EP2468140A1 - Chair - Google Patents
Chair Download PDFInfo
- Publication number
- EP2468140A1 EP2468140A1 EP11155301A EP11155301A EP2468140A1 EP 2468140 A1 EP2468140 A1 EP 2468140A1 EP 11155301 A EP11155301 A EP 11155301A EP 11155301 A EP11155301 A EP 11155301A EP 2468140 A1 EP2468140 A1 EP 2468140A1
- Authority
- EP
- European Patent Office
- Prior art keywords
- seat frame
- movement
- frame
- stopper member
- spring
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Withdrawn
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Classifications
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47C—CHAIRS; SOFAS; BEDS
- A47C1/00—Chairs adapted for special purposes
- A47C1/02—Reclining or easy chairs
- A47C1/031—Reclining or easy chairs having coupled concurrently adjustable supporting parts
- A47C1/032—Reclining or easy chairs having coupled concurrently adjustable supporting parts the parts being movably-coupled seat and back-rest
- A47C1/03205—Reclining or easy chairs having coupled concurrently adjustable supporting parts the parts being movably-coupled seat and back-rest having adjustable and lockable inclination
- A47C1/03238—Reclining or easy chairs having coupled concurrently adjustable supporting parts the parts being movably-coupled seat and back-rest having adjustable and lockable inclination by means of peg-and-notch or pawl-and-ratchet mechanism
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47C—CHAIRS; SOFAS; BEDS
- A47C1/00—Chairs adapted for special purposes
- A47C1/02—Reclining or easy chairs
- A47C1/031—Reclining or easy chairs having coupled concurrently adjustable supporting parts
- A47C1/032—Reclining or easy chairs having coupled concurrently adjustable supporting parts the parts being movably-coupled seat and back-rest
- A47C1/03255—Reclining or easy chairs having coupled concurrently adjustable supporting parts the parts being movably-coupled seat and back-rest with a central column, e.g. rocking office chairs
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47C—CHAIRS; SOFAS; BEDS
- A47C1/00—Chairs adapted for special purposes
- A47C1/02—Reclining or easy chairs
- A47C1/031—Reclining or easy chairs having coupled concurrently adjustable supporting parts
- A47C1/032—Reclining or easy chairs having coupled concurrently adjustable supporting parts the parts being movably-coupled seat and back-rest
- A47C1/03261—Reclining or easy chairs having coupled concurrently adjustable supporting parts the parts being movably-coupled seat and back-rest characterised by elastic means
- A47C1/03266—Reclining or easy chairs having coupled concurrently adjustable supporting parts the parts being movably-coupled seat and back-rest characterised by elastic means with adjustable elasticity
-
- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47C—CHAIRS; SOFAS; BEDS
- A47C1/00—Chairs adapted for special purposes
- A47C1/02—Reclining or easy chairs
- A47C1/031—Reclining or easy chairs having coupled concurrently adjustable supporting parts
- A47C1/032—Reclining or easy chairs having coupled concurrently adjustable supporting parts the parts being movably-coupled seat and back-rest
- A47C1/03261—Reclining or easy chairs having coupled concurrently adjustable supporting parts the parts being movably-coupled seat and back-rest characterised by elastic means
- A47C1/03272—Reclining or easy chairs having coupled concurrently adjustable supporting parts the parts being movably-coupled seat and back-rest characterised by elastic means with coil springs
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47C—CHAIRS; SOFAS; BEDS
- A47C1/00—Chairs adapted for special purposes
- A47C1/02—Reclining or easy chairs
- A47C1/031—Reclining or easy chairs having coupled concurrently adjustable supporting parts
- A47C1/032—Reclining or easy chairs having coupled concurrently adjustable supporting parts the parts being movably-coupled seat and back-rest
- A47C1/03294—Reclining or easy chairs having coupled concurrently adjustable supporting parts the parts being movably-coupled seat and back-rest slidingly movable in the base frame, e.g. by rollers
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- A—HUMAN NECESSITIES
- A47—FURNITURE; DOMESTIC ARTICLES OR APPLIANCES; COFFEE MILLS; SPICE MILLS; SUCTION CLEANERS IN GENERAL
- A47C—CHAIRS; SOFAS; BEDS
- A47C3/00—Chairs characterised by structural features; Chairs or stools with rotatable or vertically-adjustable seats
- A47C3/20—Chairs or stools with vertically-adjustable seats
- A47C3/30—Chairs or stools with vertically-adjustable seats with vertically-acting fluid cylinder
Definitions
- This invention relates to a chair comprising a so-called synchronized rocking mechanism to interlock a downward movement of a rear side of a seat surface with a rearward inclining movement of a back and a lock mechanism to fix this movement at a desired position.
- the patent document 1 presents a structure of connecting a seat and a back with a main frame and a structure of supporting a reactive force mechanism to increase or decrease a reactive force in accordance with a tilted angle of the back.
- the patent document 2 discloses an arrangement to lock or release the rocking movement by opening or closing a valve of a gas spring.
- the patent document 3 discloses an arrangement to lock the rocking movement by abutting a restricting member with a member that moves in accordance with a backward inclining movement of the back.
- patent document 4 discloses an arrangement to lock the rocking movement by abutting a member having a gear surface with a member having a gear surface that engages with the above-mentioned gear surface and that moves or rotates in accordance with a backward inclining movement of the back.
- the present claimed invention focuses attention on these problems and a main object of this invention is to provide a chair comprising a lock mechanism to lock a synchronized rocking mechanism of a simple structure having less number of components, compact, high in stability of performance, at a low cost and superior in operationality.
- the present claimed invention takes the following measures.
- the chair in accordance with this invention comprises a support frame supported by a support rod, a back frame that can make an inclining movement relative to the support frame, a seat frame that is related to the support frame and the back frame so as to make a movement in conjunction with the back frame toward a direction along the inclining movement of the back frame, a reactive force mechanism that accumulates a spring force against an interlocking movement of the seat frame and the back frame with the support frame, and a lock mechanism that locks the interlocking movement of the seat frame and the back frame with the support flame, and is characterized by that the reactive force mechanism comprises a spring case arranged inside of the seat frame and a spring related to the spring case and the seat frame, the spring case moves in the back and forth direction relatively to the seat frame in accordance with the interlocking movement while the spring case inclines together with the seat frame with a movement of a part of a front end part and a rear end part of the spring case limited by the seat frame during the interlocking movement, and the lock mechanism locks the inter
- the front end part and the rear end part of the spring case are restricted from making a movement in a vertical direction relative to the seat frame, and it is further preferable that the front end part and the rear end part of the spring case are arranged inside of the seat frame and restricted from making a movement in the right and left directions relative to the seat frame.
- the lock mechanism comprises a stopper member that can make a proceeding and receding movement in a direction orthogonal to a back and forth direction, a reciprocatory moving mechanism that moves the stopper member, and an engaging bore into which the stopper member is inserted, wherein the stopper member and the reciprocatory moving mechanism are arranged in either one of the seat frame and the spring case, and the engaging bore is arranged in the other.
- each of the spring case, the stopper member and the reciprocatory moving mechanism is housed in the seat frame within its height respectively, and it is further preferable that a portion where the engaging bore is arranged is in a plate shape, and the stopper member moves within the height of the seat frame.
- the engaging bore is a slit extending in a direction orthogonal to the back and forth direction and a plurality of engaging bores are arranged at predetermined intervals in the back and forth direction, a stopper member is formed in a plate shape and provided with a projecting part that fits into the engaging bore, and the stopper member makes a proceeding and receding movement with a surface of the stopper member guided by an inner surface of the stopper case where the stopper member is housed.
- the stopper case is fixed to the seat frame, the engaging bore is arranged in the spring case, an auxiliary engaging bore into which the projecting part of the stopper member can make a proceeding and receding movement tightly is arranged on the seat frame, and the projecting part of the stopper member is inserted into the engaging bore and the auxiliary engaging bore simultaneously at a position where the engaging bore and the auxiliary engaging bore overlap each other.
- the reciprocatory moving mechanism comprises a stopper case to house the stopper member, an operating lever to operate the stopper member to make the proceeding and receding movement, and a spring member that gives the stopper member a force to make the proceeding and receding movement by making use of the displacement of the operating lever, wherein the spring member is arranged to switch a direction to urge the stopper member at a released position and a locked position.
- a chair of this embodiment is, as shown in Fig. 1 and Fig. 2 , a swivel chair wherein a chair body 3 is rotatably mounted on a leg blade 11 through a support rod 12, and comprises a support frame 4, a back frame and a seat frame 6 supported by the support rod 12, and forms a link mechanism by engaging the support frame 4, the back frame 5 and the seat frame 6 each other as shown in Fig. 3 .
- a direction from a center of the chair to a back 31 is set as a rear direction, and the opposite direction is set as a front direction.
- the left side in Fig. 1 is the front direction
- the right side in Fig. 1 is the rear direction.
- a vertical direction is called as an up and down direction
- a direction orthogonal to a back and forth direction and the vertical direction is called as a lateral direction or a right and left direction.
- the support frame 4 is, as shown in Fig. 4 , integrally formed of a material such as an aluminum die-casting or a resin, and mainly comprises a boat-shaped main frame 41 having a right wall 411, a left wall 411, a rear wall 412, a front wall 413 and a bottom wall 414 and at least a boss bore 42 as being a mounting bore to mount the support rod 12 on the main frame 41, a transversal rib 415 connecting the right side wall 411 and the left side wall 411, a longitudinal rib 416 to connect the front wall 413, the rear wall 412 and a transversal rib 415, and a diagonal rib 417 to support the boss bore 42 on the main frame 41 are integrally formed with the main frame 41.
- a gas spring lever mounting part 43 comprising a mounting bore 431 to mount the gas spring lever, to be described later, is arranged in a top part near the boss bore 42.
- a front transversal shaft 44 with which a projecting part projecting right and left is integrally connected, is integrally formed on the top part of the front wall 413 of the main frame 41.
- the front transversal shaft 44 is divided into three areas based on the function, and the area projecting right and left from the main frame 41 is set as an engaging part 441 as being a second transversal shaft to engage the seat frame 6, and the area formed inside of the main frame 41 is set as an engaging part 442 as being a forth transversal shaft to engage a spring case 71, to be described later, and each of the areas is arranged to be coaxial.
- a rear transversal shaft 45 as being a first transversal shaft projecting right and left is integrally formed on the right and left side walls 411, 411 of the main frame 41.
- the back frame 5 is, as shown in Fig. 2 , integrally formed of a material such as an aluminum die-casting or a resin, and a middle part of a pair of right and left frame members 51 is connected by a middle transversal shaft 52 as being a projecting part as a third transversal shaft, and a frontward facing opening concave part 53 having a cylindrical shape from which a part is cut is formed on a bottom end part of the back frame 5.
- a moderate mountain-shaped prominent part 511 is integrally formed with the frame member 51, and the middle transversal shaft 52 is arranged at positions connecting an inner surface of the right prominent part 511 and an inner surface of the left prominent part 511.
- the seat frame 6 is, as shown in Fig. 5 and Fig. 6 , integrally formed of a resin material, and is formed into a shape wherein a pair of right and left main frames 61 extending back and forth are connected by a front wall 611 and a bottom wall 616, and the main frame 61 is formed in a shape wherein an inside wall 612 and an outside wall 613, each of which is in a plate shape, are connected by a transversal rib 614.
- a void part 65 to incorporate a spring case 71, to be described later, is arranged on a top side of the seat frame 6 and its rearward is formed as an opening end 69 and a top lid 615 is arranged at a position across the front of the inside wall 612 and the front wall 611. Furthermore, the bottom wall 616 and the inside wall 612 extend to reach around the bottom of the top lid 615, and a space 63 for connection is formed below the top lid 615, and a rotation slide bore 62 whose side view is an elongated bore is formed on the inside wall 612 to open downward in a state that a part is cut.
- the seat frame 6 of this embodiment comprises the void part 65 as mentioned above, however, it is not necessarily the case that the void part 65 is in a shape of opening upward, and may be in a shape of closing upward or opening downward.
- inside wall 612 and the outside wall 613 of the seat frame 6 extend further rearward from the bottom wall 616, and a downward facing opening concave part 64 in a shape of a cylinder from which a part is cut is formed on the downward of the extending part.
- An innermost recess of the downward facing opening concave part 64 is a bearing surface along a partial cylindrical surface, and its opening end faces front downward.
- the front transversal shaft 44 and the rotation slide bore 62 form a rotation slide engaging part 91 by inserting the front wall 413 of the support frame 4 into the space 63 for connection of the seat frame 6 and engaging the seat frame engaging part 441 arranged near both end parts of the front transversal shaft 44 above the front wall 413 with the rotation slide bore 62 arranged on the right and left inside walls 612 of the seat frame 6.
- An engaging part 92 of the back frame 5 and the support frame 4 and an engaging part 93 of the seat frame 6 and the back frame 5 are formed as shown in Fig. 3 , Fig. 7 and Fig.
- a reactive force mechanism 7 is formed so as to accumulate a spring force against an interlocking movement of the seat frame 6 and the back frame 5 to the support frame 4.
- the reactive force mechanism 7 is so arranged, as shown in Fig. 6 , Fig. 7 and Fig. 8 , a spring 72 and a movable spring bearing 73 are housed in the spring case 71 that opens downward as being a spring support part in this invention, and the spring 72 is compressed by changing a position of the movable spring bearing 73 with a sliding movement of the seat frame 6 relative to the spring case 71 in accordance with a rearward inclining movement of the back frame 5 by engaging the spring case 71 with the front transversal shaft 44 of the support frame 4.
- a front end part of the spring case 71 makes an engagement with the support frame 4 and the spring case 71 is restricted from moving in a vertical direction and a lateral direction by the seat frame 6, and furthermore a rear end part of the spring case 71 is also restricted from moving in the vertical direction and the lateral direction by the seat frame 6 with forming a lock mechanism 8, to be described later.
- the spring case 71 makes a vertical movement integrally with the seat frame 6 and only a movement in the back and forth direction relative to the seat frame 6 is allowed to make for the spring case 71.
- the spring case 71 is, as shown in Fig. 6 and Fig. 7 , made of a steel material formed into a cuboid opening downward and comprising a top wall 711, right and left side walls 712 and a rear wall 713, and a movable plate part 714 as being a rear end part of the spring case 71 elongates from a bottom part of the rear wall 713 toward a rear direction orthogonal to the rear wall 713.
- the spring case 71 has an arrangement that a bearing member 74, which has a convex part 741 corresponding to a base point part 716 and which forms a downward facing opening concave part 742 by a partial cylindrical surface to be a bearing surface, is mounted on the base point part 716 comprising a concave part set in a front end side of the top wall 711, and a portion near a center of the rear wall 713, which locates rear of the base point part 716, is set as a base spring bearing 75.
- a through bore 751 is arranged on the base spring bearing 75.
- the spring case 71 is restricted from moving upward by making an engagement with the support frame 4 through the bearing member 74 at the base point part 716 of the front end part of the spring case 71 and by placing the top lid 615 of the seat frame 6 on top of the top wall 711.
- the right and left side walls 712 are restricted from making a relative movement in the right and left directions by the inside wall 612 of the seat frame 6. Since the rotation slide engaging part 91 is formed by engaging the rotation slide bore 62 of the seat frame 6 with the front transversal shaft 44 of the support frame 4, the seat frame 6 is restricted from making a vertical movement at this point by the support frame 4.
- the front end part of the spring case 71 is restricted from making a vertical movement by being sandwiched between the top lid 615 of the seat frame 6 and the front transversal shaft 44 of the support frame 4.
- the front end part of the spring case 71 is restricted from making a movement in a direction except for the back and forth direction relative to the seat frame 6.
- the movable plate part 714 as being the rear end part of the spring case 71 forms a lock mechanism, to be described later, together with the seat frame 6, the movable plate part 714 is restricted from making a movement vertically and laterally relative to the seat frame 6. As a result of this, it is possible for the spring case 71 as a whole to make only a movement in the back and forth direction relative to the seat frame 6.
- the spring case 71 can be inserted into or dismounted from the opening end 69 locating at a rear side of the void part 65 of the seat frame 6, and is in the same height as that of the seat frame 6 in a state that the spring case 71 is housed in the void part 65 of the seat frame 6 and the right and left side walls 712 of the spring case 71 are housed between the right and left inside walls 612 of the seat frame 6. While the bearing member 74 forms an engaging part 94, as shown in Fig. 20 , by making an engagement with the front transversal shaft 44 of the support frame 4 rotatably in a hooked state, the seat frame 6 moves relative to the spring case 71 because the seat frame 6 makes a sliding movement back and forth with the rotation slide engaging part 91 as mentioned.
- the spring case 71 rotates from an assembled position shown in Fig. 9(a) to a used position shown in Fig. 9(c) through a process shown in Fig. 9(b) with compressing the spring 72, the reactive force of the spring 72 acts in a direction to return the spring case 71 to the assembled position.
- the spring case 71 is restricted from making a movement relative to the seat frame 6 except for the back and forth direction.
- a first slide guide part 66 and a second slide guide part 67 to allow the spring case 71 and the seat frame 6 to make a sliding movement smoothly are arranged at a position where the spring case 71 makes an abutting contact with the seat frame 6.
- the first slide guide part 66 is a projecting part that is integrally formed on a top edge of the inside wall 612 of the seat frame 6 and that extends in parallel to the bottom wall 616 of the seat frame 6, and the projecting part is curved to form a gentle convex.
- the projecting part 66 makes a line contact with the top surface of the spring case 71 in the transversal direction orthogonal to the back and forth direction so as to push the spring case 71 downward.
- Fig. 7 the projecting part 66 makes a line contact with the top surface of the spring case 71 in the transversal direction orthogonal to the back and forth direction so as to push the spring case 71 downward.
- the second slide guide part 67 is a projecting part that is integrally formed on the right and left side walls 612 of the seat frame 6 and that extends in the vertical direction, and the projecting part 67 is curved to form a gentle convex toward the inward, and the projecting part 67 makes a line contact with the right and left side walls 712 of the spring case 71 shown in Fig. 6 in a vertical direction orthogonal to the back and forth direction so as to prevent the spring case 71 from swinging in the right and left directions.
- the first slide guide part 66 and the second slide guide part 67 are arranged at the same position in the back and forth direction in this embodiment.
- a third slide guide part 68 is supplementarily arranged at a position, which is different in the back and forth direction from the position of the first slide guide part 66, in the rear of the seat frame 6.
- the third slide guide part 68 is a projecting part that is integrally formed on an inside of the bottom wall 616 of the seat frame 6 in a curved shape to form a gentle convex.
- the third slide guide part 68 is arranged at a position to make a sliding movement on the bottom surface of a movable plate part 714 of the spring case 71 incorporated as shown in Fig. 6 and Fig.
- each of the first slide guide part 66, the second slide guide part 67, and the third slide guide part 68 is arranged only at one portion along a back and forth direction respectively.
- the spring 72 of the reactive force mechanism 7 is a spiral compression coil spring.
- the movable spring bearing 73 is a spring bearing extension arm 731 integrally extending from a spring abutting surface 733, and the movable spring bearing 73 faces the base spring bearing 75 in a state wherein a distal end 734 of the spring bearing extension arm 731 passes inside of the spring 72 and then is inserted into a through bore 751 of the base spring bearing 75.
- the spring abutting surface 733 is a part of a channel-shaped displacement transmission member 732 and plays a role to transmit a slide displacement of the seat frame 6 in accordance with a backward inclining movement of the back frame 5 to the spring 72 through a reactive force adjusting part 76.
- the reactive force adjusting part 76 transforms, as shown in Fig.
- a movement in the lateral direction of an adjusting amount input member 761 to a movement in the back and forth direction of an adjusting amount output member 762 by making an inclined surface 767 of the adjusting amount input member 761 and an inclined surface 768 of the adjusting amount output member 762 abutting contact, and changes a position of the displacement transmission member 732, namely a position of the spring abutting surface 733 to a direction toward which the spring 72 shown in Fig. 7 compresses or to its opposite direction.
- the adjusting amount input member 761 shown in Fig. 6 and Fig. 18 moves back and forth, as shown in Fig. 5 and Fig.
- the adjusting amount input member 761 by following a back and forth movement of the seat frame 6 in a state that a part of the adjusting amount input member 761 makes an engagement with an upright part 617 arranged on the bottom wall 616 of the seat frame 6 in a slidable manner in a direction orthogonal to the back and forth direction.
- the adjusting amount input member 761 it is possible for the adjusting amount input member 761 to feed screw by threadably mounting the reactive force adjusting lever 764 on a screw hole 763 arranged on the adjusting amount input member 761 and by operating a grip part 765 arranged on the outside end of the adjusting amount input member 761.
- a part of the adjusting amount input member 761 is mounted on an appropriate position of the seat frame 6 rotatably and in a state that a flange part 766 arranged on the axis engages a part of the seat frame 6 so as not to move in the axial direction. Since the reactive force adjusting lever 764 moves back and forth integrally with the seat frame 6, a position relative to a person who is seated is kept constant.
- the bearing member 74 of the spring case 71 is mountable on and dismountable from a direction crossing to the front transversal shaft 44 of the support frame 4 at an assembled angle at least more upright than a used angle as shown in Fig. 9(a) due to a shape of the downward facing opening concave part 742 of the bearing member 74 of the spring case 71.
- the rotation slide bore 62 of the seat frame 6 is also mountable on and dismountable from a direction crossing to the front transversal shaft 44 of the support frame 4 at the above-mentioned assembled angle through an opening in a state that the reactive force mechanism 7 including the spring case 71 is housed inside of the seat frame 6.
- the seat frame 6 is integrally rotatable with the reactive force mechanism 7 from the assembled angle toward the used angle in a state that the seat frame 6 is engaged with the front transversal shaft 44 together with the spring case 71.
- a cam surface 46 that urges the movable spring bearing 73 toward the spring compressed direction in accordance with a movement of the spring case 71 from the assembled angle to the used angle is arranged on the support frame 4.
- the cam surface 46 extends from the front transversal shaft 44 to the rear downward direction generally along a tangent line and its direction is changed downward through a round part, and makes a sliding movement with a front surface of the upright part 617 arranged in front of the bottom wall 616 of the seat frame 6 as shown in Fig. 5 .
- the seat frame 4 makes a sliding movement rearward with the front transversal shaft 44 floating inside of the rotation slide bore 62 and an initial reactive force is accumulated during this period.
- the cam surface 46 also serves as a role of a rib to reinforce the front transversal shaft 44 as shown in Fig. 4 .
- engageable and disengabeable parts (engaging parts) 92, 91, 93, 94 as shown in Fig. 7 are formed between the support frame 4 and the back frame 5, between the support frame 4 and the seat frame 6, between the seat frame 6 and the back frame 5 and between the support frame 4 and the seat frame 6 by engaging the front facing opening concave part 53 of the back frame 5 with the rear transversal shaft 45 of the support frame 4 from an orthogonal direction and by hooking the downward facing opening concave part 64 of the seat frame 6 at the middle transversal shaft 52 of the back frame 5.
- Each of these engaging parts 91, 94, 93, and 92 comprises a combination of the shaft and the concave part shown in Fig. 19(a), (b), (c) and (d) . Since each of shaded parts 951, 961, 952, 962, 953, 963, 954, 964 in Fig. 19(a), (b), (c) and (d) makes a sliding movement respectively, these portions are processed to have a smooth surface as the bearing area.
- the initial reactive force of the spring 72 in a state shown in Fig. 7 and Fig. 9(c) acts to draw the middle transversal shaft 52 of the back frame 5 to a direction of the front transversal shaft 44 of the support frame 4 through the downward facing opening concave part 64 of the seat frame 6, the initial reactive force acts to strengthen engagement of the seat frame 6 and the back frame 5 and to strengthen engagement of the back frame 5 and the support frame 4 by pushing the front facing opening concave part 53 of the back frame 5 against the rear transversal shaft 45 of the support frame 4, and further to strengthen engagement of the bearing member 74 of the spring case 71 incorporated into the seat frame 6 and the front transversal shaft 44 of the support frame 4.
- a reactive force that exceeds the initial reactive force of the reactive force mechanism 7 is generated in conjunction with a movement of the back frame 5 and the seat frame 6 so as to strengthen the force acting in a direction to strengthen the engagement of the seat frame 6 and the back frame 5, the engagement of the back frame 5 and the support frame 4, the engagement of the support frame 4 and the seat frame 6 respectively.
- the bearing member 74 makes a sliding movement on a predetermined bearing area 952 of the front transversal shaft 44 in a state that the bearing member 74 is hooked at the spring case engaging part 442 near the center part of the front transversal shaft 44, and the rotation engaging bore 618 of the seat frame 6 makes a sliding movement on a predetermined bearing area 951 of the seat frame engaging part 441 near both end parts of the front transversal shaft 44.
- the front facing opening concave part 53 of the back frame 5 having a positional relation shown in Fig.
- At least the bearing areas of these transversal shafts 44, 45, 52 constitute smooth convex sliding surfaces around the transversal axial lines (m) as being right and left axial lines each of which is parallel and passing a center of each transversal shaft 44, 45, 52 illustrated in Fig. 4 as an example.
- opening concave part 742, 618, 53, 64 also constitute smooth convex sliding surfaces around the transversal axial lines (m) each of which is parallel.
- the rotation slide bore 62 also constitutes the sliding surface.
- a circumferential groove 451 is arranged on a part of an outer circumferential surface of the rear transversal shaft 45 as being the projecting part of the support frame 4, and a recess 452 is arranged as a deformed part along a circumferential direction on a groove bottom of the circumferential groove 451 as being an outer circumference of the projecting part, and the outer circumferential surface other than the recess 452 is an intermittent convex sliding surface 453.
- a cover part 54 is integrally arranged on a side of the front facing opening concave part 53 of the back frame 5 to be fit over the convex sliding surface 453 to cover a projecting end surface 454 of the rear transversal shaft 45 at a time when the cover part 54 engages the rear transversal shaft 45 as being the projecting part of the support frame 4 shown in Fig. 4 .
- the recess 452 can be used as a grease pool, if used as the grease pool, it is possible to reduce a sliding resistance.
- a flange-shaped big diameter part as a deformed part on each of the transversal shaft 44, 45, 52 as being the projecting part and to prevent displacement in axial direction of each opening concave part 742, 618, 53, 64 to be fitted into.
- a deformed part having a shape convenient for assembling may be arranged on a part of each transversal shaft 44, 45, 52 unless a relative movement to each opening concave part 742, 618, 53, 64 is not prevented.
- this embodiment is provided with a lock mechanism 8, as shown in Fig. 10 and Fig. 11 , that locks a rocking movement, as shown in Fig. 7 and Fig. 8 , of the back frame 5 and the seat frame 6 at a predetermined position.
- a lock mechanism 8 as shown in Fig. 10 and Fig. 11 , that locks a rocking movement, as shown in Fig. 7 and Fig. 8 , of the back frame 5 and the seat frame 6 at a predetermined position.
- the lock mechanism 8 comprises a stopper case 81 mounted inside of the seat frame 6, a stopper member 82 having a plate shape housed in the stopper case 81, a movable plate part 714 having an engaging bore 715 that is arranged in the rearward of the spring case 71 and into which the stopper member 82 is inserted, and a reciprocatory moving mechanism 85 that reciprocates the stopper member 82 vertically.
- the right and left side walls 712 of the spring case 71 is housed between the right and left inside walls 612 of the seat frame 6, and the spring case 71 is restricted from making a relative movement also in the right and left directions by the second slide guide part 67 near the rear end part of the spring case 71.
- the rear end part of the spring case 71 is incapable of making a movement both vertically and right and left relative to the seat frame 6, and is allowed to make a movement in the back and forth directions only.
- the movement of the spring case 71 in the back and forth directions can be fixed at a predetermined position by the behavior of the lock mechanism 8.
- the reciprocatory moving mechanism 85 comprises a torsion coil spring 83 to give a vertical operational force to the stopper member 82 and an operation lever 84.
- the stopper member 82 is integrally made of a steel or resin material into a plate shape having two rectangular projecting parts 821 on its bottom part, and is provided with an insertion bore 822 near its top part to mount an end part 831 of the torsion coil spring 83.
- the stopper case 81 is made of a steel or resin material integrally formed or by a folding process into a channel shape comprising three flat surfaces, namely a front wall 811 and a rear wall 812 as being a pair of facing walls connected by a bottom wall 813 as being a fixing plate part, and a slit-shaped engaging bore 814 having almost the same shape as that of the projecting part 821 locating on the bottom part of the stopper member 82 opens on the bottom wall 813 as shown in Fig. 12 .
- the engaging bore 715 on the movable plate part 714 locating at the rear side of the spring case 71 is also a slit having almost the same shape as that of the projecting part 821 locating on the bottom part of the stopper member 82, and a plurality of engaging bores 715 are arranged at a predetermined pitch in the back and forth direction.
- the slit-shaped engaging bore 618 having almost the same as that of the projecting part 821 is arranged at a position corresponding to the projecting part 821 of the stopper member 82.
- the operation lever 84 is formed into a stick shape whose cross section is a general rectangle, and an operation end 841 to be operated by a person is formed into a flat shape and an insertion bore 843 to insert an end part 831 of the torsion coil spring 83 is arranged on a side surface at a working end 842 side to move the stopper member 82 vertically and a recess part 845 formed by cutting a part is arranged to house the torsion coil spring 83.
- a pair of mounting shafts 844 to mount the operation lever 84 on the seat frame 6 are arranged between the operation end 841 and the working end 842 in a direction orthogonal to a longitudinal direction of the operation lever 84.
- the stopper case 81 is fixed near a rear side of the seat frame 6, the stopper member 82 is arranged inside of the stopper case 81 in a state of being able to make a vertical movement while being guided by one surface of the stopper member 82 that makes an abutting contact with the front wall 811, and the working end 842 of the operation lever 84 to operate the stopper member 82 is inserted into the stopper case 81 from its lateral direction so that the stopper member 82 and the working end 842 of the operation lever 84 is tightly arranged in the stopper case 81.
- a reason why one surface of the stopper member 82 makes an abutting contact with the front wall 811 of the stopper case 81 is to stabilize a position of the stopper member 82 by making use of the front wall 811 as a guide together with the working end 842 tightly arranged.
- the stopper member 82 may be arranged to make an abutting contact with the rear wall 812 of the stopper case 81. With this arrangement, the same effect can be obtained.
- the torsion coil spring 83 is mounted between the stopper member 82 and the operation lever 84 to be housed in the recess part 845 arranged near the working end 842 of the operation lever 84, and two spring ends 831 each projecting opposite direction each other in a direction orthogonal to the coil direction of the spring are inserted into the insertion bore 822 of the stopper member 82 and the insertion bore 843 of the operation lever 84 respectively.
- the operation end 841 of the operation lever 84 passes the lever insertion bore 691 arranged on the side wall of the seat frame 6 so as to extend to a position accessible for a person, and the mounting shaft 844 makes an engagement in a rotatable manner with the lever mounting part 692 that grips the mounting shaft 844 and that is arranged on the outer surface of the outside wall 613 of the seat frame 6.
- the working end 842 of the operation lever 84 makes a vertical movement inside of the stopper case 81 by operating the operation end 841 of the operation lever 84 vertically.
- This movement drives the stopper member 82 to make a vertical movement through the torsion coil spring 83 so that the stopper member 82 makes an abutting contact with the front wall 811 of the stopper case 81 and makes a vertical movement in a state of being guided by the front wall 811 and the projecting part 821 of the stopper member 82 makes a movement of being inserted into or taken out from an engaging bore 815 arranged on the bottom wall 813 of the stopper case 81.
- each part acts as follows and then rocking movement is locked.
- the rocking position is locked because the relative movement between the seat frame 6 and the spring case 71 is restricted by restricting the projecting part 821 of the stopper member 82 that is restricted from moving back and forth to the seat frame 6 through the stopper case 81 is fittingly inserted into the slit-shaped engaging bore 715 of the movable plate part 714 of the spring case 71.
- each size of the projecting part 821 of the stopper member 82 and the engaging bore 715 of the movable plate part 714 is set so as to be tightly fit each other in the back and forth direction, it is possible to lessen positional misalignment of the stopper member 82 and the movable plate part 714 after locked.
- the stopper member 82 is also inserted into the slit-shaped engaging bore 618 of the bottom wall 616 of the seat frame 6 simultaneously and a sharing force applied to the stopper member 82 concentrates only on the projecting part 821 locating at a distal end of the stopper member 82, it is possible to prevent deformation of the stopper member 82.
- the movable plate part 714 as being the rear end part of the spring case 71 is restricted from making a vertical movement relative to the seat frame 6 and the engaging bore 715 of the movable plate part 714 locates at a position vertically near the slit-shaped engaging bore 618 of the bottom wall 616 of the seat frame 6 on a constant basis, the positional misalignment is difficult to generate and it becomes easy to fittingly insert the stopper member 82 into the engaging bore 715 and the slit-shaped engaging bore 618 simultaneously.
- the movable plate part 714 as being the rear end part of the spring case 71 is restricted from making a movement also in the right and left directions relative to the seat frame 6, it is easy for the engaging bore 715 of the movable plate part 714 to keep in parallel with the slit-shaped engaging bore 618 of the seat frame 6 so that it becomes easier to insert the stopper member 82.
- the operation lever 84 shown in Fig. 10 is operated to raise the stopper member 82 as shown in Fig. 12 (a) so as to lift up the projecting part 821 from the engaging bore 618 of the seat frame 6 and the engaging bore 715 of the spring case 71.
- restriction of the relative movement between the seat frame 6 and the spring case 71 is released, which makes it possible to make a rocking movement again.
- the operation lever 84 and the stopper member 82 is connected by the torsion coil spring 83 and it is so arranged that an upward force and a downward force can be applied to the stopper member 82 only by a single spring member.
- a positional relationship between the insertion bore 843 for the end part 831 of the torsion coil spring 83 arranged near the working end 842 of the operation lever 84 and the insertion bore 822 for the end part 831 of the torsion coil spring 83 arranged on the stopper member 82 is shifted in right or left direction.
- both end parts 831, 831 of the torsion coil spring 83 are mounted on the insertion bore 843 and the insertion bore 822 respectively, it is so arranged that a force to extend and open the torsion coil spring 83 is applied to both end parts 831, 831 of the torsion coil spring 83 on a constant basis.
- the torsion coil spring 83 Since the torsion coil spring 83 is supported by each insertion bore 843, 822 in a state of being able to make a rotational movement, the torsion coil spring 83 is arranged to change its direction automatically in the most balanced position due to the positional relationship between both of the insertion bores 843, 822.
- the torsion coil spring 83 locates at the right side in Fig. 13 (a) of the insertion bores 843, 822 and at a higher position than the working end 842 of the operation lever 84.
- the force to extend and open the torsion coil spring 83 gives the working end 842 of the operation lever 84 a force to move further downward and the stopper member 82 to move further upward respectively so that the current state can be furthermore stabilized.
- the positional relationship goes through the process of the left view in Fig. 13 (b) , the left view in Fig. 13 (c) and the left view in Fig. 13 (d) and ends up with the positional relationship shown in the left view in Fig. 13 (e) wherein the working end 842 of the operation lever 84 locates downside and the stopper member 82 moves downward.
- the torsion coil spring 83 moves leftward as shown in the right view in Fig. 13 (b) , the right view in Fig. 13 (c) , the right view in Fig. 13(d) and the right view in Fig. 13 (e) .
- the force to extend and open the torsion coil spring 83 gives the working end 842 of the operation lever 84 a force to move further upward and the stopper member 82 to move further downward respectively so that the stabilized state can be kept.
- the state is returned to the state in Fig. 13 (g) , namely the same state as shown in Fig. 13 (a) through a process shown in Fig. 13 (f) .
- the height adjusting mechanism 2 to adjust a height of the seat surface 32 is incorporated into the chair of this embodiment, and the height adjusting mechanism 2 comprises a gas spring 21 generally incorporated into the support rod 12 and a gas spring lever 22 to push a projecting and sinking member 211 locating above the gas spring 21.
- a working end 222 is moved downward by making use of the engaging part 223 as a fulcrum by pulling up the operating end 221 of the gas spring lever 22 and the height of the seat surface 32 can be adjusted through the support frame 4 by pushing the projecting and sinking member 211 of the gas spring 21.
- the support rod 12 into which the gas spring 21 is incorporated is in a shape of a general cylinder comprising a convex part 212 on a part of the support rod 12 in its axial direction, and its lower end is fittingly inserted into a top part of the leg blade 11.
- the boss bore 42 as being a support rod mounting bore of the support frame 4 fits together by insertion on a top end of the support rod 12 and the convex part 121 receives the weight and rotatably supports the support frame 4.
- the projecting and sinking member 211 locating above the gas spring lever 22 projects out of the top part of the boss bore 42.
- the gas spring lever 22 is generally of a stick shape, and each of the operating end 221 to operate the gas spring lever 22 and a working end 222 to push the projecting and sinking member 211 is of a flat shape generally in parallel to a horizontal surface at a non-operated position.
- the engaging part 223 to engage the support frame 4 from downward at a position near the working end 222 from the gravity point in a longitudinal direction of the gas spring lever 22 is arranged between the operating end 221 and the working end 222 on the bottom surface of the gas spring lever 22.
- the engaging part 223 is a hook-shaped projecting part of an "L" character extending in the working end 222 side from the bottom surface of a body of the gas spring lever 22 toward a little further downward, and is integrally formed with the body of the gas spring lever 22.
- the gas spring lever mounting part 43 comprising the mounting bore 431, as described based on Fig. 4 , is arranged near the top part of the boss bore 42 for the support frame 4.
- the gas spring lever 22 is supported with its engaging part 223 inserted into the mounting bore 431 arranged on the support frame 4, and is rotatable in a certain range around the engaging part 223.
- the operating end 221 extends out toward a side direction of the chair, and the working end 222 locates above the projecting and sinking member 211 of the gas spring 21 in the center part of the chair.
- the gas spring lever 22 Since the gravity point of the gas spring lever 22 locates nearer the operating end 221 than the engaging part 223, the gas spring lever 22 tries to rotate around the engaging part 223 to locate the operating end 221 at the bottom side just by hooking the engaging part 223 with the mounting bore 431 of the gas spring lever mounting part 43 of the support frame 4, and then the gas spring lever 22 is stabilized at a position where the bottom surface 224 locating rearward of the engaging part 223 makes an abutting contact with the top surface of the gas spring lever mounting part 43. Then with this state kept, it becomes possible to incorporate the support rod 12 into the support frame 4 easily.
- the engaging part 223 can not be mounted on or dismounted from the mounting bore 431 unless an angle between the gas spring lever 22 with its working end 222 locating at the bottom side and the horizontal surface becomes more than or equal to a certain degree, and furthermore, as shown in Fig. 15 , the working end 222 side of the gas spring lever 22 can be incorporated inside of the boss bore 42 of the support frame 4. Furthermore, after the support rod 12 is incorporated into the boss bore 42 of the support frame 4 it is so arranged that the top part of the support rod 12 interferes with the working end 222 of the gas spring lever 22 so as not to take an angle at which the gas spring lever 22 can be mounted or dismounted. As a result, once the support rod 12 is incorporated, it becomes impossible to dismount the gas spring lever 22 from the support frame 4 without separating the support rod 12 from the support frame 4.
- the working eng 222 interferes with the body of the gas spring 21 so that the angle between the gas spring lever 22 and the horizontal surface can take only an angle ⁇ even though in a state that the projecting and sinking member 211 of the gas spring 21 is pushed to the maximum position by operating the gas spring lever 22. Since it is so arranged that ⁇ becomes sufficiently smaller than ⁇ , the once mounted gas spring lever 22 can not be dismounted at this angle.
- the mounting bore 431 of the support frame 4 is, as shown in Fig. 4 , in a shape of a general rectangle having a long side orthogonal to a longitudinal direction of the gas spring lever 22 that makes an engagement with the mounting bore 431.
- the engaging part 223 arranged on the bottom surface of the gas spring lever 22 is so arranged to have a cross section of a general rectangle so as to have an abutting surface tailored to the shape of the mounting bore 43.
- the chair in accordance with this embodiment comprises the support frame 4 supported by the support rod 12, the back frame 5 that can make the inclining movement relative to the support frame 4, the seat frame 6 that is related to the support frame 4 and the back frame 5 so as to make the movement in conjunction with the back frame 5 toward the direction along the inclining movement of the back frame 5, the reactive force mechanism 7 that accumulates the spring force against the interlocking movement of the seat frame 6 and the back frame 5 with the support frame 4, and the lock mechanism 8 that locks the interlocking movement of the seat frame 6 and the back frame 5 with the support flame 4, and is characterized by that the reactive force mechanism 7 comprises the spring case 71 arranged inside of the seat frame 6 and the spring 72 related to the spring case 71 and the seat frame 6, the spring case 71 moves in the back and forth direction relatively to the seat frame 6 in accordance with the interlocking movement while the spring case 71 inclines together with the seat frame 6 with a movement a part of the front end part and the rear end part of the spring case 71 limited by the seat frame 6
- the lock mechanism 8 to fix the rocking position comprises only the seat frame 6 and the spring case 71 whose relative movement is restricted, it is possible to realize the lock mechanism 8 with a simple arrangement having less number of components with less restriction for a place to be incorporated. As a result, it is possible to downsize the lock mechanism 8, to reduce the cost and to stabilize the movement of the mechanism as well. Furthermore, since the seat frame 6 and the spring case 71 are kept in a close state each other on a constant basis, it is possible to improve the operationality to fix the position and to reduce positional misalignment after the position is fixed.
- the front end part and the rear end part of the spring case 71 are arranged inside of the seat frame 6 and restricted from making the movement in the right and left directions relative to the seat frame 6, it becomes further effective in improvement of the operationality and reduction of misalignment of the rocking position.
- the lock mechanism 8 comprises the stopper member 82 that can make the proceeding and receding movement in a direction orthogonal to the back and forth direction, the reciprocatory moving mechanism 85 that moves the stopper member 82, and the engaging bore 715 into which the stopper member 82 is inserted, wherein the stopper member 82 and the reciprocatory moving mechanism 85 are arranged in either one of the seat frame 6 and the spring case 71, and the engaging bore 715 is arranged in the other, it becomes possible to further improve the above-mentioned effect.
- each of the spring case 71, the stopper member 82 and the reciprocatory moving mechanism 85 is housed in the seat frame 6 within its height respectively, further downsizing can be realized.
- the stopper member 82 is formed in a plate shape and is provided with the projecting part 821 that fits into the engaging bore 715, and the stopper member 82 makes the proceeding and receding movement with a surface of the stopper member 82 guided by the inner surface of the stopper case 81 where the stopper member 82 is housed, it is possible to change the lock position of the rocking movement at several fine stages and to improve fundamental functions such that the positional misalignment is reduced after the position is locked.
- the engaging bore 715 is arranged in the spring case 71, the auxiliary engaging bore 618 into which the projecting part 821 of the stopper member 82 can make the proceeding and receding movement tightly is arranged on the seat frame 6, and the projecting part 821 of the stopper member 82 is inserted into the engaging bore 715 and the auxiliary engaging bore 618 simultaneously at the position where the engaging bore 715 and the auxiliary engaging bore 618 overlap each other, it is possible to concentrate a position where the shear force is applied to the stopper member 82 only near the projecting part 821 so that an unreasonable force is not applied to the stopper member 82. As a result, the stopper member 82 can be prevented from being broken and the vertical movement of the stopper member 82 can be facilitated.
- the reciprocatory moving mechanism 85 comprises the stopper case 81 to house the stopper member 82, the operating lever 84 to operate the stopper member 82 to make the proceeding and receding movement, and the spring member 83 that gives the stopper member 82 a force to make the proceeding and receding movement by making use of the displacement of the operating lever 84, wherein the spring member 83 is arranged to switch the direction to urge the stopper member 82 at the released position and the locked position, it is possible to reduce a number of components and to further downsize the reciprocatory moving mechanism 85.
- a concrete arrangement of each part is not limited to the above-mentioned embodiment.
- the stopper case 81 is fixed to the seat frame 6, the stopper member 82 can make the vertical movement with the movement in the back and forth direction is restricted, and the stopper member 82 is fittingly inserted into the engaging bore 715 arranged on the spring case 71, however, in order just to lock the rocking movement, the stopper case 81 and the reciprocatory moving mechanism 85 may be fixed to the spring case 71 and the engaging bore 715 corresponding to the stopper member 82 may be on the seat frame 6.
- the seat frame 6 to which the seat surface is fixed and the operating lever 84 are integrally formed and makes a back and forth movement.
- the stopper member 82 and the reciprocatory moving mechanism 85 are arranged on the seat frame 6 and the engaging bore 715 is arranged on the spring case 71.
- the direction of moving the stopper member 82 is not necessarily the vertical direction as mentioned in the above embodiment, the direction may be orthogonal to the back and forth direction.
- the arrangement may be that an engaging bore 618 is arranged on the side wall 612 of the seat frame 6 and the engaging bore 715 is arranged on the side wall 712 of the spring case 71 and the stopper member 82 is fittingly inserted into the engaging bores 618, 715 from the right and left directions so as to restrict the stopper member 82 from making a relative movement in the back and forth direction.
- An object of this invention is to provide a chair comprising a simple and compact rocking mechanism and lock mechanism to lock the rocking movement.
- the chair comprises a support frame 4 supported by a support rod 12, a back frame 5 that can make an inclining movement, a seat frame 6 that make a movement in conjunction with the back frame 5 toward a direction along the inclining movement of the back frame 5, a reactive force mechanism 7 that accumulates a spring force against an interlocking movement, and a lock mechanism 8 that locks the interlocking movement
- the reactive force mechanism 7 comprises a spring case 71 and a spring 72 that can make a relative movement in the back and forth direction, and has such an arrangement that the spring case 71 moves in accordance with the interlocking movement while inclining together with the seat frame 6 with a movement of a part of a front end part and a rear end part of the spring case 71 limited by the seat frame 6 during the interlocking movement, and the lock mechanism 8 locks the interlocking movement of the seat frame 6 and the back frame 5 with the support frame 4 by fixing a relative position of the spring case 71 and the seat frame 6.
Abstract
An object of this invention is to provide a chair comprising a simple and compact rocking mechanism and lock mechanism to lock the rocking movement.
The chair comprises a support frame 4 supported by a support rod 12, a back frame 5 that can make an inclining movement, a seat frame 6 that make a movement in conjunction with the back frame 5 toward a direction along the inclining movement of the back frame 5, a reactive force mechanism 7 that accumulates a spring force against an interlocking movement, and a lock mechanism 8 that locks the interlocking movement, wherein the reactive force mechanism 7 comprises a spring case 71 and a spring 72 that can make a relative movement in the back and forth direction, and has such an arrangement that the spring case 71 moves in accordance with the interlocking movement while inclining together with the seat frame 6 with a movement of a part of a front end part and a rear end part of the spring case 71 limited by the seat frame 6 during the interlocking movement, and the lock mechanism 8 locks the interlocking movement of the seat frame 6 and the back frame 5 with the support frame 4 by fixing a relative position of the spring case 71 and the seat frame 6.
Description
- This invention relates to a chair comprising a so-called synchronized rocking mechanism to interlock a downward movement of a rear side of a seat surface with a rearward inclining movement of a back and a lock mechanism to fix this movement at a desired position.
- Various types of chairs are presented as a chair comprising the above-mentioned mechanism. For example, as a structure to realize the synchronized rocking mechanism, the patent document 1 presents a structure of connecting a seat and a back with a main frame and a structure of supporting a reactive force mechanism to increase or decrease a reactive force in accordance with a tilted angle of the back. In addition, as a structure to realize a lock mechanism to lock the rocking movement, the
patent document 2 discloses an arrangement to lock or release the rocking movement by opening or closing a valve of a gas spring. Furthermore, thepatent document 3 discloses an arrangement to lock the rocking movement by abutting a restricting member with a member that moves in accordance with a backward inclining movement of the back. In addition, thepatent document 4 discloses an arrangement to lock the rocking movement by abutting a member having a gear surface with a member having a gear surface that engages with the above-mentioned gear surface and that moves or rotates in accordance with a backward inclining movement of the back. - PATENT DOCUMENT
- Patent document 1:
US Patent Application Publication Number 6796611 - Patent document 2: Japanese Examined Patent Application Publication Number
2-24527 - Patent document 3: Japanese Unexamined Patent Application Publication Number
2001-128774 - Patent document 4: Japanese Unexamined Patent Application Publication Number
2003-189967 - However, for the prior art shown in the above-mentioned patent document 1, the arrangement to realize the synchronized rocking mechanism is complicated and a position where the lock mechanism to lock the rocking movement is limited.
- In case that the lock mechanism as shown in the
patent document 2 through 4 is further added to this arrangement, the structure becomes furthermore complicated and a number of components increases, resulting in problems such that downsizing is difficult, cost reduction is difficult and malfunction might occur easily. Furthermore, other problem can be conceived that it is not possible to lock the rocking position quickly because the operationality is bad, or the rocking position is displaced after locked. - The present claimed invention focuses attention on these problems and a main object of this invention is to provide a chair comprising a lock mechanism to lock a synchronized rocking mechanism of a simple structure having less number of components, compact, high in stability of performance, at a low cost and superior in operationality.
- In order to attain these objects, the present claimed invention takes the following measures.
- Specifically, the chair in accordance with this invention comprises a support frame supported by a support rod, a back frame that can make an inclining movement relative to the support frame, a seat frame that is related to the support frame and the back frame so as to make a movement in conjunction with the back frame toward a direction along the inclining movement of the back frame, a reactive force mechanism that accumulates a spring force against an interlocking movement of the seat frame and the back frame with the support frame, and a lock mechanism that locks the interlocking movement of the seat frame and the back frame with the support flame, and is characterized by that the reactive force mechanism comprises a spring case arranged inside of the seat frame and a spring related to the spring case and the seat frame, the spring case moves in the back and forth direction relatively to the seat frame in accordance with the interlocking movement while the spring case inclines together with the seat frame with a movement of a part of a front end part and a rear end part of the spring case limited by the seat frame during the interlocking movement, and the lock mechanism locks the interlocking movement of the seat frame and the back frame with the support frame by fixing a relative position in the back and forth direction of the spring case and the seat frame.
- In accordance with this arrangement, it is possible to realize the synchronized rocking mechanism with a simple arrangement. In addition, since the lock mechanism to fix the rocking position can be realized by only the seat frame and the spring case whose relative movement is restricted, it is possible to realize the lock mechanism with a simple arrangement having less number of components with less restriction for a place to be incorporated. As a result, it is possible to downsize the mechanism, to reduce the cost and to stabilize the movement of the mechanism as well. Furthermore, since the seat frame and the spring case are kept in a close state each other on a constant basis, it is possible to improve the operationality to fix the position and to reduce positional misalignment after the position is fixed.
- Furthermore, in order to further improve the operationality and to securely fix the rocking position not to generate misalignment, it is preferable that the front end part and the rear end part of the spring case are restricted from making a movement in a vertical direction relative to the seat frame, and it is further preferable that the front end part and the rear end part of the spring case are arranged inside of the seat frame and restricted from making a movement in the right and left directions relative to the seat frame.
- In addition, in order to further improve the above-mentioned effect, it is preferable that the lock mechanism comprises a stopper member that can make a proceeding and receding movement in a direction orthogonal to a back and forth direction, a reciprocatory moving mechanism that moves the stopper member, and an engaging bore into which the stopper member is inserted, wherein the stopper member and the reciprocatory moving mechanism are arranged in either one of the seat frame and the spring case, and the engaging bore is arranged in the other.
- Furthermore, in order to further promote downsizing, it is preferable that each of the spring case, the stopper member and the reciprocatory moving mechanism is housed in the seat frame within its height respectively, and it is further preferable that a portion where the engaging bore is arranged is in a plate shape, and the stopper member moves within the height of the seat frame.
- In addition, in order to further improve fundamental functions such that the lock position of the rocking movement can be changed at several fine stages and the positional misalignment is reduced after the position is locked, it is preferable that the engaging bore is a slit extending in a direction orthogonal to the back and forth direction and a plurality of engaging bores are arranged at predetermined intervals in the back and forth direction, a stopper member is formed in a plate shape and provided with a projecting part that fits into the engaging bore, and the stopper member makes a proceeding and receding movement with a surface of the stopper member guided by an inner surface of the stopper case where the stopper member is housed.
- Furthermore, in order to reduce a burden for the stopper member and to improve the stability of movement, it is preferable that the stopper case is fixed to the seat frame, the engaging bore is arranged in the spring case, an auxiliary engaging bore into which the projecting part of the stopper member can make a proceeding and receding movement tightly is arranged on the seat frame, and the projecting part of the stopper member is inserted into the engaging bore and the auxiliary engaging bore simultaneously at a position where the engaging bore and the auxiliary engaging bore overlap each other.
- In addition, in order to enable further downsizing, it is preferable that the reciprocatory moving mechanism comprises a stopper case to house the stopper member, an operating lever to operate the stopper member to make the proceeding and receding movement, and a spring member that gives the stopper member a force to make the proceeding and receding movement by making use of the displacement of the operating lever, wherein the spring member is arranged to switch a direction to urge the stopper member at a released position and a locked position.
- In accordance with the above-mentioned presently claimed invention, it becomes possible to improve the operationality with securing the fundamental function such as the synchronized rocking mechanism and the lock mechanism to lock the synchronized rocking movement and the locked position will not be misaligned after the position is locked. Furthermore, since the lock mechanism can be realized with a simple arrangement, it becomes possible to downsize the synchronized rocking mechanism and the lock mechanism, to reduce the cost by reducing the number of the components and to improve the stability of the movement as well.
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Fig. 1 is a side view of a chair in accordance with one embodiment of this invention. -
Fig. 2 is an exploded perspective view of the chair. -
Fig. 3 is the perspective view of a principal part to explain a link mechanism between frames of the chair. -
Fig. 4 is a perspective view of a support frame constituting the chair. -
Fig. 5 is a perspective view, cut by a center line of a longitudinal direction, of a seat frame constituting the chair. -
Fig. 6 is an exploded perspective view of a reactive force mechanism and a lock mechanism of the chair. -
Fig. 7 is a cross sectional perspective view of the reactive force mechanism of the chair. -
Fig. 8 is a cross sectional perspective view of the reactive force mechanism at a time when a back frame of the chair inclines rearward. -
Fig. 9 is a cross section view to explain a behavior of the reactive force mechanism at a time when the seat frame and the reactive force mechanism engage the support frame and the back frame of the chair. -
Fig. 10 is a perspective view of a principal part showing an assembled state of a stopper mechanism of the chair. -
Fig. 11 is a perspective view of a principal part showing a disassembled state of the stopper mechanism of the chair. -
Fig. 12 is a cross sectional view showing a positional relationship among a stopper member, a stopper case, a spring case and a movable plate of the seat frame. -
Fig. 13 is a cross sectional view of a principal part to explain a mechanism of a behavior of a rocking stopper of the chair. -
Fig. 14 is a perspective view of a principal part to explain a seat height adjusting mechanism of the chair. -
Fig. 15 is a cross sectional view of a principal part to explain a method for assembling the seat height adjusting mechanism of the chair. -
Fig. 16 is a cross sectional view of a principal part in a state a gas spring lever is incorporated into the support frame of the chair. -
Fig. 17 is a perspective view of a principal part in a state prior to incorporation of the gas spring lever into the support frame of the chair. -
Fig. 18 is a perspective view of a principal part to explain a behavior of a reactive force adjusting part of the chair. -
Fig. 19 is a cross sectional view of a principal part to explain a bearing area of each engaging part of the chair. -
Fig. 20 is a perspective view of a principal part to show an engaged state of the bearing member and a slide bore with a front transversal shaft of the chair. -
Fig. 21 is a cross sectional view of a principal part at a time when the gas spring lever of the chair is operated. -
Fig. 22 is a pattern diagram to explain an angle of inserting and dismounting the gas spring lever of the chair. - One embodiment of this invention will be described with reference drawings.
- A chair of this embodiment is, as shown in
Fig. 1 andFig. 2 , a swivel chair wherein achair body 3 is rotatably mounted on aleg blade 11 through asupport rod 12, and comprises asupport frame 4, a back frame and aseat frame 6 supported by thesupport rod 12, and forms a link mechanism by engaging thesupport frame 4, theback frame 5 and theseat frame 6 each other as shown inFig. 3 . - In the specification of this invention, a direction from a center of the chair to a
back 31 is set as a rear direction, and the opposite direction is set as a front direction. In other words, the left side inFig. 1 is the front direction, and the right side inFig. 1 is the rear direction. In addition, a vertical direction is called as an up and down direction, and a direction orthogonal to a back and forth direction and the vertical direction is called as a lateral direction or a right and left direction. - The
support frame 4 is, as shown inFig. 4 , integrally formed of a material such as an aluminum die-casting or a resin, and mainly comprises a boat-shapedmain frame 41 having aright wall 411, aleft wall 411, arear wall 412, afront wall 413 and abottom wall 414 and at least aboss bore 42 as being a mounting bore to mount thesupport rod 12 on themain frame 41, atransversal rib 415 connecting theright side wall 411 and theleft side wall 411, alongitudinal rib 416 to connect thefront wall 413, therear wall 412 and atransversal rib 415, and adiagonal rib 417 to support theboss bore 42 on themain frame 41 are integrally formed with themain frame 41. In addition, a gas springlever mounting part 43 comprising a mountingbore 431 to mount the gas spring lever, to be described later, is arranged in a top part near the boss bore 42. A fronttransversal shaft 44, with which a projecting part projecting right and left is integrally connected, is integrally formed on the top part of thefront wall 413 of themain frame 41. The fronttransversal shaft 44 is divided into three areas based on the function, and the area projecting right and left from themain frame 41 is set as anengaging part 441 as being a second transversal shaft to engage theseat frame 6, and the area formed inside of themain frame 41 is set as anengaging part 442 as being a forth transversal shaft to engage aspring case 71, to be described later, and each of the areas is arranged to be coaxial. A reartransversal shaft 45 as being a first transversal shaft projecting right and left is integrally formed on the right and leftside walls main frame 41. - The
back frame 5 is, as shown inFig. 2 , integrally formed of a material such as an aluminum die-casting or a resin, and a middle part of a pair of right and leftframe members 51 is connected by a middletransversal shaft 52 as being a projecting part as a third transversal shaft, and a frontward facing openingconcave part 53 having a cylindrical shape from which a part is cut is formed on a bottom end part of theback frame 5. A moderate mountain-shapedprominent part 511 is integrally formed with theframe member 51, and the middletransversal shaft 52 is arranged at positions connecting an inner surface of the rightprominent part 511 and an inner surface of the leftprominent part 511. - The
seat frame 6 is, as shown inFig. 5 andFig. 6 , integrally formed of a resin material, and is formed into a shape wherein a pair of right and leftmain frames 61 extending back and forth are connected by afront wall 611 and abottom wall 616, and themain frame 61 is formed in a shape wherein aninside wall 612 and anoutside wall 613, each of which is in a plate shape, are connected by atransversal rib 614. And avoid part 65 to incorporate aspring case 71, to be described later, is arranged on a top side of theseat frame 6 and its rearward is formed as an openingend 69 and atop lid 615 is arranged at a position across the front of theinside wall 612 and thefront wall 611. Furthermore, thebottom wall 616 and theinside wall 612 extend to reach around the bottom of thetop lid 615, and aspace 63 for connection is formed below thetop lid 615, and a rotation slide bore 62 whose side view is an elongated bore is formed on theinside wall 612 to open downward in a state that a part is cut. - The
seat frame 6 of this embodiment comprises thevoid part 65 as mentioned above, however, it is not necessarily the case that thevoid part 65 is in a shape of opening upward, and may be in a shape of closing upward or opening downward. - In addition, the
inside wall 612 and theoutside wall 613 of theseat frame 6 extend further rearward from thebottom wall 616, and a downward facing openingconcave part 64 in a shape of a cylinder from which a part is cut is formed on the downward of the extending part. An innermost recess of the downward facing openingconcave part 64 is a bearing surface along a partial cylindrical surface, and its opening end faces front downward. - As shown in
Fig. 4 ,Fig. 5 andFig. 7 , the fronttransversal shaft 44 and the rotation slide bore 62 form a rotationslide engaging part 91 by inserting thefront wall 413 of thesupport frame 4 into thespace 63 for connection of theseat frame 6 and engaging the seatframe engaging part 441 arranged near both end parts of the fronttransversal shaft 44 above thefront wall 413 with the rotation slide bore 62 arranged on the right and left insidewalls 612 of theseat frame 6. Anengaging part 92 of theback frame 5 and thesupport frame 4 and anengaging part 93 of theseat frame 6 and theback frame 5 are formed as shown inFig. 3 ,Fig. 7 andFig. 8 by engaging the frontward facing openingconcave part 53 of theback frame 5 with the reartransversal shaft 45 of thesupport frame 4 in a state of being able to make an inclining movement, and further by engaging the downward facing openingconcave part 64 of theseat frame 6 with the middletransversal shaft 52 of theback frame 5 as shown inFig. 3 . Then it is possible to realize a synchronized rocking movement to move the backside of theseat frame 6 rearward while sinking in conjunction with the rearward inclining movement of theback frame 5 and to move the backside of theseat frame 6 forward while lifting up in conjunction with the movement of theback frame 5 to stand upright. - In addition, a
reactive force mechanism 7 is formed so as to accumulate a spring force against an interlocking movement of theseat frame 6 and theback frame 5 to thesupport frame 4. - The
reactive force mechanism 7 is so arranged, as shown inFig. 6 ,Fig. 7 andFig. 8 , aspring 72 and amovable spring bearing 73 are housed in thespring case 71 that opens downward as being a spring support part in this invention, and thespring 72 is compressed by changing a position of the movable spring bearing 73 with a sliding movement of theseat frame 6 relative to thespring case 71 in accordance with a rearward inclining movement of theback frame 5 by engaging thespring case 71 with the fronttransversal shaft 44 of thesupport frame 4. - As its detail is described later, a front end part of the
spring case 71 makes an engagement with thesupport frame 4 and thespring case 71 is restricted from moving in a vertical direction and a lateral direction by theseat frame 6, and furthermore a rear end part of thespring case 71 is also restricted from moving in the vertical direction and the lateral direction by theseat frame 6 with forming alock mechanism 8, to be described later. As a result, thespring case 71 makes a vertical movement integrally with theseat frame 6 and only a movement in the back and forth direction relative to theseat frame 6 is allowed to make for thespring case 71. - Concrete structure will be described.
- The
spring case 71 is, as shown inFig. 6 andFig. 7 , made of a steel material formed into a cuboid opening downward and comprising a top wall 711, right and leftside walls 712 and arear wall 713, and amovable plate part 714 as being a rear end part of thespring case 71 elongates from a bottom part of therear wall 713 toward a rear direction orthogonal to therear wall 713. In addition, thespring case 71 has an arrangement that a bearingmember 74, which has aconvex part 741 corresponding to abase point part 716 and which forms a downward facing openingconcave part 742 by a partial cylindrical surface to be a bearing surface, is mounted on thebase point part 716 comprising a concave part set in a front end side of the top wall 711, and a portion near a center of therear wall 713, which locates rear of thebase point part 716, is set as abase spring bearing 75. A throughbore 751 is arranged on thebase spring bearing 75. - The
spring case 71 is restricted from moving upward by making an engagement with thesupport frame 4 through the bearingmember 74 at thebase point part 716 of the front end part of thespring case 71 and by placing thetop lid 615 of theseat frame 6 on top of the top wall 711. In addition, near the front end part of thespring case 71, the right and leftside walls 712 are restricted from making a relative movement in the right and left directions by theinside wall 612 of theseat frame 6. Since the rotationslide engaging part 91 is formed by engaging the rotation slide bore 62 of theseat frame 6 with the fronttransversal shaft 44 of thesupport frame 4, theseat frame 6 is restricted from making a vertical movement at this point by thesupport frame 4. As a result, the front end part of thespring case 71 is restricted from making a vertical movement by being sandwiched between thetop lid 615 of theseat frame 6 and the fronttransversal shaft 44 of thesupport frame 4. With this arrangement, the front end part of thespring case 71 is restricted from making a movement in a direction except for the back and forth direction relative to theseat frame 6. - Furthermore, with the arrangement that the
movable plate part 714 as being the rear end part of thespring case 71 forms a lock mechanism, to be described later, together with theseat frame 6, themovable plate part 714 is restricted from making a movement vertically and laterally relative to theseat frame 6. As a result of this, it is possible for thespring case 71 as a whole to make only a movement in the back and forth direction relative to theseat frame 6. - The
spring case 71 can be inserted into or dismounted from the openingend 69 locating at a rear side of thevoid part 65 of theseat frame 6, and is in the same height as that of theseat frame 6 in a state that thespring case 71 is housed in thevoid part 65 of theseat frame 6 and the right and leftside walls 712 of thespring case 71 are housed between the right and left insidewalls 612 of theseat frame 6. While the bearingmember 74 forms an engagingpart 94, as shown inFig. 20 , by making an engagement with the fronttransversal shaft 44 of thesupport frame 4 rotatably in a hooked state, theseat frame 6 moves relative to thespring case 71 because theseat frame 6 makes a sliding movement back and forth with the rotationslide engaging part 91 as mentioned. Since thespring case 71 rotates from an assembled position shown inFig. 9(a) to a used position shown inFig. 9(c) through a process shown inFig. 9(b) with compressing thespring 72, the reactive force of thespring 72 acts in a direction to return thespring case 71 to the assembled position. In addition, thespring case 71 is restricted from making a movement relative to theseat frame 6 except for the back and forth direction. As a means to restrict the movement, for example, as shown inFig. 5 , a firstslide guide part 66 and a secondslide guide part 67 to allow thespring case 71 and theseat frame 6 to make a sliding movement smoothly are arranged at a position where thespring case 71 makes an abutting contact with theseat frame 6. - The first
slide guide part 66 is a projecting part that is integrally formed on a top edge of theinside wall 612 of theseat frame 6 and that extends in parallel to thebottom wall 616 of theseat frame 6, and the projecting part is curved to form a gentle convex. In a state that thespring case 71 is incorporated into theseat frame 6 as shown inFig. 7 , the projectingpart 66 makes a line contact with the top surface of thespring case 71 in the transversal direction orthogonal to the back and forth direction so as to push thespring case 71 downward. In addition, as shown inFig. 5 , the secondslide guide part 67 is a projecting part that is integrally formed on the right and leftside walls 612 of theseat frame 6 and that extends in the vertical direction, and the projectingpart 67 is curved to form a gentle convex toward the inward, and the projectingpart 67 makes a line contact with the right and leftside walls 712 of thespring case 71 shown inFig. 6 in a vertical direction orthogonal to the back and forth direction so as to prevent thespring case 71 from swinging in the right and left directions. In order to facilitate setting the reference position of thespring case 71 and manufacturing theseat frame 6, the firstslide guide part 66 and the secondslide guide part 67 are arranged at the same position in the back and forth direction in this embodiment. - In addition, as shown in
Fig. 5 , a thirdslide guide part 68 is supplementarily arranged at a position, which is different in the back and forth direction from the position of the firstslide guide part 66, in the rear of theseat frame 6. The thirdslide guide part 68 is a projecting part that is integrally formed on an inside of thebottom wall 616 of theseat frame 6 in a curved shape to form a gentle convex. The thirdslide guide part 68 is arranged at a position to make a sliding movement on the bottom surface of amovable plate part 714 of thespring case 71 incorporated as shown inFig. 6 andFig. 7 and can make a line contact with the bottom surface of themovable plate part 714 of thespring case 71 in a transversal direction orthogonal to the back and forth direction. With this arrangement, there is no need of especially high accuracy for thebottom wall 616 except for the thirdslide guide part 68 so that it becomes easier to process theseat frame 6. - As shown in
Fig. 5 , each of the firstslide guide part 66, the secondslide guide part 67, and the thirdslide guide part 68 is arranged only at one portion along a back and forth direction respectively. - As shown in
Fig. 6 andFig. 7 , thespring 72 of thereactive force mechanism 7 is a spiral compression coil spring. - The
movable spring bearing 73 is a springbearing extension arm 731 integrally extending from aspring abutting surface 733, and the movable spring bearing 73 faces the base spring bearing 75 in a state wherein adistal end 734 of the springbearing extension arm 731 passes inside of thespring 72 and then is inserted into a throughbore 751 of thebase spring bearing 75. Thespring abutting surface 733 is a part of a channel-shapeddisplacement transmission member 732 and plays a role to transmit a slide displacement of theseat frame 6 in accordance with a backward inclining movement of theback frame 5 to thespring 72 through a reactiveforce adjusting part 76. The reactiveforce adjusting part 76 transforms, as shown inFig. 18 , a movement in the lateral direction of an adjustingamount input member 761 to a movement in the back and forth direction of an adjustingamount output member 762 by making an inclined surface 767 of the adjustingamount input member 761 and aninclined surface 768 of the adjustingamount output member 762 abutting contact, and changes a position of thedisplacement transmission member 732, namely a position of thespring abutting surface 733 to a direction toward which thespring 72 shown inFig. 7 compresses or to its opposite direction. The adjustingamount input member 761 shown inFig. 6 andFig. 18 moves back and forth, as shown inFig. 5 andFig. 7 , by following a back and forth movement of theseat frame 6 in a state that a part of the adjustingamount input member 761 makes an engagement with anupright part 617 arranged on thebottom wall 616 of theseat frame 6 in a slidable manner in a direction orthogonal to the back and forth direction. As shown inFig. 18(a) and (b) , it is possible for the adjustingamount input member 761 to feed screw by threadably mounting the reactiveforce adjusting lever 764 on ascrew hole 763 arranged on the adjustingamount input member 761 and by operating agrip part 765 arranged on the outside end of the adjustingamount input member 761. In addition, as shown inFig. 3 andFig. 6 , a part of the adjustingamount input member 761 is mounted on an appropriate position of theseat frame 6 rotatably and in a state that aflange part 766 arranged on the axis engages a part of theseat frame 6 so as not to move in the axial direction. Since the reactiveforce adjusting lever 764 moves back and forth integrally with theseat frame 6, a position relative to a person who is seated is kept constant. - A procedure to assemble the
support frame 4, theseat frame 6, theback frame 5 and thespring case 71 will be explained by the use ofFig. 9 . - The bearing
member 74 of thespring case 71 is mountable on and dismountable from a direction crossing to the fronttransversal shaft 44 of thesupport frame 4 at an assembled angle at least more upright than a used angle as shown inFig. 9(a) due to a shape of the downward facing openingconcave part 742 of the bearingmember 74 of thespring case 71. Similar to this, the rotation slide bore 62 of theseat frame 6 is also mountable on and dismountable from a direction crossing to the fronttransversal shaft 44 of thesupport frame 4 at the above-mentioned assembled angle through an opening in a state that thereactive force mechanism 7 including thespring case 71 is housed inside of theseat frame 6. As a result, first thereactive force mechanism 7 including thespring case 71 is incorporated into theseat frame 6 and then thespring case 71 and theseat frame 6 are engaged with the fronttransversal shaft 44 of thesupport frame 4 simultaneously at a predetermined assemble angle. - As shown in
Fig. 9(b), Fig. 9(c) , theseat frame 6 is integrally rotatable with thereactive force mechanism 7 from the assembled angle toward the used angle in a state that theseat frame 6 is engaged with the fronttransversal shaft 44 together with thespring case 71. In this case, acam surface 46 that urges themovable spring bearing 73 toward the spring compressed direction in accordance with a movement of thespring case 71 from the assembled angle to the used angle is arranged on thesupport frame 4. Thecam surface 46 extends from the fronttransversal shaft 44 to the rear downward direction generally along a tangent line and its direction is changed downward through a round part, and makes a sliding movement with a front surface of theupright part 617 arranged in front of thebottom wall 616 of theseat frame 6 as shown inFig. 5 . With this arrangement, as shown inFig. 9(a), (b) and (c) , while thespring case 71 rotates with a center on the fronttransversal shaft 44 on the bearingmember 74, theseat frame 4 makes a sliding movement rearward with the fronttransversal shaft 44 floating inside of the rotation slide bore 62 and an initial reactive force is accumulated during this period. Thecam surface 46 also serves as a role of a rib to reinforce the fronttransversal shaft 44 as shown inFig. 4 . - As shown in
Fig. 9(a), (b) and (c) , engageable and disengabeable parts (engaging parts) 92, 91, 93, 94 as shown inFig. 7 are formed between thesupport frame 4 and theback frame 5, between thesupport frame 4 and theseat frame 6, between theseat frame 6 and theback frame 5 and between thesupport frame 4 and theseat frame 6 by engaging the front facing openingconcave part 53 of theback frame 5 with the reartransversal shaft 45 of thesupport frame 4 from an orthogonal direction and by hooking the downward facing openingconcave part 64 of theseat frame 6 at the middletransversal shaft 52 of theback frame 5. Each of these engagingparts Fig. 19(a), (b), (c) and (d) . Since each of shadedparts Fig. 19(a), (b), (c) and (d) makes a sliding movement respectively, these portions are processed to have a smooth surface as the bearing area. - Since the initial reactive force of the
spring 72 in a state shown inFig. 7 andFig. 9(c) acts to draw the middletransversal shaft 52 of theback frame 5 to a direction of the fronttransversal shaft 44 of thesupport frame 4 through the downward facing openingconcave part 64 of theseat frame 6, the initial reactive force acts to strengthen engagement of theseat frame 6 and theback frame 5 and to strengthen engagement of theback frame 5 and thesupport frame 4 by pushing the front facing openingconcave part 53 of theback frame 5 against the reartransversal shaft 45 of thesupport frame 4, and further to strengthen engagement of the bearingmember 74 of thespring case 71 incorporated into theseat frame 6 and the fronttransversal shaft 44 of thesupport frame 4. As a result, these engaging parts keep the mutual engaged state by making use of the initial reactive force of thereactive force mechanism 7. Furthermore, as shownFig. 7 →Fig. 8 , a reactive force that exceeds the initial reactive force of thereactive force mechanism 7 is generated in conjunction with a movement of theback frame 5 and theseat frame 6 so as to strengthen the force acting in a direction to strengthen the engagement of theseat frame 6 and theback frame 5, the engagement of theback frame 5 and thesupport frame 4, the engagement of thesupport frame 4 and theseat frame 6 respectively. - Especially, as shown in
Fig. 7 ,Fig. 8 andFig. 19 , while the backrest makes a rocking movement between the upright position and the rearward inclining position, the bearingmember 74 makes a sliding movement on apredetermined bearing area 952 of the fronttransversal shaft 44 in a state that the bearingmember 74 is hooked at the springcase engaging part 442 near the center part of the fronttransversal shaft 44, and the rotation engaging bore 618 of theseat frame 6 makes a sliding movement on apredetermined bearing area 951 of the seatframe engaging part 441 near both end parts of the fronttransversal shaft 44. Furthermore, the front facing openingconcave part 53 of theback frame 5 having a positional relation shown inFig. 9 makes a sliding movement on thebearing area 954, to which a fitting force is especially applied, of the reartransversal shaft 45 in a state that the front facing openingconcave part 53 is engaged with the reartransversal shaft 45 of thesupport frame 4, and the downward facing openingconcave part 64 of theseat frame 6 makes a sliding movement on thebearing area 953, along a surface to which a fitting force is especially applied, of the middletransversal shaft 52 in a state that the downward facing openingconcave part 64 is engaged with the middletransversal shaft 52 of theback frame 5. At least the bearing areas of thesetransversal shafts transversal shaft Fig. 4 as an example. In addition, openingconcave part - Especially, as shown in
Fig. 4 andFig. 2 , acircumferential groove 451 is arranged on a part of an outer circumferential surface of the reartransversal shaft 45 as being the projecting part of thesupport frame 4, and arecess 452 is arranged as a deformed part along a circumferential direction on a groove bottom of thecircumferential groove 451 as being an outer circumference of the projecting part, and the outer circumferential surface other than therecess 452 is an intermittent convex slidingsurface 453. Acover part 54 is integrally arranged on a side of the front facing openingconcave part 53 of theback frame 5 to be fit over the convex slidingsurface 453 to cover a projectingend surface 454 of the reartransversal shaft 45 at a time when thecover part 54 engages the reartransversal shaft 45 as being the projecting part of thesupport frame 4 shown inFig. 4 . Therecess 452 can be used as a grease pool, if used as the grease pool, it is possible to reduce a sliding resistance. In addition, it is possible to form a flange-shaped big diameter part as a deformed part on each of thetransversal shaft concave part transversal shaft concave part - Furthermore, this embodiment is provided with a
lock mechanism 8, as shown inFig. 10 andFig. 11 , that locks a rocking movement, as shown inFig. 7 andFig. 8 , of theback frame 5 and theseat frame 6 at a predetermined position. - The
lock mechanism 8 comprises astopper case 81 mounted inside of theseat frame 6, astopper member 82 having a plate shape housed in thestopper case 81, amovable plate part 714 having anengaging bore 715 that is arranged in the rearward of thespring case 71 and into which thestopper member 82 is inserted, and areciprocatory moving mechanism 85 that reciprocates thestopper member 82 vertically. With the arrangement of thelock mechanism 8, since themovable plate part 714 as being a rear end part of thespring case 71 is inserted between thestopper case 81 and theseat frame 6, themovable plate part 714 is restricted from making a vertical movement. In addition, as mentioned above, the right and leftside walls 712 of thespring case 71 is housed between the right and left insidewalls 612 of theseat frame 6, and thespring case 71 is restricted from making a relative movement also in the right and left directions by the secondslide guide part 67 near the rear end part of thespring case 71. As a result, the rear end part of thespring case 71 is incapable of making a movement both vertically and right and left relative to theseat frame 6, and is allowed to make a movement in the back and forth directions only. The movement of thespring case 71 in the back and forth directions can be fixed at a predetermined position by the behavior of thelock mechanism 8. - The
reciprocatory moving mechanism 85 comprises atorsion coil spring 83 to give a vertical operational force to thestopper member 82 and anoperation lever 84. Thestopper member 82 is integrally made of a steel or resin material into a plate shape having two rectangular projectingparts 821 on its bottom part, and is provided with aninsertion bore 822 near its top part to mount anend part 831 of thetorsion coil spring 83. Thestopper case 81 is made of a steel or resin material integrally formed or by a folding process into a channel shape comprising three flat surfaces, namely afront wall 811 and arear wall 812 as being a pair of facing walls connected by abottom wall 813 as being a fixing plate part, and a slit-shapedengaging bore 814 having almost the same shape as that of the projectingpart 821 locating on the bottom part of thestopper member 82 opens on thebottom wall 813 as shown inFig. 12 . - In addition, the engaging
bore 715 on themovable plate part 714 locating at the rear side of thespring case 71 is also a slit having almost the same shape as that of the projectingpart 821 locating on the bottom part of thestopper member 82, and a plurality of engagingbores 715 are arranged at a predetermined pitch in the back and forth direction. The slit-shapedengaging bore 618 having almost the same as that of the projectingpart 821 is arranged at a position corresponding to the projectingpart 821 of thestopper member 82. - As shown in
Fig. 10 andFig. 11 , theoperation lever 84 is formed into a stick shape whose cross section is a general rectangle, and anoperation end 841 to be operated by a person is formed into a flat shape and aninsertion bore 843 to insert anend part 831 of thetorsion coil spring 83 is arranged on a side surface at a workingend 842 side to move thestopper member 82 vertically and arecess part 845 formed by cutting a part is arranged to house thetorsion coil spring 83. In addition, a pair of mountingshafts 844 to mount theoperation lever 84 on theseat frame 6 are arranged between theoperation end 841 and the workingend 842 in a direction orthogonal to a longitudinal direction of theoperation lever 84. - The
stopper case 81 is fixed near a rear side of theseat frame 6, thestopper member 82 is arranged inside of thestopper case 81 in a state of being able to make a vertical movement while being guided by one surface of thestopper member 82 that makes an abutting contact with thefront wall 811, and the workingend 842 of theoperation lever 84 to operate thestopper member 82 is inserted into thestopper case 81 from its lateral direction so that thestopper member 82 and the workingend 842 of theoperation lever 84 is tightly arranged in thestopper case 81. A reason why one surface of thestopper member 82 makes an abutting contact with thefront wall 811 of thestopper case 81 is to stabilize a position of thestopper member 82 by making use of thefront wall 811 as a guide together with the workingend 842 tightly arranged. Thestopper member 82 may be arranged to make an abutting contact with therear wall 812 of thestopper case 81. With this arrangement, the same effect can be obtained. - In addition, the
torsion coil spring 83 is mounted between thestopper member 82 and theoperation lever 84 to be housed in therecess part 845 arranged near the workingend 842 of theoperation lever 84, and two spring ends 831 each projecting opposite direction each other in a direction orthogonal to the coil direction of the spring are inserted into the insertion bore 822 of thestopper member 82 and the insertion bore 843 of theoperation lever 84 respectively. Furthermore, theoperation end 841 of theoperation lever 84 passes the lever insertion bore 691 arranged on the side wall of theseat frame 6 so as to extend to a position accessible for a person, and the mountingshaft 844 makes an engagement in a rotatable manner with thelever mounting part 692 that grips the mountingshaft 844 and that is arranged on the outer surface of theoutside wall 613 of theseat frame 6. - With this arrangement, the working
end 842 of theoperation lever 84 makes a vertical movement inside of thestopper case 81 by operating theoperation end 841 of theoperation lever 84 vertically. This movement drives thestopper member 82 to make a vertical movement through thetorsion coil spring 83 so that thestopper member 82 makes an abutting contact with thefront wall 811 of thestopper case 81 and makes a vertical movement in a state of being guided by thefront wall 811 and the projectingpart 821 of thestopper member 82 makes a movement of being inserted into or taken out from an engaging bore 815 arranged on thebottom wall 813 of thestopper case 81. - Then a relative movement of the
frame 6 and thespring case 71 is restricted and a rocking movement is locked at a time when the projectingpart 821 of thestopper member 82 projects downward from the engaging bore 815 of thestopper case 81 and then the projectingpart 821 is inserted into a slit-shapedengaging bore 715 that locates below the engaging bore 815 and that is arranged on themovable plate part 714 of thespring case 71. - Concretely, each part acts as follows and then rocking movement is locked.
- As shown in
Fig. 12(a) , in case that theoperation lever 84 is operated so that the spring force acts on thestopper member 82 locating upside to move downward, the projectingpart 821 of thestopper member 82 protrudes from the engagingbore 814 arranged on thebottom wall 813 of thestopper case 81 and then makes contact with thespring case 71 locating on the downside. At this time, in case that the slit-shapedengaging bore 715 arranged on themovable plate part 714 of thespring case 71 locates at a position corresponding to theengaging bore 814, the projectingpart 821 of thestopper member 82 is inserted into the slit-shapedengaging bore 715 as shown inFig. 12 (b) . Even though a case that the slit-shapedengaging bore 715 arranged on themovable plate part 714 does not locate at a position corresponding to the projectingpart 821 of thestopper member 82, if a relative position of theseat frame 6 and thespring case 71 changes by changing a gradient of theback frame 5 as shown inFig. 7 andFig. 8 , so that theengaging bore 715 of themovable plate part 714 coincides with a position corresponding to thestopper member 82 as shown inFig. 12 (b) or Fig. 12 (c) , the projectingpart 821 of thestopper member 82 is inserted. Furthermore, thestopper member 82 is simultaneously inserted into the slit-shapedengaging bore 618 of thebottom wall 616 of theseat frame 6. - The rocking position is locked because the relative movement between the
seat frame 6 and thespring case 71 is restricted by restricting the projectingpart 821 of thestopper member 82 that is restricted from moving back and forth to theseat frame 6 through thestopper case 81 is fittingly inserted into the slit-shapedengaging bore 715 of themovable plate part 714 of thespring case 71. At this time, if each size of the projectingpart 821 of thestopper member 82 and theengaging bore 715 of themovable plate part 714 is set so as to be tightly fit each other in the back and forth direction, it is possible to lessen positional misalignment of thestopper member 82 and themovable plate part 714 after locked. Furthermore, in this embodiment, since thestopper member 82 is also inserted into the slit-shapedengaging bore 618 of thebottom wall 616 of theseat frame 6 simultaneously and a sharing force applied to thestopper member 82 concentrates only on the projectingpart 821 locating at a distal end of thestopper member 82, it is possible to prevent deformation of thestopper member 82. - In addition, as mentioned, since the
movable plate part 714 as being the rear end part of thespring case 71 is restricted from making a vertical movement relative to theseat frame 6 and theengaging bore 715 of themovable plate part 714 locates at a position vertically near the slit-shapedengaging bore 618 of thebottom wall 616 of theseat frame 6 on a constant basis, the positional misalignment is difficult to generate and it becomes easy to fittingly insert thestopper member 82 into theengaging bore 715 and the slit-shapedengaging bore 618 simultaneously. Furthermore, themovable plate part 714 as being the rear end part of thespring case 71 is restricted from making a movement also in the right and left directions relative to theseat frame 6, it is easy for theengaging bore 715 of themovable plate part 714 to keep in parallel with the slit-shapedengaging bore 618 of theseat frame 6 so that it becomes easier to insert thestopper member 82. As a result of this, it is possible to improve operationality of thestopper member 82 and also possible to lessen clearance by diminishing a dimensional difference between the projectingpart 821 of thestopper member 82 and theengaging bore 715 and the slit-shapedengaging bore 618. - At a time of releasing a locked state, the
operation lever 84 shown inFig. 10 is operated to raise thestopper member 82 as shown inFig. 12 (a) so as to lift up the projectingpart 821 from the engagingbore 618 of theseat frame 6 and theengaging bore 715 of thespring case 71. With this operation, restriction of the relative movement between theseat frame 6 and thespring case 71 is released, which makes it possible to make a rocking movement again. With this operation, it becomes possible to change the rocking position also to a desired position as shown inFig. 12 (b), and (c) . - In addition, in this embodiment, as shown in
Fig. 11 andFig. 13 , theoperation lever 84 and thestopper member 82 is connected by thetorsion coil spring 83 and it is so arranged that an upward force and a downward force can be applied to thestopper member 82 only by a single spring member. - Specifically, as shown in
Fig. 11 andFig. 13 , a positional relationship between the insertion bore 843 for theend part 831 of thetorsion coil spring 83 arranged near the workingend 842 of theoperation lever 84 and the insertion bore 822 for theend part 831 of thetorsion coil spring 83 arranged on thestopper member 82 is shifted in right or left direction. In case that both endparts torsion coil spring 83 are mounted on the insertion bore 843 and the insertion bore 822 respectively, it is so arranged that a force to extend and open thetorsion coil spring 83 is applied to bothend parts torsion coil spring 83 on a constant basis. Since thetorsion coil spring 83 is supported by each insertion bore 843, 822 in a state of being able to make a rotational movement, thetorsion coil spring 83 is arranged to change its direction automatically in the most balanced position due to the positional relationship between both of the insertion bores 843, 822. - Concretely, an operation will be conducted as follows.
- First, as shown in the left view of
Fig. 13 (a) , in a state that theoperation lever 84 is located at the unlock position so that its workingend 842 locates downside and thestopper member 82 is lifted upward, thetorsion coil spring 83 locates at the right side inFig. 13 (a) of the insertion bores 843, 822 and at a higher position than the workingend 842 of theoperation lever 84. In this positional relationship, the force to extend and open thetorsion coil spring 83 gives the workingend 842 of the operation lever 84 a force to move further downward and thestopper member 82 to move further upward respectively so that the current state can be furthermore stabilized. In case that theoperation lever 84 is changed to the lock position, the positional relationship goes through the process of the left view inFig. 13 (b) , the left view inFig. 13 (c) and the left view inFig. 13 (d) and ends up with the positional relationship shown in the left view inFig. 13 (e) wherein the workingend 842 of theoperation lever 84 locates downside and thestopper member 82 moves downward. During a process of the movement, thetorsion coil spring 83 moves leftward as shown in the right view inFig. 13 (b) , the right view inFig. 13 (c) , the right view inFig. 13(d) and the right view inFig. 13 (e) . Contrary to the unlocked position, the force to extend and open thetorsion coil spring 83 gives the workingend 842 of the operation lever 84 a force to move further upward and thestopper member 82 to move further downward respectively so that the stabilized state can be kept. In case that theoperation lever 84 is again changed to the unlock position from the above-mentioned state, the state is returned to the state inFig. 13 (g) , namely the same state as shown inFig. 13 (a) through a process shown inFig. 13 (f) . - In addition, as shown in
Fig. 2 andFig. 14 , theheight adjusting mechanism 2 to adjust a height of theseat surface 32 is incorporated into the chair of this embodiment, and theheight adjusting mechanism 2 comprises agas spring 21 generally incorporated into thesupport rod 12 and agas spring lever 22 to push a projecting and sinkingmember 211 locating above thegas spring 21. A workingend 222 is moved downward by making use of theengaging part 223 as a fulcrum by pulling up the operatingend 221 of thegas spring lever 22 and the height of theseat surface 32 can be adjusted through thesupport frame 4 by pushing the projecting and sinkingmember 211 of thegas spring 21. - As shown in
Fig. 14 andFig. 15 , thesupport rod 12 into which thegas spring 21 is incorporated is in a shape of a general cylinder comprising a convex part 212 on a part of thesupport rod 12 in its axial direction, and its lower end is fittingly inserted into a top part of theleg blade 11. The boss bore 42 as being a support rod mounting bore of thesupport frame 4 fits together by insertion on a top end of thesupport rod 12 and theconvex part 121 receives the weight and rotatably supports thesupport frame 4. At this time, the projecting and sinkingmember 211 locating above thegas spring lever 22 projects out of the top part of the boss bore 42. - The
gas spring lever 22 is generally of a stick shape, and each of the operatingend 221 to operate thegas spring lever 22 and a workingend 222 to push the projecting and sinkingmember 211 is of a flat shape generally in parallel to a horizontal surface at a non-operated position. Theengaging part 223 to engage thesupport frame 4 from downward at a position near the workingend 222 from the gravity point in a longitudinal direction of thegas spring lever 22 is arranged between the operatingend 221 and the workingend 222 on the bottom surface of thegas spring lever 22. Theengaging part 223 is a hook-shaped projecting part of an "L" character extending in the workingend 222 side from the bottom surface of a body of thegas spring lever 22 toward a little further downward, and is integrally formed with the body of thegas spring lever 22. - The gas spring
lever mounting part 43 comprising the mountingbore 431, as described based onFig. 4 , is arranged near the top part of the boss bore 42 for thesupport frame 4. As shown inFig. 14 andFig. 15 , thegas spring lever 22 is supported with itsengaging part 223 inserted into the mountingbore 431 arranged on thesupport frame 4, and is rotatable in a certain range around theengaging part 223. The operatingend 221 extends out toward a side direction of the chair, and the workingend 222 locates above the projecting and sinkingmember 211 of thegas spring 21 in the center part of the chair. - Since the gravity point of the
gas spring lever 22 locates nearer the operatingend 221 than theengaging part 223, thegas spring lever 22 tries to rotate around theengaging part 223 to locate the operatingend 221 at the bottom side just by hooking theengaging part 223 with the mounting bore 431 of the gas springlever mounting part 43 of thesupport frame 4, and then thegas spring lever 22 is stabilized at a position where thebottom surface 224 locating rearward of theengaging part 223 makes an abutting contact with the top surface of the gas springlever mounting part 43. Then with this state kept, it becomes possible to incorporate thesupport rod 12 into thesupport frame 4 easily. - Furthermore, in this embodiment, as shown in
Fig. 16 andFig. 17 , it is so arranged that theengaging part 223 can not be mounted on or dismounted from the mountingbore 431 unless an angle between thegas spring lever 22 with its workingend 222 locating at the bottom side and the horizontal surface becomes more than or equal to a certain degree, and furthermore, as shown inFig. 15 , the workingend 222 side of thegas spring lever 22 can be incorporated inside of the boss bore 42 of thesupport frame 4. Furthermore, after thesupport rod 12 is incorporated into the boss bore 42 of thesupport frame 4 it is so arranged that the top part of thesupport rod 12 interferes with the workingend 222 of thegas spring lever 22 so as not to take an angle at which thegas spring lever 22 can be mounted or dismounted. As a result, once thesupport rod 12 is incorporated, it becomes impossible to dismount thegas spring lever 22 from thesupport frame 4 without separating thesupport rod 12 from thesupport frame 4. - Concretely, as shown in
Fig. 15 , it is necessary to set an angle between thegas spring lever 22 and the horizontal surface more than or equal to α in order to make it possible to mount or dismount the hook-shapedengaging part 223 arranged on the bottom surface of thegas spring lever 22 on or from the mountingbore 431 of thesupport frame 4. - The limit angle α at which the
gas spring lever 22 is mountable or dismountable is, as shown inFig. 22 , determined uniquely as an angle having a relationship: B × sinα - t1 × cosα = t2, wherein t1 is a thickness of the gas springlever mounting part 43, t2 is a thickness of a distal end of theengaging part 223 of thegas spring lever 22, and B is a width of the mountingbore 431. - If the
support rod 12 is dismounted as shown inFig. 15 , it is possible to make the angle more than or equal to α without interfering the workingend 222 of thegas spring lever 22 with the other member so that thegas spring lever 22 can be mounted on or dismounted from thesupport frame 4. - However, in case that the
support rod 12 is incorporated into thesupport frame 4 as shown inFig. 21 , the workingeng 222 interferes with the body of thegas spring 21 so that the angle between thegas spring lever 22 and the horizontal surface can take only an angle β even though in a state that the projecting and sinkingmember 211 of thegas spring 21 is pushed to the maximum position by operating thegas spring lever 22. Since it is so arranged that β becomes sufficiently smaller than α , the once mountedgas spring lever 22 can not be dismounted at this angle. - In addition, the mounting
bore 431 of thesupport frame 4 is, as shown inFig. 4 , in a shape of a general rectangle having a long side orthogonal to a longitudinal direction of thegas spring lever 22 that makes an engagement with the mountingbore 431. Theengaging part 223 arranged on the bottom surface of thegas spring lever 22 is so arranged to have a cross section of a general rectangle so as to have an abutting surface tailored to the shape of the mountingbore 43. As a result, thegas spring lever 22 rotates stably in the vertical plane while thegas spring lever 22 is operated so that thegas spring lever 22 will never be deviated from the above of the projecting and sinkingmember 211. - With this arrangement, if the operating
end 221 of thegas spring lever 22 is pulled upward, the workingend 222 moves downward with theengaging part 223 as the fulcrum. This movement enables the workingend 222 to push the projecting and sinkingmember 211 of thegas spring 21 so that the height of the seat surface can be adjusted. - As mentioned, the chair in accordance with this embodiment comprises the support frame 4 supported by the support rod 12, the back frame 5 that can make the inclining movement relative to the support frame 4, the seat frame 6 that is related to the support frame 4 and the back frame 5 so as to make the movement in conjunction with the back frame 5 toward the direction along the inclining movement of the back frame 5, the reactive force mechanism 7 that accumulates the spring force against the interlocking movement of the seat frame 6 and the back frame 5 with the support frame 4, and the lock mechanism 8 that locks the interlocking movement of the seat frame 6 and the back frame 5 with the support flame 4, and is characterized by that the reactive force mechanism 7 comprises the spring case 71 arranged inside of the seat frame 6 and the spring 72 related to the spring case 71 and the seat frame 6, the spring case 71 moves in the back and forth direction relatively to the seat frame 6 in accordance with the interlocking movement while the spring case 71 inclines together with the seat frame 6 with a movement a part of the front end part and the rear end part of the spring case 71 limited by the seat frame 6 during the interlocking movement, and the lock mechanism 8 locks the interlocking movement of the seat frame 6 and the back frame 5 with the support frame 4 by fixing the relative position in the back and forth direction of the spring case 71 and the seat frame 6.
- In accordance with this arrangement, it is possible to realize the synchronized rocking mechanism with a simple arrangement. In addition, since the
lock mechanism 8 to fix the rocking position comprises only theseat frame 6 and thespring case 71 whose relative movement is restricted, it is possible to realize thelock mechanism 8 with a simple arrangement having less number of components with less restriction for a place to be incorporated. As a result, it is possible to downsize thelock mechanism 8, to reduce the cost and to stabilize the movement of the mechanism as well. Furthermore, since theseat frame 6 and thespring case 71 are kept in a close state each other on a constant basis, it is possible to improve the operationality to fix the position and to reduce positional misalignment after the position is fixed. - In addition, since the front end part and the rear end part of the
spring case 71 are restricted from making a movement in the vertical direction relative to theseat frame 6, it is possible to improve the operationality to lock the rocking position and to securely fix the rocking position not to generate misalignment after the rocking position is locked. - Furthermore, since the front end part and the rear end part of the
spring case 71 are arranged inside of theseat frame 6 and restricted from making the movement in the right and left directions relative to theseat frame 6, it becomes further effective in improvement of the operationality and reduction of misalignment of the rocking position. - In addition, since the
lock mechanism 8 comprises thestopper member 82 that can make the proceeding and receding movement in a direction orthogonal to the back and forth direction, thereciprocatory moving mechanism 85 that moves thestopper member 82, and theengaging bore 715 into which thestopper member 82 is inserted, wherein thestopper member 82 and thereciprocatory moving mechanism 85 are arranged in either one of theseat frame 6 and thespring case 71, and theengaging bore 715 is arranged in the other, it becomes possible to further improve the above-mentioned effect. - Furthermore, since each of the
spring case 71, thestopper member 82 and thereciprocatory moving mechanism 85 is housed in theseat frame 6 within its height respectively, further downsizing can be realized. - In addition, since the portion where the
engaging bore 715 is arranged is in a plate shape, and thestopper member 82 moves within the height of the seat frame, further downsizing can be promoted. - In addition, since the
engaging bore 715 is a slit extending in the direction orthogonal to the back and forth direction and a plurality of engagingbores 715 are arranged at predetermined intervals in the back and forth direction, thestopper member 82 is formed in a plate shape and is provided with the projectingpart 821 that fits into theengaging bore 715, and thestopper member 82 makes the proceeding and receding movement with a surface of thestopper member 82 guided by the inner surface of thestopper case 81 where thestopper member 82 is housed, it is possible to change the lock position of the rocking movement at several fine stages and to improve fundamental functions such that the positional misalignment is reduced after the position is locked. - Furthermore, since the
stopper case 81 is fixed to theseat frame 6, the engagingbore 715 is arranged in thespring case 71, the auxiliaryengaging bore 618 into which the projectingpart 821 of thestopper member 82 can make the proceeding and receding movement tightly is arranged on theseat frame 6, and the projectingpart 821 of thestopper member 82 is inserted into theengaging bore 715 and the auxiliaryengaging bore 618 simultaneously at the position where theengaging bore 715 and the auxiliaryengaging bore 618 overlap each other, it is possible to concentrate a position where the shear force is applied to thestopper member 82 only near the projectingpart 821 so that an unreasonable force is not applied to thestopper member 82. As a result, thestopper member 82 can be prevented from being broken and the vertical movement of thestopper member 82 can be facilitated. - In addition, since the
reciprocatory moving mechanism 85 comprises thestopper case 81 to house thestopper member 82, the operatinglever 84 to operate thestopper member 82 to make the proceeding and receding movement, and thespring member 83 that gives the stopper member 82 a force to make the proceeding and receding movement by making use of the displacement of the operatinglever 84, wherein thespring member 83 is arranged to switch the direction to urge thestopper member 82 at the released position and the locked position, it is possible to reduce a number of components and to further downsize thereciprocatory moving mechanism 85. - A concrete arrangement of each part is not limited to the above-mentioned embodiment.
- For example, in the above-mentioned embodiment, as shown in
Fig. 10 , thestopper case 81 is fixed to theseat frame 6, thestopper member 82 can make the vertical movement with the movement in the back and forth direction is restricted, and thestopper member 82 is fittingly inserted into theengaging bore 715 arranged on thespring case 71, however, in order just to lock the rocking movement, thestopper case 81 and thereciprocatory moving mechanism 85 may be fixed to thespring case 71 and theengaging bore 715 corresponding to thestopper member 82 may be on theseat frame 6. In order to make it possible for a seated person to conduct the lock operation, it is preferable that theseat frame 6 to which the seat surface is fixed and the operatinglever 84 are integrally formed and makes a back and forth movement. In order to realize this arrangement, it is preferable that thestopper member 82 and thereciprocatory moving mechanism 85 are arranged on theseat frame 6 and theengaging bore 715 is arranged on thespring case 71. - In addition, the direction of moving the
stopper member 82 is not necessarily the vertical direction as mentioned in the above embodiment, the direction may be orthogonal to the back and forth direction. For example, the arrangement may be that anengaging bore 618 is arranged on theside wall 612 of theseat frame 6 and theengaging bore 715 is arranged on theside wall 712 of thespring case 71 and thestopper member 82 is fittingly inserted into the engagingbores stopper member 82 from making a relative movement in the back and forth direction. -
- 4 ...
- support frame
- 5 ...
- back frame
- 6 ...
- seat frame
- 7 ...
- reactive force mechanism
- 8 ...
- lock mechanism
- 71 ...
- spring case
- 72 ...
- compression coil spring
- 73 ...
- movable spring bearing
- 81 ...
- stopper case
- 82 ...
- stopper member
- 83 ...
- torsion coil spring
- 84 ...
- operation lever
- 85 ...
- reciprocatory moving mechanism
- 714 ...
- movable plate part
- 715 ...
- engaging bore
- 821 ...
- projecting part
- An object of this invention is to provide a chair comprising a simple and compact rocking mechanism and lock mechanism to lock the rocking movement.
- The chair comprises a
support frame 4 supported by asupport rod 12, aback frame 5 that can make an inclining movement, aseat frame 6 that make a movement in conjunction with theback frame 5 toward a direction along the inclining movement of theback frame 5, areactive force mechanism 7 that accumulates a spring force against an interlocking movement, and alock mechanism 8 that locks the interlocking movement, wherein thereactive force mechanism 7 comprises aspring case 71 and aspring 72 that can make a relative movement in the back and forth direction, and has such an arrangement that thespring case 71 moves in accordance with the interlocking movement while inclining together with theseat frame 6 with a movement of a part of a front end part and a rear end part of thespring case 71 limited by theseat frame 6 during the interlocking movement, and thelock mechanism 8 locks the interlocking movement of theseat frame 6 and theback frame 5 with thesupport frame 4 by fixing a relative position of thespring case 71 and theseat frame 6.
Claims (9)
- A chair comprising a support frame supported by a support rod, a back frame that can make an inclining movement relative to the support frame, a seat frame that is related to the support frame and the back frame so as to make a movement in conjunction with the back frame toward a direction along the inclining movement of the back frame, a reactive force mechanism that accumulates a spring force against an interlocking movement of the seat frame and the back frame with the support frame, and a lock mechanism that locks the interlocking movement of the seat frame and the back frame with the support flame, and is characterized by that the reactive force mechanism comprises a spring case arranged inside of the seat frame and a spring related to the spring case and the seat frame, the spring case moves in the back and forth direction relatively to the seat frame in accordance with the interlocking movement while the spring case inclines together with the seat frame with a movement of a part of a front end part and a rear end part of the spring case limited by the seat frame during the interlocking movement, and the lock mechanism locks the interlocking movement of the seat frame and the back frame with the support frame by fixing a relative position in the back and forth direction of the spring case and the seat frame.
- The chair described in claim 1, wherein
the front end part and the rear end part of the spring case are restricted from making a movement in a vertical direction relative to the seat frame. - The chair described in claim 1 or 2, wherein
the front end part and the rear end part of the spring case are arranged inside of the seat frame and restricted from making a movement in the right and left directions relative to the seat frame. - The chair described in either of claim 1 through claim 3, wherein
the lock mechanism comprises a stopper member that can make a proceeding and receding movement in a direction orthogonal to a back and forth direction, a reciprocatory moving mechanism that moves the stopper member, and an engaging bore into which the stopper member is inserted, wherein the stopper member and the reciprocatory moving mechanism are arranged in either one of the seat frame and the spring case, and the engaging bore is arranged in the other. - The chair described in claim 4, wherein
each of the spring case, the stopper member and the reciprocatory moving mechanism is housed in the seat frame within its height. - The chair described in claim 4 or 5, wherein
a portion where the engaging bore is arranged is in a plate shape, and the stopper member moves within the height of the seat frame. - The chair described in either of claim 4 through claim 6, wherein
the engaging bore is a slit extending in a direction orthogonal to the back and forth direction and a plurality of engaging bores are arranged at predetermined intervals in the back and forth direction, a stopper member is formed in a plate shape and is provided with a projecting part that fits into the engaging bore, and the stopper member makes a proceeding and receding movement with a surface of the stopper member guided by an inner surface of the stopper case where the stopper member is housed. - The chair described in claim 7, wherein
the stopper case is fixed to the seat frame, the engaging bore is arranged in the spring case, an auxiliary engaging bore into which the projecting part of the stopper member can make a proceeding and receding movement tightly is arranged on the seat frame, and the projecting part of the stopper member is inserted into the engaging bore and the auxiliary engaging bore simultaneously at a position where the engaging bore and the auxiliary engaging bore overlap each other. - The chair described in either of the claim 4 through claim 8, wherein
the reciprocatory moving mechanism comprises a stopper case to house the stopper member, an operating lever to operate the stopper member to make the proceeding and receding movement, and a spring member that gives the stopper member a force to make the proceeding and receding movement by making use of the displacement of the operating lever, wherein the spring member is arranged to switch a direction to urge the stopper member at a released position and a locked position.
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
JP2010289159A JP2012135398A (en) | 2010-12-27 | 2010-12-27 | Chair |
Publications (1)
Publication Number | Publication Date |
---|---|
EP2468140A1 true EP2468140A1 (en) | 2012-06-27 |
Family
ID=45876939
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP11155301A Withdrawn EP2468140A1 (en) | 2010-12-27 | 2011-02-22 | Chair |
Country Status (4)
Country | Link |
---|---|
US (1) | US20120161483A1 (en) |
EP (1) | EP2468140A1 (en) |
JP (1) | JP2012135398A (en) |
CN (1) | CN102525158A (en) |
Families Citing this family (23)
Publication number | Priority date | Publication date | Assignee | Title |
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JP6135098B2 (en) * | 2012-11-06 | 2017-05-31 | コクヨ株式会社 | Chair |
JP6429384B2 (en) * | 2015-01-16 | 2018-11-28 | 株式会社オカムラ | Chair |
US11259637B2 (en) | 2015-04-13 | 2022-03-01 | Steelcase Inc. | Seating arrangement |
US10194750B2 (en) | 2015-04-13 | 2019-02-05 | Steelcase Inc. | Seating arrangement |
US10463153B2 (en) | 2016-06-09 | 2019-11-05 | Steelcase Inc. | Seating arrangement |
GB2551737B (en) * | 2016-06-28 | 2019-06-05 | Posturite Ltd | Seat tilting mechanism with two springs |
CN106073251B (en) * | 2016-08-05 | 2023-02-28 | 佛山职业技术学院 | Office chair mechanism with adjustable posture |
USD851952S1 (en) | 2017-05-25 | 2019-06-25 | Steelcase Inc. | Seating arrangement |
USD852525S1 (en) | 2017-05-25 | 2019-07-02 | Steelcase Inc. | Seating arrangement |
USD852526S1 (en) | 2017-05-25 | 2019-07-02 | Steelcase Inc. | Seating arrangement |
USD851418S1 (en) | 2017-05-25 | 2019-06-18 | Steelcase Inc. | Seating arrangement |
USD852524S1 (en) | 2017-05-25 | 2019-07-02 | Steelcase Inc. | Seating arrangement |
USD851417S1 (en) | 2017-05-25 | 2019-06-18 | Steelcase Inc. | Seating arrangement |
USD846294S1 (en) | 2017-05-25 | 2019-04-23 | Steelcase Inc. | Seating arrangement |
US11297951B2 (en) * | 2017-06-20 | 2022-04-12 | Kokuyo Co., Ltd. | Chair whose seat swings in a front-rear direction and a left-right direction |
DE102017214298A1 (en) * | 2017-08-16 | 2019-02-21 | Sedus Stoll Ag | Connecting arrangement for a backrest and office or conference seating furniture |
CN107836881A (en) * | 2017-12-28 | 2018-03-27 | 南京六分仪文化创意有限公司 | Stand up spare seat |
CN109330251B (en) * | 2018-11-26 | 2024-04-02 | 陈敏 | Forward tilting structure of chair seat |
US11109683B2 (en) | 2019-02-21 | 2021-09-07 | Steelcase Inc. | Body support assembly and method for the use and assembly thereof |
USD907935S1 (en) | 2019-05-31 | 2021-01-19 | Steelcase Inc. | Chair |
USD907383S1 (en) | 2019-05-31 | 2021-01-12 | Steelcase Inc. | Chair with upholstered back |
US11357329B2 (en) | 2019-12-13 | 2022-06-14 | Steelcase Inc. | Body support assembly and methods for the use and assembly thereof |
JPWO2022091214A1 (en) * | 2020-10-27 | 2022-05-05 |
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-
2011
- 2011-02-22 EP EP11155301A patent/EP2468140A1/en not_active Withdrawn
- 2011-03-11 US US13/046,143 patent/US20120161483A1/en not_active Abandoned
- 2011-12-27 CN CN2011104435776A patent/CN102525158A/en active Pending
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JPH0224527B2 (en) | 1982-01-27 | 1990-05-29 | Meekoo Kogyo Kk | |
JP2001128774A (en) | 1999-11-09 | 2001-05-15 | Okamura Corp | Adjuster of range of tilting movement of a seat back of chair |
WO2002067726A1 (en) * | 2001-02-28 | 2002-09-06 | Interstuhl Büromöbel GmbH & Co. KG | Chair, especially an office chair |
JP2003189967A (en) | 2001-12-28 | 2003-07-08 | Itoki Crebio Corp | Chair |
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Also Published As
Publication number | Publication date |
---|---|
JP2012135398A (en) | 2012-07-19 |
CN102525158A (en) | 2012-07-04 |
US20120161483A1 (en) | 2012-06-28 |
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