JP6990561B2 - Chair - Google Patents

Description

The invention of the present application relates to a chair.

As one type of chair, for example, taking the backrest as an example, there is a type in which a mesh material is stretched on a back frame (back frame body) opened in the front and rear (that is, a chair with mesh specifications). This type has the advantage of excellent breathability and the advantage of excellent cushioning because the mesh material stretches and deforms due to the body pressure of the seated person. It also has the advantage of giving a visually light impression.

In this type of mesh type chair, Patent Document 1 states that the back frame has left and right chevron portions that protrude outward to the left and right in front view and forward in side view, and is perpendicular to the upper end of the chevron portion. It is disclosed that the apex of the chevron portion is configured to bend around a horizontal axis.

In Patent Document 2, when the mesh material is pushed by the waist of the seated person in the non-locking state, the left and right chevrons move in the direction of wrapping the seated person due to the pulling of the mesh material. Therefore, it is possible to improve the stability of the body when the seated person stands upright and performs work such as operating a personal computer. That is, the holding function of the body by the mesh material is improved.

In Patent Document 1, the lower end of the back frame is connected to the rear end of the seat, and when locking, the mesh material is pulled in the vertical direction (vertical direction) due to the relationship between the movement of the seat and the movement of the back frame. And, there may be a case where it loosens in the vertical direction. When the mesh is pulled in the vertical direction, the left and right chevrons tend to spread outward, and the waist of the seated person is lifted. Therefore, the seated person's body tends to stretch. When the mesh material loosens in the vertical direction during locking, the tendency to wrap the body with the mesh material is promoted.

On the other hand, the mesh type backrest is also provided with a lumbar support function. As an example, in Patent Document 2, a lumbar guide body is attached to a back strut to which a back frame is attached, and a lumbar guide is provided. It is disclosed that a lumbar pad is attached to the body in a height-adjustable manner. In Patent Document 2, the lumbar guide body is curved forward in a lateral view.

Japanese Patent Application Laid-Open No. 2015-511111 (particularly FIGS. 5 to 8) Japanese Patent Publication No. 2008-506486

In Patent Document 1, the support state of the body by the mesh material is forcibly changed by the body pressure and locking of the seated person. Such a mechanism has never existed in the past, and it can be said that comfort can be greatly improved.

However, as a result of examination by the inventors of the present application, room for improvement was found. For example, since the mesh material is only supported by the back frame, if the mesh material becomes loose during rocking, the body may sink too much and the comfort may be impaired.

The invention of the present application was made in the wake of such a situation, and is intended to provide a chair having an improved structure. Further, the present application discloses many new structures that have not existed in the past, and it may be a problem to provide a chair including these structures.

The chair of the present invention is
"It is provided with a seat and a backrest, a backrest that can be tilted backward to support the backrest from behind, and a base portion to which the seat and the backrest can be attached.
The backrest has a structure in which a mesh material is stretched on a back frame that opens in the front-rear direction, and a deformation allowable portion that approaches and separates from a seated person is formed on the left and right sides of the back frame. "
It is a basic configuration.

Then, in claim 1, in the above basic configuration,
"Behind the mesh material, a lumbar pad that supports the seated person's body through the mesh material advances relative to the backrest while tilting backward together with the backrest when the backrest is tilted backward. Are arranged to do "
The configuration is added. The mesh material broadly includes a material having flexibility such as a woven fabric or a knitted fabric and having a strength capable of supporting body pressure. It may be a single-layer structure or a multi-layer structure.

The invention of the present application can be developed in various ways. As an example, in claim 2, claim 1
"In the state where the backrest is not tilted backward and the body pressure of the seated person is not applied to the mesh material, there is a gap between the mesh material and the lumbar pad, and the backrest is tilted backward. The lumbar support supports the seated person's body in the absence and when the seated person's body pressure is applied to the mesh material. "
It is configured as.

Further, in claim 3, in claim 1 or 2,
"The back frame has left and right side members, an upper member connected to the upper ends of the left and right side members, and a lower member connected to the lower ends of the left and right side members. Is integrally connected to the portion between the upper end and the lower end via the middle member, and the middle member is connected to the back strut so as to rotate around the axis of the left-right longitudinal direction. ,
Further, a vertically longitudinal lumbar guide body to which the lumbar pad is attached is arranged behind the mesh material, and the upper end of the lumbar guide body is at or near the connecting portion between the middle member and the back support. Attached, the lower end of the lumbar guide body is attached to the lower member.
When the backrest tilts backward, the lumbar guide body bends and deforms in a direction in which the lumbar guide body protrudes forward so that the lumbar pad advances relative to the backrest. "
It is configured as.

By the way, the provision of the lumbar pad on the backrest itself is widely performed, and the attachment structure of the lumbar pad in this case is attached to the backrest itself via a bracket or attached to the back support as in Patent Document 2. The reason why the lumbar pad is attached to the back support as in Patent Document 2 is that the backrest and the back support are integrally tilted backward.

However, when the back support and the backrest move relative to each other as in Patent Document 1, if the lumbar pad is attached to the back support as in Patent Document 2, the distance between the lumbar pad and the mesh material changes, so that the patent document 2 cannot be applied to Patent Document 1.

Therefore, as a means for giving the chair of FIGS. 5 to 8 in Patent Document 1 a lumbar support function, it is conceivable to attach the lumbar pad to the side member of the back frame via the bracket, but in this case, the side member Since it is deformed, the lumbar pad cannot be held stably, and therefore the lumbar support function cannot be provided. After all, with respect to the chairs of FIGS. 5 to 8 of Patent Document 1, it is difficult to provide the lumbar support function by the conventional means.

On the other hand, in the present invention, the lumbar pad rotates together with the backrest and advances relatively with respect to the back frame. Therefore, even if the mesh material tends to sag during locking, the seated person's body is appropriate. It is possible to realize a comfortable relaxed state by supporting it. Therefore, the commercial value of the chair can be significantly improved.

According to the second aspect, the body of the seated person can be supported by the lumbar pad even in the non-locking state in which the backrest is not tilted backward. The body can be properly supported both in the locking state.

In claim 3, the upper part of the backrest is located above the connecting portion with the back support, but when the seated person stretches the upper body greatly in the locked state and a strong body pressure is applied to the upper part of the backrest, The backrest tends to tilt backward with the connection with the back support as a fulcrum. That is, the double locking function is exhibited, in which the backrest is tilted backward as a whole and then tilted backward with the back support and the connecting portion as a fulcrum. Therefore, the backward tilt angle of the backrest can be increased to improve the relaxing function.

This double locking function also includes FIGS. 5 to 8 of Patent Document 1, but in claim 3, since the lumbar guide body rotates together with the backrest, the waist is appropriately supported by the lumbar pad. , The backrest can be double-locked. Further, since the lumbar support device has a basic structure including a lumbar pad and a lumbar guide body, the structure is simple.

In the figure which shows the embodiment, (A) is an overall perspective view seen from the front, (B) is a partially omitted side view, and (C) is a front view of the lower corner portion of a back frame. (A) is a separated perspective view, and (B) is a partially separated perspective view of the mesh material and the side cover. (A) is a front view and (B) is a rear view. (A) is a plan view, and (B) is a perspective view seen from behind. (A) is a vertical sectional side view centered on the seat portion, (B) is a view seen from the Y direction of FIGS. 1 (C), 7 (A) and 9 (A), and (C) is the same Y. It is a separation diagram seen from the direction. (A) is a separated perspective view of the back portion, and (B) is a partial perspective view of the hinge portion. (A) is a front view showing the skeleton of the back, (B) is a perspective view with the back frame laid down, and (C) is a partial front view of the side member. (A) is a separated perspective view, and (B) is a perspective view of the upper corner portion of the back frame. (A) is a separated front view of the back frame, (B) is a rear view of the side cover, and (C) is a rear view of the lower cover. (A) is a separate perspective view of the back frame and the side cover (the side cover is turned inside out), and (B) is a partial front view of the edge portion of the mesh material. (A) is a sectional view taken along the line AA of FIG. 7C, FIG. 7B is a sectional view taken along the line BB of FIG. 7C, and FIG. 7C is a sectional view taken along the line CC of FIG. 7C. Is. (D) is a sectional view taken along the line DD of FIG. 7 (C), FIG. 7 (E) is a sectional view taken along the line EE of FIG. 7 (C), and FIG. Is. It is a vertical sectional front view centering on a lumbar support part. (A) is a detailed view of the part pointed by the arrow A in FIG. 13, (B) is a detailed view of the part pointed by the arrow B of FIG. 13, and (C) is a detailed view of the part pointed to by the arrow C of FIG. Is. (A) is a separated perspective view of the back support and the back frame as seen from below, (B) is a separated perspective view of the connection portion between the back support and the back frame as seen from the back, and (C) is the back support and the back frame. It is a separation perspective view which looked at the connection part with from the front. (A) and (B) are separate perspective views of the back support and the back frame as viewed from below, and (B) is a perspective view of the middle member with the lumbar guide body attached. (A) is a separated perspective view of the lumbar support device as viewed from the front, (B) is a separated perspective view of a part of the lumbar support device as viewed from the back, and (C) is a partial front view of the lumbar guide body. D) is a rear view of the lock body. (A) and (B) are partially omitted separated perspective views of the lumbar support device as viewed from the front, and (B) is a partial perspective view of the lumbar support device. (A) is a partial perspective view of the lumbar support device, (B) is a separate perspective view of the lumbar pad from the lumbar frame, and (C) is a back view of the lumbar pad. (A) is a partial perspective view of the lumbar frame, (B) is a separate perspective view of the lumbar frame and the connecting bar, and (C) is CC of FIG. 11 (C) with the lumbar pad attached to the lumbar frame. It is a cross-sectional view.

(1). Overview Next, embodiments of the present invention will be described with reference to the drawings. First, the outline of the chair will be described mainly based on FIGS. 1 and 2. In this application, the wording of front, back, left and right is used to specify the direction, but this direction is based on the state seen from the person who normally sits on the chair. The front view is the direction facing the seated person.

This embodiment is applied to a swivel chair that is frequently used in offices. This chair includes a seat 1, a backrest 2, and a leg device 3 with casters. The leg device 2 has a leg support 4 made of a gas cylinder, and as shown in FIG. 1 (B) (see also FIG. 5 (A)), a fixed base constituting a base portion is provided at the upper end of the leg support 4. 5 is attached.

The moving base 6 is connected to the portion of the fixed base 5 in front of the leg support 4 by the left-right longitudinal first axis 7 (actually, the first axis 7 is hidden by the side view and cannot be seen. See FIG. 5 (A)). ), The back support 8 is fixed to the rear end of the tilting base 6. Therefore, the back support 8 tilts backward with the first axis 7 as a fulcrum. The spine 8 may be made of resin or metal such as an aluminum die-cast product. The tilting base 6 is also made of metal or resin.

The backrest 2 has a structure in which a mesh material 10 is stretched on a back frame 9 opened in the front-rear direction. The back frame 9 is made of synthetic resin, and has a vertically long left and right side member 11, an upper member 12 integrally connected to the upper end thereof, a lower member 13 connected to the left and right side members 11, and left and right side members 10. It has a middle member 14 connected to the upper part. The middle member 14 has a V shape when viewed from the front, and the lower end portion 14a of the middle member 14 and the upper end portion of the back support column 8 are connected by a second axis 15 extending left and right.

As shown in FIG. 2A, the seat 1 is attached to the seat outer shell 16. The seat outer shell 16 includes a main seat outer shell 16a, a front seat outer shell 16b mounted on the front portion thereof so as to be slidable back and forth, and a third axis 17 (left and right longitudinal third axis 17) extending left and right at the rear end portion of the main seat outer shell 16a. It is composed of a rotary rear seat outer shell 16c connected via FIG. 5 (A)), and the main seat outer shell 16a is fixed to the seat receiving body 18.

As shown in FIG. 2A, the front portion of the seat receiver 18 is connected to the front end portion of the fixed base 5 by a fourth axis 19 that is longitudinally left and right, and the rear portion of the seat receiver 18 is longitudinally left and right. It is connected to the side portion 6a of the tilt base 6 by the fifth axis 20. Therefore, when the backrest 2 tilts backward, the seat receiving body 18 tilts backward with the fourth axis 19 as a fulcrum, whereby the seat 1 tilts backward in conjunction with the backward tilting of the backrest 2. However, the degree of backward tilting of the seat 1 is smaller than the degree of backward tilting of the backrest 2.

The rear end of the rear seat outer shell 16c and the lower member 13 of the back frame 9 are connected by a left-right longitudinal sixth shaft 21. The side member 10 of the back frame 9 has a chevron portion 11a that protrudes forward in the side view and protrudes left and right outward in the front view, but the chevron portion 11a is viewed from the side due to the body pressure of the seated person. It can be deformed so that the posture and the front view posture change.

That is, in the non-locking state, when the body pressure of the seated person is applied to the mesh material 10 as shown by the white arrow in FIG. 1 (B), the chevron portion 11a pulls the mesh material 10 to pull the seated person's body. It rotates inward in the direction of embracing. Therefore, the holdability of the body by the backrest 2 becomes high, and the physical stability of the seated person becomes high.

The backrest 2 is equipped with a lumbar support device. The lumbar support device has a lumbar pad 22 that supports the waist of the seated person via a mesh material 10 and a lumbar guide body 23 to which the lumbar pad 22 is adjustable in height. The upper end is connected to the portion where the middle member 14 and the back support 8 are connected, and the lower end of the lumbar guide body 23 is connected to the lower member 13. Further, the lumbar guide body 23 is gently curved as a whole so as to project toward the front in a side view.

In the non-locking state in which the seated person is not leaning against the backrest 2, assuming that the posture of the rear seat outer shell 16c is constant, no external force in the vertical direction acts on the pad support 23. Therefore, when the seated person or the body hits the mesh material 10, the front-back position of the lumbar pad 22 does not change, and the body pressure of the seated person is supported through the mesh material 10.

On the other hand, when the chevron portion 11a is deformed inward, the lower member 13 may be lowered, and the rear seat outer shell 16c may be tilted backward due to the weight of the seated person. In this case, the lumbar pad 22 is retracted by pulling the pad support 23 downward, and the amount of receding of the lumbar pad 22 is proportional to the physique (weight) of the seated person.

Therefore, when the weight of the seated person is large, the mesh material 10 is greatly dented and deformed backward, and the amount of inward rotation of the chevron portion 11c is also large, but the lumbar pad 22 retracts in proportion to the weight of the seated person. The seated person's body can be properly supported by the lumbar pad. That is, by retracting the lumbar pad 22 in proportion to the amount of elongation of the mesh material 10, the body of the seated person can be appropriately supported even in the non-locking state. The downward movement of the lower member 13 may be performed only by the deformation of the chevron portion 11a, or may be performed only by the rear tilting of the rear seat outer shell 16c (the rear tilting of the rear end of the seat 1).

When the backrest 2 tilts backward, the second axis 15 descends while retreating, and the sixth axis 21 also descends. Therefore, it changes depending on the distance between the second axis 15 and the sixth axis 21, but in this case, the distance may be widened or the distance may be narrowed, and in this embodiment, the distance is narrowed.

Therefore, the mesh material 10 tends to be slack at the time of locking, but when the distance between the second axis 15 and the sixth axis 21 is narrowed, the degree of bending of the lumbar guide body 23 becomes large and the lumbar pad 22 is pushed toward the front. Acts on. This makes it possible to prevent the mesh material 10 from loosening too much. As a result, it is possible to prevent the holdability for the body from becoming excessively high. Further, when the tension on the mesh material 10 is reduced by locking, the chevron portion 11a of the side member 10 expands to the original posture and tries to be deformed by its own elastic restoring force.

The backrest 2 has a portion located above the upper end of the back support column 8. As shown by the black arrow in FIG. 1 (B), the seated person stretches the upper body while the backrest 2 is tilted backward, and the upper part of the backrest 2 is located above the upper end of the back support column 8. In this case, the backrest 2 may tilt backward with the second axis 15 as a fulcrum. That is, after the back support 8 is completely tilted backward, the backrest 2 can be further tilted backward (double locking). Therefore, high comfort can be ensured.

Then, when the backrest 2 tilts backward with the second axis 15 as a fulcrum, the lower end of the back frame 9 tries to rotate toward the front, but the lower end of the back frame 9 is restricted by the sixth axis 21 so that it cannot move forward. Therefore, the chevron portion 11a of the back frame 9 spreads outward and tends to be deformed. Further, when the backrest 2 is tilted backward, the lumbar guide body 23 is deformed to increase the degree of bending, as shown by the black arrow in FIG. 1 (B). As a result, the lumbar pad 22 tends to move forward, and the waist of the seated person is firmly supported.

After all, the backrest 2 can perform primary locking by tilting the back support 8 backward and secondary locking in which only the backrest 2 tilts backward after the back support 8 is completely tilted backward, but the lumbar pad 22 is used during the secondary locking. In order to move forward, it is possible to properly support the seated person's upper body in an extended state and ensure high comfort.

(2). Structure of seat and base The parts will be described below. First, the seat and the base portion will be described. As can be understood from FIG. 2A, the tilting base 6 has side portions 6a located on the left and right sides of the fixed base 5, and the front end portions of the side portions 6a are connected to the fixed base 5.

As shown in FIGS. 2 (A) and 5 (A), the seat receiving body 18 has a left-right longitudinal portion constituting the front portion thereof and a front-rear longitudinal portion located on the left and right, and has left and right portions. The longitudinal portion is connected to the fixed base 5 via the bracket 25. Further, the front-rear longitudinal portion is connected to the tilting base 7 by the fifth axis 20.

A large number of reinforcing ribs are formed on the outer shell 16. A seat inner shell 26 is arranged on the seat outer shell 16, and a cushion material 27 (see FIG. 5A) is stretched on the seat inner shell 26. The cushion material 27 is covered with a skin material (not shown), and the skin material is fixed to the seat inner shell 26. Therefore, although the seat 1 is composed of the seat inner shell 26 and the cushion material 27, the seat outer shell 16 can be regarded as a part of the seat 1.

The seat inner shell 26 has a main seat inner shell 26a fixed to the main seat outer shell 10, and a front deformable portion 26b that can be rolled down and deformed is integrally connected to the front end of the main seat inner shell 26a. There is. The front end of the front deformed portion 26b is connected to the front end of the front seat outer shell 16b. Therefore, when the front end of the front seat outer shell 16b is moved back and forth, the front end of the front deformed portion 26b is rolled in and out downward, and the position of the front end of the seat 1 can be adjusted. The front-back movement of the front seat outer shell 16b is performed by, for example, the lever 28 shown in FIG. 1 (B).

A rear rotating portion 26c is integrally connected to the rear end of the main seat inner shell 26a via a hinge portion, and the rear rotating portion 26c is engaged with the rear seat outer shell 16c by means of engaging (hook means). It is connected. Therefore, the rear seat outer shell 16c and the main seat inner shell 26a rotate together.

As shown in FIG. 5A, the rear end of the tilting base 6 extends behind the fixed base 5, while as shown in FIG. 1B, the lower end of the back column 8 is behind the tilting base 6. A forward facing portion 8a that overlaps from above is formed at the end portion, and the forward facing portion 8a is fixed to the tilting base 6 with a bolt (not shown).

A locking spring is arranged inside the fixed base 5, but it is omitted in the drawing. The locking spring is a coil spring that expands and contracts in the front-rear direction, and its front end is supported by the front spring receiver 29 shown in FIG. 5 (A). The initial elastic force of the locking spring is adjusted by the rotation of the handle provided concentrically with the first shaft 7.

In the present embodiment, the base portion is composed of the fixed base 5, the tilting base 6, the seat receiving body 18, and the seat outer shell 16. However, as described above, the seat outer shell 16 can be regarded as a part of the seat 1. It is also possible to manufacture the tilting base 6 and the back support 8 as an integral product.

(3). Side members of the back frame Next, the backrest 2 will be described mainly with reference to FIGS. 6 to 12. As described above, the backrest 2 includes a back frame 9 and a mesh material 10. The mesh material 10 is an example of the mesh material described in the claims. As shown in FIGS. 10B and 2B, an edge member 34 such as a resin tape is fixed to the outer peripheral edge of the mesh material 10 by contacting or the like, and the edge member 34 is fixed in the vertical direction. The engagement hole 35 is open in a jump. The engaging hole 35 has a square shape, but a circular shape or the like can also be adopted. The edge member 34 is divided into a plurality of pieces.

As described above, the side member 11 of the back frame 9 includes the chevron portion 11a, but as shown in FIGS. 7 (A) and 1 (A), for example, the side member 11 is above the chevron portion 11a. The portion located above the chevron portion 11a also protrudes to the left and right outwards. Therefore, in the upper part of the side member 11, there is a constricted portion 36 inward inward in front view, and the middle member 14 is connected to the constricted portion 36.

For example, as can be understood from FIG. 10A, the side member 11 is formed in a thin shape (plate shape) whose front-rear thickness is much smaller than the left-right width. Therefore, the chevron portion 11a is viewed from the side. Deforms so that the shape of is easily changed. In particular, the apex 37 of the chevron portion 11a is formed thin. Therefore, the chevron portion 11a bends particularly easily around the apex portion 37. Further, the chevron portion 11a is also allowed to be twisted and deformed around the axis. Due to the combined deformation of bending and twisting, the deformation as shown by the alternate long and short dash line in FIG. 1B is allowed.

As can be understood from FIG. 10 (A), a forward-facing rib 38 is formed in a portion of the side member 11 above the apex 37. The rib 38 extends to the upper end of the side member 11.

(4). Mounting structure of side cover / mesh material A side cover 39 is fixed to the front surface of the side member 11. The side cover 39 has basically the same shape as the side member 11, but the portion above the upper half of the chevron portion 11a has the inner side surface shifted outward to determine the width of the side member 11. It is formed to a narrow width of about 60%. As described above, the reason why the narrow portion is formed in the side cover 39 is to facilitate the deformation between the side cover 39 and the side member 11.

As shown in FIGS. 11C and 12E, the side cover 39 is fixed to the side member 11 with a screw 40. Then, a vertically elongated groove 41 opened outward is formed between the side member 11 and the side cover 39 over the entire vertical length, and the edge member 34 of the mesh material 10 is fitted into the vertically elongated groove 41. (See FIGS. 11 and 12).

Therefore, the side cover 39 functions as a means for forming the vertically elongated groove 41 for attaching the edge member 34. Then, as can be understood from FIG. 2B, the side cover 39 is formed with engaging protrusions 42 in which the engaging holes 35 of the edge member 34 are fitted, in a vertical direction. Therefore, the edge member 34 is held so that it cannot be pulled out.

The mesh material 10 is attached in a state where the side cover 39 is fixed to the side member 11 in advance. Therefore, the outward surface of the engaging projection 42 is formed on the inclined surface 42a toward the inner side of the back frame 9 toward the tip end. Therefore, when the edge member 34 is inserted into the vertically elongated groove 41, the edge member 34 is guided by the inclined surface 42a and enters the depth of the vertically elongated groove 41. It fits into the engaging protrusion 42. As a result, the edge member 34 is held so as not to come off from the vertically elongated groove 41.

Since both the back frame 9 and the side cover 39 are injection-molded products made of resin, they must be in a form that can be die-cut. However, if the side cover 39 is provided as in the embodiment, the vertically elongated groove 41 and the engaging protrusion 42 can be easily formed. Can be formed.

By the way, at the constricted portion 36, the tension of the mesh material 10 acts to pull the edge member 34 outward. Therefore, in the configuration in which the edge member 34 is simply fitted into the vertically elongated groove 41, the edge member 34 is used. Is easy to come off. On the other hand, when the engaging projection 42 is formed as in the present embodiment, the edge member 34 can be held inseparably even at the constricted portion 36, so that the mesh specification backrest 2 having the constricted portion 36 is of high quality. Can be provided at. The engaging protrusion 42 may be formed on the side member 11 or may be formed on both the side member 11 and the side cover 39.

The side cover 39 is also a part of the back frame 9, and therefore, strictly speaking, it should be said that the back frame 9 is composed of the main body and the side cover 39, but in the present application, it is convenient. , The expression is that the side cover 39 is fixed to the back frame 9.

Since the side cover 39 becomes a resistance to the bending of the back frame 9, care is taken not to hinder the deformation of the back frame 9. That is, first, a slit 43 is formed in the side cover 39 at the chevron portion 11a so as to be easily deformed. The slit 43 is open on both the front side and the left and right outside. Further, as described above, the portion of the side cover 39 above the upper half of the chevron portion 11a is made narrower to facilitate the deformation of the chevron portion 11a.

As is clearly shown in FIG. 10A, the side member 11 is formed with a tubular boss portion 44 into which a screw 40 for fixing the side cover 39 is screwed. The tubular boss portion 44 is formed by thinning the rib 38 at the location of the rib 38. The rib 38 also plays a role of defining the inner surface of the vertically elongated groove 41.

The cover is not attached to the upper member 12 of the back frame 9, and as shown in FIGS. 8 and 12 (F), the upper member 12 of the back frame 9 itself is used as a part of the mounting groove of the mesh material 10. The upper horizontal groove 45 is formed. The upper member 12 is basically set so as not to be elastically deformed. The upper horizontal groove 45 and the vertical groove 41 communicate with each other.

For example, as shown in FIG. 8, an expansion groove portion 46 extending toward the front is formed at the left and right ends of the horizontally long groove 45, while a protrusion 47 is formed on the expansion groove portion 46 in the state of the side cover 39. ing. Therefore, the upper end of the side member 11 does not float toward the front, the mesh material 10 can be kept in a beautiful state, and the mesh material 10 can be prevented from being torn.

(5). Connection structure between side member and lower member For example, as shown in FIG. 7B, the lower member 13 of the back frame 9 has a gutter-shaped shape that opens forward, but has a large number of internal reinforcements. It has ribs and basically has a rigid structure that does not deform. Downward bracket portions 13a are formed on the left and right ends of the lower member 13, and the bracket portions 13a are connected to the rear seat outer shell 16c by a third axis 17 as shown in FIG. 5 (A). ..

For example, as shown in FIG. 7B, the lower member 13 and the side member 11 are connected by a pin 50 in an inclined posture. The pin 50 is tilted so as to approach the center of the back frame 9 as it goes upward in the front view. Therefore, when the chevron portion 11a of the side member 11 rotates about the pin 50, the chevron portion 11a changes its shape in the side view as shown by the alternate long and short dash line in FIG. 1B, and also in the front view. The shape of is also changed.

Specifically, when the body pressure of the seated person is applied to the mesh material 10, the mesh material 10 is pushed and the chevron portion 11a rotates inward to reduce the angle in the side view. The angle of is also deformed so as to be slightly smaller. This deformation is allowed by raising the lower member 13. Further, the ascending movement of the lower member 13 is permitted by the rear seat outer shell 16c rotating upward (the rear portion of the seat 1 also rotates slightly upward).

The pin 50 constitutes a hinge means, and as an element of the hinge means, bearing portions 51 and 52 into which the pin 50 is fitted are provided at the lower end of the side member 11 and the left and right ends of the lower member 13. Two bearing portions 51 are formed on the side member 11, and one bearing portion 52 is formed on the lower member 13, but the relationship may be reversed. As can be understood from FIGS. 6 (B) and 7 (B), the lower bearing portion 51 in the side member 11 is inserted inside the outer circumference of the side member 11 and is outside the lower bearing portion 51. The above-mentioned vertically elongated groove 41 is formed.

The pin 50 is inserted into the bearing portions 51 and 52 from below, but as can be understood from the comparison of FIGS. 5 (B) and 5 (C), the pin 50 is prevented from coming off by the protrusion 53 provided on the side cover 39. ing.

The lower cover 54 overlaps the lower member 13 from the front, and the lower cover 54 is fixed to the lower member 13 with a plurality of screws 55 (see FIG. 14B). Then, boss portions 56a and 56b that are fitted to each other are formed in the left and right intermediate portions of the lower member 13 and the lower cover 54, and the lower end portions 22a of the lumbar guide body 23 are fitted into the boss portions 56a and 56b.

Therefore, the lower end portion 22a of the lumbar guide body 23 has a hole 57 that fits into the boss portions 56a and 56b. The screw 55 is screwed into the lower member 13 via the boss portions 56a and 56b. The boss portion into which the lumbar guide body 23 is fitted may be formed on only one of the lower member 13 and the lower cover 54.

The chevron portion 11a of the side member 11 frequently rotates due to a change in the body pressure of the seated person. Therefore, a moment due to the rotation of the chevron portion 11a frequently acts on the connecting portion at the lower end of the side member 11. Therefore, for example, as shown in FIG. 9A, a metal plate stopper 58 having a posture orthogonal to the pin 50 is arranged so as to straddle the front surface of the side member 11 and the lower member 13. The stopper 58 is formed of an elastic metal plate in a band shape, and is fitted into a frame portion formed on the side member 11 and the lower member 13 so as not to be laterally displaced.

One end (lower end, right end) of the stopper 58 is fitted into the first boss body 59 projecting forward from the lower member 13 so as not to be displaced, while the other end (upper end, left end) of the stopper 59. Is fitted in the second boss body 60 which is projected forward from the side member 11. Therefore, the stopper 58 is formed with a long groove hole 61 that is slidably fitted into the second boss body 60. Although the long groove hole 61 is cut open, it may be a closed type long hole. Further, the stopper 58 may be connected (or fixed) to the side member 11 so as not to be displaced.

The second boss body 60 is an example of a hit portion, and the inward rotation of the chevron portion 11a in the side member 11 is regulated by the second boss body 60 hitting the bottom of the elongated groove hole 61 in the stopper 58. In this case, since the stopper 59 is long in the direction orthogonal to the pin 50, the moment due to the rotation of the chevron portion 11a is remarkably relaxed. Therefore, the durability can be significantly improved as compared with the case where the side member 11 and the lower member 13 directly hit each other. As a result, practicality can be improved.

The stopper 58 can be elastically deformed (bently deformed) after hitting the second boss body 60, and the bending deformation can alleviate the impact of the chevron portion 11a during inward rotation. As a result, it is possible to prevent the seated person from feeling uncomfortable.

As shown in FIG. 1 (C), in order to allow the side member 11 to rotate, there is a slight gap between the lower end of the side member 11 and the left and right side ends of the lower cover 54, and a part of the stopper 58 is It is exposed from the gap. However, since the gap is covered with the mesh material 10 from the front, there is no problem in aesthetics.

As shown in FIG. 14 (B), a lower horizontal groove 62 opened downward is formed on the mating surface of the lower member 13 and the lower cover 54, and the edge member 34 provided at the lower end of the mesh material 10 is lower horizontally long. It is inserted into the groove 62. Although the lower cover 54 is not provided with a locking means for the edge member 34, it is possible to provide the same engaging protrusions as the side cover 39.

In FIGS. 6B and 9A, the ends of the edge member 34 located at the lower end of the side member 11 and the edge member overlapping the lower member 13 are displayed in a shaded pattern. As shown in this figure, the edge member 34 provided on the side member 11 and the edge member 34 provided on the lower member 13 are separated from each other on both sides (both sides of the extension line of the axis of the pin 50) sandwiching the bent portion. There is.

Therefore, the chevron portion 11a is deformed and the bending force does not repeatedly act on the edge member 34. Therefore, the durability of the edge member 34 does not decrease. Although the mesh material 10 is deformed, tension is not applied to the mesh material 10, so that there is no problem of tearing during use.

The bearing portions 51 and 52 of the side member 11 and the lower member 13 are partially exposed on the front side, but since this is covered with the mesh material 10, there is a problem of aesthetics as in the case of the stopper 58. Does not occur.

(6). Mounting structure of lumbar guide body Next, the lumbar support device will be described mainly with reference to the drawings shown in FIGS. 13 and below. The lumbar guide body 23 is made of a resin or a metal plate and has a long vertical band shape, and as described above, the lumbar guide body 23 is curved toward the front in a side view. To be precise, the upper part is curved. Therefore, it can be deformed by an external force applied in the vertical direction. Of the lumbar guide body 23, the portion where the lumbar pad 22 moves up and down is in a substantially linear posture when viewed from the side. The lumbar guide body 23 can also be called a pad support.

The lower end of the lumbar guide body 23 is connected to the lower member 13 as described above. On the other hand, the upper end portion of the lumbar guide body 23 is connected to the lower end portion of the middle member 14. This point will be explained first.

As shown in FIGS. 14 to 16, a bearing boss portion 65 is formed at the upper end of the back support column 8 so as to project diagonally upward toward the front, while a bearing boss portion 65 is formed at the lower end portion 14a of the middle member 14. The bearing recess 66 into which the bearing is inserted is formed so as to open downward and rearward. Then, the lower end portion 14a of the middle member 14 and the bearing boss portion 65 are connected by a second shaft 15 (pin).

The left-right width of the bearing recess 66 is larger than the left-right width of the bearing boss portion 65, and the side view angle spacer 67 is located between the left-right side surface of the bearing boss portion 65 and the left-right inner side surface of the bearing recess 66. , 68 is sandwiched. Spacers 67 and 68 are separated into two large and small parts, both of which are nested. The small spacer 68 is made of a member having a small coefficient of friction and is in contact with the outer surface of the bearing boss portion 65. The large spacer 67 is rotatably held in the bearing recess 66, and the small spacer 68 is non-rotatably fitted to the large spacer 67.

For example, as shown in FIG. 16A, the upper end portion 22b of the lumbar guide body 23 is bent backward, and the upper end portion 23b of the lumbar guide body 23 has two left and right positioning holes 68, while the middle member 14 On the upper inner surface of the bearing recess 66, two left and right positioning bosses 70 that fit into the positioning holes 68 are projected downward. Therefore, in the present embodiment, the upper end portion 22b of the lumbar guide body 23 is connected to the middle member 14.

The positioning hole 68 and the positioning boss 70 may be one each, but if two positioning holes 68 are formed on the left and right, there is an advantage that the stability of the lumbar guide body 23 can be improved. Further, the positioning hole 68 and the positioning boss 70 are formed in a long shape in the front-rear direction, which also contributes to the posture stability of the lumbar guide body 23. Of course, the positioning hole 68 and the positioning boss 70 can be formed into various shapes such as a circle and a square.

The second shaft 15 penetrates the lower end portion 14a of the middle member 14. Therefore, the lower end portion 14a of the middle member 14 is provided with a pin hole 71 into which the second shaft 15 is fitted. Therefore, the center cover 72 is attached to the lower end portion 14a of the middle member 14, and the pin holes 71 are covered from the left and right sides by the left and right end portions 72a of the center cover 72. As a result, the second shaft 15 is held so that it cannot be pulled out. For example, as is clearly shown in FIG. 16, the lower end portion 14a of the middle member 14 is formed with a recess 73 into which the left and right end portions 72a of the center cover 72 are fitted.

The center cover 72 is formed in a gate shape when viewed from the front so as not to interfere with the lumbar guide body 23. Then, for example, as shown in FIG. 14A, an engaging piece 72b that enters the bearing recess 67 is formed at the upper end of the center cover 72, and the claw 75 formed in the engaging piece 72b is formed on the bearing recess 66. It is engaged with the engagement bar 76 provided in the above.

Since the upper end edge of the center cover 72 is in contact with the upper surface of the bearing recess 66, the center cover 72 is held so as not to come off. The center cover 72 is attached by utilizing the deformation of the engaging piece 72b. The engaging bar 75 also functions to regulate the upward movement of the upper end portion 22b of the lumbar guide body 23.

(7). Lumber pad and elevating mechanism As shown in FIGS. 19 and 20, for example, the lumbar pad 22 is made of a soft resin such as an elastomer and is formed horizontally and horizontally. In addition, both left and right ends are rounded. The lumbar pad 22 is attached to a lumbar frame 80 arranged behind the lumbar pad 22. The lumbar frame 80 is curved so as to be recessed toward the front in a plan view, and the left and right side portions are open. Therefore, it is in the shape of glasses (it does not have to be open).

The lumbar frame 80 is largely curved in a plan view, whereas the lumbar pad 22 is substantially flat. Therefore, only the left and right ends of the lumbar pad 22 are attached to the lumbar frame 80 in a state where both ends are supported. As the mounting structure of the lumbar pad 22, for example, as shown in FIGS. 19 (B) and 20 (C), the lumbar pad 22 is formed with a multi-stage engaging claw 81 projecting outward on the lumbar frame 80. Formed a pocket portion 82 into which the engaging claw 81 enters.

For example, as clearly shown in FIGS. 20A and 20C, the lower ends of the lumbar frame 80 are connected by a joint bar 83. The joint bar 83 is formed with a hook portion 84 that engages with the engaging claw 81 at the lowermost end. The presence of the joint bar 83 prevents the lumbar frame 80 from spreading and deforming. The lumbar pad 22 can be stretched and deformed so as to be recessed backward when the seated person's body pressure is applied.

For example, as shown in FIGS. 17 and 18, a guide wall portion 85 composed of a group of ribs is formed in the left and right intermediate portions of the lumbar frame 80, and the lumbar guide body 23 is placed between the left and right guide wall portions 85. An elevating guide body 86 to be held is arranged. The lumbar guide body 23 is located in front of the elevating guide body 86, and the elevating guide body 86 is provided with left and right engaging claws 87 located on the front side of the lumbar guide body 23.

The lower end of the engaging claw 87 is a free end, and the lower end is a chevron protruding inward. On the other hand, the lumbar guide body 23 is provided with left and right uneven portions 88 to which the engaging claws 87 engage and disengage due to deformation against the elasticity thereof.

(8). Lumber pad lock mechanism Further, a lock body 89 is arranged in front of the elevating guide body 86, and the lock body 86 is fixed to the guide protrusion 85 of the lumbar frame 80 by left and right screws 90. ing. There is a certain distance (several mm) between the lock body 86 and the elevating guide body 86, and the lock body 89 and the lumbar frame 80 have only a certain size with respect to the elevating guide body 86 and the lumbar guide body 23. Can move back and forth.

Further, as shown in FIGS. 18B and 18C, left and right springs (coil springs) 91 are arranged between the lock body 86 and the elevating guide body 86. Therefore, the lock body 86 is urged in a direction away from the elevating guide body 86 and the lumbar guide body 23, and when the body pressure of the seated person is applied to the lumbar pad 22, the lock body 86 comes into close contact with the lumbar guide body 23. do. A spring receiver 92 is formed between the lock body 86 and the elevating guide body 86. It should be noted that other elastic bodies such as rubber may be used as purchased for the coil spring 91.

Then, as can be understood from, for example, FIGS. 18 (A) and 17 (C), the lumbar guide body 23 is provided with side view angle-shaped lock grooves 93 composed of forward ribs on both sides of the vertically long center line. On the rear surface of the lock body 86, a vertically elongated rib 94 located between the left and right engaging grooves 93 and a vertically elongated rib 94 outside the vertically elongated rib 94, as shown in FIGS. 18 (A) and 17 (D). The upper and lower lock claws 95 protruding in the direction are formed.

The vertical pitch of the lock groove 93 is the same as the pitch of the uneven portion 88, and the distance between the upper and lower lock claws 95 is an integral multiple of the pitch of the lock groove 93 and the uneven portion 88. When the lock claw 95 and the lock groove 93 are fitted, the lumbar frame 80 and the lumbar pad 22 are held so as not to be able to move up and down.

A known example of the elevating mechanism of the lumbar pad is disclosed in, for example, Japanese Patent No. 5940337. In this known example, the backrest has a structure in which a mesh material is stretched on the back frame, and the lumbar pad has a horizontally long form straddling the left and right sides of the back frame, and is attached to the left and right ends of the lumbar pad. The provided guide protrusions are in contact with the vertically long uneven parts for braking formed on the left and right side portions of the back frame.

The guide protrusion is adapted to move up and down the braking unevenness by utilizing the elastic deformation of the lumbar pad, and the guide protrusion is fitted into the concave portion to be set to a desired height with the lumbar pad. As another known example, an elastically deformable engaging claw may be brought into contact with the uneven portion.

On the other hand, when the chair is in use, a downward external force may be applied to the lumbar pad. In particular, in the locking state, the difference between the seat, the backrest, and the movement may cause a phenomenon called back slip, and the seated person's body may tend to move downward with respect to the backrest. May be pushed downwards. Therefore, there is a problem that the lumbar pad shifts downward.

To solve this problem, it is conceivable to increase the engagement force by increasing the depth of the unevenness or increasing the elastic force of the connecting claw. However, this remedy raises a new problem that the height adjustment of the lumbar pad becomes troublesome. That is, conventionally, there has been a problem that the ease of adjusting the height of the lumbar pad and the certainty of preventing slipping conflict with each other.

According to Japanese Patent No. 5940337, when the body pressure of the seated person is applied to the lumbar pad, the guide protrusion is strongly pressed against the uneven portion, so that it can be said that the slip-down prevention function is high, but the uneven portion makes the movement of the guide protrusion smooth. Since it has a corrugated shape, it is doubtful that the guide protrusions can be reliably prevented from slipping.

On the other hand, in the present embodiment, when the seated person's body pressure is applied to the lumbar pad 22, the lock claw 95 is fitted in the lock groove 93, so that the lumbar pad 22 is in the vertical direction (particularly downward). The lumbar pad 22 can be held in a predetermined position without shifting even when an external force is applied.

On the other hand, when the seated person's body pressure is not applied to the lumbar pad 22, the lock claw 95 is separated from the lock groove 93, so that the engaging claw 87 can be elastically deformed and adjusted to an arbitrary height. It is done with a light force. Therefore, in the embodiment of the present application, the lumbar pad 22 can surely prevent the lumbar pad 22 from shifting due to the body pressure of the seated person without impairing the ease of height adjustment.

The upper end portion of the lumbar guide body 23 can also be connected to the bearing boss portion 65 of the back support column 8. Further, although the lumbar pad 22 is attached to the lumbar frame 80 in a state of being supported at both ends, the left and right longitudinal body receiving portions may be integrally formed on the lumbar frame 80. In this case, the lumbar frame 80 and the lumbar pad 22 are integrated. Various other structures can be adopted for the height adjusting mechanism and the locking mechanism of the lumbar pad 22. The lumbar pad 22 can also be called a pad body, and it can be considered that the lumbar pad is composed of the pad body and the ramper frame.

The invention of the present application can be embodied in a chair. Therefore, it can be used industrially.

1 Seat 2 Backrest 5 Fixed base that constitutes the base part 6 Tilt base that constitutes the base part 7 First axis that serves as the tilting fulcrum of the back support 8 Back support 9 Back frame 10 Mesh material 11 Side member 11a Yamagata part (deformation allowable part) , Hugging part)
12 Upper member 13 Lower member 14 Middle member 15 2nd axis 16 Seat outer shell that constitutes the base part 22 Lumber pad 23 Lumber guide body 34 Edge member 35 Engagement hole 36 Constriction part 37 Top part 39 Side cover 50 Hinge part Pin 58 Stopper

Claims (3)

It is provided with a seat and a backrest, a backrest that can be tilted backward to support the backrest from behind, and a base portion to which the seat and the backrest can be attached.
The backrest has a structure in which a mesh material is stretched on a back frame that is open in the front-rear direction, and a deformation allowable portion that approaches and separates from a seated person is formed on the left and right sides of the back frame. ,
Behind the mesh material, a lumbar pad that supports the seated person's body through the mesh material advances relative to the backrest while tilting backward together with the backrest when the backrest is tilted backward. Arranged like,
Chair. When the backrest is not tilted backward and the body pressure of the seated person is not applied to the mesh material, there is a gap between the mesh material and the lumbar pad, and the backrest is not tilted backward. In the state where the seated person's body pressure is applied to the mesh material, the lumbar support supports the seated person's body.
The chair according to claim 1. The back frame has left and right side members, an upper member connected to the upper ends of the left and right side members, and a lower member connected to the lower ends of the left and right side members. , The portion between the upper end and the lower end is integrally connected via the middle member, and the middle member is connected to the back strut so as to rotate around the axis of the left-right longitudinal direction.
Further, a vertically longitudinal lumbar guide body to which the lumbar pad is attached is arranged behind the mesh material, and the upper end of the lumbar guide body is at or near the connecting portion between the middle member and the back support. Attached, the lower end of the lumbar guide body is attached to the lower member.
When the backrest tilts backward, the lumbar guide body bends and deforms in a direction in which the lumbar guide body protrudes forward, so that the lumbar pad advances relative to the backrest.
The chair according to claim 1 or 2.

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