure that hides the space between such surfaces facing each other in a chair is not commonly known. Such a problem is not limited to a case where surfaces facing each other contact each other, but: is also widely common to a structure that hides a space between swinging surfaces facing each other.
The present invention has been made by focusing on such a problem, and an object thereof is to realize an unprecedented chair in which a space between swinging surfaces facing each other can be appropriately hidden.
The present invention adopts the following means to achieve such an object.
That is, a chair of the present invention includes swinging surfaces facing each other, and the swinging surfaces swings with respect: to each other in a direction of 360 degrees including front: rear and left-right directions. In the chair, an elastic member is arranged between the swinging surfaces at least in a vicinity of outer peripheral edges of the swinging surfaces, and a stretchable sheet: material is provided between the outer peripheral edges to conceal a gap between the swinging surfaces facing each other, the gap including the elastic member,
Normally, when covering swinging surfaces facing each other, a wide range including the swinging surfaces is covered by a cover and the cover is fixed to an appropriate location. In contrast, according to the present invention, the stretchable sheet material is only arranged between outer peripheral edges of the swinging surfaces facing each other, so that it is possible to conceal only a location that needs to be concealed. The elastic member is arranged between the swinging surfaces, and the stretchable sheet material conceals a space between the swinging surfaces, the space including the elastic member. Therefore, the stretchable sheet material and the elastic member have a function of preventing foreign bodies from entering the space between the swinging surfaces, and additionally, the elastic member prevents the stretchable sheet material from loosening or forming wrinkles, and the stretchable sheet material has a function of preventing the elastic member from protruding from the gap.
To maintain an appropriate appearance of the stretchable sheet material, it is desirable that a size and an elasticity of the stretchable sheet material are chosen so that no wrinkles are generated when the gap is narrow and an operation of the swinging surfaces is not hindered when the gap is wide.
To evenly cover a periphery of the gap, it is desirable that the stretchable sheet material has a tubular shape. In this case, in addition to a stretchable sheet material formed into a tubular shape by sewing, the stretchable sheet material may be formed into a tubular shape from the beginning.
To further improve the ability of a cover member to follow the movement, it is desirable that the cover member deforms to follow the movement of the gap between the swinging surfaces.
The above-described structure is particularly useful when applied to a chair in which surfaces facing each other contact each other via the elastic member, and at least one of the surfaces is a rolling surface curved to change a contract portion while swinging.
To effectively achieve the above-described effect, it is desirable that the elastic member is a thick elastic member that is also arranged at an inner side from the vicinity of the outer peripheral edges of the swinging surfaces.
To obtain a configuration in which components can be easily mounted and are not easily detached by swinging, it is desirable to provide, in a vicinity of the outer peripheral edges of the swinging surfaces facing each other, grooves extending along the outer peripheral edges and opening in opposite directions, provide a cover member in which deformable strips are attached to edge portions of the stretchable sheet material, and push the strips into the grooves to conceal the gap between the swinging surfaces facing each other by the cover member.
To easily attach the cover member and easily maintain a stereoscopic shape, it is desirable that each of the grooves forms a pair together with a different one end of the strips.
The present invention has the configuration described above, and thus, it is possible to provide an unprecedented chair in which a space between swinging surfaces facing each other can be appropriately hidden.
An embodiment of the present invention will be described below with reference to the drawings.
In the seat 1, a circumference of a seat main body 11 is covered with upholstery 12, and the seat 1 is attached to the movement mechanism 3 via a seat shell 13. The seat shell 13 includes an inner seat shell 131 attached to a bottom surface of the seat main body 11 and an outer seat shell 132 that, backs up the inner seat shell 131 and secures the connection to the movement mechanism 3.
The leg 2 includes casters 22 at a lower end of a leg vane 21, and a leg support post 23 erected from a center portion of the leg vane 21, and the seat 1 is rotatable attached to an upper end side of the leg support post 23. The leg support post 23 can be extended and contracted by a gas spring mechanism GS illustrated in
As illustrated in
The movement mechanism 3 supports the upper base unit 31 movably with respect to the lower base unit 32. In the front-rear direction as illustrated in
As illustrated in.
As illustrated in.
The curved surface has a substantially partial spherical shape or a substantially arc-shaped cross section, in other words, the curved surface has a bowl-shape or a convex R-shape, and the upper base unit 31 may move in directions of 360 degrees including the front-rear, left-right, and diagonal directions, while rolling on the lower base unit 32. The curved surface may be implemented in various modes, such as a surface that is curved at a constant curvature, even at a position separated from a reference position N which is a contact position between the two base units 31 and 32 when no load is applied, a surface having a curvature that smoothly changes as the distance from the reference position N increases, a surface having different curvature in the front-rear and left-right directions, and a surface having different curvature between the front and the rear.
As illustrated in
As illustrated in.
In the present embodiment, the high-elastic urethane foam is adopted, because high-elastic urethane foam has low temperature dependence and excellent durability. Needlessly to say, low-elastic urethane foam may be used for the elastic member, or a thin member such as an elastic sheet may be used.
When the upper base unit 31 receives a load and moves in any direction of 360 degrees including the front-rear, left-right, and diagonal directions with respect to the lower base unit 32, as illustrated in
Generally, it is conceivable to use, as the movement mechanism, a guide mechanism composed of a cam and a follower between an upper base unit and a lower base unit, and a link mechanism connecting the upper base unit and the lower base unit. Compared to such a structure, the movement mechanism 3 of the present embodiment utilizes the rolling surfaces 312a and 322a to realize an operation of the seat 1 in which a tilting movement component is larger than a horizontal movement component. The chair of the present embodiment that performs such an operation is particularly easy to use in a situation where a person frequently sits down and stands up from a seat.
The curvatures of the rolling surfaces 312a and 322a are set so that a gravity center position G of the seat 1 is lifted to G′ by the movement, as illustrated by a solid line and an imaginary line in
As illustrated in
In addition, in the upper base unit 3L the lower base unit 32, and the elastic member 33, first holes 31P to 33P for inserting a pin 341 constituting the first connection member 34 are opened along a first line L1, and second holes 31Q to 33Q for inserting a shaft 351 constituting the second connection member 35 are opened along a second line L2. The holes 31P, 32P, 33P, 31Q, 32Q, and 33Q prevent the pin 341 and the shaft 351 from interfering with the rolling surfaces 312a and 322a and the elastic member 33, and thus, are also referred to as “relief holes” herein.
The first connection member 34 is mainly composed of three of the pins 341, and the pins 341 are formed as an integral member with a flange unit 342. The pins 341 are inserted through the first hole 31P of the upper base unit 31 (that is, the first hole 31P of the seat receiver 311 and the first hole 31P of the upper base plate 312), the first hole 33P of the elastic member 33, and the first hole 32P of the lower base unit 32 (that is, the first hole 32P of the lower base plate 322), respectively, and the pins 341 are fastened from below by bolts (not illustrated) at positions where the pins 341 abut against the support base unit 321 constituting the lower base unit 32.
With such a structure, for example, a relative position (distance L) between the flange unit. 342 of the first connection member 34 and the support base unit 321 in
When the seat 1 swings in the front-rear direction as illustrated in
In the present embodiment, as illustrated in
As illustrated in
As described above, the second connection member 35 imparts a damper effect to the operation of the movement mechanism 3. Specifically, as illustrated in
Each of the shafts 351 is a bolt-shaped shaft having a large-diameter proximal end unit 351a at a lower end. In a state where the upper end side of the shafts 351 is inserted through the second hole 32Q of the support base unit 321 from the bottom surface side of the support base unit 321, the proximal end unit 351a is accommodated in a recessed unit 355a of a cocoon-shaped (see
As illustrated in.
The shafts 351 protrude upward via the second hole 32Q of the lower base unit 32 (that is, the second hole 32Q of the support base unit 321 and the second hole 32Q of the lower base plate 322), the second hole 33Q of the elastic member 33 (not illustrated in
On the other hand, as illustrated in
receiver 311 constituting the upper base unit 31.
The return spring 36 is arranged at a plurality of locations (three locations in the present embodiment) over a range of 180 degrees or more (for example, 270 degrees) around a center position (reference numeral O in
As described above, the second connection member 35 has a configuration in which the O-rings 353 made of a friction material are fitted between the shafts 351 which are columnar members, and the hole units 311h.
Specifically, as illustrated in
On the other hand, as illustrated in
An inner diameter of the O-rings 353 is chosen so that the O-rings 353 fit with the shafts 351 with a predetermined sliding resistance, and the predetermined sliding resistance is chosen so that a required damper effect can be obtained when the seat 1 swings. In the present embodiment, NBR rubber is used for the O-rings 353. However the material is not limited thereto, and various materials may be adopted as the material for realizing the sliding resistance.
The shafts 351 are passed through the shaft holes 352 and fitted to the O-rings 353 from above, and the pressing tool 356 is pushed from above to fit the projecting unit 356b into the hole unit 311b. Thus, the O-rings 353 are pressed against the bottom wall 311a of the seat receiver 311 by the end unit 356a to realize the assembled state illustrated in
If the upper base unit 31 swings, as illustrated in
That is, the damper mechanism DM is arranged at a Plurality of locations around a center position of the upper base unit 31 over a range of 180 degrees or more (for example, 270 degrees). Therefore, if the seat 1 moves in any direction of 360 degrees, the shafts 351 and the O-rings 353 operate while following the movement: of the seat 1 and sliding relative to each other, and exert a damper action by a sliding resistance in both directions of an operation in which a distance between the upper base unit 31 and the lower base unit 32 is expanded or contracted.
In a chair having such a configuration, in a state where no seating load is applied, the gravity return mechanism GRM mentioned above attempts to return the chair to a position (reference position) where the center of gravity of the movable portion including the upper base unit 31, the seat 1, and the back 4 is lowest. At that time, a restoring force of the elastic member 33 and an auxiliary restoring force of the return spring 30 act together, and thus, the chair stops at the overall most stable position.
The seat 1 of the chair can swing from the reference position N in any direction of 360 degrees including the front-rear, left-right, and diagonal directions, when the upper base plate 312 performs a rolling operation with respect to the lower base Plate 322.
In the rolling surfaces performing such a rolling operation, the upper base plate 312 and the lower base plate 322, which are surfaces facing each other, include the first holes 31P and 32P for passing the pins 341 constituting the first connection member as illustrated in
In the holes 31P, 32P, 31Q, 32Q, and the like, regions having different so-called curvatures are formed and the continuity of the rolling surfaces 312a and 322a is impaired. Therefore, if the upper base plate 312 constituting the upper base unit 31 rolls directly on the lower base plate 322 constituting the lower base unit 32, the upper base unit 31 is likely to rattle due to the change in the curvature. The rattling propagates as a rattling of the seat 1.
On the other hand, in the present embodiment, the elastic member 33 is interposed between the above-described region in one of the upper base unit 31 and the lower base unit 32 and a corresponding region in the other one of the upper base unit 31 and the lower base unit 32. The elastic member 33 lowers the stability when opening peripheral edges of the holes 31P, 31Q, and the like existing in the rolling surface 312a of the upper base unit 31 abut against the rolling surface 322a of the lower base unit 32 facing the rolling surface 312a, and lowers the stability when opening peripheral edges of the holes 32P and 32Q existing in the rolling surface 322a of the lower base unit 32 abut against the rolling surface 312a of the upper base unit 31 facing the rolling surface 322a. That is, the elastic member 33 facilitates rolling between the rolling surfaces 312a and 322a at a place where the curvature of the rolling surfaces 312a and 322a changes and smooths the change of the curvature. Needlessly to say, even in a place where no hole is formed, and also a place where the surface of the rolling surfaces 312a and 322a is irregular or deteriorated, the elastic member has an effect of reducing the rattling caused by the irregular or deteriorated surface.
As illustrated in
Therefore, in the present embodiment, as illustrated in
Specifically, grooves 312x and 322x extending along the outer peripheral edges 312z and 322z and opening in opposite directions are, provided in the vicinity of the outer peripheral edges 312z and 322z of the swinging surfaces 312a and 322a facing each other, and in the cover member 6, deformable strips $1 and 62 are attached to edge portions of the stretchable sheet material 60. As illustrated in
For example, the stretchable sheet material 60 is formed by using a material obtained by knitting polyester fibers. In the present embodiment, the stretchable sheet material 60 is sewn or formed into a cylindrical shape, and the strips 61 and 62 made of resin and having an annular thin plate shape are integrally provided at the upper end and the lower end of the stretchable sheet material 60. The size and elasticity of the stretchable sheet material 60 are chosen so that no wrinkles are generated when the gap is most narrow and so that the stretchable sheet material 60 does not hinder the operation of the swinging surface when the gap is widened. The relationship between the grooves 312x and 322x and the strips 61 and 62 is one-to-one, and each of the strips 61 and 62 corresponds to the entire area of one of the grooves 312x and 322x, and the strips 81 and 62 are provided having a length that, surrounds the grooves 312 and 322x. Needlessly to say, the material of the stretchable sheet material 60 is not limited to the above-described materials, and various materials such as cloth, upholstery, woven fabric, and knitted items can be used, as long as the material can be stretched and contracted and covers the inside. The stretchable sheet material 80 that can hide the inside is used, but the stretchable sheet material 60 may be a material through which the inside is slightly visible.
As illustrated in
As illustrated in
As illustrated in
As described above, the chair of the present embodiment includes swinging surfaces (rolling surfaces) 312a and 322a facing each other, and has a configuration in which the swinging surfaces 312a and 322a swings with respect to each other in directions of 360 degrees including the front-rear and left-right directions. In such a configuration, the elastic member 33 is arranged to be positioned between the swinging surfaces 312a and 322a at least in the vicinity of the outer peripheral edges 312z and 322z, and the stretchable sheet material 60 is provided between the outer peripheral edges 312z and 322z to conceal the gap between the swinging surfaces 312a and 322a facing each other, the gap including the elastic member 33.
Normally, when covering swinging surfaces facing each other, a wide, range including the swinging surfaces is covered by a cover and the cover is fixed to an appropriate location. In contrast, according to the present embodiment, the stretchable sheet material 60 is only arranged between the outer peripheral edges 312z and 322z of the swinging surfaces 312a and 322a facing each other, so that it is possible to conceal only a location that needs to be concealed. The elastic member 33 is arranged, in the vicinity of the outer peripheral edges 312z and 322z, between the swinging surfaces 312a and 322a, and the stretchable sheet material 60 conceals a space between the swinging surfaces 312a and 322a, the space including the elastic member 33. Therefore, the stretchable sheet material 60 and the elastic member 33 have a function of preventing foreign bodies from entering the space between the swinging surfaces 312a and 322a, and additionally, the elastic member 33 prevents the stretchable sheet material 60 from loosening or forming wrinkles, and the stretchable sheet material 60 has a function of preventing the elastic member 33 from protruding from the gap.
The size and elasticity of the stretchable sheet material 60 are chosen so that no wrinkles are generated when the gap is narrow and so that the stretchable sheet material Go does not hinder the operation of the swinging surfaces 312a and 322a when the gap is wide, and thus, it is possible to maintain an appropriate appearance of the stretchable sheet material 60.
The stretchable sheet material GO has a tubular shape, and thus, even if the swinging surfaces 312a and 322a swings with respect to each other in any direction of 360 degrees including the front-rear and left-right directions, the stretchable sheet material 60 can evenly cover the periphery of the gap.
The cover member 6 can deform to follow the movement of the gap between the swinging surfaces 312a and 322a, and thus, the cover member 6 does not affect the swing operation of the swinging surfaces 312a and 322a facing each other. Further, the cover member 6 has not only the ability of being stretched but also the ability of being deformed, and thus it is possible to realize a state where the movement can be followed more easily.
The above-described surfaces 312a and 322a facing each other are rolling surfaces that contact each other via the elastic member 33 and in which the surface 312a on the side of the upper base unit. 31 is curved and the contact portion between the upper base unit 31 and the lower base unit 32 changes by the swinging. Therefore, it is particularly necessary to prevent an object from being caught between the rolling surfaces 312a and 322a, and thus the cover member 6 having the above-described structure is particularly effective.
The elastic member 33 may be an annular member positioned only in the vicinity of the outer peripheral edges 312z and 322z of the swinging surfaces 312a and 322a. However, in the present embodiment, the elastic member 33 is a columnar body that is also arranged at an inner side from the vicinity of the outer peripheral edges 312z and 322z, and thus, the elastic member 33 may be formed thick to effectively achieve the above-described effect.
As a specific mounting structure, the grooves 312x and 322x extending along the outer peripheral edges 312z and 322z and opening in opposite directions are provided in the vicinity of the outer peripheral edges 312z and 322z of the swinging surfaces 312a and 322a facing each other, and the deformable strips 61 and 62 are attached to the edge portions of the stretchable sheet material 60 to form the cover member 6. Further, the strips 61 and 62 are pushed into the grooves 312x and 322x, so that the gap between the swinging surfaces 312a and 322a facing each other is concealed by the cover member 6. Therefore, it is easy to mount the cover member 6 and it is possible to maintain a state where the strips 61 and 62 do not easily detach from the grooves 312x and 322x, during swing.
In this case, each of the grooves 312x and 322x forms a pair together with a different one of the strips 61 and 62, and thus, the strips 61 and 62 can be arranged in a circular shape along the outer peripheral edges 312z and 322z and fitted into the grooves 312x and 322x. Therefore, it is possible to easily attach the cover member 6 and to easily maintain a stereoscopic shape of the cover member 6.
The embodiment of the present invention has been described, and a specific configuration of each unit is not limited to that in the embodiment described above and various modifications are possible without departing from the gist of the present invention.
Number | Date | Country | Kind |
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2021-162893 | Oct 2021 | JP | national |
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