JP4089933B2 - Car seat mounting structure - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a structure for mounting a vehicle seat on a floor of a vehicle body, and more particularly to a vehicle seat mounting structure suitable for a rear seat of a type in which a cargo space is enlarged by being retracted from the floor in a folded state.
[0002]
[Prior art]
In recent years, with the diversification of leisure and the like, vehicles of the type called RV (Recreational Vehicle) or minivan that can board a large number of people and load a large amount of luggage are widely supplied. Such an automobile is configured, for example, such that a rear seat is further provided behind the rear seat and the front seat and the seat are arranged in three rows in the front and rear, while the rear floor becomes a luggage compartment when the rear seat is stored. In such a car, there are various seat arrangements, but the rear row rear seat (third row seat) is a seat that is selectively used when a large number of people get on, and is usually folded and stored in the interior space of the vehicle. The most frequently used form is the wide cargo room at the end of the box. As a conventional method of storing the third row seat, the seat back is overlapped with the backrest portion, and the seat is folded and rotated, so that the seat is folded on the floor or lifted to the side.
[0003]
[Problems to be solved by the invention]
By the way, when the rear seat is stored and the rear floor is used as a luggage compartment, it is desirable that the floor is flat and the rear seat does not protrude from the luggage compartment in consideration of luggage storage and ease of loading and unloading. However, it is not preferable that the storage form is tilted down on the floor or lifted to the side like the above-mentioned third row seat because it protrudes into the luggage compartment even in the folded state. In addition, a vehicle is equipped with a seat belt as a safety device, and a belt anchor for detachably mounting the seat belt is preferably fixed directly to the body frame because a heavy load is applied during operation. . However, since the rear seat as described above is a rotational retractable type, it is difficult to directly fix the belt anchor for the rear seat to the vehicle body frame. Further, even if the belt anchor can be fixed to the vehicle body frame, the belt anchor protrudes from the floor, and there is a problem that it becomes an obstacle when it is used as a luggage compartment. Therefore, although these problems can be solved by fixing the belt anchor to the sheet itself (for example, a strength member of the sheet), there arises a problem that the weight increases in order to provide the strength capable of withstanding a great load. The increase in weight increases the labor for storing and setting the rear seat and increases the cost, and further increases the weight of the entire vehicle, resulting in a decrease in the fuel consumption rate.
[0004]
The present invention has been made in view of such circumstances, and can store a seat such as a rear seat in a state where the floor is flat and can sufficiently withstand a powerful load while suppressing an increase in the weight of the seat. It is an object of the present invention to provide an automobile seat mounting structure that can fix a belt anchor of a seat belt.
[0005]
[Means for Solving the Problems]
  The mounting structure for an automobile seat according to the present invention is such that the backrest portion is tiltably attached to the seating portion via the tilting shaft, and the seatback portion is folded into a folded state by being folded toward the seating portion side, and further incorporated into the vehicle body A structure for attaching an automobile seat provided with a belt anchor to which one end of a seat belt is detachably attached to a floor of a vehicle body, and providing a rotating shaft on a floor via a shaft support portion, and a rotating shaft on the floor A storage recess is provided in the vicinity of the seat to store the seat, and when the seat is seated on the rotating shaft and the folded seat is rotated together with the rotating shaft to the storage recess, the seat is stored in the storing recess. Further, the belt anchor is fixed to the assembly portion of the seating portion to the rotating shaft.In the seat mounting structure for an automobile, the shaft support portion is provided with a biasing member that urges the rotation shaft in the rotation direction in which the seat comes out of the storage recess, and the shaft support portions are mutually connected in the axial direction of the rotation shaft. The inner side plate portion and the outer side plate portion that are spaced apart from each other, and the bottom plate portion that is fixed to the floor of the vehicle body and connects the inner side plate portion and the outer side plate portion. A mounting hole that is rotatably supported is formed, and an arcuate slit along the rotation direction of the rotation shaft is formed in the inner side plate portion, and the urging member is wound around the rotation shaft, and one end of the urging member is formed. And the other end of the urging member is movably provided in the slit, and its tip protrudes from the slit on the inner side plate of the fulcrum, and the other end of the urging member. The part is in contact with the upper end of the slit in the initial state. The tip of the other end of the urging member engages with the engaging piece of the rotating shaft when the rotating shaft rotates a predetermined angle in the rotation direction in which the folded sheet enters the storage recess, and the other end of the urging member The tip of the portion further rotates in the same rotation direction along the slit while being engaged with the engagement piece, so that the biasing member biases the rotation shaft in the rotation direction in which the sheet exits from the storage recess. When the folded sheet is stored in the storage recess, the tip of the other end of the urging member abuts on the lower end of the slit, and the urging force of the urging member is Is set to a strength that can be stored in the storage recess.
[0006]
According to the said structure, a sheet | seat is normally used as a sheet | seat in the state which fixed the backrest part to the appropriate inclination angle. Further, when the backrest portion is tilted to the seating portion side and overlapped, and the entire seat is rotated together with the rotation shaft while being held in the folded state, the seat is stored in the storage recess. Thus, in the state which stored the sheet | seat, the floor in which the sheet | seat was installed can be made flat, and the space can be utilized as a luggage compartment. Further, the belt anchor is stored in the storage recess together with the sheet when the sheet is stored, so that the belt anchor does not protrude onto the floor and the floor is kept flat.
[0007]
In the present invention, the seating portion of the seat is assembled to the rotating shaft, and the belt anchor of the seat belt is fixed to the assembly portion. With this structure, a load generated when the seat belt is operated is applied to the assembly portion of the seating portion on the rotating shaft, and further transmitted from the rotating shaft to the strength member constituting the floor via the shaft support portion. The rotation shaft is a fulcrum for the operation of storing the seat or setting it out of the storage recess, and the assembly portion of the seating portion is a portion that supports the entire seat. For this reason, the rotating shaft and the assembly portion of the seating portion on the rotating shaft are designed with a considerable strength. Therefore, it is possible to obtain a structure having sufficient proof strength against the load generated when the seat belt is operated. In addition, since the load at the time of operation of the seat belt is hardly applied to the seat, basically, it is not necessary to design the strength of the seat in consideration of the load, and the increase in the weight of the seat can be suppressed. As a result, an increase in labor and cost for storing and setting the seat can be suppressed, and further, a decrease in fuel consumption rate accompanying an increase in the weight of the entire automobile can be suppressed.
[0008]
In the present invention, an urging member that urges the rotation shaft in the rotation direction in which the sheet exits from the storage recess is provided on the shaft support portion that supports the rotation shaft, and the urging force of the urging member is It is preferable that the sheet is set to a strength that is generated when the weight is received and the sheet can be stored in the storage recess. According to this aspect, when the rotating shaft rotates in accordance with the operation of tilting the folded sheet toward the storage recess, an urging force is generated in the urging member that receives the weight of the sheet. Since the urging force is strong enough to store the sheet in the storage recess, the sheet is stored in the storage recess without being returned or stopped by the urging member while receiving the urging force. When the sheet is rotated so as to take out the sheet from the storage recess, the person who performs the operation receives the urging force of the urging member, so that the labor required is reduced. That is, when the sheet is taken out from the storage recess, it is supported by the urging member, and the urging force of the urging member, which is the auxiliary force, continues to an angle at which the sheet does not apply weight to the urging member. When the seat is taken out from the storage recess under the floor, since the seat is in a state in which the seating portion and the backrest portion are folded, the total weight of the seat is raised, which requires considerable labor. However, the labor is reduced by receiving the assistance of the urging member as described above, and as a result, the sheet can be easily taken out.
[0009]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment in which the present invention is applied to a third-row seat (hereinafter simply referred to as a seat) of an automobile such as the RV or minivan described above will be described with reference to the drawings.
FIG. 1 schematically shows a procedure for storing the seat 1 according to the present embodiment under a floor 2 from a normal use state. The seat 1 includes a seating portion 10 and a backrest portion 20, and a headrest 30 is attached to the backrest portion 20. The seat 1 is attached to the floor 2 via an attachment shaft (rotating shaft) 3. FIG. 1 (a) shows a normal use state. The headrest 30 is removed from the state, and the backrest 20 is folded forward from the state of FIG. 1 (b) and folded on the seating part 10 (FIG. 1 (c)). Then, when the folded seat 1 is rotated backward with the mounting shaft 3 as a fulcrum (FIG. 1 (d)), as shown in FIG. 1 (e), the storage provided behind the seat 1 on the floor 2 is stored. The sheet 1 is stored in the recess 4 in a reverse state.
Hereinafter, the configuration and mounting structure of the seat 1 will be described in detail.
[0010]
FIG. 2 is an exploded perspective view of the seat 1, and the seat 1 includes a seat portion 10 and a backrest portion 20 that is attached to the seat portion 10 via a pair of left and right reclining mechanisms 40 so as to be tiltable. . The seating portion 10 is assembled by mounting the seating portion cushion 10B shown in FIG. 2 on the seating portion frame 10A shown in FIG. 3 and fixing a cover (not shown) to the back surface of the seating portion frame 10A. On the other hand, the backrest 20 is assembled by mounting the backrest cushion 20B shown in FIG. 1 on the backrest frame 20A shown in FIG. 4, and a pair of left and right headrests 30 are detachably attached.
[0011]
As shown in FIG. 3, the seating portion frame 10 </ b> A is bridged between a pair of left and right side members 11 extending in the front-rear direction, between front end portions (front side in the figure) and rear end portions of these side members 11. The front pipe 12 and the rear member 13, the center pipe 14 spanned between the central portions in the left-right direction of the front pipe 12 and the rear member 13, and the left and right spanned across the center pipe 14 and spanned between the front pipe 12 and the rear member 13. It is comprised from a pair of under panel 15. These components are fixed by appropriate fixing means such as welding and bolting. As shown in FIG. 8, the rear member 13 is a long plate-like member in which a plate-like flange portion 13 </ b> B is integrally formed from an end edge of the pipe portion 13 </ b> A having a semicircular cross section. Thus, the pipe portion 13A is assembled so that the groove side faces downward. The inner diameter of the pipe portion 13A is set to a diameter with which a mounting shaft 3 described later is fitted in the pipe portion 13A. A floor lock 16 for attaching and detaching the front end portion of the seating portion 10 to the floor 2 is attached to the outside of the front end portions of the left and right side members 11.
[0012]
As shown in FIG. 4, the backrest frame 20 includes a pair of left and right side members 21 that extend in the vertical direction, and an upper member 22 and a lower pipe 23 that are spanned between the upper and lower ends of the side members 21. , And a lattice beam 24 incorporated in the inside of the frame formed by these. These components are fixed to each other by welding. A head restore adjuster 25 to which the headrest 30 is detachably attached is fixed to the upper member 22.
[0013]
As shown in FIG. 2, the reclining mechanism 40 that attaches the backrest portion 20 to the seating portion 10 so as to be tiltable includes a fixed bracket 41 that is fixed to the rear end portion of the side surface of the seating portion 10, and a lower end portion on the side surface of the backrest portion 20. A movable bracket 43 fixed to the fixed bracket 41 via the intermediate bracket 42 in the front-rear direction and fixed at an arbitrary rotation angle, an operation lever 44 incorporated in the intermediate bracket 42, and an end of the operation lever 44 A knob 45 attached to the backrest 20, a reclining shaft (tilting shaft) 46 that penetrates through the lower end of the backrest 20 and has an intermediate bracket 42 attached to the left and right protruding ends, a cover 47 of the fixed bracket 41, and the intermediate bracket 42 And a cover 48 of the movable bracket 43. The intermediate bracket 42 incorporates a spring (not shown) that tilts the movable bracket 43 forward, so that the spring can be tilted in the front-rear direction and is operated by an operation lever 44 that is always urged rearward. It has become.
[0014]
Cushions 10B and 20B are mounted on the frames 10A and 20A, respectively, to form a seating portion 10 and a backrest portion 20, which are assembled to the seat 1 as follows. As shown in FIG. 2, first, the reclining shaft 46 is passed through the lower end portion of the backrest portion 20. The reclining shaft 46 is passed through a through hole 21a (see FIG. 4) formed in the lower end portion of the side member 21 of the backrest portion frame 20A. Next, the intermediate brackets 42 are respectively attached to both end portions protruding from the backrest portion 20 of the reclining shaft 46. In addition, each fixed bracket 41 is fixed to the rear end portion of the side surface of the seating portion 10, and each movable bracket 43 is fixed to the lower end portion of the side surface of the backrest portion 20. Next, the covers 47 and 48 are attached, and finally the knob 45 is attached to the operation lever 44. The fixed bracket 41 and the movable bracket 43 are bolted to the seating part frame 10A and the backrest part frame 20A, respectively.
[0015]
When the operation lever 44 of the reclining mechanism 40 is tilted forward, the seat 1 disengages the movable bracket 43 from the intermediate bracket 42, and the backrest 20 with the movable bracket 43 falls forward and overlaps the seat 10, and is folded. It becomes. Further, the movable bracket 43 becomes free when the operation lever 44 is tilted forward, and when the backrest 20 is adjusted to an arbitrary angle in this state and the operation lever 44 is released, the movable bracket 43 becomes the intermediate bracket 42. The engaged and backrest 20 is fixed in that position. Thus, the seat 1 can fix the backrest part 20 at an arbitrary angle, and can fold the backrest part 20 down to the seating part 10 side.
[0016]
The seat 1 is attached to the floor 2 via an attachment shaft 3 shown in FIG. The attachment shaft 3 is a pipe in which shaft portions 3A coaxial with each other are formed at both ends, and an eccentric portion 3C parallel to the shaft portion 3A is formed between the shaft portions 3A via a bent portion 3B. A flange 50 is fixed in the middle of the shaft portion 3 </ b> A, and the end side of the flange 50 has a smaller diameter than other portions. A screw portion 51 protruding in the axial direction is formed at the axial center portion of the end surface of the small diameter portion 3a. The flange 50 is formed with one engaging piece 50a extending in the radial direction.
[0017]
The mounting shaft 3 is rotatably attached to the floor 2 via a floor bracket (shaft support portion) 60 shown in FIG. 5B, with each shaft portion 3A having an axial direction parallel to the left-right direction of the floor 2. . A seat mounting bracket 70 is fixed to the eccentric portion 3C of the mounting shaft 3 by welding. The seat mounting bracket 70 is paired with the rear member 13 described above. As shown in FIG. 8, a flat flange portion 70B is integrally formed from the edge of the pipe portion 70A having a semicircular cross section. It is a long plate-like member, and the inner diameter of the pipe portion 70A is set to a diameter at which the eccentric portion 3C of the mounting shaft 3 is fitted in the pipe portion 70A. The seat mounting bracket 70 is assembled such that the groove side of the pipe portion 70A faces upward while the bent portion 3B of the mounting shaft 3 is substantially upright and the eccentric portion 3C is positioned above the shaft portion 3A.
[0018]
As shown in FIG. 6, the floor bracket 60 is a box shape in which a pair of left and right inner side plate portions 61 and an outer side plate portion 62 are connected by a front plate portion 63 and a bottom plate portion 64. With the bottom plate 64 in a substantially horizontal state and is fixed at an appropriate position on the vehicle body frame below the floor 2. As shown in FIG. 5, an attachment hole 61 a is formed in the inner side plate portion 61, and a positioning hole 62 a is formed in the outer side plate portion 62. Further, an arc-shaped slit 61b is formed in the inner side plate portion 61 concentrically with the mounting hole 61a. Loaded in the floor bracket 60 is a spring (torsion coil spring: biasing member) 65 that biases the mounting shaft 3 in the forward rotation direction indicated by the arrow F in FIGS. 3, 6 and 7 within a range of a certain rotation angle. Is done. As shown in FIG. 5, the arm portions at both ends of the spring 65 are a fixed side hook 65a extending in the tangential direction and a movable side hook 65b in which the other is linearly raised. The spring 65 is wound around the small-diameter portion 3a of the shaft portion 3A so as to be in a winding state when the mounting shaft 3 rotates in the backward rotation direction indicated by the arrow R in FIGS. Further, the urging force of the spring 65 is generated when the weight of the sheet 1 is received, and is set to a strength at which the sheet 1 can be stored in the storage recess 4.
[0019]
The attachment shaft 3 is attached to the floor 2 as follows. First, the floor bracket 60 is attached to the attachment shaft 3. The method will be described with reference to FIG. 5B. First, the movable side hook 65b is inserted into the slit 61b of the inner side plate portion 61, and the spring 65 is set to be substantially coaxial with the mounting hole 61a. Hold within 60. Next, the small-diameter portion 3a of the shaft portion 3A of the mounting shaft 3 is inserted into the mounting hole 61a and the spring 65, the screw portion 51 is further inserted into the positioning hole 62a, and the screw portion 51 protruding from the outer side plate portion 62 is washer. A nut 67 is screwed through 66. Here, the unwinding force due to its own elasticity is weak in the spring 65, so that the fixed side hook 65a is on the bottom plate part 64 of the floor bracket 60 and the movable side hook 65b is on the front plate part 63 side in the slit 61b. Are respectively in contact with the inner surface of the end portion.
[0020]
The floor bracket 60 attached to the attachment shaft 3 in this manner is fixed to an appropriate position on the vehicle body frame below the floor 2 with the opening side directed toward the rear of the vehicle body and the bottom plate portion 64 being in a substantially horizontal state. In this way, the attachment shaft 3 is rotatably attached to the floor 2 via the floor bracket 60. The attachment shaft 3 rotates in the same direction with the shaft portion 3A as a fulcrum as the seating portion 10 of the seat 1 rotates forward or backward, and at the time of reverse rotation, the engagement piece 50a of the flange 50 is a movable side hook of the spring 65. Energizing force is generated in the spring 65 by engaging with 65b.
[0021]
The seat 1 is attached to the attachment shaft 3 having the above-described configuration as follows. As shown in FIG. 8, first, the pipe portion 13 </ b> A of the rear member 13 of the seating portion frame 10 </ b> A is fitted to the eccentric portion 3 </ b> C of the mounting shaft 3. Thereby, each flange part 70B of the seat mounting bracket 70 overlaps with each flange part 13B of the rear member 13. Next, these flange portions 13B and 70B are fastened together with bolts 71 shown in FIG. As described above, the seat 1 is configured such that the rear member 13 of the seating portion frame 10 </ b> A is fixed to the eccentric portion 3 </ b> C of the mounting shaft 3 via the seat mounting bracket 70, and can rotate integrally with the mounting shaft 3.
[0022]
As shown in FIG. 9, a bolt through hole 13b for fixing a belt anchor is formed in the flange portion 13B on the front side (left side in FIG. 9) of the rear member 13 of the seating portion frame 10A. The bolt through holes 13b are formed on both sides of the center pipe 14 as shown in FIG. On the other hand, as shown in FIG. 9, the front flange portion 70B of the seat mounting bracket 70 is formed with a bolt through hole 70b continuous to the bolt through hole 13b. Further, on the back surface of the flange portion 70B, A nut 72 having a screw hole continuing to the bolt through holes 13b and 70b is welded. The belt anchor 80 is fixed to the flanges 13B and 70B on the front side of the rear member 13 and the seat mounting bracket 70 using the bolt through holes 13b and 70b and the nut 72. As shown in FIGS. 3 and 9, the belt anchor 80 has a buckle 80c connected to a base 80a via a belt 80b, and a metal fitting at the end of a seat belt (not shown) is detachably attached to the buckle 80c. Is done. As shown in FIG. 9, the belt anchor 80 is fixed to both flange portions 13 </ b> B and 70 </ b> B by passing bolts 81 passed through a base 80 a through bolt through holes 13 b and 70 b and screwing them into nuts 72. In this way, the belt anchor 80 is fixed to the assembly portion of the seating portion 10 to the attachment shaft 3 (in this case, the rear member 13 of the seating portion frame 10A and the seat attachment bracket 70). In the belt anchor 80, the belt 80b is passed between the seat portion 10 and the backrest portion 20, and the buckle 80c is disposed on the seat portion 10 as shown in FIG.
[0023]
Next, the operation of the seat mounting structure will be described.
As shown in FIG. 1A, in the state where the seat 1 is used, the seating portion 10 is substantially horizontal, and the backrest portion 20 is adjusted to an appropriate rearward tilt angle using the reclining mechanism 40. At this time, the seating portion 10 is fixed to the floor 2 by the floor lock 16, and the stability of the entire seat 1 is maintained. Further, in this state of use, the bent portion 3B of the mounting shaft 3 is substantially upright and the eccentric portion 3C is positioned above the shaft portion 3A. As shown in FIG. (Left side in FIG. 7) Slightly downward.
[0024]
Next, a procedure for storing the seat 1 in the storage recess 4 of the floor 2 will be described.
First, the fixing of the seating portion 10 to the floor 2 by the floor lock 16 is released, and the headrest 30 is pulled out from the headrest adjuster 25 (FIG. 1B). Next, the reclining mechanism 40 is used to fold the backrest part 20 forward and overlap the seating part 10 (FIG. 1C). Thereafter, the folded sheet 1 is rotated backward with the shaft portion 3A of the mounting shaft 3 as a fulcrum (FIGS. 1D to 1E). Then, as shown in FIG. 1 (e), the seat 1 is stored in a reverse state in the storage recess 4 provided behind the seat 1 on the floor 2. Here, when the seat 1 is substantially upright as shown in FIG. 1D, the engaging piece 50a of the flange 50 is connected to the movable hook 65b of the spring 65 as shown in FIGS. When it comes into contact and further rolls back from here, the spring 65 is gradually engulfed by the engagement piece 50a, and an urging force is generated. Although the urging force gradually increases with the reverse rotation of the seat 1, the urging force is such that the seat 1 can be stored in the storage recess 4, so that the seat 1 receives the urging force of the spring 65. It is stored in the storage recess 4 without being returned or stopped by the spring 65. That is, the spring 65 is bent in the winding direction by the weight of the sheet 1, and the urging force becomes maximum when the sheet 1 is stored. Accordingly, if the seat 1 is brought upright and then given a force to slightly tilt backward, the seat 1 is naturally stored in the storage recess 4 by its own weight.
[0025]
When the seat 1 is stored in the storage recess 4, the cover fixed to the back surface of the seating portion 10 covers the storage recess 4 in a state that is substantially flush with the surface of the floor 2. Therefore, the floor 2 is flat, and the space can be effectively used as a cargo room. The belt anchor 80 is stored in the storage recess 4 together with the seat 1 when the seat 1 is stored, and does not protrude onto the floor 2 so that the floor 2 is kept flat.
[0026]
Next, in order to take out the sheet 1 from the storage recess 4 and set it to the use state, an operation reverse to the above-described storage operation may be performed. That is, the seat 1 is pulled up and rotated forward, and as shown in FIG. 1 (c), the backrest portion 20 is once tilted forward, and then only the backrest portion 20 is rotated backward using the reclining mechanism 40 to appropriately tilt. Fix at an angle. Further, the seat portion 10 is fixed to the floor 2 by the floor lock 16, and the headrest 30 is attached to the backrest portion 20.
[0027]
According to the seat mounting structure according to the above-described embodiment, first, the seat 1 can be stored in a state where the floor 2 is flat, thereby greatly improving the storage capacity and ease of loading and unloading. To do.
Next, the belt anchor 80 of the seat belt is fixed to an assembly portion (the rear member 13 of the seating portion frame 10 </ b> A and the seat mounting bracket 70) in the seating portion 10 of the seat 1 to the attachment shaft 3. With this structure, a load generated when the seat belt is operated is applied to the rear member 13 and the seat mounting bracket 70, and further transmitted from the mounting shaft 3 to the vehicle body frame constituting the floor via the floor bracket 60. The attachment shaft 3 is a fulcrum for the operation of storing the seat 1 or setting it out of the storage recess 4, and the assembly portion of the seating portion 10 is a portion that supports the entire seat 1. For this reason, the mounting shaft 3, the rear member 13, and the seat mounting bracket 70 are designed to have a considerable strength. Therefore, it is possible to obtain a structure having sufficient proof strength against the load generated when the seat belt is operated. In addition, since the load at the time of operation of the seat belt is hardly applied to the seat 1, basically, the strength design considering the load is not required for the seat 1, and therefore, an increase in the weight of the seat 1 can be suppressed. As a result, an increase in labor and cost for storing and setting the seat 1 is suppressed, and further, a decrease in fuel consumption rate accompanying an increase in the weight of the entire automobile is also suppressed.
[0028]
Further, when the seat 1 is rotated so as to take the seat 1 out of the storage recess 4, a person who operates the seat 1 receives the urging force of the spring 65 loaded on the floor bracket 60, thereby reducing the labor required. That is, when the sheet 1 is taken out from the storage recess 4, it is supported by the spring 65 until the weight of the sheet 1 is almost upright as shown in FIG. Works. When the seat 1 is taken out from the storage recess 4, the seat 1 is in a state in which the seat portion 10 and the backrest portion 20 are folded, so that the total weight of the seat 1 is raised, which requires considerable labor. . However, the labor is reduced by receiving the assistance of the spring 65, and as a result, the operation of taking out the sheet 1 can be performed easily. Further, when the seat 1 is stored in the storage recess 4, the seat 1 falls while receiving the buffer of the spring 65, so that the operation is not abrupt and safe, and the seat 1 and the floor 2 are also safe. There is no impact and damage is prevented.
[0029]
Further, the spring 65 has a fixed hook 65a on the bottom plate portion 64 of the floor bracket 60 and a movable hook 65b on the slit 61b by its own elasticity even when the engagement piece 50a of the flange 50 is not engaged. The front plate 63 abuts against the inner surface of the end on the side of the front plate 63. Accordingly, even when the seat 1 is used, the spring 65 does not rattle, and the generation of abnormal noise due to rattling is also prevented.
[0030]
【The invention's effect】
As described above, according to the present invention, a seat such as a rear seat can be stored in a state where the floor is flat, and the seat can sufficiently withstand a strong load while suppressing an increase in the weight of the seat. The belt anchor of the belt can be fixed.
[Brief description of the drawings]
FIG. 1 is a side view schematically showing a sheet storing operation associated with a seat mounting structure according to an embodiment of the present invention in the order of (a) to (e).
FIG. 2 is an exploded perspective view of a seat according to an embodiment of the present invention.
FIG. 3 is a perspective view of a seating part frame constituting a seating part of a seat according to an embodiment of the present invention.
FIG. 4 is a perspective view of a backrest part frame constituting a backrest part of a seat according to an embodiment of the present invention.
5A is a perspective view and FIG. 5B is an exploded perspective view in a state where a floor bracket is attached to a mounting shaft according to an embodiment of the present invention.
FIG. 6 is a perspective view showing a floor bracket for attaching the attachment shaft according to the embodiment of the present invention to the floor.
FIGS. 7A and 7B are side views of the inside of the floor bracket, in which FIG. 7A shows a case where a sheet is not stored, and FIG. 7B shows a case where a sheet is stored.
FIG. 8 is a cross-sectional view showing a structure for fixing a rear member of a seating portion frame to a mounting shaft according to an embodiment of the present invention.
FIG. 9 is a cross-sectional view showing a structure for fixing a belt anchor according to an embodiment of the present invention to a rear member of a vehicle body frame and a seat mounting bracket.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Seat, 2 ... Floor, 3 ... Mounting shaft (rotary axis), 4 ... Storage recess,
DESCRIPTION OF SYMBOLS 10 ... Seating part, 20 ... Backrest part, 46 ... Reclining shaft (tilting shaft), 60 ... Floor bracket (shaft support part), 65 ... Spring (biasing member), 80 ... Belt anchor.

Claims (1)

The seat back is tiltably attached to the seat back via a tilting shaft, and the seat back is folded by tilting the back rest toward the seat, and one end of the seat belt built into the vehicle body is detachably attached. A structure for attaching a vehicle seat provided with a belt anchor to a floor of a vehicle body,
A rotary shaft is provided on the floor via a shaft support, and a storage recess is provided in the vicinity of the rotary shaft on the floor to store a seat.
Assembling the seating portion of the seat on the rotation shaft, rotating the folded seat together with the rotation shaft and tilting it to the storage recess side so that the seat is stored in the storage recess,
Further, in the structure for fixing the belt anchor to the assembly portion of the seating portion to the rotating shaft ,
The shaft support portion is provided with a biasing member that biases the rotation shaft in a rotation direction in which the sheet exits from the storage recess.
The shaft support portion includes an inner side plate portion and an outer side plate portion that are separated from each other in the axial direction of the rotating shaft, and a bottom plate portion that is fixed to the floor of the vehicle body and connects the inner side plate portion and the outer side plate portion. The inner side plate portion and the outer side plate portion are formed with mounting holes for rotatably supporting the rotating shaft, and the inner side plate portion has an arc-shaped slit along the rotation direction of the rotating shaft. Formed,
The urging member is wound around the rotating shaft, one end portion of the urging member abuts on a bottom plate portion of the shaft support portion, and the other end portion of the urging member is provided movably in the slit, The tip protrudes from the slit of the inner side plate part of the shaft support part,
In the initial state, the other end of the biasing member is in contact with the upper end of the slit,
The tip of the other end of the urging member engages with an engagement piece of the rotating shaft when the rotating shaft rotates a predetermined angle in the rotation direction in which the folded sheet enters the storage recess. The tip of the other end of the urging member is further rotated in the same rotational direction along the slit while being engaged with the engaging piece, so that the urging member is moved from the storage recess. Generate a biasing force that biases the rotating shaft in the direction of rotation
The tip of the other end of the urging member contacts the lower end of the slit when the folded sheet is stored in the storage recess, and the urging force of the urging member is A mounting structure for an automobile seat, characterized in that it is set to a strength that can be stored in a storage recess .

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