JP4718675B2 - Vehicle seat lifting and lowering device - Google Patents

Description

[0001]
[Industrial application fields]
The present invention relates to a vertical adjustment device for a vehicle seat, and in particular, devised a configuration for raising and lowering a rear side of a seat.
[0002]
[Prior art]
Japanese Laid-Open Patent Publication No. 6-156126 discloses a configuration in which the rear end of the operating rod is connected to the rear arm, and the front end of the operating rod is connected to the sector gear that meshes with the output gear of the rear operating shaft. ing.
[0003]
[Problems to be solved by the invention]
The known example requires an operating rod for manual operation. However, if the operation is performed by a motor, this is not necessary and the configuration is simplified.
That is, the assembly of complicated parts may exceed the price of the motor, and on the contrary, the cost may increase.
Focusing on this point, the configuration is simplified and the cost is reduced.
[0004]
OBJECT OF THE INVENTION
Simplified operation mechanism, smaller working space, smooth operation, and cost reduction.
[0005]
[Means for Solving the Problems]
In the present invention, the seat frame 1 is attached to a mounting frame 11 that is movable or fixed to the vehicle body by a vertical mechanism, and the vertical mechanism includes a rear vertical mechanism R and a front vertical link mechanism of the seat frame 1. F, and the rear vertical mechanism R is configured such that the other ends of a pair of left and right rear arms 12 pivotally mounted on the seat frame 1 at their respective ends are pivotally mounted on the mounting frame 11 respectively. The rear arm 12 is welded and fixed to the rear rotating shaft 10, and the rear rotating shaft 10 for rotating the rear arm 12 rotates both ends at the rear of the pair of left and right side frames 6. The base of the rear sector gear 15 that meshes with the rear motor output gear 17 of the rear motor 18 is fixed to either one of the left and right sides of the rear rotary shaft 10, and the rear The side sector gear 15 The rear sector gear 15 is separated from the rear arm 12 so as to partially overlap the rear arm 12 in a side view, and the rear sector gear 15 has an arcuate guide hole 20 centered on the rear rotating shaft 10. The vehicle seat up-and-down device is formed and the rear-side guide body 21 fixed to the side frame 6 is engaged with the guide hole 20 .
In the present invention, the rear sector gear 15 is a vehicle seat vertical apparatus that is welded and fixed to either the left or right end side of the rear rotating shaft 10 that protrudes outward from the side frame 6 .
[0006]
【Example】
An embodiment of the present invention will be described with reference to the drawings. Reference numeral 1 denotes a seat frame of a vehicle seat, and a front portion of the seat frame 1 is constituted by a front frame 2. The front frame 2 is formed in a rectangular dish shape that is long to the left and right by a bottom plate 3, left and right side plates 4 provided on the left and right sides of the bottom plate 3, and front and rear plates 5 provided on the front and rear sides.
A pair of left and right side frames 6 are provided on both left and right sides of the front frame 2. The side frame 6 is formed by elongating a longitudinal plate-like member in the front-rear direction, and a mounting base 7 is provided at a mounting portion of the front frame 2 of the side frame 6. The mounting base 7 is formed in an L shape, the vertical plate portion 8 of the mounting base 7 is fixed to the inner surface side of the side frame 6, and the front frame 2 is mounted on the upper surface of the horizontal plate portion 9 of the mounting base 7. The bottom surface of the bottom plate 3 is placed and fixed to each other by any means such as welding or bolt fastening. Therefore, since the front frame 2 is mounted on the mounting base 7, the mounting work is facilitated.
At both rear portions of the left and right side frames 6, both ends of a rear rotation shaft (rear frame) 10 are rotatably mounted via bearings 8. The rear rotation shaft 10 is attached to the left and right side frames 6. A frame member constituting the seat skeleton frame 1 by connecting the rear portions is also used as an operating shaft of a rear vertical mechanism R described later.
[0007]
Thus, the seat frame 1 is attached to a mounting frame 11 that is movable or fixed to the vehicle body side so as to be movable up and down, and one side of the rear vertical mechanism R is disposed inside the side frame 6 of the rear rotating shaft 10. The base of the rear arm 12 constituting the part is fixed by welding, and the tip of the rear arm 12 is pivotally attached to a support bracket 13 provided on the attachment frame 11 by a shaft 14.
One end side of the rear rotating shaft 10 protrudes to the outside of the side frame 6, and the protruding portion of the rear rotating shaft 10 has a rear sector gear 15 constituting a part of the rear vertical mechanism R. The base is welded and fixed, the rear motor output gear 17 is meshed with the gear portion 16 of the rear sector gear 15, and the rear motor output gear 17 is fixed to the output shaft 19 of the rear lifter motor 18. Further, an arcuate guide hole 20 centered on the rear rotation shaft 10 is formed on the rear rotation shaft 10 side of the gear portion 16 of the rear sector gear 15, and the rear guide body 21 is engaged with the guide hole 20. The rear guide body 21 is fixed to the side frame 6.
[0008]
Accordingly, a front rotary shaft 24 that constitutes a part of the front vertical link mechanism F is rotatably mounted on the front side portions of the left and right side frames 6, and the front rotary shaft 24 inside the side frame 6 is mounted on the front rotary shaft 24. The base of the front arm 25 is fixed by welding. One end of the front link rod 26 is pivotally attached to the tip of the front arm 25 by a shaft 27, and the other end of the front link rod 26 is rotated by a shaft 28 to the mounting frame 11 side. Attaches freely.
One of the left and right front arms 25 forms a front sector gear portion 30 on the opposite side of the front link rod 26 across the front rotation shaft 24, and the front sector gear portion 30 meshes with a front motor output gear 31. The front motor output gear 31 is fixed to the output shaft 33 of the front motor 32.
That is, one of the left and right front arms 25 has its middle portion fixed to the front rotary shaft 24 by welding, the front side of the front arm 25 is attached to the front link rod 26, and the front arm 25 has a front sector gear on the rear side. A portion 30 is formed integrally, and an arcuate front guide hole 34 is formed in the front arm 25 closer to the front rotary shaft 24 than the front sector gear portion 30, and a front guide body 35 is engaged with the front guide hole 34. The front guide body 35 is fixed to the side frame 6.
[0009]
In this case, a part of the horizontal plate part 9 of the mounting base 7 is formed with a separation part 36 away from the inner surface of the side frame 6 and a window hole 37 between the separation part 36 and the horizontal plate part 9. The front arm 25 (especially the front sector gear portion 30) and the front link rod 26 are positioned in the gap between the inner surface of the side frame 6 and the lateral plate portion 9 to prevent interference with the mounting base 7. is doing.
Further, the front rotary shaft 24 constituting the front vertical link mechanism F is positioned below the front frame 2, and both ends thereof are rotatably mounted via bearings (not shown), It is also used as a frame constituent member for connecting the side frames 6 to improve the rigidity.
Thus, both ends of the plurality of spring bodies 40 are attached to the left and right side frames 6 between the front frame 2 and the rear rotating shaft 10 at a predetermined interval in the front-rear direction. The spring body 40 is constituted by a zigzag spring, and both ends thereof are engaged with the spring mounting holes 41 of the side frame 6. In this case, the spring body 40 is positioned below the upper edge of the side frame 6 by a predetermined distance. Therefore, in the embodiment, the spring attachment hole 41 for attaching the spring body 40 is positioned below the upper edge of the side frame 6 by a predetermined distance, but other attachment methods may be used.
[0010]
The spring body 40 is not attached to the upper surface of the side frame 6 but is attached to the upper and lower intermediate portions of the side frame 6, thereby reducing the height of the upper surface of the cushion material. That is, the front vertical link mechanism F and the rear vertical mechanism R do not need to be interlocked in the front-rear direction, so that no rod is required, and the rear lifter motor 18 and the front motor 32 are positioned outside the side frame 6. Since there is no drive mechanism inside the side frame 6, there is no interference with the spring body 40 and the cushion material, so that the side frame 6 requires a predetermined height (thickness) to ensure rigidity. The cushion material also requires a predetermined thickness (height), and the upper surface height of the cushion material is based on the position of the spring body 40, but the upper surface height of the cushion material is lowered.
Accordingly, a reclining bracket 43 for attaching a reclining device is attached to the rear upper part of the side frame 6, and the reclining bracket 43 is provided with a reclining motor 44. The reclining motor 44 and the rear lifter motor 18 The front motor 32 is configured as a common assembly part.
[0011]
That is, the reclining motor 44, the rear lifter motor 18, and the front motor 32 are constituted by a motor portion 45 and a gear portion 46, and a worm gear 49 is connected to the in-case rotation output shaft 48 in the casing 47 of the motor portion 45. The worm gear 49 meshes with two intermediate gears 50 and 51 provided on the gear portion 46, and the intermediate gears 50 and 51 are provided with intermediate gears 52 and 53 having the same axial center and a small diameter, respectively. , 53 are meshed with one large-diameter intermediate gear 54 whose axis directions are parallel, and the large-diameter intermediate gear 54 is output shafts 19 and 33 of the motors 18, 32 and 44 (the output shaft of the reclining motor 44 is shown in the figure). (Omitted) and each is configured as a common assembly part.
In this case, the reclining motor 44, the rear lifter motor 18, and the front motor 32 are all located outside the side frame 6 in plan view. In FIG. 1 and FIG. 3, the mounting position of the front motor 32 is different on the left and right, but any motor may be provided outside the side frame 6.
In the figure, 55 is a dorsal skeleton frame of the dorsal fin seat, 56 is a slide rail constituting the mounting frame 11, and 57 is an interlocking shaft for operating the left and right reclining devices, and constitutes a part of the frame.
[0012]
[Action]
Next, the operation will be described.
A seat skeleton frame 1 of a seat for a vehicle seat includes a rectangular dish-shaped front frame 2 that is long to the left and right, side frames 6 on both the left and right sides of the front frame 2, a spring body 40 behind the front frame 2, and a spring. Since it is constituted by the rear rotating shaft (frame) 10 behind the body 40, it can be reduced in weight while having sufficient rigidity (including rigidity against torsion and loads from various directions).
That is, if the whole is constituted by a dish-shaped frame, the rigidity is high, but the weight increases. Therefore, the lower side of the hip point is provided with a spring body 40 in the left-right direction in front and back to ensure cushioning, and the front frame 2 is minimized. By limiting the overall weight, the front frame 2, the left and right side frames 6 and the rear rotating shaft 10 ensure rigidity. In particular, the rear load is applied by the spring body 40 and the side frame 6. Since the seat frame 1 can be supported, the rear rotary shaft 10 of the rear vertical mechanism R can be used on the rear side of the seat frame 1.
[0013]
Therefore, the front frame 2, the left and right side frames 6, the rear rotating shaft (frame) 10 and the spring body 40 achieve both the securing of rigidity and the securing of cushioning, and the rational arrangement of the right material at the right place. The number of parts can be reduced and the weight can be reduced. In particular, the spring body 40 has spring materials in the left-right direction arranged side by side, and the rear rotating shaft 10 that also serves as the rear frame is in the shape of a shaft and reduces the mounting space. Since the body 40 can be disposed as close to the rear rotating shaft 10 as possible, the cushioning property is also improved.
The front rotary shaft 24 constituting the front vertical link mechanism F is positioned below the front frame 2 and both ends thereof are rotatably mounted via bearings (not shown). In addition to the front frame 2, the left and right side frames 6 are also connected by the front rotation shaft 24 to improve the rigidity, and the front rotation shaft 24 is also used as a frame constituent member to reduce the number of parts and reduce the cost. Lower and lighter.
[0014]
Thus, a mounting base 7 formed in an L shape by the vertical plate portion 8 and the horizontal plate portion 9 is provided at the front portion of the side frame 6, and the bottom plate 3 of the front frame 2 is provided on the upper surface of the horizontal plate portion 9. Is attached to each other by an arbitrary means such as welding or bolt fastening, so that the front frame 2 can be easily attached.
Since the front frame 2 is attached to the side frame 6 via the mounting pedestal 7, the rigidity against the load that the seated person sinks (submarine phenomenon) at the time of a collision between the front frame 2 and the side frame 6 is improved. Yes.
The seat frame 1 can be moved up and down independently of the attachment frame 11 by the rear vertical mechanism R and the front vertical link mechanism F. The rear vertical mechanism R Both ends of the rear rotary shaft 10 in the direction of the direction of the shaft are rotatably mounted, and the base of the rear arm 12 is fixed to the inner side of the side frame 6 of the rear rotary shaft 10 by welding. The tip of 12 is rotatably attached to the attachment frame 11 side by a shaft 14, and the base of the rear sector gear 15 is welded and fixed to the outside of the side frame 6 on one end side of the rear rotating shaft 10, so that the rear sector gear 15 Since the rear motor output gear 17 is meshed with the gear portion 16 and the rear motor output gear 17 is fixed to the output shaft 19 of the rear motor 18, when the rear motor 18 is energized, the output shaft 19 rotates and the output shaft 19 rotates. The rear motor output gear 17 further rotates, and the rear sector output 15 rotates to cause the rear sector gear 15 to rotate about the rear rotational shaft 10 to rotate the rear rotational shaft 10. , The rear arm 12 is rotated, and the rear portion of the seat frame 1 is moved up and down by the rear vertical mechanism R.
[0015]
In this case, the rear vertical mechanism R has the base of the rear arm 12 welded and fixed to the left and right sides of the rear rotating shaft 10, respectively, so that the mounting accuracy of the left and right rear arms 12 is improved. The operating accuracy is also improved, and the left and right sides of the seat skeleton frame 1 are prevented from varying up and down.
Further, since the base of the rear sector gear 15 is fixed directly to the rear rotating shaft 10 by welding fixing or serration fitting, the number of parts can be reduced. Also in this respect, the rear motor 18 The rotation axis 10 of the rear side accurately rotates by a predetermined amount with respect to the rotation of the rotation, thereby improving the operation accuracy.
Further, since the rear vertical mechanism R is constituted by the rear rotary shaft 10, the rear arm 12, and the rear sector gear 15, the number of parts can be reduced and the weight can be reduced.
Further, an arcuate guide hole 20 is formed on the rear rotating shaft 10 side of the rear sector gear 15 from the gear portion 16, and a rear guide body 21 fixed to the side frame 6 is engaged with the guide hole 20. Therefore, the rear sector gear 15 is prevented from reversing and mechanical lock is prevented.
[0016]
In this case, since the guide hole 20 is integrally formed in the rear sector gear 15, the manufacturing is easy, the manufacturing accuracy and the guidance accuracy are improved, the operation is smoothed, and the generation of abnormal noise is prevented.
Therefore, both ends of a front-side rotating shaft 24 in the shape of a left and right shaft rod are rotatably mounted on the front portion of the left and right side frames 6, and the front rotating shaft 24 inside the side frame 6 has a front side. The base of the arm 25 is fixed by welding, and one end of the front link rod 26 is pivotally attached to the front end of the front arm 25 by a shaft 27, and the other end of the front link rod 26 is pivotable by a shaft 28 on the mounting frame 11 side. One of the left and right front arms 25 is attached to a shaft, and a front sector gear portion 30 is formed on the opposite side of the front link shaft 26 across the front rotation shaft 24. The front sector gear portion 30 has a front motor output gear 31. Since the front motor output gear 31 is fixed to the output shaft 33 of the front motor 32, when the front motor 32 is energized, the output shaft 33 rotates and the output shaft 33 rotates to rotate the front motor output gear 31. Times When the front motor output gear 31 is rotated, the front sector gear portion 30 is rotated about the front rotation shaft 24 to rotate the front rotation shaft 24, and the front arm 25 is rotated by rotation of the front rotation shaft 24. The front link rod 26 is rotated by the rotation of 25, and the front portion of the seat frame 1 is moved up and down by the front vertical link mechanism F.
[0017]
In this case, since the front vertical link mechanism F has the base portions of the front arms 25 welded and fixed to the left and right sides of the front rotating shaft 24, the mounting accuracy of the left and right front arms 25 is improved. It improves and reduces that the left-right side of the seat frame 1 fluctuates and goes up and down.
Further, since the front sector gear portion 30 is formed on one front arm 25 of the left and right front arms 25, the front sector gear portion 30 has its base portion directly welded and fixed to the front rotary shaft 24. Further, also in this respect, the front rotating shaft 24 accurately rotates by a predetermined amount with respect to the rotation of the front sector gear portion 30 to improve the operation accuracy.
Further, the front vertical link mechanism F is constituted by the front rotary shaft 24, the front arm 25, and the front link rod 26. Therefore, the front vertical link mechanism F can be moved up and down independently of the rear vertical mechanism R. When the link mechanism F and the rear side vertical mechanism R are operated simultaneously, it also acts as a lifter that raises and lowers the entire seat frame 1, reducing the number of parts and reducing the weight.
In this case, an intermediate portion of the front arm 25 is pivotally attached to the seat frame 1, one end of the front arm 25 is pivotally attached to the front link rod 26, and the other end of the front arm 25 is attached to the front side. Since the front sector gear portion 30 that meshes with the front motor output gear 31 of the motor 32 is integrally formed, the mounting portion between the front motor output gear 31 and the front link rod 26 is separated, reducing the operation load, and the middle of the front arm 25. Since both ends pivot around the part, the working space is also reduced.
That is, when one of the front link rod 26 and the front sector gear portion 30 moves up against the intermediate portion of the front arm 25, the other moves down, thereby reducing the working space.
In particular, when the seat frame 1 is in the low position, the front arm 25, the front link rod 26, and the shaft-attached portion are higher than the fixed-side shaft-attached portion of the front link rod 26, while the front sector gear portion 30 is at the low position. Since it meshes with the motor output gear 31, the working space is reduced, which is reasonable.
[0018]
An arc-shaped front guide hole 34 is formed in the front arm 25 on the front rotary shaft 24 side of the front sector gear portion 30, and a front guide body 35 fixed to the side frame 6 is engaged with the front guide hole 34. Therefore, the rotation of the front arm 25 is guided to prevent the mechanical lock.
In this case, since the guide holes 20 and 34 are integrally formed in the rear sector gear 15 and the front arm 25, respectively, the manufacture is easy, and the manufacturing accuracy and the guidance accuracy are improved, and the operation is made smooth. Prevents abnormal noise.
Thus, a part of the horizontal plate portion 9 of the mounting base 7 is formed with a separation portion 36 away from the inner surface of the side frame 6 and a window hole 37 between the separation portion 36 and the horizontal plate portion 9. Therefore, the front arm 25 (particularly, the front sector gear portion 30) and the front link rod 26 are positioned between the inner surface of the side frame 6 and the horizontal plate portion 9 to secure a working space, and a mounting base. 7 is prevented.
Further, since the front arm 25 and the front link rod 26 of the front vertical link mechanism F are located between the front frame 2 and the side frame 6, the interference between the movable part of the front vertical link mechanism F and the cushion material. Also prevent.
[0019]
Thus, a reclining bracket 43 for attaching a reclining device is attached to the rear upper part of the side frame 6, and the reclining bracket 43 is provided with a reclining motor 44, and the reclining motor 44, the rear motor 18, Since the front motor 32 is configured as a common assembly part, the cost is reduced.
Further, since the rear motor 18 and the front motor 32 are provided outside the side frame 6, the spring body 40 provided between the left and right side frames 6 does not interfere with them and is different. Generation of sound is prevented and the durability of the spring body 40 is also improved.
That is, since there is no interference between each motor and the spring body 40, the spring body 40 can be arranged at an optimum position in terms of the seating feeling, and the seating feeling is improved.
Further, since there are no motors below the spring body 40, the lower space of the seat frame 1 can be enlarged and used as an installation space for various members. In addition, a case called a sheet underbox can be inserted.
In addition, since the rear motor 18 and the front motor 32 are provided outside the side frame 6, it is possible to easily attach a manual operation member instead of these, and to set the vehicle seat in other settings. The parts can be shared with each other, the assembly process can be made the same, the equipment cost can be reduced, and the cost can be reduced in this respect.
[0020]
【effect】
In the present invention, the seat skeleton frame 1 is attached to a mounting frame 11 that is movable or fixed to the vehicle body by an up-and-down mechanism. The up-and-down mechanism includes a rear-side up-and-down mechanism R and a front-side up-and-down mechanism R. The rear vertical mechanism R is configured by a link mechanism F, and the other end of a pair of left and right rear arms 12 each having one end pivotally attached to the seat frame 1 is pivotable to the attachment frame 11, respectively. The rear arm 12 is mounted on the rear frame 12 and mounted on the rear rotary shaft 10 with both ends mounted at the rear of the pair of left and right side frames 6 of the seat frame 1. Therefore, the mounting accuracy of the left and right rear arms 12 is improved, the operating accuracy is improved, and the seating feeling is improved.
In the present invention, the seat frame 1 is attached to a mounting frame 11 that is movable or fixed to the vehicle body by a vertical mechanism, and the vertical mechanism includes a rear vertical mechanism R and a front vertical link mechanism of the seat frame 1. F, and the rear vertical mechanism R is configured such that the other ends of a pair of left and right rear arms 12 pivotally mounted on the seat frame 1 at their respective ends are pivotally mounted on the mounting frame 11 respectively. The rear rotating shaft 10 for rotating the rear arm 12 is mounted on both rear sides of the pair of left and right side frames 6, and either one of the left and right sides of the rear rotating shaft 10 is configured. At the end is a vehicle seat lifting / lowering device in which the base of the rear sector gear 15 meshing with the rear motor output gear 17 of the rear motor 18 is fixed, so that complicated assembly is avoided and cost is reduced. make low.
In the present invention, an arcuate guide hole 20 centered on the rear rotating shaft 10 is formed in the rear sector gear 15, and a rear guide body 21 fixed to the side frame 6 is provided in the guide hole 20. Since it is an apparatus for raising and lowering the engaged vehicle seat, it is easy to manufacture, and the manufacturing accuracy and guidance accuracy are also improved, smoothing the operation and preventing the generation of abnormal noise.
[Brief description of the drawings]
FIG. 1 is a perspective view of a seat frame.
FIG. 2 is a perspective view of a seat seat frame.
FIG. 3 is a schematic perspective view of the exploded state.
FIG. 4 is a side view of a seat seat frame.
FIG. 5 is a perspective view of an arm mounting position of a rear vertical mechanism.
FIG. 6 is a perspective view seen from the outside.
FIG. 7 is an exploded perspective view of one side of a front vertical mechanism.
FIG. 8 is a partial perspective view of the front vertical mechanism.
FIG. 9 is an exploded perspective view of the other side of the front side vertical mechanism.
FIG. 10 is an exploded view of the motor.
FIG. 11 is a perspective view showing a meshed state of gears.
FIG. 12 is a front view of the same.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Seat frame frame, 2 ... Front side frame, 3 ... Bottom plate, 6 ... Side part frame, 7 ... Mounting base, 8 ... Vertical plate part, 9 ... Horizontal plate part, 10 ... Rear side rotating shaft, 11 ... Mounting frame , 12 ... Rear arm, 13 ... Support bracket, 14 ... Shaft, 15 ... Rear sector gear, 16 ... Gear part, 17 ... Rear motor output gear, 18 ... Rear motor, 19 ... Output shaft, 20 ... Guide Hole: 21: Rear guide body, 24: Front rotary shaft, 25: Front arm, 26: Front link rod, 27 ... Shaft, 28 ... Shaft, 30 ... Front sector gear section, 31 ... Front motor output gear, 32 ... Front side Motor, 33 ... output shaft, 34 ... front guide hole, 35 ... front guide body, 36 ... separation portion, 37 ... window hole, 40 ... spring body, 41 ... spring mounting hole, 43 ... reclining bracket, 44 ... reclining Motor, 47 ... casing 48 ... in the rotating output shaft case 54 ... large-diameter intermediate gear 55 ... back 凭骨 case frames, 56 ... slide rail 57 ... interlocking shaft.

Claims (2)

The seat frame 1 is attached to a mounting frame 11 that is movable or fixed to the vehicle body by a vertical mechanism, and the vertical mechanism is constituted by a rear vertical mechanism R and a front vertical link mechanism F of the seat frame 1. The rear vertical mechanism R is configured by pivotally mounting the other ends of a pair of left and right rear arms 12 pivotally mounted on the seat frame 1 to the mounting frame 11, respectively. The rear arm 12 is fixed to the rear rotary shaft 10 by welding, and the rear rotary shaft 10 for rotating the rear arm 12 is rotatably mounted at both ends at the rear portions of the pair of left and right side frames 6. A base portion of the rear sector gear 15 that meshes with the rear motor output gear 17 of the rear motor 18 is fixed to either one of the left and right sides of the rear rotating shaft 10. , The rear arm 12 and It is a separate body and is arranged so as to partially overlap the rear arm 12 in a side view, and the rear sector gear 15 is formed with an arcuate guide hole 20 centered on the rear rotating shaft 10, A vehicle seat lifting / lowering apparatus in which a rear guide body 21 fixed to the side frame 6 is engaged with a guide hole 20 . 2. The vehicle seat lifting and lowering device according to claim 1, wherein the rear sector gear 15 is welded and fixed to one of left and right ends of the rear rotating shaft 10 that protrudes outward from the side frame 6 .

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