JP2004129966A - Backrest structure of chair - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To transform a backrest board comfortably according to a posture of a sitting person. <P>SOLUTION: The backrest is equipped with a backrest board 2 which is transformable, and the control link 58 which supports the backrest board 2 is composed of a flexible resin. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a chair back structure.
[0002]
[Prior art]
In the backrest structure of the conventional chair, the back support rod for supporting the backrest is formed by a steel pipe or the like.
[0003]
For example, in the chair disclosed in Japanese Patent Application Laid-Open No. 2000-23778, as shown in FIG. 44, the left and right support rods are composed of a rigid upper frame 101 and a lower frame 102 that are hardly deformed. The upper frame 101 and the lower frame 102 are connected by a pivotal support member 103, and are variable in angle. A rigid bracket 104, which is hard to deform, is attached near the upper end of the upper frame 101 so as to be variable in angle. A belt 105 made of an elastic material such as resin is attached to the bracket 104 and the lower frame 102. Have been. The backrest plate 106 is attached to the bracket 104 and the lower frame 102 from above the left and right belts 105.
[0004]
The back plate 106 includes a lower shell 106b and an upper shell 106c, and is connected to bend at a bent portion 106a. When the occupant leans against the backrest, the lower shell 106b moves rearward, so that the tension of the belt 105 and the elasticity of the backrest plate 106 cause the upper shell 106c to rotate forward. For this reason, for example, even when looking at the monitor screen of the personal computer while leaning on the backrest, the back of the seated person can be supported by the backrest.
[0005]
[Patent Document 1]
JP 2000-23778 A
[0006]
[Problems to be solved by the invention]
However, in a chair in which the back support rod is formed by a steel pipe or the like, the back plate is rigidly supported. For this reason, even if the back plate is formed of a flexible material such as resin, or the back plate is easily deformed by inserting a slit in the middle of the back plate, the back plate can be largely deformed. It was difficult to satisfactorily deform the back plate according to the posture of the seated person.
[0007]
This is the same in the chair disclosed in JP-A-2000-23778. That is, the backrest has elasticity, but is attached to the bracket 104 and the lower frame 102 from above the left and right belts 105. The elastic belt 105 is used for rotating the upper shell 106c in conjunction with the lower shell 106b. For this reason, for example, when the seated person leans on the right side of the backrest, it is difficult to recline while twisting the backrest plate 106 to the right rear side.
[0008]
An object of the present invention is to provide a backrest structure of a chair that can satisfactorily deform a backboard according to a posture of a seated person.
[0009]
[Means for Solving the Problems]
In order to achieve this object, a chair backrest structure according to the first aspect of the present invention is configured such that the backboard is deformable and the back support rod for supporting the backboard is made of a flexible resin. Therefore, when the occupant leans on the back plate, the back support rod bends to easily deform the back plate.
[0010]
The backrest structure of the chair according to the second aspect is provided with connecting means for connecting the upper end of the back support rod to the upper part of the back plate while absorbing these relative displacements.
[0011]
When the back plate is deformed, a relative displacement occurs between the upper end of the back support rod and the back support connection portion of the back plate, but the connection portion absorbs the relative displacement, and the back plate is made larger and more smoothly. Deform.
[0012]
Further, the backrest structure of the chair according to the third aspect is characterized in that the back frame, the back plate whose lower portion is fixed to the back frame and whose upper portion is bendable in the front-rear direction, and whose lower end is connected to the back frame and centered on the connection point. A control link whose upper end can be tilted in the front-rear direction, and connecting means for connecting the upper end of the control link to the upper part of the back plate while absorbing these relative displacements, and at least the upper part of the back plate is deformable. And the control link is formed of a flexible resin.
[0013]
Thus, when the occupant leans on the backboard, the control link bends the top of the backboard. At the same time, the control link bends, and the back plate easily follows the seated person's posture and is easily deformed.
[0014]
Further, the backrest structure of the chair according to claim 4, a back frame, a back plate whose lower portion is fixed to the back frame and whose upper portion can be bent in the front-rear direction, the bending angle of the back plate is changed and the bending angle is fixed. And a control link having a lower end connected to the back frame and an upper end capable of tilting in the front-rear direction about the connection point, and And a displacement means provided at a position distant from the connection point between the back frame and the control link to change the distance between the back frame and the control link. In addition, at least the upper portion of the back plate is made deformable, and the control link is formed of a flexible resin.
[0015]
Therefore, when the seated person leans on the backboard, the control link bends and the backboard is easily deformed. The bending angle of the backboard can be adjusted to a desired angle by operating the bending angle adjusting mechanism. After adjusting the bending angle of the backboard to a desired angle, the bending angle adjusting mechanism is operated to fix the bending angle, that is, to prevent the bending angle from changing. Even if the seated person leans strongly against the backboard, the bending angle of the backboard is maintained by the bending angle adjustment mechanism.
[0016]
That is, when the distance between the back frame and the control link is changed by operating the displacement means, the control link tilts with respect to the back frame. Since the upper end of the control link is connected to the upper portion of the back plate, the tilt angle of the control link changes the bending angle of the back plate. At this time, since the amount of movement of the upper end of the control link is different from the amount of movement of the control link connecting portion of the back plate, a relative displacement occurs between the upper end of the control link and the control link connecting portion of the back plate. The displacement is absorbed by the connecting portion, and the tilting of the control link and the bending of the back plate are made smooth.
[0017]
Further, the backrest structure of the chair according to claim 5, wherein the displacement means is provided with an adjusting screw provided on one of the back frame and the control link, and a screw hole provided on one of the other and into which the adjusting screw is inserted. An angle changing means for changing at least one of the adjusting screw and the screw hole in the vertical direction is provided.
[0018]
Therefore, when the adjusting screw is rotated, the screwing amount into the screw hole changes. Therefore, the distance between the back frame and the control link at a position distant from the connection point between the back frame and the control link changes, and the tilt angle of the control link changes to change the bending angle of the back plate. As the tilt angle of the control link and the bending angle of the back plate change, the facing angle between the adjusting screw of the displacement means and the screw hole also changes, but this change is absorbed by the angle changing means.
[0019]
Further, in the chair backrest structure according to claim 6, the connecting means includes a circumferential portion provided at an upper end of the control link, and a connecting portion slidable relative to the circumferential portion and slidable in the axial direction. A supporting means for rotatably attaching the connecting portion to the back plate in a vertical direction, wherein the connecting portion has a length that does not drop off from the circumferential portion.
[0020]
Therefore, the relative displacement of the control link in the axial direction is absorbed by sliding the connecting portion, for example, the cap in the axial direction with respect to the circumferential portion. In addition, when the connecting portion rotates vertically (changes in angle) with respect to the back plate, a change in the vertical angle between the control link and the back plate is absorbed. Furthermore, the rotation of the connecting portion with respect to the circumferential portion absorbs a change in the horizontal angle between the control link and the back plate.
[0021]
According to a seventh aspect of the present invention, in the chair backrest structure, the connecting means is provided on the upper end of the control link and extends in the axial direction, and the insertion means is provided on the back surface of the back plate and the convex portion is inserted from below. It has a convex receiving portion having a mouth formed therein, and a space provided above the convex receiving portion to allow movement of the tip of the convex portion.
[0022]
Therefore, the relative displacement of the control link in the axial direction is absorbed by the axial movement of the projection relative to the projection receiver. In addition, since the convex portion makes a razor movement with respect to the insertion opening, a change in the vertical angle and a change in the horizontal direction of the control link and the back plate are absorbed. Further, the rotation of the projection relative to the projection receiver absorbs a change in the horizontal angle between the control link and the back plate.
[0023]
In the backrest structure for a chair according to the eighth aspect, a lower portion or an upper portion can be bent in the front-rear direction by forming a slit in the back plate. Therefore, the rigidity of the back plate is reduced at the slit and the portion on the extension thereof, and the lower or upper portion of the back plate is easily bent in the front-rear direction.
[0024]
In the backrest structure for a chair according to the ninth aspect, the support member is rotatably attached to the upper end of the back plate, the support member and the back frame are connected by a link, and the support member rotates in conjunction with the bending of the back plate. It is to let. Therefore, even if the occupant takes a posture in which the head or the like is raised while leaning against the backboard, the head or the like can be supported by the support member.
[0025]
Further, as in the backrest structure of the chair according to the tenth aspect, the resin may be nylon with glass.
[0026]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the configuration of the present invention will be described in detail based on the best mode shown in the drawings.
[0027]
1 to 12 show an example of an embodiment of a chair backrest structure to which the present invention is applied. The backrest structure of the chair (hereinafter simply referred to as a backrest structure) includes a back frame 1, a back plate 2 having an upper portion 2a or a lower portion 2b fixed to the back frame 1, and a lower portion 2b or an upper portion 2a capable of bending in the front-rear direction. A bending angle adjusting mechanism 3 that changes the bending angle of the plate 2 and fixes the bending angle is provided. In the present embodiment, the lower portion 2b of the back plate 2 is fixed to the back frame 1, and the upper portion 2a of the back plate 2 is bendable in the front-rear direction. Further, a control link 58 having a lower end connected to the back frame 1 and an upper end capable of tilting in the front-rear direction about the connection point 4, and an upper end of the control link 58 being connected to the upper portion 2 a of the back plate 2. And a connecting means 6 for connecting while absorbing these relative displacements, and a distance between the back frame 1 and the control link 58 provided at a position away from the connection point 4 between the back frame 1 and the control link 58. It is provided with a displacement means 7 for changing.
[0028]
The back frame 1 is attached to the seat receiving member 8 so as to be tiltable. A lower portion 2b of a back plate 2 is fixed to the back frame 1.
[0029]
The back plate 2 is made of, for example, a flexible material. In the present embodiment, the back plate 2 is formed of a resin such as polypropylene or nylon. However, the resin used as the material of the back plate 2 is not limited to these, and the back plate 2 may be formed of a material other than the resin. As described above, in the present embodiment, the back plate 2 is made deformable by forming the back plate 2 with a flexible material. However, when the back plate 2 is not formed with a flexible material, the back plate 2 is formed. The back plate 2 may be deformable by providing a slit in the plate 2 or forming a hole or hole such as a circle or a polygon.
[0030]
Although both sides of the back plate 2 are curved forward, the slits 10 are formed in the back plate 2 so that the upper portion 2a can be easily bent in the front-rear direction with respect to the lower portion 2b. In the present embodiment, the slit 10 is formed in a U-shape, but the shape of the slit 10 is not limited to this. For example, a U-shape that is upside down, an H-shape, or an outer shape of a spade mark is used. The lower end of the spade mark may have a continuous shape or another shape. The upper part of the slit 10 of the back plate 2 is a tongue piece 2c.
[0031]
Further, the shape of the slit 10 may be linear. In this case, for example, two slits 10 may be provided as shown in FIG. 34, or one slit 10 may be provided as shown in FIG. 35. Further, three or more slits 10 may be provided. It may be provided.
[0032]
In addition, as shown in FIG. 3 and the like, when the shape of the slit 10 is U-shaped to form the tongue piece 2c, the tongue piece 2c can be projected when the back plate 2 is bent. The waist and the like of the seated person can be supported by the protruding tongue piece 2c. When it is not necessary to project the tongue piece 2c or when it is not preferable to project the tongue piece 2c, the shape of the slit 10 is linear. That is, by making the shape of the slit 10 straight, even if the back plate 2 is bent, it is possible to prevent a part of the back plate 2 from projecting.
[0033]
The control link (back support rod) 58 includes, for example, two arm portions 5 and a connection portion 12 that connects these arm portions 5, and these are integrally formed. The control link 58 is formed of a flexible resin. The resin is not particularly limited as long as it is capable of deforming the backboard 2 satisfactorily in accordance with the posture of the occupant and having the rigidity required for forming the backrest structure. Absent. In the present embodiment, for example, nylon containing glass is used. The control link 58 has rigidity in constituting the backrest structure, and has elasticity for improving the deformation of the back plate 2.
[0034]
A pair of projecting pieces 12a arranged so as to sandwich the back frame 1 from both sides are fixed to the lower end of the connecting portion 12. The lower end of the control link 58 is rotatably connected to the back frame 1 around the shaft 4 by penetrating a shaft (hereinafter, referred to as a shaft 4) serving as a connection point 4 between each protruding piece 12a and the back frame 1. Thus, the upper end can be swung in the front-rear direction. The two arms 5 are separated upward from below, and their upper ends are connected to the vicinity of the corners of the back plate 2 by connecting means 6.
[0035]
As shown in FIG. 5, for example, the connecting means 6 includes a circumferential portion 13 provided at the upper end of the arm portion 5 of the control link 58, and a connecting portion slidably movable relative to the circumferential portion 13 and slidable in the axial direction. 14 and a shaft support means 15 for attaching the connecting portion 14 to the back plate 2 so as to be rotatable in the vertical direction. In the present embodiment, since the cross-sectional shape of the arm 5 of the control link 58 is circular, the upper end of the arm 5 is the circumferential portion 13. The connecting portion 14 is, for example, a cap (hereinafter, referred to as a cap 14) fitted into the circumferential portion 13 so as to be relatively rotatable and slidable in the axial direction. However, the connecting portion 14 is not limited to the cap, and may be, for example, a ring.
[0036]
The shaft support means 15 includes a protruding piece 14a fixed to the cap 14, a pair of protruding pieces 2d arranged to sandwich the protruding piece 14a and fixed to the back plate 2, and a pair of these protruding pieces 2d and 14a. And a support shaft 16 that penetrates through.
[0037]
The cap 14 is fitted into the circumferential portion 13 from above. By making the inner diameter of the cap 14 slightly larger than the outer diameter of the circumferential portion 13, the cap 14 is rotatable with respect to the circumferential portion 13 and slidable in the axial direction. The cap 14 has such a length that it does not fall off from the circumferential portion 13. That is, even if the cap 14 slides with respect to the circumferential portion 13 due to the tilting of the control link 58 and the bending of the back plate 2, the cap 14 does not come off from the circumferential portion 13.
[0038]
The displacing means 7 includes an adjusting screw 17 provided on one of the back frame 1 and the control link 58, a screw hole 18 provided on one of the other, into which the adjusting screw 17 is inserted, an adjusting screw 17 and a screw hole 18 And angle changing means 19 for changing at least one of the angles in the vertical direction. In the present embodiment, the adjusting screw 17 is attached to the connecting portion 12 of the control link 58, and the back frame 1 is provided with the screw hole 18 via the angle changing means 19.
[0039]
More specifically, the adjusting screw 17 is rotatably and irremovably attached to the connecting portion 12 via the thrust bearing 20. The angle changing means 19 includes a cylindrical body 21 passed between the side plates 1d, 1d of the back frame 1 and screws 22, which rotatably attach both ends of the cylindrical body 21 to the side plates 1d, 1d of the back frame 1. 22. The screw 22 is screwed into a screw hole 1 e formed in the side plate 1 d of the back frame 1.
[0040]
The screw hole 18 passes through the center of the cylindrical body 21. A stop disk 23 is attached to the tip of the adjusting screw 17 screwed into the screw hole 18 so that the adjusting screw 17 does not fall out of the screw hole 18.
[0041]
In this backrest structure, the bending angle of the backboard 2 can be adjusted to a desired angle as described below.
[0042]
Now, when the adjusting screw 17 is rotated and extended in a direction in which the adjusting screw 17 is pulled out from the screw hole 18 from the state shown in FIGS. 1 and 6, the space between the back frame 1 and the control link 58 in this portion is increased. It falls backwards about the shaft 4 (tilts backward). For this reason, the upper end of the control link 58 pulls the upper part 2a of the back plate 2 backward, and makes the back plate 2 elastically deform and bend (FIGS. 2 and 7).
[0043]
When the rotation operation of the adjusting screw 17 is stopped, the interval between the back frame 1 and the control link 58 does not change, so that the tilt angle of the control link 58 is kept constant, and therefore, the bending angle of the back plate 2 is kept constant. You can use the chair in this state.
[0044]
When the adjusting screw 17 is rotated in the direction opposite to the above-described operation, the adjusting screw 17 is screwed into the screw hole 18 to be short, and the space between the back frame 1 and the control link 58 in this portion is reduced. For this reason, the control link 58 rotates forward around the shaft 4 and rises (tilts forward). Thereby, the pulling force of the control link 58 in the direction of the back plate 2 is reduced, and the bending angle of the back plate 2 is reduced. That is, as shown in FIGS. 1 and 6, the bending angle of the back plate 2 can be returned to the original angle.
[0045]
In the backrest structure of the present invention, even when the occupant leans on the backboard 2 and tilts the backboard 2 with respect to the seat receiving member 8, in other words, even when the entire backrest is reclined, the adjusting screw 17 is moved. Since no rotating force is generated, the bending angle of the back plate 2 does not change during use.
[0046]
That is, the seated person can adjust the bending angle of the back plate 2 to a desired angle by operating the adjusting screw 17, and can use the chair with the back plate 2 bent at the desired angle. As a result, the usability of the chair can be improved. In addition, it is easy to rotate the adjusting screw 17 and the adjustment work is also simple. From this, the usability of the chair can be improved.
[0047]
By using the chair with the bending angle of the back plate 2 increased, for example, when the back frame 1 is tilted and the entire backrest is reclined, the back muscles can be further lengthened, and the back stretching effect can be further obtained. Can be.
[0048]
By expanding and contracting the gas spring 24 connecting the rear end of the seat receiving member 8 and the middle of the back frame 1, the back frame 1 can be tilted with respect to the seat receiving member 8 and reclined. That is, the gas spring 24 constitutes a triangular link mechanism together with the seat receiving member 8 and the back frame 1. When the length of the gas spring 24 can be changed, the back frame 1 can be tilted. If the length of the spring 24 is fixed, the back frame 1 cannot be tilted. The length of the gas spring 24 is fixed or released by operating the lever 25. The lever 25 is arranged in a space below the side edge of the back plate 2 so that the occupant does not bend forward, and can be grasped only by lowering the hand with the back on the back plate 2. Can be operated as it is. Therefore, it is easy to perform the lever operation, and also to easily perform the operation of pushing the back plate 2 with the back while operating the lever 25. Further, if the link 26 is extended from the valve operating portion of the gas spring 24 in the left-right direction of the chair, the lever 25 can be directly attached to the link 26, and a rational arrangement can be adopted. That is, the gas spring 24, the link 26, the lever 25, and the like can be assembled into a chair in a unitized state in advance, and the chair can be easily assembled.
[0049]
When the adjusting screw 17 is operated to change the tilt angle of the control link 58, the height relationship between the adjusting screw 17 and the screw hole 18 changes, so that the opposing angles change. In the present invention, the cylindrical body 21 of the angle changing means 19 rotates in accordance with a change in the height relationship between the adjusting screw 17 and the screw hole 18, so that the adjusting screw 17 and the screw hole 18 can always be arranged on a straight line. That is, since the angle changing means 19 absorbs the change in the angle between the adjusting screw 17 and the screw hole 18, the adjusting screw 17 can always be smoothly rotated. For this reason, the adjusting screw 17 can be operated with a light force, and is excellent in usability.
[0050]
When adjusting the bending angle of the back plate 2 by inclining the control link 58, the movement amount of the upper end of the arm portion 5 of the control link 58 and the portion (link connection portion) connecting the arm portion 5 of the back plate 2 are adjusted. Since the movement amounts are different, a relative displacement occurs between the upper end of the arm portion 5 and the link connecting portion of the back plate 2, and the connecting means 6 absorbs the relative displacement. That is, the relative displacement of the arm portion 5 in the axial direction can be absorbed by the cap 14 sliding in the axial direction with respect to the circumferential portion 13. The change in the vertical angle between the arm 5 and the back plate 2 can be absorbed by changing the relative angle between the back plate 2 and the cap 14 about the support shaft 16 of the shaft support means 15. Further, a change in the angle between the arm 5 and the back plate 2 in the horizontal direction can be absorbed by the rotation of the cap 14 with respect to the circumference 13.
[0051]
As described above, since the relative displacement generated between the upper end of the control link 58 and the link connecting portion of the back plate 2 can be absorbed by the connecting means 6, the control link 58 is tilted to bend the back plate 2. The mechanism can be established. In addition, since no excessive force acts on the connecting portion between the arm 5 and the back plate 2 of the control link 58, the back plate 2 can be moved smoothly, and the back plate 2 can be bent with a light force. It becomes easier to use. Further, since an excessive force can be prevented from acting on the connecting portion between the arm portion 5 and the back plate 2 of the control link 58, damage and wear of members and components due to stress concentration can be prevented, and the product life can be extended. it can. Further, it is possible to improve the degree of freedom in selecting the material of each member / part, and the degree of freedom in combination of materials between the sliding / contacting members / parts.
[0052]
Further, since the connecting means 6 absorbs a change in the horizontal angle between the control link 58 and the back plate 2 by rotating the cap 14 with respect to the circumferential portion 13, the back plate 2 is viewed in plan. In this case, it becomes easy to curve the back plate 2 so that the center of the back plate 2 projects rearward. That is, when the occupant leans on the back plate 2, the back plate 2 is easily curved in accordance with the shape of the back. Therefore, the sitting comfort can be further improved.
[0053]
In the present invention, the back plate 2 is made deformable by, for example, forming a flexible material, and the control link 58 is formed of a flexible resin. The back plate 2 is easily deformed following the movement of the occupant, and the sitting comfort can be improved.
[0054]
For example, when the occupant leans on one side of the backboard 2, the arm 5 of the two arms 5 of the control link 58 on which the weight of the occupant acts more flexibly, As shown in FIG. 41, the upper end of the back plate 2 is deformed so as to be twisted about the center line 59 of the back plate 2. That is, since the arm portion 5 of the control link 58 bends, it is difficult to hinder the deformation of the back plate 2, and the back plate 2 can be largely deformed into a shape that follows the posture of the seated person. When the occupant leans on the center of the back plate 2, the two arms 5 of the control link 58 are twisted inward, and the center of the back plate 2 is moved rearward as shown in FIG. It curves greatly to protrude. That is, since the arm 5 of the control link 58 is twisted, it becomes difficult to hinder the deformation of the back plate 2, and the back plate 2 can be largely deformed into a shape that follows the posture of the occupant. Further, as shown in FIG. 43, only one side of the back plate 2 can be deformed. That is, only one of the two arm portions 5 of the control link 58 is largely bent, so that the back plate 2 can be largely deformed into a shape that follows the posture of the occupant. In these cases, the connecting means 6 makes the movement smooth without suppressing the twisting or bending movement between the back plate 2 and the control link 58.
[0055]
In the present invention, the control link 58 is formed of a flexible resin so as not to prevent the back plate 2 from being deformed. Therefore, the degree of freedom of deformation of the back plate 2 can be increased with a simple structure, and the number of parts does not increase.
[0056]
Although not shown in FIGS. 1 to 3, 6, and 7, a cushion material 27 is attached to the front surface of the back plate 2. The cushion material 27 is stored in a bag-like cover 28. A pocket-shaped folded portion 28a is provided at the upper edge of the back surface of the cover 28, and a pocket portion 28b that opens upward is provided at a position on the back surface of the cover 28 facing the slit 10 of the back plate 2. Further, the shape of the pocket portion 28b is a shape corresponding to the shape of the slit 10 and the tongue piece portion 2c. An elastically deformable insole plate 29 is placed in the folded portion 28a to adjust the shape of the upper end edge of the cover 28 and to prevent the folded portion 28a from wrinkling or bending, thereby turning the folded portion 28a. Making it easier.
[0057]
To attach the cushion material 27 to the back plate 2, first, the pocket portion 28b of the cover 28 is passed through the slit 10 of the back plate 2 to cover the tongue piece portion 2c of the back plate 2 from below, and then the folded portion 28a is attached. It is sufficient to cover the upper edge of the back plate 2 while turning. Since the upper edge of the back plate 2 faces upward, and the tongue piece 2c of the back plate 2 faces downward, the cover 28 can be attached to the back plate 2 so as to be spread vertically. In addition, since the folded portion 28a of the cover 28 covers the upper edge of the back plate 2 and the pocket portion 28b covers the tongue piece portion 2c, the cover 28 does not shift with respect to the back plate 2 in the left-right direction.
[0058]
In this way, the cushioning material 27 can be attached to the back plate 2 simply by covering the folded portion 28a of the cover 28 from above and covering the pocket portion 28b from below by passing the pocket 28b through the slit 10, so that the attaching operation is very simple. is there. In addition, the cushion member 27 can be attached at an accurate position in both the vertical and horizontal directions.
[0059]
That is, in the conventional method, when attaching the cover 28 for accommodating the cushion material 27 to the back plate 2, the cover 28 is fixed to the back plate 2 by a pin or a hook-and-loop fastener (so-called magic tape). In some cases, a folded portion 28a is provided on the upper edge of the cover 28 to cover the upper edge of the back plate 2. However, even in this case, the lower portion 2b of the cover 28 is fixed to the back plate 2 using pins or hook-and-loop fasteners. I was Therefore, in the conventional method, it takes time and effort to attach the cover 28 accommodating the cushion material 27 to the back plate 2, resulting in poor workability. On the other hand, in the present invention, it is not necessary to perform a troublesome work of stopping using a pin or a hook-and-loop fastener, and also, an operation of positioning the pin or the hook-and-loop or positioning the cover 28 itself on the back plate. Since there is no need to perform this, the workability is very excellent and the manufacturing cost can be reduced.
[0060]
In addition, since the folded portion 28a and the pocket portion 28b of the cover 28 can be seen from the back of the chair, the color of the back plate 2 and the color of the cover 28 are made different from each other so that the folded portion 28a and the pocket portion 28b are one-piece design. The point is that the design can be unconventional, and it can be differentiated from other types of chairs.
[0061]
Further, with the cover 28 attached to the back plate 2, the pocket portion 28b can be used as a pocket in which accessories such as a mobile phone can be stored.
[0062]
The mounting structure of the cushion member 27 as described above is not limited to the chair having the structure shown in FIG. 1, but may be applied to any back plate 2 provided with the slit 10 and forming the tongue piece 2 c. is there.
[0063]
Further, although the above-described pocket portion 28b is opened upward, the pocket portion 28b may be opened downward. In this case, the slit 10 is formed in a U-shape with the upside down.
[0064]
Further, it is a matter of course that a means that can be engaged with the tongue piece 2c, for example, a band or the like may be provided instead of the pocket 28b. When a band portion is provided instead of the pocket portion 28b, for example, the slit portion 10 may be formed in a U-shape, and the band portion may be formed in a U-shape in which the slit 10 is turned upside down. And the cover 28 can be attached to the back plate 2. In addition, as shown in FIG. 33, a step 10a may be provided in the slit 10 to prevent the band 28c from coming off the tongue piece 2c.
[0065]
The above-described embodiment is an example of a preferred embodiment of the present invention, but is not limited thereto, and various modifications can be made without departing from the spirit of the present invention.
[0066]
For example, in the above description, the circumferential portion 13, the cap 14, and the shaft support 15 are provided as the connecting means 6, but the configuration is not necessarily required. For example, like the connecting means 6 shown in FIG. 13, the link side protruding piece 30 is fixed to the upper end of the arm 5 of the control link 58 to provide an elongated slot 31 in the axial direction of the arm 5, and the back plate 2 The rear plate-side projection 32 may be fixed to the rear plate-side projection 32, and a pin 33 penetrating through the elongated hole 31 may be attached to the rear plate-side projection 32. The movement of the pin 33 in the elongated hole 31 can absorb the relative displacement of the arm 5 in the axial direction. In addition, the rotation of the pin 33 in the elongated hole 31 can absorb a change in the vertical angle between the arm 5 and the back plate 2. In the example of FIG. 13, the long hole 31 is provided on the arm 5 and the pin 33 is provided on the back plate 2. However, the pin 33 is provided on the arm 5 and the long hole 31 is provided on the back 2. May be.
[0067]
The connecting means 6 is provided at the upper end of the arm 5 of the control link 58 and extends in the axial direction as shown in FIGS. A projection 53 having an insertion opening 52 into which the projection 51 is inserted from below may be provided, and a space 54 provided above the projection 53 to allow the tip of the projection 51 to move. In the example of FIG. 36, a box portion 55 is formed on the back surface of the back plate 2, the bottom wall of the box portion 55 is a convex receiver 53, and the internal space of the box portion 55 is a space 54. However, it is needless to say that the structure for forming the convex portion receiver 53 and the space 54 is not limited to the box portion 55.
[0068]
FIG. 37 shows the concept of the insertion port 52. The opening of the insertion port 52 is widened on both sides of the projection receiver 53. For this reason, it is easy for the convex portion 51 inserted into the insertion opening 52 to perform the rubbing motion with respect to the convex portion receiver 53, and the relative degree of freedom of the relative movement between the back plate 2 and the arm portion 5 is improved. Is improved.
[0069]
When adjusting the bending angle of the back plate 2 by inclining the control link 58, the movement amount of the upper end of the arm portion 5 of the control link 58 and the portion (link connection portion) connecting the arm portion 5 of the back plate 2 are adjusted. Since the movement amounts are different, a relative displacement occurs between the upper end of the arm portion 5 and the link connecting portion of the back plate 2, and the connecting means 6 absorbs the relative displacement. That is, the relative displacement of the arm 5 in the axial direction can be absorbed by the protrusion 51 moving in the axial direction with respect to the protrusion receiver 53. Further, the relative angle change between the arm 5 and the back plate 2 can be absorbed by the projection 51 performing a sleaking motion with respect to the projection receiver 53. Further, a change in the angle between the arm 5 and the back plate 2 in the horizontal direction can be absorbed by the rotation of the protrusion 51 with respect to the protrusion receiver 53.
[0070]
In this type of connecting means 6, the shaft supporting means 15 required for the connecting means 6 shown in FIG. 5 can be omitted. Therefore, the structure is simplified, the number of parts can be reduced, the number of manufacturing steps can be reduced, and the manufacturing cost can be reduced although the degree of freedom of movement is improved.
[0071]
Further, as shown in FIG. 38, the box portion 55 of the connecting means 6 may be connected to the back plate 2 by pins 56, and the box portion 55 may be rotatable up and down with respect to the back plate 2.
[0072]
Further, the displacement means 7 may have an uneven long hole structure. 14 and 15 show an example in which the displacement means 7 has an uneven long hole structure. In this displacement means 7, a plate 35 having an elongated hole 34 having irregularities is attached to the connecting portion 12 of the control link 58, and a pin 36 is attached to the back frame 1, and the pin 36 is connected to the elongated hole 34 having the irregularities. May be adopted. In this configuration, a long hole 37 is provided near the lower end of the plate 35, and the shaft 4 is made to pass through the long hole 37.
[0073]
When changing the tilt angle of the control link 58, the control link 58 is lifted, the pin 36 is removed from the concave portion 34a of the elongated hole 34 having irregularities, and the tilt angle of the control link 58 is changed to move the pin 36 to the adjacent concave portion 34a. The control link 58 is lowered in this state. That is, the bending angle of the back plate 2 can be adjusted by changing the position of the pin 36 with respect to the elongated hole 34 having irregularities. Since the weight of the control link 58 and the like can prevent the pin 36 from coming off the concave portion 34a, the tilt angle of the control link 58 can be fixed, and the bending angle of the back plate 2 during use can be fixed. Can be.
[0074]
In the examples of FIGS. 14 and 15, the recesses 34 a are provided at two places of the elongated hole 34 having irregularities so that the tilt angle of the control link 58 can be adjusted in two steps. However, the number of the recesses 34 a is two. Of course, it is not limited. By increasing the number of the recesses 34a, the number of selectable tilt angles of the control link 58 increases, and the bending angle of the back plate 2 can be adjusted in multiple steps.
[0075]
Further, the displacement means 7 may have a cam structure. 16 and 17 show an example in which the displacement means 7 has a cam structure. In the displacement means 7, the cam plate 38 is rotatably attached to the connection portion 12 of the control link 58. A long hole 38a is formed in the cam plate 38, and the rotation angle of the cam plate 38 is limited to a certain range by passing a fixing pin 39 through the long hole 38a. By rotating an operation lever (not shown), the cam plate 38 can be rotated to change the distance between the control link 58 and the back plate 2. When the distance between the control link 58 and the back plate 2 is reduced by operating the cam plate 38, that is, when the cam plate 38 is operated from the state of FIG. 17 to the state of FIG. 16, the back plate 2 has its own elasticity. The back plate 2 is not separated from the cam plate 38 because the bending angle is reduced by trying to return to the original shape by the force. That is, when the pushing force by the cam plate 38 is released, the back plate 2 reduces the bending angle by its own elastic force.
[0076]
In the displacement means 7 using the cam structure, the bending angle of the back plate 2 can be adjusted steplessly by allowing the rotation angle of the cam plate 38 to be fixed to an arbitrary angle. Further, by making the shape of the cam portion of the cam plate 38 polygonal, the tilt angle of the control link 58 can be changed stepwise, and the bending angle of the back plate 2 can be adjusted in multiple steps. it can.
[0077]
Further, the displacement means 7 may have a link structure. 18 and 19 show an example in which the displacement means 7 has a link structure. In this displacement means 7, the connecting portion 12 of the control link 58 and the back plate 2 are connected by two links 40 and 41, and the return spring 42 is attached between the connecting portion 12 and the back plate 2 in a compressed state. I have. In the state shown in FIG. 19, the control link 58 is tilted backward while the two links 40 and 41 are extended by the urging force of the return spring 42, and the bending angle of the back plate 2 is increased. Also, when the two links 40 and 41 are contracted (bent) against the urging force of the return spring 42, the control link 58 rises and the bending angle of the back plate 2 decreases (FIG. 18). The bending angle of the back plate 2 can be adjusted by changing the bending angle of the two links 40 and 41 by operating means (not shown) and fixing the bending angle.
[0078]
In the displacement means 7 using the link structure, the bending angle of the back plate 2 can be adjusted steplessly by enabling the two links 40 and 41 to be fixed at an arbitrary bending angle.
[0079]
Further, in the above description, the bending angle of the back plate 2 is increased by tilting the upper end of the control link 58 rearward, and, for example, at the time of reclining, the back muscles of the occupant can be further stretched so that the back stretching effect is achieved. Although it was made possible to obtain more, this configuration is not necessarily required.
[0080]
For example, the buttocks of the seated person may be supported by the lower part 2b of the back plate 2. 20 to 23 show an example in which the lower part 2b of the back plate 2 is used as a buttocks support. In this example, the back frame 1 is extended upward, and the upper part 2 a of the back plate 2 is fixed to the back frame 1. The lower portion 2b of the back plate 2 can be tilted forward. The upper end of the control link 58 is rotatably attached to the back frame 1. The lower end of the control link 58 is connected to the lower portion 2b of the back plate 2. By tilting the control link 58 back and forth by operating the displacement means 7, the bending angle of the back plate 2 can be changed and the lower portion 2b can be tilted back and forth. For example, by tilting the lower part 2b of the backboard 2 toward the front, the lower part 2b serves as a buttocks support for supporting the buttocks of a seated person, and a feeling of support during sitting can be obtained.
[0081]
As shown in FIGS. 24 and 25, the control link 58 may be omitted, and the displacement means 7 may be provided between the back frame 1 and the back plate 2. Also in this case, the lower portion (buttock support) 2b can be tilted back and forth by changing the bending angle of the back plate 2 by operating the displacement means 7.
[0082]
Further, the height of the back plate 2 may be adjustable. FIG. 26 shows an example in which the height of the back plate 2 is adjustable. Dividing the back frame 1 into a lower frame 1a and an upper frame 1b, inserting the upper frame 1b into a cylindrical portion 1c provided at the end of the lower frame 1a, and sliding the upper frame 1b with respect to the cylindrical portion 1c. Then, the height of the back plate 2 is adjusted. By locking the upper frame 1b to the cylindrical portion 1c by locking means (not shown), the back plate 2 can be fixed at the adjusted height. By adjusting the height of the back plate 2, the height of the bent portion of the back plate 2 can be changed. As shown in FIGS. 27 and 28, by adjusting the height of the back plate 2 according to the physique of the seated person, the sitting comfort is improved. FIG. 27 shows a situation where a child is sitting, and FIG. 28 shows a situation where an adult is sitting.
[0083]
Although the support member is not provided in the example of FIG. 1, a support member may be provided. That is, the support member is rotatably attached to the upper end of the back plate 2, the support member and the back frame 1 are connected by the link 45, and the support member is moved (rotated) in conjunction with the bending of the back plate 2. Is also good. FIGS. 29 to 32 show an example in which, for example, a headrest 44 is provided as a support member. The lower end of the headrest 44 is rotatably attached to the upper end of the back plate 2, and the upper end of the headrest 44 is connected to the back frame 1 by a link 45. The link 45 is rotatably connected to the headrest 44 and the back frame 1. As shown in FIGS. 29 and 31, when the height of the back plate 2 is not bent so much, the headrest 44 moves rearward and does not obstruct the occupant. When the back plate 2 is bent from this state, the headrest 44 moves forward as shown in FIGS. 30 and 32, and can support the head of the seated person.
[0084]
The support member that moves in conjunction with the bending of the back plate 2 by the link 45 is not limited to the headrest 44 that supports the head of the occupant. For example, as shown in FIG. 39 and FIG. 40, a support body 57 that supports from the shoulder blade portion to the head of the seated person may be used. The support body 57 is rotatably attached to the upper end of the back plate 2. For example, if the user leans on the backboard 2 while operating the personal computer, the seated person takes a posture such that the upper part of the back is slightly raised to look at the monitor. Even in such a case, the support body 57 can support the upper body of the seated person.
[0085]
Although the link 45 is provided to move the support member in conjunction with the bending of the back plate 2, the movement of the support member may not be linked to the bending of the back plate 2. Further, the support member may be fixed to the back plate 2. Further, an operation means for operating the support member independently of the bending of the back plate 2 may be provided, and the operation of the support member may be performed by this operation means.
[0086]
Further, in the above description, the back plate 2 is made of a flexible material so as to be bendable. However, the upper portion 2a and the lower portion 2b of the back plate 2 are formed as separate members, and the upper portion 2a and the lower portion 2b are hinged or the like. May be connected so that the back plate 2 can be bent. As the hinge, for example, a resin hinge formed integrally with the upper portion 2a or the lower portion 2b of the back plate 2 and formed using a resin that is more flexible than the resin used as the material of the upper portion 2a or the lower portion 2b is used. In addition, it is possible to apply a hinge which is integrally formed with the upper portion 2a or the lower portion 2b of the back plate 2 and has flexibility by making the thickness smaller than the upper portion 2a or the lower portion 2b. The upper plate 2a and the lower plate 2b of the back plate 2 can be divided and hinges can be used to connect them.
[0087]
Although not shown, an operation lever or the like is provided at a position where a seated person can easily operate, and the displacement means 7 such as the adjusting screw 17, the cam plate 38, and the links 40 and 41 are operated using the operation lever or the like. Is also possible.
[0088]
Further, an electric motor for rotating the adjusting screw 17, the cam plate 38, and the links 40 and 41 may be provided, and the electric motor may be started / stopped by operating a switch to operate the displacement means 7 electrically.
[0089]
In addition, a bag that expands and contracts with a fluid is provided as the displacement means 7, and the bag is connected to the control link 58 and the back plate 2 to inflate or inflate the bag by injecting or sucking a fluid such as air into the bag. The control link 58 may be tilted by contraction, that is, the back plate 2 may change the bending angle.
[0090]
Further, instead of the back plate, the bending angle of the seat plate may be adjusted. That is, a seat frame, a seat plate having a front portion or a rear portion fixed to the seat frame, and a rear portion or a front portion capable of bending vertically, and a bending angle adjusting mechanism for changing a bending angle of the seat plate and fixing the bending angle. It may be a seat structure of a chair provided with.
[0091]
Further, a chair seat structure including a seat plate having a front portion fixed to a seat frame and a rear portion capable of bending vertically, and a bending angle adjusting mechanism for changing a bending angle of the seat plate and fixing the bending angle, Alternatively, when the lower portion of the back plate 2 is fixed to the rear portion of the seat plate, and the rear portion of the seat plate is bent downward, the back plate 2 may be tilted rearward following this.
[0092]
In the above description, the bending angle adjusting mechanism 3 is provided, but the bending angle adjusting mechanism 3 may be omitted. That is, in a chair not provided with the bending angle adjusting mechanism 3, the back plate 2 may be made deformable, and the back support rod 58 supporting the back plate 2 may be formed of a flexible resin. In this case, connecting means 6 for connecting the upper end of the back support rod 58 to the upper part of the back plate 2 while absorbing these relative displacements may be provided, or the connecting means 6 may be omitted and the back support rod 58 may be omitted. It may be attached to the back plate 2. Also in these cases, the back plate 2 is easily deformed and easily deformed by following the movement of the seated person, and the sitting comfort is improved, and the degree of freedom of the deformation of the back plate 2 is improved by a simple structure. This is similar to the above-described backrest structure in that the number of parts can be reduced and the number of parts is not increased.
[0093]
Further, in the above description, the displacement means 7 is provided, but the control means 7 may be omitted. That is, a back frame 1, a back plate 2 in which a lower portion 2 b is fixed to the back frame 1 and an upper portion 2 a is bendable in the front-rear direction, and a lower end is connected to the back frame 1, and an upper end thereof is A control link 58 that can be tilted in the direction, and connecting means 6 for connecting the upper end of the control link 58 to the upper portion 2a of the back plate 2 while absorbing these relative displacements, and at least the upper portion 2a of the back plate 2 can be deformed. In addition, the control link 58 may be formed of a flexible resin. This example is shown in FIG. 45 and FIG. When the occupant leans on the back plate 2, the control link 58 causes the upper portion 2a of the back plate 2 to bend. At the same time, since the control link 58 follows the posture of the seated person and bends, the upper portion 2a of the back plate 2 can be easily deformed by following the posture of the seated person. That is, also in this case, the back plate 2 is easily deformed and easily deformed following the movement of the seated person, and the sitting comfort is improved, and the degree of freedom of deformation of the back plate 2 is increased with a simple structure. The points that can be performed and the number of parts are not increased are the same as those of the above-described backrest structure.
[0094]
【The invention's effect】
As described above, in the backrest structure of the chair according to the first aspect, the backboard is made of a resin having flexibility so that the backboard is deformable and the back support rod for supporting the backboard is formed. Can be prevented from being hindered by the back support rod. For this reason, the back plate is easily deformed following the movement of the seated person, and the sitting comfort can be improved.
[0095]
In the backrest structure of the chair according to the second aspect, since the connecting means for connecting the upper end of the back support rod to the upper part of the back board while absorbing these relative displacements is provided, the relative position between the back support rod and the back board is provided. The displacement can be absorbed by the connecting means. For this reason, it is possible to prevent an excessive force from being applied to the connecting portion between the back support rod and the back plate, and it is possible to further easily deform the back plate and to further improve the sitting comfort.
[0096]
Further, in the backrest structure of the chair according to the third aspect, the back frame, the back plate whose lower portion is fixed to the back frame and whose upper portion can be bent in the front-rear direction, and whose lower end is connected to the back frame to center on the connection point. A control link whose upper end can be tilted in the front-rear direction, and connecting means for connecting the upper end of the control link to the upper part of the back plate while absorbing these relative displacements, and at least the upper part of the back plate is deformable. Since the control link is formed of a flexible resin, when the occupant leans on the backboard, the upper portion of the backboard can be bent, and the backboard follows the posture of the occupant. It can be easily deformed, and sitting comfort can be improved.
[0097]
Further, in the chair backrest structure according to claim 4, a back frame, a back plate whose lower portion is fixed to the back frame and whose upper portion can be bent in the front-rear direction, the bending angle of the back plate is changed and the bending angle is fixed. And a control link having a lower end connected to the back frame and an upper end capable of tilting in the front-rear direction about the connection point, and And a displacement means provided at a position distant from the connection point between the back frame and the control link to change the distance between the back frame and the control link. However, since at least the upper part of the back plate is deformable and the control link is formed of a flexible resin, it is possible to suppress the deformation of the back plate from being hindered by the control link. That. For this reason, the back plate is easily deformed following the movement of the seated person, and the sitting comfort can be improved.
[0098]
Since the bending angle adjusting mechanism is provided, the bending angle of the backboard can be adjusted by operating the displacement means, and the bending angle of the backboard can be adjusted to a desired angle by a simple adjustment operation. In addition, since the relative displacement generated between the upper end of the control link and the control link connecting portion of the back plate can be absorbed by the connecting means, the mechanism can be established, and the tilt of the control link and the bending of the back plate can be achieved. Can be smoothed.
[0099]
In the backrest structure of a chair according to claim 5, the displacement means includes an adjusting screw provided on one of the back frame and the control link, and a screw hole provided on one of the other and into which the adjusting screw is inserted. Since there is provided an angle changing means for changing at least one of the adjusting screw and the screw hole in the vertical direction, the bending angle of the back plate can be adjusted by rotating the adjusting screw. Also, with the change in the bending angle of the back plate, the opposing angle between the adjusting screw and the screw hole of the displacement means also changes, but this change can be absorbed by the angle changing means, and excessive force is generated in the displacement means. And can be operated with light power.
[0100]
In the backrest structure for a chair according to the sixth aspect, the connecting means may include a circumferential portion provided at an upper end of the control link, a connecting portion relatively rotatable relative to the circumferential portion and slidable in the axial direction. The connecting portion has a length that does not drop off from the circumferential portion, so that the control link has a relative displacement in the axial direction and the control link. The vertical angle change of the back plate and the horizontal angle change of the control link and the back plate can be respectively well absorbed.
[0101]
Further, in the backrest structure of the chair according to the seventh aspect, the connecting means is provided on the upper end of the control link and extends in the axial direction, and the insertion means is provided on the back surface of the back plate and the protrusion is inserted from below. A convex part receiving part with a mouth and a space provided above the convex part receiving part and allowing the movement of the tip of the convex part are provided, so that the degree of freedom of movement of the connecting portion between the control link and the back plate is improved. Can be done. In addition, the number of components is reduced, and the number of manufacturing steps is accordingly reduced, so that manufacturing costs can be reduced.
[0102]
Further, in the backrest structure of the chair according to claim 8, since the lower portion or the upper portion can be bent in the front-rear direction by forming a slit in the back plate, the back plate can be bent in the front-rear direction with a simple configuration. it can. In this case, if the shape of the slit is U-shaped, the support portion can be formed by projecting a part of the back plate. Further, by making the shape of the slit linear, it is possible to prevent a part of the back plate from projecting.
[0103]
In the chair backrest structure according to the ninth aspect, the support member is rotatably attached to the upper end of the back plate, and the support member and the back frame are connected by a link, and the support member rotates in conjunction with the bending of the back plate. Because it is made to be able to be done, the usability of the chair can be improved.
[0104]
Further, as in the backrest structure of the chair according to the tenth aspect, the resin may be nylon with glass.
[Brief description of the drawings]
FIG. 1 is a view showing an example of an embodiment of a backrest structure of a chair to which the present invention is applied, and showing a positional relationship of constituent members.
FIG. 2 is a view showing a backrest structure of the chair, and showing a positional relationship of constituent members in a state where a back plate is largely bent.
FIG. 3 is a rear view showing a back plate having a backrest structure of the chair.
FIG. 4 is a cross-sectional view showing the connecting means of the backrest structure of the chair, as viewed from above.
FIG. 5 is a cross-sectional view showing the connecting means and viewed from a side thereof.
FIG. 6 is a view showing a first example of a displacement means having a backrest structure of the chair, and showing a positional relationship of constituent members.
FIG. 7 is a view showing the displacement means and showing a positional relationship of constituent members in a state where a back plate is largely bent.
FIG. 8 is a perspective view showing an angle changing means of the displacement means.
FIG. 9 is a plan view showing a gas spring attached to the chair to which the backrest structure of the chair is applied.
FIG. 10 is a side view showing the gas spring.
FIG. 11 is a rear view showing a cover having a backrest structure of the chair.
FIG. 12 is a rear view showing a state where the cover is attached to a back plate.
FIG. 13 is a side view showing another embodiment of the connecting means constituting the backrest structure of the chair to which the present invention is applied.
FIG. 14 is a view showing a second example of the displacement means of the backrest structure of the chair, and showing the positional relationship of the constituent members.
FIG. 15 is a view showing a second example of the displacement means, and showing a positional relationship of constituent members in a state where the back plate is largely bent.
FIG. 16 is a view showing a third example of the displacement means of the backrest structure of the chair, and showing the positional relationship of the constituent members.
FIG. 17 is a view showing a third example of the displacement means, and showing a positional relationship of constituent members in a state where the back plate is largely bent.
FIG. 18 is a view showing a fourth example of the displacement means of the backrest structure of the chair, and showing the positional relationship of the constituent members.
FIG. 19 is a view showing a fourth example of the displacement means, and showing a positional relationship of constituent members in a state where the back plate is largely bent.
FIG. 20 is a schematic configuration diagram showing a first modification of the backrest structure of the chair to which the present invention is applied.
FIG. 21 is a schematic configuration diagram showing a first modified example of the backrest structure of the chair to which the present invention is applied, and showing a state where the lower portion of the back plate is tilted forward.
22 is a schematic configuration diagram showing a use state of a chair to which the backrest structure of FIG. 20 is applied.
FIG. 23 is a schematic configuration diagram showing a use state of the chair to which the backrest structure is applied, and showing a state in which a lower portion of the back plate is tilted forward.
FIG. 24 is a schematic configuration diagram showing a second modification of the backrest structure of the chair to which the present invention is applied.
FIG. 25 is a schematic configuration diagram showing a second modification of the backrest structure of the chair to which the present invention is applied, and showing a state where the lower portion of the back plate is tilted forward.
FIG. 26 is a schematic configuration diagram showing a third modification of the backrest structure of the chair to which the present invention is applied.
27 is a schematic configuration diagram showing a use state of the chair to which the backrest structure of FIG. 26 is applied, and showing how the chair is used by a child.
28 is a schematic configuration diagram showing a use state of the chair to which the backrest structure of FIG. 26 is applied, and showing a state of use by an adult.
FIG. 29 is a view showing a fourth modification of the backrest structure of the chair to which the present invention is applied, and is a diagram showing a positional relationship of components in a state where the headrest is moved backward.
FIG. 30 is a view showing a fourth modification of the backrest structure of the chair, and showing the positional relationship of the constituent members in a state where the headrest is moved forward.
31 is a schematic configuration diagram showing a use state of the chair to which the backrest structure of FIG. 29 is applied, in which the headrest is moved rearward.
FIG. 32 is a schematic configuration diagram showing a use state of the chair to which the backrest structure is applied, in which a headrest is moved forward and the entire backrest is reclined.
FIG. 33 is a rear view showing a state where a step is provided in a slit of the back plate.
FIG. 34 is a rear view showing a state in which two slits are provided in the back plate.
FIG. 35 is a rear view showing a state in which one slit is provided in the back plate.
FIG. 36 is a side view showing another embodiment of the connecting means constituting the backrest structure of the chair to which the present invention is applied.
FIG. 37 is a conceptual diagram for explaining the shape of the insertion port and the movement of the projection.
FIG. 38 is a side view showing still another embodiment of the connecting means constituting the backrest structure of the chair to which the present invention is applied.
FIG. 39 shows a fifth modification of the backrest structure of the chair to which the present invention is applied, which is provided with a support member for supporting from the scapula portion of the seated person to the head as a support member, and put this support member backward. It is a schematic structure figure of a state where it is moving.
FIG. 40 is a schematic configuration diagram showing a fifth modified example of the backrest structure of the chair, in which the support body is moved forward and the entire backrest is reclined.
FIG. 41 is a conceptual diagram showing a state in which the upper part of the back plate is deformed so as to be twisted.
FIG. 42 is a conceptual diagram showing a state in which the center of the back plate is deformed so as to protrude backward.
FIG. 43 is a conceptual diagram showing a state in which one side of a back plate is deformed so as to protrude rearward.
FIG. 44 is a side view showing a backrest structure of a conventional chair.
FIG. 45 is a schematic configuration diagram of a back frame, a back plate, and a control link showing a sixth modification of the backrest structure of the chair to which the present invention is applied.
46 shows a sixth modification of the backrest structure of the chair to which the present invention is applied, and is a schematic configuration diagram of a back frame, a back plate, and a control link in a state where the back plate is reclined. FIG.
[Explanation of symbols]
1 back frame
2 backboard
2a Upper part of backboard
2b Lower part of backboard
3 Bending angle adjustment mechanism
4 shaft (connection point)
6 Connecting means
7 Displacement means
13 circumference
14 cap (connection part)
15 Support means
17 Adjusting screw
18 Screw hole
19 Angle changing means
44 Headrest (support member)
45 links
51 convex
52 insertion slot
53 Convex support
54 space
57 Support body (support member)
58 Control link

Claims (10)

A backrest structure for a chair, wherein the backboard is deformable, and a back support rod for supporting the backboard is formed of a flexible resin. 2. A chair backrest structure according to claim 1, further comprising a connecting means for connecting an upper end of said back support rod to an upper part of said back plate while absorbing these relative displacements. A back frame, a back plate having a lower portion fixed to the back frame and an upper portion bendable in the front-rear direction, and a control link connected at the lower end to the back frame and having an upper end tiltable in the front-rear direction about the connection point And connection means for connecting the upper end of the control link to the upper part of the back plate while absorbing these relative displacements, so that at least the upper part of the back plate is deformable and the control link is flexible. A chair backrest structure formed of a resin having: A back frame, a back plate having a lower portion fixed to the back frame and an upper portion being bendable in the front-rear direction; and a bending angle adjusting mechanism for changing a bending angle of the back plate and fixing the bending angle. The angle adjustment mechanism has a lower end connected to the back frame and an upper end tiltable in the front-rear direction around the connection point, and an upper end of the control link is absorbed by an upper portion of the back plate to absorb these relative displacements. A connecting means for connecting while changing the distance between the back frame and the control link provided at a position away from the connection point between the back frame and the control link, A backrest structure for a chair, wherein at least an upper portion of the back plate is deformable, and the control link is formed of a flexible resin. The displacing means includes an adjusting screw provided on one of the back frame and the control link, a screw hole provided on one of the other, and the adjusting screw being inserted, and an adjusting screw and the screw hole. 5. The backrest structure for a chair according to claim 4, further comprising angle changing means for changing at least one angle in a vertical direction. The connecting means includes a circumferential portion provided at an upper end of the control link, a connecting portion that is rotatable relative to the circumferential portion and slidable in the axial direction, and the connecting portion is vertically attached to the back plate. The backrest structure for a chair according to any one of claims 3 to 5, further comprising a rotatable mounting means, wherein the connecting portion has a length that does not drop off from the circumferential portion. . The coupling means includes a convex portion provided at an upper end of the control link and extending in an axial direction, and a convex portion receiver provided on a back surface of the back plate and formed with an insertion opening through which the convex portion is inserted from below. The chair backrest structure according to any one of claims 3 to 5, further comprising a space provided above the convex portion receiver and allowing movement of a tip of the convex portion. The backrest structure for a chair according to any one of claims 3 to 7, wherein a slit is formed in the back plate so that the lower portion or the upper portion can be bent in the front-rear direction. The support member is rotatably attached to an upper end of the back plate, and the support member and the back frame are connected by a link, and the support member is rotated in conjunction with bending of the back plate. The backrest structure of the chair according to any one of Items 3 to 8. The chair back structure according to any one of claims 1 to 9, wherein the resin is nylon with glass.

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