JP5769073B2 - Seat structure - Google Patents

Description

  The present invention relates to a seat structure, and more particularly, to a seat structure that can be used as a seat for a transportation device such as an automobile, an aircraft, and a train, and can also be used as an office chair, a furniture chair, a sofa, or the like.

  In order to reduce the weight of the seat structure, the present applicant has proposed various seat structures using a tension structure provided with a three-dimensional solid knitted fabric or a two-dimensional net material on the cushion frame or the back frame. . In Patent Literatures 1 to 3, a base net is stretched on the seat cushion portion via a torsion bar to give a predetermined cushion characteristic, and a three-dimensional solid knitted fabric can be used as a cushion material. Compared with a so-called “placement structure” type in which a urethane material having a predetermined thickness is placed on a cushion pan, the vibration absorption characteristics and the like are improved while reducing the weight.

JP 2004-188164 A JP 2006-345902 A Japanese Patent Laid-Open No. 2006-345953

  As described above, the seat structures of Patent Documents 1 to 3 are lightweight and excellent in vibration absorption characteristics, etc., but all of them are mainly devised in the seat cushion part, and the structure of the seat back part is the same. By devising, it can be expected to further improve the vibration absorption characteristics. Conventionally, the support of the posture when the inertial force in the left-right direction is applied during cornering or the like is mainly borne by the bulging portions on both sides of the seat back portion. However, as a means for maintaining the posture in the left-right direction, if the degree of dependence on the bulging portions on both sides of the seat back portion is high, depending on the thickness, a feeling of cramping occurs and the weight increases. Therefore, it is desirable to provide another means for performing the posture support function when the inertial force in the left-right direction is applied, thereby reducing the burden of the posture support function by the bulging portions on both sides, and the thickness of the bulging portion It is also possible to hold down.

  The present invention has been made in view of the above, and provides a seat structure including a seat back portion that can further improve vibration absorption characteristics and has a high effect of suppressing the collapse of the posture due to the inertial force in the left-right direction. This is the issue.

In order to solve the above problems, a seat structure of the present invention is a seat structure including a seat back portion and a seat cushion portion, and the seat back portion includes a back base net that is stretched on a back frame. A deep spring portion, a surface cushion portion having a skin supported by the back frame, and the deep spring portion and the surface cushion portion are movably disposed between the deep spring portion and the surface cushion portion. A flexible plate capable of moving in a tangential direction with respect to the deep spring portion and the surface cushion portion and capable of converting a force generated in the compression direction in the deep spring portion and the surface cushion portion into a tangential force. And an intermediate high-rigidity portion that is relatively rigid with respect to the surface cushion portion .

It is preferable that the flexible plate-like member is disposed with only a part thereof fixed to the base net for back and is capable of relative movement in the tangential direction. It is preferable that either one of the upper and lower portions of the flexible plate-like member is fixed to the back base net and the other is not fixed. The back frame includes a pair of side frames and an upper frame connecting the upper portions of the pair of side frames, and the base net for the back covers the upper frame and the pair of side frames of the back frame. It is preferable that the flexible plate-shaped member is disposed in a range corresponding to at least the vicinity of the location of the upper frame. The flexible plate-shaped member includes a range corresponding to the vicinity of the place where the upper frame is disposed, a shoulder corresponding portion corresponding to a shoulder portion of a seated person, and extending downward from the shoulder corresponding portion. It is preferably formed in a substantially T-shape including a trunk corresponding portion that is narrower than the corresponding portion. It is preferable that the flexible plate-shaped member has a slit having a predetermined width formed at a substantially central portion in the width direction corresponding to the spinal column at least in the trunk corresponding portion. The skin constituting the surface cushion portion is sewn to the back base net, and the flexible plate member is disposed between the surface cushion portion and the back base net without being fixed to the skin. It is preferable that In addition to the epidermis , the surface cushion part is a body-side support pad arranged on the back side of the epidermis, and a body arranged at a position corresponding to the vicinity of the flank between the epidermis and the back base net It is preferable to have a stem hold pad.
In the present invention, the flexible plate-like member constituting the intermediate high-rigidity part is configured to have a molded urethane integrally formed with a fabric layer including at least one of a nonwoven fabric and a felt, and this fabric layer The integral molded urethane is preferably disposed between the skin as the surface cushion portion and the back base net as the deep spring portion. By disposing the fabric layer-integrated molded urethane, there is a difference in rigidity between the peripheral portion and the central portion of the seat back portion, and the fabric layer-integrated molded urethane and the trunk hold disposed around it. It is preferable to have a gap that absorbs a phase difference between a peripheral portion that moves mainly in the front-rear direction and a central portion that moves mainly in the up-down direction. It is preferable that the deep spring portion further includes a planar spring member that extends in the width direction at a lower position than the central portion in the vertical direction of the back frame. It is preferable to further include a pelvis support member that includes a front surface covering portion that covers the front surface of the planar spring member and is elastically supported by the planar spring member.

  The present invention has a structure in which the seat back portion has a deep spring portion and a surface cushion portion supported by the back frame, and an intermediate high-rigidity portion is disposed therebetween, and the deep spring portion is attached to the back frame. It consists of a back base net that is stretched. Since the back base net is stretched on the back frame, the back base net itself does not easily move in the tangential direction (shear direction) with respect to the compression characteristics caused by the weight of the seated person. However, according to the present invention, the intermediate high-rigidity portion is disposed between the back base net and the surface cushion portion constituting the deep spring portion. When a force is applied in the compression direction, which is the direction of the deep spring portion, from the surface cushion portion, rotational movement easily occurs around the point corresponding to the pelvis portion, and the flexible plate-like member of the intermediate high rigidity portion Shear stress is generated, relative motion is generated between the deep spring portion and the surface cushion portion, and the generation of the antiphase contributes to the improvement of vibration absorption characteristics under the seated person's buttocks.

  Further, the present invention has a structure in which a back base net is stretched on the back frame of the seat back portion. Preferably, the back frame includes a pair of side frames and an upper frame, and a back base net is stretched on the back frame. Thereby, in the back base net, the surface rigidity of the shoulder rib support part at the upper back is increased, the rigidity of the peripheral part is increased, and the center part along the center line in the width direction is easily bent back and forth. In other words, the support pressure on the upper side of the back base net and the body side closer to the outside increases, so when the left and right rolls occur while the vehicle is running, the body tries to rotate around the spinal column with the pelvis acting as the point of action. It becomes easy to be converted into the force of the body, the collapse of the posture due to the inertial force in the lateral direction is suppressed, and the supportability of the seated person is enhanced. Therefore, when an inertial force in the left-right direction is applied during cornering or the like, a rotational motion occurs around the spine of the trunk, and it is easy to be pressed against the seat back portion.

  Also, in order to efficiently generate a rotational movement of the seated person due to the bending of the center portion of the back base net, it is desirable that the back base net is provided with a lower end with less bending and a lower end with less tension. However, when the tension is lowered, a feeling of hitting the back frame tends to occur near the shoulder or the like. In addition, it tends to be stooped. However, according to the present invention, since the flexible plate-like member is provided and the rigidity of the upper portion is increased, the feeling of hitting the back frame is reduced and the rigidity in the longitudinal section direction is continuous, It is difficult to have a stooped posture, and the abdominal pressure can be reduced.

FIG. 1 is a front view showing a seat structure according to an embodiment of the present invention. 2 is a cross-sectional view taken along line AA in FIG. FIG. 3 is an exploded perspective view showing the configuration of the seat back portion of the embodiment. FIG. 4 is a front view showing the back frame and the cushion frame of the embodiment. FIG. 5 is a longitudinal sectional view of FIG. FIG. 6 is a view showing a state in which the planar spring member is attached to the back frame. 7A and 7B are diagrams showing the back base net, where FIG. 7A is a perspective view seen from the front side, and FIG. 7B is a perspective view seen from the back side. Fig.8 (a) is the perspective view which showed the fabric layer integrated mold urethane which comprises a flexible plate-shaped member, (b) is the sectional view on the AA line of (a). FIG. 9A is a perspective view showing a state in which the fabric layer-integrated molded urethane and the trunk holding pad are integrated, and FIG. 9B is a cross-sectional view taken along line AA in FIG.

  Hereinafter, the present invention will be described in more detail based on the embodiments shown in the drawings. As shown in these drawings, the seat structure 1 of the present embodiment includes a seat back portion 10 and a seat cushion portion 30.

  As shown in FIGS. 2 to 6, the back frame 100 constituting the seat back portion 10 is formed between a pair of side frames 110 and 120 arranged at a predetermined interval and the upper portions of the side frames 110 and 120. The upper frames 130 and 140 (hereinafter, “first upper frame 130” and “second upper frame 140” in some cases) and the lower frame 150 disposed between the lower portions of the side frames 110 and 120 are provided. Prepare. And the lower part of the side frames 110 and 120 of the back frame 100 is connected to the rear part of the side frame 310 of the cushion frame 300 of the seat cushion part 30 via the reclining mechanism 40, and the back frame 100 is front and rear with respect to the cushion frame 300. Can be tilted.

  Each of the side frames 110 and 120 of the back frame 100 is formed of a plate-like member having a predetermined width, and the width direction is arranged in a direction substantially along the front-rear direction. Specifically, as shown in FIG. 3, the width of the back frame 100 is slightly increased from the upper side to the lower side, and the inclination of the back frame 100 with respect to the cushion frame 300 is approximately 90 degrees. When viewed from the side in the state, the front edge portions 110a and 120a are along a line inclined in a direction that bulges slightly forward from the upper side to the lower side, and the rear edge portions 110b and 120b are substantially vertical. The shape is along the line. Further, both the front edge portions 110a and 120a and the rear edge portions 110b and 120b are lines having no large unevenness in the middle.

  The first upper frame 130 and the second upper frame 140 are formed in a substantially U shape with the open end side facing downward, and extend in the horizontal direction from the center to the outside in the horizontal direction 131, 141, and the open end. Side vertical frame portions 132 and 142 are provided. Further, an inclination between each of the horizontal frame portions 131 and 141 and the vertical frame portions 132 and 142 extends obliquely downward from each end of the horizontal frame portions 131 and 141 and is connected to the vertical frame portions 132 and 142. Frame portions 133 and 143 are provided. The first upper frame 130 has a vertical frame portion 132 connected to the front edge portions 110a and 120a of the side frames 110 and 120, and the second upper frame 140 has a vertical frame portion on the rear edge portions 110b and 120b. 142 are connected. For this reason, the first upper frame 130 and the second upper frame 140 are disposed with a space in the front-rear direction, and a headrest support portion is provided between the lateral frame portions 131 and 141 at the center of the lateral frame portions 131 and 141. 145 is provided.

  In a position slightly above the lower frame 150, that is, in a position corresponding to the vicinity of the waist from the upper part of the seated person's pelvis, an S spring 151 as a planar spring member is stretched near the front edge side of the side frames 110, 120. (See FIGS. 2 to 6). The S spring 151 comes into contact with the waist of the seated person from the pelvis, produces a feeling of stroke in the front-rear direction, and creates a restoring force against the rotation and reciprocation generated in the pelvis, and corresponds to a “deep spring part”. . The S spring 151 is preferably provided in an arch shape in which the central portion in the width direction bulges forward or backward. When it is formed in an arch shape that bulges forward, it is easy to feel a stroke, and when it is formed in an arch shape that bulges backward, a fit feeling along a person's back is improved. Since there is a problem of the preference of the seated person, it can be selected depending on the type of vehicle (sedan type, sports type, etc.) such as an automobile in which the seat structure of this embodiment is installed. By providing the S spring 151, when the upper edge side is pressed, the S spring 151 is rotated rearward around the lower edge side, and the pelvis can be supported by the reaction force of the spring from diagonally downward to diagonally upward. Also, when inertial force is input in the left-right direction, a relatively small spring constant causes a stroke with a small reaction force, firmly supporting the pelvis while generating rotational movement, and against the movement that occurs in the pelvis And create resilience. In addition, in order to make it easy to apply a support pressure from diagonally downward to diagonally upward, the S spring 151 is preferably provided integrally with the pelvis support member 152 shown in FIGS. 2 to 6 as in the present embodiment.

  As shown in FIGS. 3 and 5, the pelvis support member 152 is formed by processing a bead foam into a substantially L shape in a side view, and is formed with a width narrower than that of the S spring 151. It has the front surface coating | cover part 152a arrange | positioned at the front side. Near the corner portion of the substantially L-shaped pelvic support member 152, an outer surface groove portion 152m is formed in the width direction, and the groove portion 152n that engages with the lower frame 150 is located on the inner surface side of the rear portion of the outer surface groove portion 152m. Is formed. And it arrange | positions so that the outer surface groove part 152m may follow the rear part side of the connecting rod 330 between recliners. When the seat occupant applies a load to the rear and the front cover 152a rotates backward and obliquely downward, the reaction force of the S spring 151 acts, and the region from the seat occupant's pelvis to the waist is obliquely upward from below. The feeling of support is enhanced as compared with the case where the support is pressed by pressing in the direction and supported only by the S spring 151. Further, it is more preferable that S spring support plates 151 a are attached in the vicinity of both ends of the S spring 151. Thereby, when the front surface covering portion 152a of the pelvis support member 152 is rotated backward, the S spring support plate 151a is supported by the surface, so that the feeling of support can be further enhanced.

  A back base net 170 that forms a “deep spring portion” together with the S spring 151 and the pelvis support member 152 is supported on the side frames 110 and 120 and the first and second upper frames 130 and 140 of the back frame 100. 2, 3, and 7, the back base net 170 has a front cover portion 171 that covers the front side of the back frame 100, a back cover portion 172 that covers the back side, and a side Side surface covering portions 173 and 174 that cover the frames 110 and 120 are provided.

  The front covering portion 171 has a size from each lateral frame portion 131 of the first upper frame 130 to a position corresponding to the lower frame 150. The back surface covering portion 172 is provided in a range that covers the rear edge side of the second upper frame 140 and reaches the vicinity of the upper end of each of the side frames 110 and 120 on the rear edge side. The back surface covering portion 172 has a bag shape formed integrally with the front surface covering portion 171, and an upper surface covering portion 175 is formed between the upper edge portions of the front surface covering portion 171 and the back surface covering portion 172. . A hole portion 175 a is formed at a position corresponding to the headrest support portion 145 in the upper surface covering portion 175 so that a headrest pole (not shown) passes through and can be inserted into the headrest support portion 145.

  The side surface covering portions 173 and 174 are integrally provided on both side portions of the front surface covering portion 171, and the lower end portions of the side surface covering portions 173 and 174 are routed from the front edge side to the rear edge side of the side frames 110 and 120. Further, it is fixed so as to pass through the inside of each side frame 110, 120 and be pulled out to the front edge side.

  In addition, the front covering portion 171 has a downward projecting portion 176 extending downward, and the downward projecting portion 176 is driven to the lower side of the pelvis support member 152, but is not fixed to any part. As a result, even if there is a variation in the dimensional accuracy of the back base net 170, the variation in vibration absorption characteristics and the like when the back base net 170 is stretched at a constant elongation rate (elongation rate of 5% or less) is reduced. it can.

  By stretching the back base net 170 in this way, the portions close to the side frames 110 and 120 corresponding to the side of the seated person's body become parts with small bending back and forth, and the center line of the back base net 170 The portion corresponding to the spinal column along the axis is easily bent back and forth. As a result, if an inertial force acts in the left-right direction during cornering, a rotational motion about the spinal column is likely to occur. When the rotational movement occurs, if the portion along the center line bends back and forth, the support pressure of the S spring 151 and the pelvis support member 152 acts. This prevents the body from shifting in the left-right direction.

  The back base net 170 can be formed from a three-dimensional solid knitted fabric, a two-dimensional net material, or a laminate of a two-dimensional net material and a thin urethane material. Is preferred. Note that the three-dimensional solid knitted fabric includes, for example, a pair of ground knitted fabrics arranged apart from each other as disclosed in JP 2002-331603 A, JP 2003-182427 A, and the like. It is a knitted fabric having a three-dimensional three-dimensional structure having a large number of connecting yarns that reciprocate between the ground knitted fabrics and couple them. Moreover, when using a two-dimensional net | network material, it is preferable to use what was disclosed by Unexamined-Japanese-Patent No. 2008-259885 by this applicant. This two-dimensional net material is a test piece cut out with a length of 200 mm and a width of 50 mm, in which either one of the warp and the weft is made of an elastic yarn and the other is made of a normal yarn that is less elastic than the elastic yarn. As a tensile property measured by pulling at a rate of 50 mm / min along the longitudinal direction from the respective ends in the longitudinal direction to a portion closer to the inner side by 50 mm, the tension is measured along the elastic yarn arrangement direction. In addition to showing softening spring characteristics, it shows linear spring characteristics when pulled in the normal yarn arrangement direction, and is obtained from load-deflection characteristics when pressed almost perpendicularly to the surface direction while being stretched on the back frame 100. Load at the time of applying pressure with a compression plate having a diameter of 30 mm as the spring constant-Load at the time of applying pressure with a compression plate having a diameter of 98 mm than the spring constant determined from the deflection characteristics- It is characterized in that high spring constant determined from the characteristic. With this configuration, it has characteristics similar to the load characteristics of human muscles, and it is possible to increase fit and improve posture support.

  A flexible plate member 180 is laminated on the surface of the back base net 170. This flexible plate-like member 180 constitutes an “intermediate high-rigidity portion” that is relatively rigid with respect to a “surface cushion portion” that includes a later-described skin 200, body-side support pad 210, and the like. That is, a hard layer is comprised with respect to the soft layer of a "surface cushion part." As will be described later, the flexible plate-like member 180 is provided so as to be movable relative to the back base net 170 and the like in the tangential direction (shear direction, that is, the longitudinal sectional direction of the seat back portion 10). Therefore, in order to easily perform these functions, the flexible plate-like member 180 is made of a synthetic resin, for example, polypropylene, having a lower coefficient of friction than both the “deep spring portion” and the “surface cushion portion”. It is preferable. In addition, in order to form a hard layer having a relatively higher rigidity than the above-mentioned “surface cushion part”, it has a thin plate shape with a thickness of 0.8 to 2 mm and is supported at both ends on a measurement jig at intervals of 150 mm, and the center It is preferable that the spring constant obtained from the load-deflection characteristic when the center of the pressure plate having a diameter of 98 mm is pressed on the part is in the range of 0.3 to 0.6 N / mm. More preferably, it is made of polypropylene, has a thickness of 0.8 to 1.2 mm, and a spring constant determined as described above of 0.4 to 0.5 N / mm.

  The flexible plate-like member 180 preferably includes a shoulder corresponding portion 181 corresponding to the shoulder portion of the seated person including a range corresponding to the vicinity of the place where the first upper frame 130 is disposed, and a shoulder corresponding portion 181. It is formed in a substantially T shape including a trunk corresponding portion 182 that extends downward and has a width that is narrower than the shoulder corresponding portion 181. The shoulder corresponding portion 181 is preferably surrounded by a horizontal frame portion 131 of the first upper frame 130, inclined frame portions 133 on both sides, and an imaginary line connecting upper ends of the side frames 110 and 120 on both sides. It is formed with a range area. As a result, the feeling of contact between the lateral frame portion 131 and the inclined frame portion 133 of the first upper frame 130 is reduced. In particular, in the back base net 170, in order to easily cause a rotational movement around the spinal column due to the above-described bending, it is desirable that the back base net 170 is not stretched to the back frame 100 with a very high tension. Although it is stretched at 5% or less, when the tension is lowered, it is easy to feel the first upper frame 130 hit. However, by providing the flexible plate-like member 180 as in this embodiment, even when the back base net 170 is stretched with a low tension, the feeling of contact with the first upper frame 130 is suppressed. .

  In addition, the reason why the width of the trunk corresponding portion 182 is made narrower than the width of the shoulder corresponding portion 181 is that if there is a width up to the vicinity of the side frames 110 and 120, it becomes difficult to bend back and forth. In order to make it easier to generate a rotational motion around the center of the body, it is preferable that a slit 182a having a predetermined width is formed in the trunk-corresponding portion 182 at a substantially central portion in the width direction corresponding to the spine. It is more preferable that the slit 182a is cut not only in the range of the trunk corresponding portion 182 but also in the shoulder corresponding portion 181. The left-side corresponding part 182b or the right-side corresponding part 182c sandwiching the slit 182a can be easily bent back and forth with the movement of the person's load, and the rotational movement about the spinal column can be promoted.

  The flexible plate-like member 180 is movably disposed between the back base net 170 constituting the “deep spring portion” and the body-side support pad 210 constituting the “surface cushion portion” described later. Are fixed to the base net 170 for back and provided so as to be relatively movable in the tangential direction (shear direction, that is, the direction along the longitudinal section of the seat back portion 10). Specifically, the upper portion 181a is fixed to the upper portion of the back base net 170 by sewing or the like. The lower portion 182d has a length that extends to a position that wraps around the lower side of the pelvis support member 152, but is disposed without being fixed to the lower portion of the back base net 170. As a result, the left side corresponding part 182b and the right side corresponding part 182c sandwiching the slit 182a can be easily bent back and forth, and the left and right rotational movement can be promoted. Further, when vibration is input from the seat cushion portion 30, the low-frequency vertical movement becomes the main vibration, and the flexible plate-like member 180 becomes easy to move relative to the back base net 170, and the seat back portion 10. This reduces the reaction force due to the compression characteristic that acts on the seat surface of the sheet and the shearing force acts to reduce the frictional force, resulting in a soft spring characteristic and exhibiting a vibration absorbing effect. Further, when the flexible plate-like member 180 is not provided, when the back base net 170 is pressed, it is easy to feel the upper edge of the front covering portion 152a of the pelvis support member 152. Since the flexible plate-like member 180 extends to a position where the lower part 182a of the trunk corresponding portion 182 covers the front surface of the pelvis support member 152, the difference in rigidity in the vertical direction (longitudinal sectional direction) is reduced. The hit feeling of the pelvis support member 152 can also be suppressed.

  A trunk hold pad 190 is disposed at a position corresponding to the vicinity of the seated person's flank so as to cover the side frames 110 and 120 via the back base net 170. The trunk-holding pad 190 has shoulder rib support portions 191 and 192 corresponding to the shoulder ribs of the seated person on the left and right sides, and the shoulder rib support portions 191 and 192 are connected to each other, and the shoulder rib support portions 191 and 192 are connected to each other. It is formed in the substantially U shape seeing from the front which has the side coating | coated parts 193 and 194 extended below. In addition, the side coating | coated parts 193 and 194 are formed in cross-sectional substantially U shape so that the front side, side surface side, and back side of the side frames 110 and 120 can be coat | covered. The trunk-holding pad 190 covers the back frame 100 covered with the back base net 170 with the shoulder rib support portions 191 and 192 on the upper side and covers the side frames 110 and 120 with the side covering portions 193 and 194, respectively. The lower end portion is not fixed only by arranging in this manner. For this reason, relative movement with respect to the back base net 170 is possible, and this movement is added to the movement of the flexible plate-like member 180 described above, and vibration energy and impact in the vertical direction input from the road surface are also added. Energy can be absorbed by the dynamic damper effect using the trunk.

  By having the trunk holding pad 190, the shoulder ribs of the seated person abut against the shoulder rib support portions 191 and 192. The shoulder rib support portions 191 and 192 are located in the portion near the side frames 110 and 120 in the back base net 170 and the portion corresponding to the shoulder corresponding portion 181 of the flexible plate-like member 180. The portion is less bent in the front-rear direction than the portion along the center line. Therefore, since a higher frictional force is generated between the shoulder ribs of the seated person and the shoulder rib support portions 191 and 192 than in the case where they contact the part corresponding to the center line of the back base net 170 that is easily bent back and forth, When the inertial force is applied, the scapula support portions 191 and 192 are prevented from shifting in the left-right direction due to the frictional force and the shape characteristics due to the reaction force in the front-rear direction, and the rotational movement about the spinal column is likely to occur. In addition, a rotational movement is generated in the trunk holding pad 190 according to the movement of the shoulder ribs, and thereby the body movement is not hindered, so that a feeling of cramping or a breathing movement is not hindered. In particular, in the present embodiment, the front edge portions 110a and 120a and the rear edge portions 110b and 120b of the side frames 110 and 120 of the back frame 100 are formed in a substantially linear shape without large unevenness as described above, The stem holding pad 190 is easy to move up and down.

  The trunk-holding pad 190 can be formed from a three-dimensional solid knitted fabric, a urethane material, a bead foam or the like, but is preferably formed from a bead foam for weight reduction. In addition, as a bead foam, the foaming molding by the bead method of the resin containing at least any one of polystyrene, a polypropylene, and polyethylene can be used, for example.

The seat back portion 10 is covered with the skin 200 with the back base net 170, the flexible plate member 180, and the trunk holding pad 190 arranged as described above. Between the flexible plate-like member 180, a body-side support pad 210 using a thin slab urethane having a thickness of 25 mm or less is disposed. The body side support pads 210 are provided on the left and right sides of the spinal column so that the maximum support load point of the trunk acts in the range of 75 mm or more on the left and right sides with the spinal column as the center. The body side support pad 210 is held between the skin 200 and the flexible plate-shaped member 180 by sewing the skin 200 and the back base net 170 through the gap between the left and right body side support pads 210 and 210. By having the body side support pad 210, the concentrated load can be changed to the distributed load. However, if it is too thick, for example, if it exceeds 25 mm, a concentrated load tends to occur, and the support from the elastic support due to the bending of the flexible plate member 180 and the base net 170 for the back to the support by the compression characteristics of the urethane material Thus, the effect of absorbing the vibration by the reverse phase by the flexible plate-like member 180 operating in the tangential direction (shear direction) with respect to the vibration in the vertical direction is diminished.
In addition, as the skin 200, the wadding which consists of a thin urethane material, a nonwoven fabric, etc. may be integrated in the back surface. The skin 200 is sewn to the back base net 170 through the gap between the left and right body side support pads 210 and 210 as described above, and is not sewn to either the flexible plate member 180 or the body side support pad 210 . A peripheral portion is supported by the back frame 100.

  According to the present embodiment, when a lateral inertia force acts on a curve or the like, the shoulder rib tends to shift to the left or right. However, the shoulder rib is supported by the trunk hold pad 190 and the body side support pad 210, and the lateral rib The deflection in the front-rear direction is suppressed, and the force is transmitted to the shoulder corresponding portion 181 of the flexible plate-shaped member 180. As a result, the left side corresponding part 182b or the right side corresponding part 182c sandwiching the slit 182a of the trunk corresponding part 182 of the flexible plate-like member 180 bends back and forth so as to be pushed down, and slides on the back base net 170. When pressed, the back base net 170 is also bent, so that a rotational movement around the spinal column is promoted. That is, since the inertial force in the left-right direction is converted into a rotational motion centered on the occupant's spine, it is possible to suppress the collapse of the posture.

  Further, the flexible plate-like member 180 moves relative to the back base net 170 in response to vibration input from the vehicle body floor. Further, the trunk holding pad 190 and the body side support pad 210 also move relative to the back base net 170. By these exercises, the dynamic damper effect due to the vertical movement of the trunk of the seated person functions and exhibits extremely high vibration insulation due to the reverse phase.

  In the above description, the flexible plate-like member 180 constituting the intermediate high-rigidity part is made of polypropylene and has the above characteristics. However, the fabric layer-integrated molded urethane 1800 shown in FIG. That is, it is also possible to use one having a molded urethane 1820 integrally formed on one surface of a fabric layer 1810 containing at least one of a nonwoven fabric and felt. At the time of molding, urethane enters the gaps in the fabric layer 1810, so that a predetermined rigidity can be secured, and the molded urethane 1820 is covered with a film, so that it is relatively slippery. As a result, if this fabric layer-integrated molded urethane 1800 is disposed between the skin 200 and the back base net 170, a difference in rigidity occurs between the peripheral edge portion and the central portion along the back frame 100. In addition, a difference in rigidity occurs between the sewing portion (center portion) between the outer skin 200 and the back base net 170 and other portions. When the longitudinal force generated in the seat back portion 10 and the vertical force generated from the seat cushion portion 20 act on these rigidity differences, a shear stress is generated in the seat back portion 10, and the fabric layer integrated mold urethane 1800 is made to the skin. 200 and the back base net 170 are moved relative to each other in the tangential direction (shear direction) to reduce vertical vibration. That is, when there is such a rigidity difference, the peripheral portion of the seat back portion 10 moves mainly in the front-rear direction and the center portion moves mainly in the up-down direction, thereby absorbing vibration. 9, a gap 1900a is formed between the fabric layer-integrated molded urethane 1800 and the trunk-holding pad 1900 disposed in the periphery thereof, as shown in FIG. It is preferable. This fabric layer-integrated molded urethane 1800 combines the body-side support pad 210 that is a part of the surface cushion portion in the embodiment of FIGS. 1 to 7 and the flexible plate-like member 180 that constitutes the intermediate high-rigidity portion. Thus, the weight and cost can be reduced as compared with the modes shown in FIGS.

  Here, the fabric layer-integrated molded urethane 1800 can be integrally foam-molded alone, but as shown in FIG. 9, using a mold in which the fabric layer 1810 is substantially U-shaped. It is preferable that foam molding is integrally performed with the trunk hold pad 1900, and then the fabric layer integrated mold urethane 1800 and the trunk hold pad 1900 are assembled and assembled prior to assembly after molding. As a result, two parts can be molded by one mold, and further cost reduction can be achieved, and deformation of the substantially U-shaped trunk holding pad 1900 before assembly can be suppressed.

  The present embodiment is configured to exhibit high vibration isolation characteristics in the seat back portion 10, and as a seat cushion portion 30 combined with the seat back portion 10, a conventionally used urethane material having a predetermined thickness is used as a cushion frame. Even if it is applied to the mounted structure, a high effect can be expected. Of course, the present invention can also be applied to a structure in which the seat cushion portion 30 supports a three-dimensional solid knitted fabric or the like with a metal spring such as a torsion bar.

  The above description shows the case where the present invention is applied to a vehicle seat such as an automobile. However, the present invention is not limited to this and can be applied to an office chair, a furniture sofa, and the like.

DESCRIPTION OF SYMBOLS 1 Seat structure 10 Seat back part 100 Back frame 110,120 Side frame 130 1st upper frame 140 2nd upper frame 150 Lower frame 151 S spring 152 Pelvic support member 170 Back base net 180 Flexible plate-shaped member 190 Back Movable pad 300 Seat cushion

Claims (12)

A seat structure including a seat back portion and a seat cushion portion,
The seat back portion is
A deep spring portion having a back base net stretched on the back frame;
A surface cushion portion having a skin supported by the back frame;
Between the deep spring portion and the surface cushion portion, the movable portion is movably disposed with respect to the deep spring portion and the surface cushion portion, and can move relative to the deep spring portion and the surface cushion portion in a tangential direction. And having a flexible plate-like member capable of converting a force generated in the compression direction in the deep spring portion and the surface cushion portion into a tangential force and having a relatively high rigidity relative to the surface cushion portion. A seat structure characterized by comprising a high-rigidity part .   2. The seat structure according to claim 1, wherein the flexible plate-like member is disposed with a part thereof being fixed to the back base net and is capable of relative movement in a tangential direction.   3. The seat structure according to claim 1, wherein either one of an upper part and a lower part of the flexible plate-like member is fixed to the base net for back and the other is not fixed. The back frame comprises a pair of side frames and an upper frame connecting the upper portions of the pair of side frames;
The back base net is disposed so as to cover the upper frame and the pair of side frames of the back frame;
The seat structure according to any one of claims 1 to 3, wherein the flexible plate-shaped member is disposed in a range corresponding to at least the vicinity of the position where the upper frame is disposed.   The flexible plate-shaped member includes a range corresponding to the vicinity of the place where the upper frame is disposed, a shoulder corresponding portion corresponding to a shoulder portion of a seated person, and extending downward from the shoulder corresponding portion. The seat structure according to claim 4, wherein the seat structure is formed in a substantially T shape having a trunk corresponding portion narrower than the portion corresponding portion.   6. The seat structure according to claim 5, wherein the flexible plate-like member has a slit having a predetermined width formed at a substantially central portion in the width direction corresponding to the spinal column at least in the trunk corresponding portion. The skin constituting the surface cushion portion is sewn to the back base net, and the flexible plate member is disposed between the surface cushion portion and the back base net without being fixed to the skin. The seat structure according to any one of claims 1 to 6. In addition to the epidermis , the surface cushion part is a body-side support pad arranged on the back side of the epidermis, and a body arranged at a position corresponding to the vicinity of the flank between the epidermis and the back base net The seat structure according to any one of claims 1 to 7, further comprising a trunk hold pad.   The flexible plate-like member constituting the intermediate high-rigidity part is configured to have a molded urethane integrally molded with a fabric layer including at least one of a nonwoven fabric and felt, and the fabric layer-integrated molded urethane is The seat structure according to claim 1, wherein the seat structure is disposed between a skin as a surface cushion portion and a back base net as the deep spring portion.   By disposing the fabric layer-integrated molded urethane, there is a difference in rigidity between the peripheral portion and the central portion of the seat back portion, and the fabric layer-integrated molded urethane and the trunk hold disposed around it. The seat structure according to claim 9, wherein a gap for absorbing a phase difference between a peripheral portion mainly moving in the front-rear direction and a central portion moving mainly in the up-down direction is provided between the pad.   The seat structure according to any one of claims 1 to 10, wherein the deep spring portion further includes a planar spring member that extends in a width direction at a position lower than a central portion in the vertical direction of the back frame.   12. The seat structure according to claim 11, further comprising a pelvis support member that includes a front surface covering portion that covers a front surface of the planar spring member and is elastically supported by the planar spring member.

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