JP2016210374A - Vehicle seat - Google Patents

Abstract

PROBLEM TO BE SOLVED: To assemble a pair of right and left support brackets for supporting a headrest on a frame of a seat back by matching their respective directions appropriately.SOLUTION: A seat 1 includes a pair of right and left support brackets 21 mounted on an upper frame part 11 of a seat back 2 so as to support a headrest, and includes a connection member 22 for integrally connecting the pair of right and left support brackets 21. The pair of right and left support brackets 21 are mounted on the upper frame part 11 of the seat back 2 as an integral structure 20 integrally connected by the connection member 22. The connection member 22 has a retreating shape of retreating in a direction (a forward direction) separating from abutment from abutment positions between positions where the pair of right and left support brackets 21 abut on the upper frame part 11 of the seat back 2.SELECTED DRAWING: Figure 5

Description

  The present invention relates to a vehicle seat. Specifically, the present invention relates to a vehicle seat in which a pair of left and right support brackets for supporting a headrest is attached to a frame of a seat back.

  Conventionally, in a vehicle seat, a configuration in which a cylindrical support bracket for supporting a headrest is coupled to a frame of a seat back is known (Patent Document 1). The support brackets are composed of a pair of left and right, and each is individually assembled and welded to the frame of the seat back.

JP 2012-46158 A

  However, in the configuration in which the pair of left and right support brackets are individually assembled to the seatback frame as in the above-described prior art, it is difficult to match the directions of the support brackets to the parallel directions. The present invention was devised as a solution to the above-mentioned problem, and the problem to be solved by the present invention is to make a frame of a seat back by properly aligning a pair of left and right support brackets that support a headrest. It is to be assembled to.

  In order to solve the above problems, the vehicle seat of the present invention takes the following means.

  A first invention is a vehicle seat in which a pair of left and right support brackets for supporting a headrest is attached to a frame of a seat back, and includes a connecting member that integrally connects a pair of left and right support brackets. ing. The pair of left and right support brackets are attached to the frame of the seat back as an integrated structure integrally connected by a connecting member. The connecting member is configured to have a retracted shape that is retracted in a direction away from the contact than the contact position between the positions where the pair of left and right support brackets contact the frame of the seat back.

  According to the first aspect of the invention, since the connecting member has a retracted shape, the pair of left and right support brackets can be assembled to the seat back frame in such a manner that the connecting member is unlikely to interfere with the seat back frame. it can. Therefore, the pair of left and right support brackets can be assembled to the seat back frame with their respective orientations appropriately adjusted.

  The second invention is the following configuration in the first invention described above. A stress distribution portion that can suppress a sudden change in the section modulus between the pair of left and right support brackets of the connecting member is formed.

  According to the second aspect of the present invention, the stress distribution portion can make it difficult for stress concentration to occur between the pair of left and right support brackets and the connecting member.

  The third invention is the following configuration in the first or second invention described above. Between the integral structure and the seat back frame, a slip prevention structure is formed that can prevent the integral structure from coming off in a direction perpendicular to the direction in which the integral structure is assembled to the seat back frame.

  According to the third aspect of the invention, the pair of left and right support brackets can be more firmly attached to the seat back frame.

  According to a fourth invention, in any one of the first to third inventions described above, the following configuration is adopted. The monolithic structure is fitted and assembled in a shape that matches a fitting hole formed by cutting out the frame of the seat back.

  According to the fourth aspect of the present invention, even if the frame of the seat back is formed by cutting out the pair of left and right support brackets, in the region where the connecting member is assembled, the seat back of the seat back is retreated by the amount retracted. The shape of the frame can be increased. Therefore, even if the frame of the seat back is reduced in weight by cutting out, it can be configured to have high structural strength.

1 is a perspective view illustrating a schematic configuration of a vehicle seat of Example 1. FIG. It is an expansion perspective view of the upper frame structure of a seat back. It is the same exploded perspective view. It is the same front view. It is the same top view. FIG. 6 is a plan view showing a main part structure of a vehicle seat of Example 2. FIG. 10 is a plan view illustrating a main part structure of a vehicle seat of Example 3. FIG. 10 is a plan view showing a main part structure of a vehicle seat of Example 4;

  EMBODIMENT OF THE INVENTION Below, the form for implementing this invention is demonstrated using drawing.

<Basic structure of sheet 1>
First, the configuration of the seat 1 (vehicle seat) according to the first embodiment will be described with reference to FIGS. As shown in FIG. 1, the seat 1 of the present embodiment is configured as a rear seat of an automobile, and includes a seat back 2 that serves as a backrest for a seated occupant, a seat cushion (not shown) that serves as a seating portion, It has a configuration including a headrest 3 to be drowned. The seat back 2 is supported by connecting lower end portions of the left and right sides to rear end portions of the left and right sides of the seat cushion via recliners (not shown). The headrest 3 is attached to the upper part of the seat back 2 by being inserted from above.

  Specifically, the headrest 3 has a pair of left and right round bar-like headrest stays 3A extending from the lower surface of each of the cylindrical support members 2A embedded in the upper surface of the seat back 2, respectively. By being inserted into the inside from the upper side, it is attached as a state in which it is engaged with each support member 2A and fixed in an integral manner. In addition, about the structure of each leg part of each headrest stay 3A mentioned above, and each support member 2A, since it is a well-known structure disclosed by literature, such as Unexamined-Japanese-Patent No. 2000-41783, these specific structures The description of is omitted.

  Each of the support members 2A described above is inserted into a pair of left and right square cylindrical support brackets 21 attached to the upper frame portion 11 of the back frame 10 constituting the skeleton of the seat back 2 from the upper side. It is supposed to be attached. Each support bracket 21 is composed of a member different from the back frame 10, but when each of the support members 2A described above is inserted from above, each support member 2A is supported in a parallel state in which the support members 2A are directed straight to each other. In order to be able to do so, it is in a state of being attached in a parallel shape that is directed straight in the height direction with respect to the back frame 10. Here, the upper frame portion 11 corresponds to a “seat back frame” of the present invention.

<Back frame 10>
Hereinafter, the attachment structure of each support bracket 21 to the upper frame portion 11 of the back frame 10 will be described in detail with reference to FIGS. First, the configuration of the back frame 10 will be described. The back frame 10 is formed of one aluminum alloy extruded material. The back frame 10 is bent into a frame shape along the periphery of the seat back 2 after the extrusion molding. The back frame 10 is formed in the shape of a square tube whose cross section continuously extends in a constant shape by extrusion molding of the aluminum alloy described above.

  Specifically, the cross section of the back frame 10 is formed in a polygonal cross section shape in which one side of a quadrangle projects into a trapezoidal shape. The back frame 10 is positioned such that one side of the frame that is bent into the shape of the frame projects in the shape of the above-mentioned trapezoid on the inner peripheral side of the frame is tapered toward the inner peripheral side. Is formed so that one wide side opposite to is positioned on the outer peripheral side of the frame.

  By the above molding, the upper frame piece portion of the back frame 10 that extends straight in the width direction is formed as the upper frame portion 11 that forms the upper skeleton of the seat back 2. The upper frame portion 11 has a polygonal cross-sectional shape as described above, so that a flat plate-like upper side wall portion 11A whose surface faces upward and a flat plate-like front wall whose surface faces front side A square tube having a closed cross section having a portion 11B, a lower side wall portion 11C projecting in an inverted trapezoidal shape with the surface facing downward, and a flat plate-like rear side wall portion 11D having a surface facing the rear side in a chain. It is in a state formed into a shape.

  However, as shown in FIG. 3, an integrated structure 20 that is integrally provided with a pair of left and right support brackets 21, which will be described later, can be inserted into the center portion in the width direction of the upper frame portion 11 from above. A fitting hole 11E is formed. The fitting hole 11E is formed to penetrate in the height direction across the upper wall portion 11A, the front wall portion 11B, and the lower wall portion 11C of the upper frame portion 11. Thereby, the said upper frame part 11 is made into the state formed in the open cross-sectional shape each opened to the front side, the upper side, and the downward side in the formation location of the said fitting hole 11E.

  As shown in detail in FIGS. 3 and 5, the fitting hole 11 </ b> E is a bracket that can be fitted in a state in which each support bracket 21 of the monolithic structure 20 to be described later is received inside over most of the region in the front-rear direction. It is formed in a hole shape having a fitting hole 11E1 and a connecting fitting hole 11E2 that can be fitted in a state in which the connecting member 22 that integrally connects the support brackets 21 is received inside. The fitting hole 11 </ b> E has a circumferential shape of the integrated structure 20 that is applied over the entire area with respect to the shapes of the respective outer surface portions of the integrated structure 20 and the rear uneven surface portions. It is formed in a matching hole shape.

  More specifically, each bracket fitting hole 11E1 described above has a front diagonally outer side on each of the projecting portions 21B to be described later that project to both outer sides of each support bracket 21 by inserting each of the above support brackets 21 from above. Is formed in a hole shape having a hooking hole portion 11E3 that prevents the support bracket 21 from being pulled out to the front side by widening the surface from the top to the bottom.

  Next, the configuration of the fitting hole 11E will be described in more detail. Each bracket fitting hole 11E1 places the rear side surface portion of each support bracket 21 from the rear side to the entire area on the cut out front surface portions of the upper side wall portion 11A and the lower side wall portion 11C of the upper frame portion 11, respectively. It has a shape. And each bracket fitting hole 11E1 has the outer side surface part of each support bracket 21 in the whole area from both outer sides to each side part which each upper wall part 11A, front side wall part 11B, and lower side wall part 11C of the upper frame part 11 cut out. It has a shape that can be applied over the area.

  More specifically, each bracket fitting hole 11E1 has a shape in which the portion applied to the outer surface portion of each of the support brackets 21 has the above-described hooking hole portions 11E3, and the upper wall of the upper frame portion 11 Each projecting portion 21B, which will be described later, projecting from the both outer sides of each support bracket 21 to the respective cut out side portions of the portion 11A, the front side wall portion 11B, and the lower side wall portion 11C is applied from the front oblique outer side to the entire region. It is like that. On the other hand, the connecting fitting hole 11E2 is a connecting member 22 that integrally connects the support brackets 21 of the integrated structure 20 to the cut-out front surface portions of the upper wall portion 11A and the lower wall portion 11C of the upper frame portion 11. A flat plate portion 22A, which will be described later, and rear inclined wall portions 22B2 formed on the left and right sides thereof and extending rearward and obliquely outward are respectively assigned to the entire region from the rear side.

<Integrated structure 20>
Next, the configuration of the integrated structure 20 that is integrally attached to the back frame 10 will be described. The monolithic structure 20 is formed of a single aluminum alloy extruded material. The integrated structure 20 is pressed to finish the shape after the extrusion molding. The monolithic structure 20 is formed in a shape in which the cross section extending in the height direction thereof continuously extends in a certain shape by extrusion molding of the aluminum alloy described above.

<Each support bracket 21>
Specifically, the integrated structure 20 includes a substantially square cylindrical support bracket 21 extending in a pair of left and right height directions, and a substantially flat plate extending in the height direction so as to integrally connect the support brackets 21. And a connecting member 22 having a shape. Specifically, each of the support brackets 21 has a rectangular tube-shaped square tube portion 21A, and a uniform overhang portion 21B that protrudes outward from the outer surface portion of each square tube portion 21A into a right-angled triangular cross section. It is formed in a substantially rectangular tube shape having a wide cross section.

  Each of the square tube portions 21A has a flat plate-like front side wall portion 21A1 that faces the front side, a flat plate-like inner wall portion 21A2 that faces the inner side in the width direction, and a flat plate shape that faces the rear side. The rear side wall portion 21A3 and the flat outer wall portion 21A4 having a surface facing outward in the width direction are formed in a continuous rectangular tube shape having a closed cross section that is connected together. Each overhang portion 21B includes an outer inclined wall portion 21B1 extending at a straight angle from the front edge of the outer wall portion 21A4 of each square tube portion 21A toward the rear obliquely outer side, and each of the square tube portions 21A. A rear side wall portion 21B3 that extends outward in a flush manner with the rear side wall portion 21A3 and is connected to an end portion of the outer inclined wall portion 21B1 that extends from the outer side wall portion 21A4 of each square tube portion 21A. The cross section is formed into a continuous triangular cylinder shape having a hollow closed cross section having a right triangle shape.

  Each of the support brackets 21 is inserted into each bracket fitting hole 11E1 of the fitting hole 11E formed in the above-described upper frame portion 11 from above, so that each of the above described square tubes extending flush with each other. The rear side wall portion 21A3 of the portion 21A and the rear side wall portion 21B2 of each overhang portion 21B extend from the front side to the entire front surface portion of the upper side wall portion 11A and the lower side wall portion 11C of the upper frame portion 11, respectively. It has come to be assigned. And each side surface of the upper side wall part 11A, the front side wall part 11B, and the lower side wall part 11C in which the outer inclined wall part 21B1 of each overhang part 21B is cut out obliquely by each hooking hole part 11E3 of the upper frame part 11, respectively. The part is applied obliquely from the inside to the entire region.

  The side wall portions of the upper side wall portion 11A, the front side wall portion 11B, and the lower side wall portion 11C cut out by the respective hook holes 11E3 of the upper frame portion 11 are the outer inclined wall portions 21B1 of the overhang portions 21B of the support brackets 21. The opening width on the front side of the fitting hole 11E is narrowed so as to be inclined inward in the width direction so as to match the inclination. Thereby, it becomes possible to prevent the integral structure 20 fitted in the fitting hole 11E from being pulled out to the front side by the side surface portions of the upper frame portion 11 cut out by the respective hooking holes 11E3. ing. Here, the configuration in which each of the overhang portions 21B is hooked on each of the hooking portions 11E3 to prevent the overhanging portion 21B corresponds to the “slip prevention structure” of the present invention.

  Each of the support brackets 21 is surrounded by a portion where the upper side wall portion 11A, the front side wall portion 11B, and the lower side wall portion 11C of the upper frame portion 11 are applied at each welding location W1 indicated by a one-dot chain line in FIG. Continuously arc welded in the direction and connected. Specifically, each support bracket 21 has an upper side wall portion 11A and a front side wall portion 11B cut out by the respective hook holes 11E3 of the upper frame portion 11 to which the outer inclined wall portions 21B1 of the overhang portions 21B are applied. And the lower side wall portion 11C are joined by arc welding from the outer peripheral side.

  In addition, the welding with respect to the upper frame part 11 of each said support bracket 21 may be performed in the other location. As shown in FIG. 4, each of the support brackets 21 is formed in a substantially rectangular tube shape that is elongated in the height direction with respect to the height width of the upper frame portion 11, and the upper frame portion 11. It is assembled in a shape that protrudes on both sides in the height direction. Positioning of the assembly position of the support bracket 21 in the height direction with respect to the upper frame portion 11 is performed by a jig. Each of the support brackets 21 is configured such that the corresponding support members 2A are respectively inserted into the above-described rectangular tube-shaped rectangular tube portions 21A from above.

<Connecting member 22>
The connecting member 22 has a flat plate portion 22A whose surface is directed in the front-rear direction and a cross section of a portion connected to the left and right support brackets 21 on the left and right sides of the flat plate portion 22A. It is formed in a substantially plate shape having an inclined connecting portion 22B that expands so as to spread in a bifurcated shape. Here, each of the inclined connecting portions 22B corresponds to the “stress distribution portion” of the present invention. Specifically, as shown in FIG. 5, the flat plate portion 22 </ b> A is formed in a flat plate shape with a thin front and rear width having substantially the same thickness as the wall thickness of the above-described pair of left and right support brackets 21. Yes.

  The flat plate portion 22A is formed as a flat plate shape that extends straight in the width direction at the center position in the front-rear direction between the support brackets 21 described above. The flat plate portion 22A has a shape formed at a position retracted further forward than the rear side wall portions 21A3 and 21B2 of the support brackets 21 described above by being arranged at the above position. Further, the flat plate portion 22A has a shape formed at a position retracted rearward from the front side wall portion 21A1 of each support bracket 21 described above.

  The flat plate portion 22A has a bead that is press-processed so as to protrude in the shape of a horizontally long oval on the front side at the center position near the upper portion in the height direction, which is arranged side by side in the width direction with each of the support brackets 21 described above. 22A1 is formed. With the bead 22A1, the flat plate portion 22A has a structure in which the structural strength against bending and twisting is increased. The flat plate portion 22 </ b> A extends from the position aligned with the upper surface of each support bracket 21 to the lower side from the bottom surface of each support bracket 21, and extends in a flat plate shape at a position lower than each support bracket 21. The shape is formed by extending 22A2.

  The extension portion 22A2 is formed with round hole-like mounting holes 22A3 penetrating in the front-rear direction, which is the plate thickness direction, at two positions on the left and right sides. Some attachment parts can be attached. The extension portion 22A2 includes a driving device when the headrest 3 (see FIG. 1) can be raised and lowered in the height direction, a driving device when the seat back 2 can be folded, and the like. Other equipment may be attached.

  As shown in FIGS. 3 and 5, each inclined connecting portion 22 </ b> B is inclined forward from the respective edge portions on the left and right end sides of the flat plate portion 22 </ b> A toward the front edge portion of the inner wall portion 21 </ b> A <b> 2 of each support bracket 21. Front inclined wall portion 22B1 extending with a straight angle on the outside, and straight rearward and outward from each edge on the left and right ends of the flat plate portion 22A toward the rear edge on the inner wall 21A2 of each support bracket 21 And a rear inclined wall portion 22B2 extending at an angle.

  In this way, each inclined connecting portion 22B is supported by the front inclined wall portion 22B1 and the rear inclined wall portion 22B2 bifurcating in the front-rear direction from the respective left and right edge portions of the flat plate portion 22A. It is set as the structure connected to each edge part of the front-back side of inner wall part 21A2 of the bracket 21. FIG. Each inclined connecting portion 22B has a shape in which the width in the front-rear direction is gradually reduced from the outer portion connected to each support bracket 21 to the inner portion connected to the flat plate portion 22A. The structure is such that the change in the section modulus of each region portion of the connection between the connecting member 22 and each support bracket 21 can be smoothed and stress-distributed so as not to be abrupt. Each of the inclined connecting portions 22B has a height of a hollow closed cross section in which the front inclined wall portion 22B1 and the rear inclined wall portion 22B2 described above form an equilateral triangle shape with the inner wall portion 21A2 of each support bracket 21. It is formed in a shape that forms a triangular cylinder shape continuous in the vertical direction.

  Each of the inclined connecting portions 22B described above has an isosceles triangular shape or a side cross section between the front inclined wall portion 22B1 and the rear inclined wall portion 22B2 between the inner wall portion 21A2 of each support bracket 21. May be formed in a triangular shape with irregular lengths. In addition, each inclined connecting portion 22B may have a solid configuration in which the shape connecting the inner wall portion 21A2 of each support bracket 21 is not hollow.

  The connecting member 22 is inserted from above into the connecting hole 11E2 of the connecting hole 11E formed in the above-described upper frame portion 11, so that the above-described flat plate portion 22A is above the upper frame portion 11. The front surface portions of the side wall portion 11A and the lower side wall portion 11C are cut out from the front side over the entire area. Then, the rear inclined wall portions 22B2 of the respective inclined connecting portions 22B are respectively applied to the front surface portions of the upper frame portion 11A and the lower wall portion 11C that are cut out obliquely from the front side to the entire area. It has come to be defeated.

  The connecting member 22 is arc-welded and joined to each location where the upper wall portion 11A and the lower wall portion 11C of the upper frame portion 11 are applied at each welding location W2 indicated by a one-dot chain line in FIG. Yes. Specifically, the front surface of the upper side wall portion 11A and the lower side wall portion 11C cut out by the connection fitting holes 11E2 of the upper frame portion 11 to which the rear surface of the flat plate portion 22A is applied. Each part is joined by arc welding from the outer peripheral side. In addition, the welding with respect to the upper frame part 11 of the said connection member 22 may be performed in the other location.

  As described above, the connecting member 22 has a configuration in which the flat plate portion 22A is formed at a position retracted further forward than the rear side wall portions 21A3 and 21B2 of the support brackets 21. Accordingly, as shown in FIGS. 3 and 5, the front and rear widths T2 (see FIG. 5) of the upper and lower side wall portions 11A and 11C of the upper frame portion 11 applied to the flat plate portion 22A from the rear side are The support bracket 21 can be secured longer than the front-rear width T1 (see FIG. 5) of the upper and lower side wall portions 11A and 11C applied to the rear side wall portions 21A3 and 21B2 of the support bracket 21 from the rear side. Therefore, even if the support brackets 21 are integrally connected to each other by the connecting member 22, the structure strength of the upper frame portion 11 can be ensured high in the connected region. The bracket 21 can be strongly supported by the upper frame portion 11.

  Further, the connecting member 22 has a configuration in which the flat plate portion 22A is formed at a position retracted rearward from the front side wall portion 21A1 of each support bracket 21 as described above. As a result, any of the above-described attachment components attached to the extension portion 22A2 of the flat plate portion 22A can be attached to a position retracted to the rear side from the front side wall portion 21A1 of each support bracket 21. Therefore, any attachment parts attached to the extension portion 22A2 of the flat plate portion 22A are arranged in a position where they are not easily interfered with the back of the seated occupant and retracted to the rear side. Parts can be attached.

  Specifically, since the flat plate portion 22A is configured to have a wide flat surface that is longer in the height direction than the front side wall portion 11B of the upper frame portion 11, a certain attachment component is attached to the upper frame portion 11. Compared to the configuration, the degree of freedom of installation is high. In addition, since the flat plate portion 22A is configured to attach some attachment component to the extension portion 22A2 that extends to a position lower than the support bracket 21, any attachment component attached to the extension portion 22A2 is attached to each support bracket 21. Can be made difficult to interfere with.

  The flat plate portion 22A is in a position where the flat plate portion 22A itself is retracted to the rear side of the front side wall portion 21A1 of each support bracket 21 even if the attachment portion 22A2 is not attached to any attachment part. As a result, the back part of the seated occupant can be received (sunk down) to the rear side to a position deeper than the front side wall part 21A1 of each support bracket 21 in the region between the arrangements of the support brackets 21. Yes.

  As described above, the above-described integrated structure 20 is configured to have a bilaterally symmetric shape in which the support brackets 21 are integrally connected by the connecting member 22, and is input to the upper frame portion 11 from the outside. The load to be applied is combined with a state in which it can have a high structural strength that can be widely dispersed without locally stress concentration.

<Summary>
In summary, the sheet 1 of the present embodiment has the following configuration. That is, the seat 1 is a seat 1 in which a pair of left and right support brackets 21 for supporting the headrest 3 is attached to the upper frame portion 11 (frame) of the seat back 2, and is a connecting member that integrally connects the pair of left and right support brackets 21 together. 22. The pair of left and right support brackets 21 are attached to the upper frame portion 11 of the seat back 2 as an integrated structure 20 integrally connected by a connecting member 22. The connecting member 22 has a retracted shape in which the pair of left and right support brackets 21 are retracted in a direction away from the contact position (forward direction) between positions where the support bracket 21 contacts the upper frame portion 11 of the seat back 2. Has been.

  As described above, since the connecting member 22 has the retracted shape, the pair of left and right support brackets 21 are configured to prevent the connecting member 22 from interfering with the upper frame portion 11 of the seat back 2. 11 can be assembled respectively. Therefore, the pair of left and right support brackets 21 can be assembled to the upper frame portion 11 of the seat back 2 with their respective orientations appropriately adjusted. That is, the support brackets 21 provided in a pair on the left and right sides are made into one part, so that the directions of the support brackets 21 can be appropriately adjusted.

  In addition, an inclined connection portion 22B (stress distribution portion) that can suppress a sudden change in the section modulus between the pair of left and right support brackets 21 of the connection member 22 is formed. ing. With such a configuration, it is possible to make it difficult for stress concentration to occur between the pair of left and right support brackets 21 and the connecting member 22 by the inclined connecting portions 22B.

  A direction perpendicular to the direction (height direction) in which the integrated structure 20 is assembled to the upper frame portion 11 of the seat back 2 between the integrated structure 20 and the upper frame portion 11 of the seat back 2 ( A slip prevention structure (a structure in which each overhanging portion 21B is hooked on each hooking portion 11E3) that can prevent the slipping out in the forward direction) is formed. With this configuration, the pair of left and right support brackets 21 can be more firmly attached to the upper frame portion 11 of the seat back 2.

  Further, the integrated structure 20 is fitted and assembled in a shape that matches a fitting hole 11E formed by cutting out the upper frame portion 11 of the seat back 2. Thus, even if the upper frame portion 11 of the seat back 2 is formed by cutting out the pair of left and right support brackets 21, in the region where the connecting member 22 is assembled, the seat is as much as the retracted connecting member 22. The shape of the upper frame portion 11 of the back 2 can be increased. Therefore, even if the upper frame portion 11 of the seat back 2 is reduced in weight by cutting, it can be configured to have high structural strength.

  In addition, by forming the integrated structure 20 with an extruded material of aluminum alloy, the support brackets 21 formed on the left and right ends of the integrated structure 20 are formed in a shape that is unlikely to be deformed to warp outward. Can do.

  Then, the structure of the sheet | seat 1 of Example 2 is demonstrated using FIG. In the present embodiment, the integrated structure 20 does not have an overhanging portion 21B (see FIG. 5) that projects to the outside of each support bracket 21 shown in the first embodiment. Accordingly, the fitting hole 11E of the upper frame portion 11 does not have the hooking hole portion 11E3 (see FIG. 3) shown in the first embodiment, and the integrated structure 20 is attached to the upper frame portion 11. The cut-out fitting hole 11E can be inserted and assembled from the front side. In addition, since it is the same structure as the sheet | seat 1 shown in Example 1 about the structure except the above, suppose that the same code | symbol is attached | subjected and description is abbreviate | omitted.

  Then, the structure of the sheet | seat 1 of Example 3 is demonstrated using FIG. In this embodiment, each inclined connecting portion 22B of the integrated structure 20 does not have the rear inclined wall portion 22B2 (see FIG. 5) shown in the first embodiment. The shape of the fitting hole 11E of the upper frame portion 11 is the same as that shown in the first embodiment. Even if the integrated structure 20 has such a configuration, the integrated structure 20 is assembled to the upper frame portion 11 so that the front inclined wall portion 22B1 of each inclined connecting portion 22B and the inclined connecting portion 22B are rearwardly connected. Front and rear sides of the inner wall 21A2 of each support bracket 21 from the left and right edges of the flat plate 22A by the cut out front portions of the upper wall 11A and the lower wall 11C of the upper frame 11 facing from the side. A wall structure is formed which has a hollow closed cross-sectional shape having a transverse triangular shape that branches into a bifurcated shape toward each edge on the side. Therefore, the “stress distribution part” of the present invention can be constituted by these wall part structures. In addition, since it is the same structure as the sheet | seat 1 shown in Example 1 about the structure except the above, suppose that the same code | symbol is attached | subjected and description is abbreviate | omitted.

  Then, the structure of the sheet | seat 1 of Example 4 is demonstrated using FIG. In the present embodiment, the integrated structure 20 ′ is configured by press-bending a single steel plate material. Specifically, each support bracket 21 is formed by bending both ends in the width direction of the steel plate material so as to be wound in a rectangular tube shape toward the rear side. Further, the connecting member 22 having the front inclined wall portion 22B1 and the flat plate portion 22A is formed by bending the central region in the width direction of the steel plate material so as to retract to the rear side.

  Similar to the integrated structure 20 shown in the third embodiment, the integrated structure 20 ′ has a configuration without the rear inclined wall portion 22B2 (see FIG. 5) shown in the first embodiment. The wall 22B1 and the cross-section hollow closed cross-sectional shape constituting the “stress distribution portion” of the present invention by the cut out front surface portions of the upper wall portion 11A and the lower wall portion 11C of the upper frame portion 11 A partial structure is formed. Here, each support bracket serving as a front end portion bent by press bending of the integrated structure 20 ′ is provided on each of the front wall portions 11 A and 11 C cut out of the upper frame portion 11. A pressing portion 11F for preventing the inner wall portion 21A2 of 21 from opening toward the inner side in the width direction with the corner portion of the connection with the rear wall portion 21A3 as a fulcrum is formed to protrude to the front side. Each pressing portion 11F is applied to the inner wall portion 21A2 of each support bracket 21 from the inner side in the width direction, thereby preventing the inner wall portion 21A2 from opening inward. In addition, each support bracket 21 can be firmly fixed to the square tube shape of a closed cross section by welding inner wall part 21A2 of each support bracket 21 to front side wall part 21A1.

  In addition, the integrated structure 20 ′ of the present embodiment has an overhang portion 21B (see FIG. 5) that projects to the outside of each support bracket 21 illustrated in the first embodiment, as in the configuration illustrated in the second embodiment. There is no configuration. Accordingly, the fitting hole 11E of the upper frame portion 11 does not have the hooking hole portion 11E3 (see FIG. 3) shown in the first embodiment, and the integrated structure 20 ′ is attached to the upper frame portion 11. It can be assembled by being inserted from the front side into the fitting hole 11E cut out. In addition, since it is the same structure as the sheet | seat 1 shown in Example 1 about the structure except the above, suppose that the same code | symbol is attached | subjected and description is abbreviate | omitted.

<Other examples>
As mentioned above, although embodiment of this invention was described using four Examples, this invention can be implemented with various forms other than said each Example. For example, the “vehicle seat” according to the present invention is widely applied to seats used for various vehicles such as railways, aircrafts, ships, and other vehicles, as well as seats other than rear seats of automobiles. Is something that can be done.

  Moreover, the integrated structure comprised by connecting a pair of left and right support brackets integrally with a connecting member may be attached from the rear side to the frame of the seat back. In that case, the retracting shape of the connecting member is a shape retracting to the rear side from the contact position where each support bracket contacts the frame of the seat back. In addition, the seat back frame to which the integrated structure is attached is not limited to the upper frame portion as shown in each of the above embodiments, but may be other constituent frames of the seat back such as a bracket bridged between the side frames. May be. Moreover, the frame of the seat back to which the integrated structure is attached is not limited to the square tube material as shown in each of the above embodiments, and may be made of a circular tube material or a panel material.

  Further, the integrated structure may be one in which the seatback frame is not fitted into the seatback frame but is recessed into a shape that allows the seatback frame to be fitted. Further, the frame of the seat back does not necessarily have to be in contact with the integrated structure over the entire region in the width direction.

  Further, the retraction shape of the connecting member is not limited to a part in the width direction, and may be a shape in which the whole retreats. In addition, the connecting member is basically formed so that the surface portion that abuts the frame of the seat back is flush with each support bracket, and is partially recessed in the width direction. It may be a shape having a concave portion. Further, the retracting shape of the connecting member may be a shape curved in the retracting direction or a shape retracted step by step. In addition, the connecting member does not necessarily have to connect the pair of left and right support brackets in a single connection over the entire area in the height direction, and is divided and connected to a part of the height direction or a plurality of places. There may be.

  Moreover, each support bracket may consist of the cylinder part for inserting those support members into the cylinder shape which carried out the cross-sectional circular shape or the trapezoid shape. Further, in each of the above embodiments, the overhanging portion that protrudes outward in the width direction from each support bracket as a removal preventing structure that prevents the integral structure from coming off in a direction perpendicular to the assembly direction with respect to the frame of the seat back. An example of the configuration provided with the is shown. However, the projecting portion may be provided so as to project inward in the width direction from each support bracket. Moreover, the overhang | projection part may be provided in the connection member. Further, the overhang portion is not limited to the one that projects in a triangular shape as shown in each of the above embodiments, but one that projects in an arcuate shape, one that projects in a plate shape, What protrudes in various shapes, such as what partially protrudes in pin shape, may be used.

  In addition, the slip-off preventing structure does not fit the integrated structure into the fitting hole opened in the front-rear direction with respect to the frame of the seatback, but does not open in the front-rear direction and penetrates only in the height direction. It may be inserted into and fitted. Further, when the integrated structure is assembled from the front and rear sides with respect to the seat back frame, the overhanging portion functions so that the integrated structure does not come off in the height direction with respect to the seat back frame. May be. Also, when the integrated structure is inserted into the seat back frame in the height direction and assembled, the locking piece formed on the integrated structure is brought into contact with the frame of the seat back so that the assembly position in the height direction is It may be configured to perform positioning.

  Moreover, the stress distribution part should just be the structure which can suppress that the change of the section modulus of the area | region part of a connection member with each support bracket of a joint member becomes rapid, and a cross section coefficient is stepped in steps. Any structure that can avoid stress concentration, such as a structure that can be changed in a moving manner and a structure that suppresses a sudden change in section modulus by connecting with an arcuate curved surface portion, is not limited to a specific shape. The shape can be applied.

DESCRIPTION OF SYMBOLS 1 Seat 2 Seat back 2A Support member 3 Headrest 3A Headrest stay 10 Back frame 11 Upper frame part (frame of seat back)
11A Upper side wall part 11B Front side wall part 11C Lower side wall part 11D Rear side wall part 11E Fitting hole 11E1 Bracket fitting hole 11E2 Connecting fitting hole 11E3 Hooking hole part 11F Holding part 20 Integrated structure 20 'Integrated structure 21 Support bracket 21A Square tube part 21A1 Front side wall part 21A2 Inner side wall part 21A3 Rear side wall part 21A4 Outer side wall part 21B Overhang part (detachment prevention structure)
21B1 Outside inclined wall portion 21B2 Rear side wall portion 22 Connecting member 22A Flat plate portion 22A1 Bead 22A2 Extension portion 22A3 Mounting hole 22B Inclined connecting portion (stress distribution portion)
22B1 Front inclined wall portion 22B2 Rear inclined wall portion T1, T2 Front / rear width W1, W2

Claims (4)

A vehicle seat in which a pair of left and right support brackets for supporting a headrest is attached to a seat back frame,
A connecting member that integrally connects the pair of left and right support brackets;
The pair of left and right support brackets are attached to the frame of the seat back as an integrated structure integrally connected by the connecting member,
The connecting member is configured to have a retracted shape in which the pair of left and right support brackets are retracted in a direction away from the contact direction relative to the contact position between positions where the pair of left and right support brackets contact the frame of the seat back. . The vehicle seat according to claim 1,
A vehicle seat in which a stress distribution portion capable of suppressing a sudden change in a section modulus between the pair of left and right support brackets of the connecting member is formed. The vehicle seat according to claim 1 or 2,
Between the integrated structure and the frame of the seat back, there is formed a slip prevention structure capable of preventing the integrated structure from being pulled out in a direction perpendicular to the direction in which the integrated structure is assembled to the seat back frame. Vehicle seats. The vehicle seat according to any one of claims 1 to 3,
A vehicle seat in which the integrated structure is fitted and assembled in a shape that matches a fitting hole formed by cutting out the frame of the seat back.

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