A seat back frame includes a main frame that forms a frame of a seat back of a main seat, and an auxiliary frame that forms a frame of a seat back of an auxiliary seat adjacent to the main seat in a width direction, and that is integrally formed with the main frame. The main frame has a first open portion that opens toward a side with the auxiliary seat in the width direction. An end portion of the auxiliary frame is a fitting structure that fits together with the first open portion, and a portion of the fitting structure is welded.
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1. A seat back frame comprising:
a main frame that defines a frame of a seat back of a main seat, the main frame having a side frame provided on both sides of the main frame in the width direction, and an upper frame that connects upper portions of the side frames together; and
an auxiliary frame that defines a frame of a seat back of an auxiliary seat adjacent to the main seat in a width direction, and that is integrally connected with the main frame, wherein
at least a portion of the main frame includes a first tube-shaped member, the first tube-shaped member having a first open portion that opens toward a side with the auxiliary seat in the width direction,
at least a portion of the auxiliary frame includes a second tube-shaped member, and an end portion of the second tube-shaped member is a fitting structure that fits within the first open portion of the first tube-shaped member, and
a portion of the fitting structure is welded such that the main frame and the auxiliary frame are integrally connected along the upper frame of the main frame.
2. The seat back frame according to
a reinforcing rod that connects the side frames together is provided at a lower portion of the side frames,
the reinforcing rod passes through the side frame that is arranged on a side with the auxiliary frame and extends to a position abutting against the auxiliary frame, and
an abutting portion of the reinforcing rod and the auxiliary frame are welded together.
3. The seat back frame according to
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The disclosure of Japanese Patent Application No. 2011-226738 filed on Oct. 14, 2011 including the specification, drawings and abstract is incorporated herein by reference in its entirety.
1. Field of the Invention
The invention relates to a seat back frame.
2. Description of Related Art
Japanese Patent Application Publication No. 2008-194289 (JP 2008-194289 A), for example, describes a seat back frame in which a main frame that forms a frame of a seat back of a main seat is integrally formed with an auxiliary frame that forms a frame of a seat back of an auxiliary seat adjacent to the main seat in a width direction. As shown in FIGS. 7, 8A, and 8B, a main frame 120f of a seat back frame 114f in JP 2008-194289 A has a side frame 122 formed on both sides, and an upper frame 124 that connects upper portions of the side frames 122 together. Also, an auxiliary frame 130f is formed by a generally L-shaped tube-shaped member being connected to the main frame 120f, in a position adjacent to the main frame 120f in the width direction. Here, the auxiliary frame 130f has a frame body in which hollow steel pipe has been bent in a generally inverted L-shape. The auxiliary frame 130f has a flat end portion 132 that has been press-formed into a generally flat shape. The flat end portion 132 is welded to a shoulder portion of the upper frame 124 of the main frame 120f. Also, because the end portion (i.e., the flat end portion 132) of the auxiliary frame 130f is press-formed into a flat shape, an auxiliary plate 150 is welded to the flat end portion 132 in order to ensure rigidity of the connecting portion.
However, with the seat back frame 114f described in JP 2008-194289 A, there is room for improvement because the auxiliary plate 150 must be provided on the connecting portion where the auxiliary frame 130f is connected to the main frame 120f, which increases the number of parts. Also, the end portion of the auxiliary frame 130f must be press-formed into the flat end portion 132, so the manufacturing cost may also increase.
The invention thus provides a seat back frame in which a main frame that forms a frame of a seat back of a main seat is integrally formed with an auxiliary frame that forms a frame of a seat back of an auxiliary seat adjacent to the main seat in a width direction, without leading to an increase in the number of parts.
A first aspect of the invention relates to a seat back frame that includes a main frame that forms a frame of a seat back of a main seat, and an auxiliary frame that forms a frame of a seat back of an auxiliary seat adjacent to the main seat in a width direction, and that is integrally formed with the main frame. At least a portion of the main frame is formed by a first tube-shaped member. The first tube-shaped member has a first open portion that opens toward a side with the auxiliary seat in the width direction. At least a portion of the auxiliary frame is formed by a second tube-shaped member. An end portion of the second tube-shaped member is a fitting structure that fits together with the first open portion of the first tube-shaped member. A portion of the fitting structure is welded such that the main frame and the auxiliary frame are integrally formed.
According to this aspect, the first tube-shaped member of the main frame has the first open portion that opens toward the side with the auxiliary seat in the width direction. Also, the end portion of the second tube-shaped member of the auxiliary frame is a fitting structure that fits together with the first open portion of the first tube-shaped member, and is welded such that the main frame and the auxiliary frame are integrally formed. As a result, press-forming to make the end portion of the auxiliary frame into a flat end portion is not necessary as it is in the related art, so the manufacturing cost is able to be suppressed. Also, with the structure in which the end portion of the auxiliary frame is made into the flat end portion of the related art, stress with respect to a load on the seat back concentrates at the flat end portion. The structure described above is not a structure of a flat end portion, but rather a structure of a tube-shaped member, and thus is a structure in which stress does not tend to concentrate. Also, there is no need to provide a reinforcing plate, so the number of parts can be inhibited from increasing. Accordingly, it is possible to provide a seat back frame in which a main frame that forms a frame of a seat back of a main seat is integrally formed with an auxiliary frame that forms a frame of a seat back of an auxiliary seat adjacent to the main seat in a width direction, without leading to an increase in the number of parts.
In the aspect described above, the main frame may have a side frame formed on both sides, and an upper frame that connects upper portions of the side frames together. Also, a reinforcing rod that connects the side frames together may be provided at a lower portion of the side frames. Further, the reinforcing rod may pass through the side frame that is arranged on a side with the auxiliary frame and extend to a position abutting against the auxiliary frame, and an abutting portion of the reinforcing rod and the auxiliary frame may be welded.
According to this structure, the reinforcing rod that connects the side frames is provided at a lower portion of the side frames. This reinforcing rod passes through the side frame that is arranged on the side with the auxiliary frame, from among the two side frames, and extends to a position where it abuts against the auxiliary frame, and the abutting portion of the reinforcing rod and the auxiliary frame is welded. Therefore, the main frame and the auxiliary frame both share the reinforcing rod, so the number of parts is able to be further inhibited from increasing. Also, a moment load following rotation of the seat back is applied to the lower portion of the seat back, so stress tends to concentrate there (i.e., at the lower portion of the seat back). In particular, with the related structure in which both the main frame and the auxiliary frame have a reinforcing rod, these reinforcing rods are both welded, so stress of the moment load tends to concentrate at these welds. Here, by having the reinforcing rod be shared and pass through the side frame arranged on the auxiliary frame side, the portion that is welded can be reduced, thus suppressing the stress concentration of the moment load. Also, a thick member may easily be applied to the reinforcing rod while minimizing the number of parts. Applying a thick member to the reinforcing rod in this way enables the rigidity of both the main frame and the auxiliary frame to be increased. As a result, the rigidity of the entire seat back is able to be increased.
Further, in the aspect described above, a weld of the end portion of the second tube-shaped member and the first open portion of the first tube-shaped member may be provided on the upper frame.
According to this structure, the lower portion of the seat back is a portion where moment load following rotation of the seat back is applied and is thus a portion where stress tends to concentrate. Therefore, by having the portion where the weld of the end portion of the second tube-shaped member and the first open portion of the first tube-shaped member is provided be the upper frame of the main frame that is positioned at an upper portion of the seat back, the number of parts is able to be minimized while inhibiting stress concentration.
According to the structure described above, the invention is able to provide a seat back frame in which a main frame that forms a frame of a seat back of a main seat is integrally formed with an auxiliary frame that forms a frame of a seat back of an auxiliary seat adjacent to the main seat in a width direction, without leading to an increase in the number of parts.
The features, advantages, and technical and industrial significance of this invention will be described in the following detailed description of example embodiments of the invention with reference to the accompanying drawings, in which like numerals denote like elements, and wherein:
Hereinafter, example embodiments of the invention will be described with reference to the accompanying drawings.
First, the structure of a seat back frame according to a first example embodiment will be described with reference to
As shown in
The wide seat back (two-person seat) 16 is formed wide by a main seat 20 being integrated with an auxiliary seat 30 that is adjacent to the main seat 20 in the width direction. As shown in
As shown in
As shown in
As shown in
As shown in
As shown in
As shown in
As shown in
As shown in
In this way, with the seat back frame 14f according to the first example embodiment, the first pipe frame 26 (i.e., the first tube-shaped member) of the main frame 20f has the first open portion 26h that opens toward the auxiliary seat 30 side in the width direction. Also, the end portion 30g of the auxiliary frame 30f is a fitting structure that is fits together with the first open portion 26h of the first pipe frame 26 and is welded there, such that the main frame 20f is integrally formed with the auxiliary frame 30f. Therefore, press-forming to make the end portion 30g of the auxiliary frame 30f into a flat end portion is not necessary as it is in the related art, so the manufacturing cost is able to be suppressed. Also, the structure in which the end portion of the auxiliary frame is made into the flat end portion of the related art is a structure in which stress with respect to a load on the seat back concentrates. The structure described above is not a structure of a flat end portion, but rather a structure of a tube-shaped member of a hollow steel tube, so it is a structure in which stress does not tend to concentrate. Also, there is no need to provide a reinforcing plate, so the number of parts can be inhibited from increasing. Accordingly, it is possible to provide the seat back frame 14f in which the main frame 20f that forms the frame of the seat back portion of the main seat 20 is integrally formed with the auxiliary frame 30f that forms the frame of the seat back portion of the auxiliary seat 30 adjacent to the main seat 20 in the width direction, without leading to an increase in the number of parts.
Also, the reinforcing rod 29 that extends between the side frames 22 is provided at the lower portion of the side frames 22. This reinforcing rod 29 passes through the side frame 22 that is arranged on the side with the auxiliary frame 30f, from among the two side frames 22, and extends to a position where it abuts against the auxiliary frame 30f, and the abutting portion of the reinforcing rod 29 and the auxiliary frame 30f is welded. Therefore, the main frame 20f and the auxiliary frame 30f both share the reinforcing rod 29, so an increase in the number of parts is able to be further inhibited. Also, a moment load following rotation of the seat back 14 is applied to the lower portion of the seat back 14, so stress tends to concentrate there (i.e., at the lower portion of the seat back 14). In particular, with the related structure in which both the main frame 20f and the auxiliary frame 30f have a related reinforcing rod, these related reinforcing rods are both welded, so stress of the moment load tends to concentrate at this weld. Here, by having the reinforcing rod 29 be shared and pass through the side frame 22 that is arranged on the side with the auxiliary frame 30f as in the structure described above, the portion that is welded can be reduced, thus suppressing stress concentration of the moment load. Also, a thick member may easily be applied to the reinforcing rod 29 while minimizing the number of parts. Applying a thick member to the reinforcing rod 29 in this way enables the rigidity of both the main frame 20f and the auxiliary frame 30f to be increased. As a result, the rigidity of the entire seat back 14 is able to be increased. Also, the side frame 22 can be shared by both the wide seat back 16 and the narrow seat back 18. Further, during manufacture of the wide seat back 16 and the narrow seat back 18, assembly jigs can also be shared, so the cost may be able to be reduced even further.
Moreover, the lower portion of the seat back 14 is a portion where a moment load following rotation of the seat back 14 is applied and thus is a portion where stress tends to concentrate. Therefore, by having the portion where the weld of the end portion 30g of the auxiliary frame 30f (i.e., the second tube-shaped member) and the first open portion 26h of the first pipe frame 26 (i.e., the first tube-shaped member) is provided be the upper frame 24 that is positioned at the upper portion of the seat back 14, the number of parts is able to be minimized while inhibiting stress concentration.
Next, a seat back frame 214f according to a second example embodiment of the invention will be described with reference to
Heretofore, the invention has been described using the first and second example embodiments, but the invention may also be carried out in various modes other than the first and second example embodiments described above. For example, in the first and second example embodiments, the end portion 30g of the second upper side portion 30u of the auxiliary frame 30f, the end portion 230g of the second upper side portion 230u of the auxiliary frame 230f, and the end portion 230y of the lower side portion 230w are all described as structures formed in a stepped shape by swaging, but they are not limited to being formed in stepped shapes. That is, as long as they are able to fit into the first open portion 26h and the second open portion 229h, they may also be formed in tapered shapes, or they may be formed without stepped shapes or tapered shapes.
Moreover, the diameter 26d of the first pipe frame 26 is described as being larger than the diameter of the auxiliary frame 30f and 230f, but the diameter 26d of the first pipe frame 26 may also be the same as the diameter of the auxiliary frame 30f and 230f as long as the end portion 30g, 230g, and 230y of the auxiliary frame 30f and 230f are able to fit into the main frame 20f and 220f.
Also, the fitting structure of the main frame 20f and the auxiliary frame 30f may be reversed. This may also apply to the fitting structure of the main frame 220f and the auxiliary frame 230f.
Mitsuhashi, Atsutaka, Murayama, Koji, Nakane, Ryoshu
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Oct 12 2012 | Toyota Boshoku Kabushiki Kaisha | (assignment on the face of the patent) | / | |||
Oct 12 2012 | NHK SPRING CO., LTD | (assignment on the face of the patent) | / |
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