JP3773996B2 - Reclining device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a reclining device suitable for, for example, variably setting an inclination angle of a backrest of an automobile seat.
[0002]
[Prior art]
There are various types of reclining devices, and a reclining device 410 illustrated in FIG. 8 is known as an example of a double-sided lock recliner.
A conventional reclining device 410 illustrated in FIG. 8 includes a first reclining unit 411 provided on one side of left and right side portions of a vehicle seat, and a second reclining unit 412 provided on the other side. It has.
[0003]
Since the reclining units 411 and 412 have substantially the same structure except for an operation lever 418 to be described later, the first reclining unit 411 will be described below as a representative.
[0004]
As shown in FIG. 8, the first reclining unit 411 includes a base plate 415 fixed to the seat frame side of the seat, a rotating plate 416 fixed to the back frame side, and a hinge shaft 417 fixed to the base plate 415. And an operation lever 418 rotatably provided on the hinge shaft 417, a latch member 419, a cam member 420, and the like. A sub plate 424 is fixed to the base plate 415 by pins 423 and the like, and a rotating plate 416 is sandwiched between the base plate 415 and the sub plate 424.
[0005]
An operation lever 418 is rotatably attached to the hinge shaft 417. The operation lever 418 includes an interlocking pin 454. A rotating plate 416 is rotatably supported by the hinge shaft 417. The rotating plate 416 is provided with internal teeth 461, and a latch member 419 and a cam member 420 are provided between the rotating plate 416 and the base plate 415. The latch member 419 can reciprocate along the guide walls 436 and 437 of the base plate 415. The cam member 420 is directly connected to the operation lever 418 by fitting the interlocking pin 454 into the circular insertion hole 487, and the cam member 420 is moved in a direction in which the latch member 419 is engaged with and disengaged from the internal teeth 461. It is formed in a shape that can be.
[0006]
The base plate 415 and the rotation plate 416 have an insertion hole 441 and a long hole 463 formed in an arc shape centering on the hinge shaft 417, and the interlocking pin 454 of the operation lever 418 is inserted into the insertion hole 441. The hole 487 and the long hole 463 are inserted and connected to the connection hole 493 a of one end part 493 of the connecting rod 492.
[0007]
Further, the second reclining unit 412 is connected by connecting a second interlocking pin (not shown) or the like to the connection hole 593a of the other terminal component 593 of the connecting rod 492.
[0008]
[Problems to be solved by the invention]
In the conventional reclining device 410 configured as described above, when assembling the first reclining unit 411 and the second reclining unit 412 on the left and right sides of the seat, the arrow S or the arrow shown in FIG. An installation error occurs in the direction U. The connection holes 493a and 593a are formed in an arc shape centered on the hinge shaft 417 and corresponding to the mounting error of the first unit 411 and the second unit 412. Therefore, the unlocking of the second reclining unit 412 is remarkably delayed compared to the unlocking of the first reclining unit 411, and the left and right units 411 and 412 do not operate in synchronization, which causes a problem in operation feeling. there were.
[0009]
Accordingly, an object of the present invention is to provide a reclining device that can operate the lock release of the pair of left and right reclining units substantially synchronously and improve the operational feeling.
[0011]
[Means for Solving the Problems]
Claim 1 The reclining device of the present invention described in 1 is a reclining device provided with a first reclining unit provided on one of the left and right sides of the seat and a second reclining unit provided on the other side,
The first reclining unit is
A first base plate fixed to the seat portion side of the seat; and provided on the first base plate so as to be rotatable about a first hinge axis in the horizontal direction and fixed to the backrest side of the seat and the first base plate A first rotating plate provided with internal teeth along an arc centered on the hinge axis, and received between the first base plate and the first rotating plate and provided on the first base plate A first latch member that can reciprocate along a guide wall that is engaged with the inner teeth and a lock release position that is disengaged from the inner teeth, the first base plate, and the first rotating plate; And has a through-hole through which the first hinge shaft is inserted, and is supported rotatably around the first hinge shaft, and the first latch member is moved to the locked position. A first cam member having a shape capable of being driven over the unlocking position, an operation lever provided rotatably about the first hinge shaft, and the first lever provided on the operation lever. A first interlocking pin extending through the hole provided in the base plate to the first cam member side to connect the operation lever and the first cam member, and the operation lever always in the lock position direction. A first spring for biasing, and
The second reclining unit is
A second base plate fixed to the seat portion side of the seat; and provided on the second base plate so as to be rotatable about a second hinge axis in the horizontal direction and fixed to the backrest side of the seat and the second base plate A second rotating plate provided with internal teeth along an arc centered on the hinge axis, and housed between the second base plate and the second rotating plate and provided on the second base plate A second latch member that can reciprocate along a guide wall that is engaged with the inner teeth and a lock release position that is disengaged from the inner teeth, the second base plate, and the second rotating plate; And has a through-hole through which the second hinge shaft is inserted, and is supported rotatably around the second hinge shaft, and the second latch member is moved to the locked position. A second cam member having a shape capable of being driven over the unlocking position; a lever provided rotatably about the second hinge axis; and a lever provided on the lever and provided on the second base plate. A second interlocking pin that extends to the second cam member side through the provided hole to connect the lever and the second cam member, and a second interlocking pin that constantly biases the lever toward the lock position. Two springs, A connecting rod for transmitting the rotational force of the operating lever of the first reclining unit to the second cam member of the second reclining unit; Configured with
further, Of the connecting rod While having the 1st connection hole which lets the 1st interlocking pin pass to one end side terminal parts Of the connecting rod The other end-side terminal part has a second connection hole through which the second interlocking pin passes, and is rotatable about the hinge shaft, and the connection holes are connected to the first reclining unit and the second connection part. Size with play between each interlocking pin to absorb the mounting angle error of the reclining unit Have And,
The first interlocking pin is a differential hole formed in the first cam member. And the first connection hole The differential hole is inserted when the force in the unlocking direction is input to the operation lever. First In the range that the interlock pin moves in the connection hole And until the twisted portion of the connecting rod is absorbed Is sized to have play with the first interlocking pin so that the unlocking force is not transmitted to the first cam member, and the first cam is operated when the operation lever is operated in the unlocking direction. By preventing the member from rotating before the second cam member, the first reclining unit and the second reclining unit are unlocked substantially simultaneously.
[0012]
Claim 2 The reclining device of the present invention described in claim 1 In the reclining device described above, the differential hole is an arc-shaped long hole centering on the hinge shaft, and the interlocking pin can move the play in the length direction of the long hole. ing.
[0014]
Claim 1 The reclining device described in 1 is configured such that the first interlocking pin can move within a certain range within a differential hole formed in the first cam member. Therefore, when the operation lever is operated in the unlocking direction, the first cam member and the second cam member can be synchronized and rotated in the unlocking direction, and the first reclining unit and the second reclining unit can be rotated. The reclining unit is unlocked substantially simultaneously.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
A first embodiment of the present invention will be described below with reference to FIGS. The reclining device 10 shown in FIG. 2 includes a first reclining unit 11 provided at one of the left and right hinges connecting the seat and backrest of the vehicle seat, and the other hinge. And a second reclining unit 12 provided in the section. This is a so-called double-sided lock recliner.
[0016]
First, the first reclining unit 11 will be described with reference to FIGS.
As shown in FIG. 1, the first reclining unit 11 includes a base plate 15 fixed to the seat frame of the seat, a rotating plate 16 fixed to the back frame, and a hinge shaft 17 fixed to the base plate 15. And an operating lever 18 rotatably provided on the hinge shaft 17, a latch member 19 and a cam member 20 that function as locking means. A sub plate 24 is fixed to the base plate 15 with pins 23 and the like, and the rotating plate 16 is sandwiched between the base plate 15 and the sub plate 24.
[0017]
The hinge shaft 17 includes a cylindrical end portion 28 provided with a slit 27, a retaining ring mounting groove 29, a non-circular cross-section portion 30, a cylindrical intermediate body portion 31, a terminal portion 32, and the like. Yes.
[0018]
Blank grooves 35 are formed in the base plate 15 by pressing. The blank groove 35 has a shape in which the surface facing the rotation plate 16 is recessed, and a pair of linear guide walls 36 and 37 along the vertical direction are provided in the lower half of the blank groove 35. Arc-shaped guide walls 38 and 39 are provided in the upper half of the blank groove 35.
[0019]
A non-circular hinge mounting hole 40 is provided at the center of the arcuate guide walls 38 and 39. The hinge mounting hole 40 is fixed in a state where the non-circular cross-section portion 30 of the hinge shaft 17 is fitted. Around the hinge mounting hole 40, an arcuate interlocking pin insertion hole 41 centered on the hole 40 is provided.
[0020]
A spring locking portion 45 is provided in a part of the base plate 15, and one end 47 of the tension spring 46 is locked to the spring locking portion 45. The other end 48 of the tension spring 46 is locked to a part 18a of the operation lever 18. The elasticity of the spring 46 causes the operation lever 18 to be biased in the direction of the lock position shown in FIG. It has become.
[0021]
The operation lever 18 includes an operation portion 18b used when a person or the like adjusts the angle of the seat, and is rotatably attached to the hinge shaft 17. That is, a circular hole 51 is provided at the base of the operating lever 18, and a retaining ring 52 such as an E-ring is mounted in the retaining ring mounting groove 29 with the end portion 28 of the hinge shaft 17 being inserted into the hole 51. By doing so, the operation lever 18 is prevented from being detached from the hinge shaft 17. A first interlocking pin 54 is provided near the hole 51 at the base of the operation lever 18.
[0022]
A blank groove 60 is also formed in the rotating plate 16 by pressing. The blank groove 60 has a shape in which a surface facing the base plate 15 is recessed. Inner teeth 61 are provided below the blank groove 60 so as to follow an arc centered on the hinge shaft 17. A circular bearing hole 62 located at the center of the arc of the inner tooth 61 is provided at the center of the rotating plate 16. The intermediate body 31 of the hinge shaft 17 is inserted into the bearing hole 62 so as to be relatively rotatable. Further, around the bearing hole 62, an arc-shaped long hole 63 centering on the bearing hole 62 is provided.
[0023]
A spring hook pin 65 is fixed to the upper portion of the rotating plate 16. An outer end 67 of the spiral spring 66 is locked to the spring hook pin 65. The inner end 68 of the spiral spring 66 is fitted into the slit 27 of the hinge shaft 17, and the rotating plate 16 acts in the direction of arrow F in FIG. It is supposed to be.
[0024]
The latch member 19 and the cam member 20 are accommodated in a space portion between the blank groove 35 of the base plate 15 and the blank groove 60 of the rotating plate 16. The latch member 19 has linear side portions 75 and 76 that are in sliding contact with the linear guide walls 36 and 37 of the base plate 15, and can move in the vertical direction along the linear guide walls 36 and 37. Yes. At the lower part of the latch member 19, external teeth 80 that can be engaged with and disengaged from the internal teeth 61 are provided. A hook portion 81 and an inclined cam receiving surface 82 are provided on the upper side of the latch member 19.
[0025]
As shown in FIGS. 1 and 3, the cam member 20 has an outer peripheral portion 85 having a radius of curvature that can be fitted to the arcuate guide walls 38 and 39 of the base plate 15. Accordingly, the cam member 20 can freely rotate along the arcuate guide walls 38 and 39. In addition, a hinge insertion through hole 86 that is sufficiently larger than the outer diameter of the hinge shaft 17 is provided at the rotation center of the cam member 20, so that the rotation of the cam member 20 is not restricted by the hinge shaft 17. I am doing so.
[0026]
As shown in FIG. 3, a differential insertion hole 87, which is an arc-shaped long hole with the hole 86 as the center, is provided around the through hole 86, and is provided at the base of the operation lever 18. The first interlocking pin 54 is configured to be inserted into the insertion hole 87 through the interlocking pin insertion hole 41 of the base plate 15. The insertion hole 87 and the first interlocking pin 54 constitute a differential means described in this specification.
[0027]
Further, the first interlocking pin 54 passes through the long hole 63 of the rotating plate 16 and protrudes to the outside of the rotating plate 16, and the end part 93 of the connecting rod 92 is connected to the tip of the first interlocking pin 54. ing. The connecting rod 92 has a rod body 94 that extends horizontally in the width direction of the seat. One end side opening 95 of the rod body 94 is rotatably supported by the terminal portion 32 of the hinge shaft 17. As shown in FIG. 2, the other end side opening 96 of the rod body 94 is rotatably supported by a terminal portion 132 of a hinge shaft 117 of the second reclining unit 12 described later.
[0028]
A connection hole 93 a that functions as an attachment error absorbing means for the terminal part 93 of the connecting rod 92 connected to the first interlocking pin 54 is formed in an arc shape centered on the hinge shaft 17. The connection hole 93a has a certain mounting angle error (the center of the base plate 15 around the hinge shafts 17 and 117) between the first reclining unit 11 and the second reclining unit 12 when mounted on the left and right of a seat or the like. Even if a line and an angle formed by the center line of the base plate 115 of the second reclining unit 12 (described later) occur, the size is set so as to have a play that can be attached to the connecting rod 92 by absorbing the mounting error. .
[0029]
As shown in FIGS. 1 and 3, the cam member 20 has a locking portion 98 that can be hooked on the hook portion 81 of the latch member 19 and a cam that can contact the cam receiving surface 82. A surface 99 is provided. When the cam member 20 is in the locked position as shown in FIG. 4A, the cam surface 99 pushes the cam receiving surface 82 of the latch member 19 in the direction of arrow A in FIG. Is pressed against the inner teeth 61.
[0030]
The locking portion 98 of the cam member 20 rotates while hooking the hook portion 81 of the latch member 19 when the cam member 20 rotates to the unlocking position shown in FIG. Is raised in the direction of arrow B.
[0031]
Next, the second reclining unit 12 will be described with reference to FIG. The second reclining unit 12 is interlocked with the first reclining unit 11, and components other than the lever 118 and the cam member 120 have the same configuration as the first reclining unit 11.
[0032]
The second reclining unit 12 shown in FIG. 2 includes a base plate 115 fixed to the seat frame of the seat, a rotating plate 116 fixed to the back frame, and a hinge shaft 117 fixed to the base plate 115. And a lever 118 rotatably provided on the hinge shaft 117, a latch member 119 functioning as a locking means, a cam member 120, and the like. A sub plate 124 is fixed to the base plate 115 by pins 123 or the like, and the rotating plate 116 is sandwiched between the base plate 115 and the sub plate 124.
[0033]
The hinge shaft 117 includes a cylindrical end portion 128 provided with a slit 127, a retaining ring mounting groove 129, a non-circular cross-sectional portion 130, a cylindrical intermediate body portion 131, a terminal portion 132, and the like. Yes.
[0034]
Blank grooves 135 are formed in the base plate 115. The blank groove 135 has a shape in which a surface facing the rotation plate 116 is recessed, and a pair of linear guide walls 136 and 137 along the vertical direction are provided in the lower half of the blank groove 135. Arc-shaped guide walls 138 and 139 are provided in the upper half of the blank groove 135.
[0035]
A non-circular hinge mounting hole 140 is provided at the center of the arcuate guide walls 138 and 139. The hinge mounting hole 140 is fixed in a state where the non-circular cross-section portion 130 of the hinge shaft 117 is fitted. Around the hinge mounting hole 140, an arcuate interlocking pin insertion hole 141 centering on the hole 140 is provided.
[0036]
A spring locking portion 145 is provided in a part of the base plate 115, and one end 147 of the tension spring 146 is locked to the spring locking portion 145. The other end 148 of the tension spring 146 is locked to a part 118a of the lever 118, and the elasticity of the spring 146 biases the lever 118 toward the lock position.
[0037]
The lever 118 is formed in a shape obtained by cutting off the operation portion 18 b of the operation lever 18 constituting the first reclining unit 11, and is rotatably attached to the hinge shaft 117. In other words, a circular hole 151 is provided at the base of the lever 118, and the lever is attached to the retaining ring mounting groove 129 with the retaining ring 152 inserted into the hole 151 with the end 128 of the hinge shaft 117 inserted therein. 118 is prevented from being removed from the hinge shaft 117. A second interlocking pin 154 is provided near the hole 151 at the base of the lever 118.
[0038]
A blank groove 160 is also formed on the rotating plate 116 by pressing. The blank groove 160 has a shape in which a surface facing the base plate 115 is recessed, and an inner tooth 161 is provided at a lower portion of the blank groove 160. A circular bearing hole 162 located at the center of the arc of the internal tooth 161 is provided at the center of the rotating plate 116. The intermediate body 131 of the hinge shaft 117 is inserted into the bearing hole 162 so as to be relatively rotatable. Further, an arc-shaped long hole 163 centering on the hole 162 is provided around the bearing hole 162.
[0039]
A spring hook pin 165 is provided on the upper portion of the rotating plate 116. The outer end 167 of the spiral spring 166 is locked to the spring hook pin 165. The inner end 168 of the spiral spring 166 is fitted in the slit 127 of the hinge shaft 117, and the rotating plate 116 acts forward (in the direction in which the backrest is caused) by the elasticity of the spring 166.
[0040]
A latch member 119 and a cam member 120 are accommodated in a space portion between the blank groove 135 of the base plate 115 and the blank groove 160 of the rotating plate 116. The latch member 119 has side surface portions 175 and 176 that are in sliding contact with the linear guide walls 136 and 137 of the base plate 115, and can move in the vertical direction along the linear guide walls 136 and 137. Under the latch member 119, external teeth 180 that can be engaged with and disengaged from the internal teeth 161 are provided. The latch member 119 is provided with a hook portion 181 and a cam receiving surface 182.
[0041]
The cam member 120 has an outer peripheral portion 185 having a radius of curvature that can be just fitted to the arcuate guide walls 138 and 139 of the base plate 115, and can freely rotate along the arcuate guide walls 138 and 139. ing. At the center of rotation of the cam member 120, a through hole 186 for inserting a hinge that is sufficiently larger than the outer diameter of the hinge shaft 117 is provided so that the rotation of the cam member 120 is not hindered by the hinge shaft 117.
[0042]
A circular insertion hole 187 is provided in the vicinity of the through hole 186, and the second interlocking pin 154 provided at the base of the lever 118 is inserted through the interlocking pin insertion hole 141 of the base plate 115, thereby inserting the insertion hole. 187 can be inserted.
[0043]
Further, the second interlocking pin 154 passes through the long hole 163 of the rotating plate 116 and protrudes to the outside of the rotating plate 116, and the end part 193 of the connecting rod 92 is connected to the tip of the second interlocking pin 154. ing.
[0044]
A connection hole 193 a that functions as an attachment error absorbing means for the terminal component 193 of the connecting rod 92 connected to the second interlocking pin 154 is formed in an arc shape centering on the hinge shaft 117. The connecting hole 193a can absorb the mounting error even if a certain amount of mounting angle error occurs between the first unit 11 and the second unit 12 when mounted on the left and right of the seat or the like. The size is such that it can be assembled to 92.
[0045]
The cam member 120 is provided with a locking portion 198 that can be hooked to the hook portion 181 of the latch member 119 and a cam surface 199 that can contact the cam receiving surface 182. The cam surface 199 presses the outer teeth 180 of the latch member 119 against the inner teeth 161 by pressing the cam receiving surface 182 of the latch member 119 when the cam member 120 is in the locked position.
[0046]
The locking portion 198 of the cam member 120 is rotated while the hook portion 181 of the latch member 119 is hooked when the cam member 120 is rotated to the unlocking position, so that the latch member 119 is detached from the internal teeth 161. It has become.
[0047]
Next, the operation of the reclining device 10 having the above configuration will be described with reference to FIGS.
In the locked state shown in FIG. 4A, the latch member 19 is pressed toward the inner teeth 61 by the cam member 20, and the inner teeth 61 and the outer teeth 80 mesh with each other, whereby the rotating plate 16 is moved to the base plate. 15 is fixed. That is, the backrest is fixed.
[0048]
When the operating lever 18 is rotated in the direction of arrow C in FIG. 4, the rotational force of the operating lever 18 is transmitted to the connecting rod 92 via the first interlocking pin 54, and the connecting rod 92 rotates, so that the second The cam member 120 of the reclining unit 12 tries to rotate in the same direction as the operation lever 18.
[0049]
Originally, due to a problem in mounting accuracy, a mounting angle error occurs in the direction of arrow S or arrow U as shown in FIG. For this reason, the connection holes 93 a and 193 a provided in the connecting rod 92 are formed in an arc shape with the hinge shaft 17 as the center. Therefore, even when the operation lever 18 is operated in the direction of arrow C shown in FIG. 6, the cam member 120 of the second reclining unit 12 is in a stage where the interlocking pins 54 and 154 move in the connection holes 93a and 193a. Remains stationary without rotating in the same direction as the operating lever 18.
[0050]
On the other hand, on the first reclining unit 11 side, a movable angle θ2 of the first interlocking pin 54 in the insertion hole 87 is formed in advance according to the connection holes 93a and 193a. As shown in FIG. 1, the first interlocking pin 54 moves in the direction of arrow T in the figure from the state in contact with one end 87a of the insertion hole 87 provided in the cam member 20 to the state in contact with the other end 87b. The rotational force of the operation lever 18 does not act on the first cam member 20 as well.
[0051]
Thereafter, when the interlocking pins 54 and 154 come into contact with one side of the arcs of the connection holes 93a and 193a so that the interlocking pins 54 and 154 cannot move in the connection holes 93a and 193a, the cam of the first reclining unit 11 The member 20 and the cam member of the second reclining unit 12 rotate in the same direction as the operation lever 18 almost simultaneously. The first reclining unit 11 will be described as a representative. The rotational force of the operation lever 18 is directly transmitted to the cam member 20 via the first interlocking pin 54, and the locking portion 98 of the cam member 20 is hooked to the latch member 19. Since the part 81 is moved in the pulling-up direction, the inner teeth 61 and the outer teeth 80 are disengaged as shown in FIG. For this reason, the restraint of the rotation plate 16 by the latch member 19 is released, and the rotation plate 16 can rotate about the hinge shaft 17 with respect to the base plate 15.
[0052]
At this time, the cam member 120 of the second reclining unit 12 also rotates in the same direction as the cam member 20 via the second interlocking pin 154. For this reason, also in the 2nd reclining unit 12, the rotation plate 116 becomes rotatable by the disengagement of the internal teeth 161 of the rotation plate 116 and the external teeth 180 of the latch member 119.
[0053]
After adjusting the tilt angle of the backrest in the unlocked state described above, if the operating force of the operating lever 18 is released, the operating lever 18 returns to the position shown in FIG. When the cam member 20 returns to the lock position in conjunction with the lever 18, the outer teeth 80 of the latch member 19 mesh with the inner teeth 61 of the rotating plate 16, and the rotating plate 16 is fixed. In the second reclining unit 12, the lever 118 returns to the locked position due to the elasticity of the tension spring 146, and the cam member 120 returns to the locked position, so that the external teeth 180 of the latch member 119 mesh with the internal teeth 161. Thus, the rotation plate 116 is fixed.
[0054]
As described above, according to the reclining device 10 of the present embodiment, when the rotational force in the unlocking direction acts on the operation lever 18, the mounting error between the first reclining unit 11 and the second reclining unit 12 is absorbed. In accordance with the angle at which the interlocking pins 54, 154 move in the possible connection holes 93a, 193a, the first interlocking pin is provided in the differential insertion hole 87 provided in the cam member 20 of the first reclining unit 11. Since 54 moves without rotating the cam member 20, the locked state of the first reclining unit 11 and the second reclining unit 12 can be released almost simultaneously.
[0055]
Further, since it is practically difficult to manufacture the connecting rod 92 as a complete rigid body, when the operation lever 18 is rotated in the direction of the arrow C shown in FIG. 6, twisting occurs in the direction of the arrow N in the figure. As shown in FIG. 7, a slight twist angle θ <b> 1 is generated between the center line O <b> 1 of the terminal component 93 and the center line O <b> 2 of the terminal component 193. However, even if the torsion angle θ1 occurs, the torsional amount can be absorbed by the interlocking pin 54 being able to move inside the differential hole 87, so that it hardly affects the unlocking timing of the pair of left and right reclining units. It becomes.
[0056]
Next, a second embodiment of the present invention will be described with reference to FIG.
The reclining device 210 shown in FIG. 5 is a double-sided lock recliner, similar to the first embodiment described above, on the hinge part on one side of the left and right side parts connecting the seat part and the backrest part of the vehicle seat. A first reclining unit 211 is provided, and a second reclining unit 212 is provided on the hinge portion on the other side.
[0057]
First, the reclining device 210 will be described on behalf of the first reclining unit 211.
As shown in FIG. 5, the first reclining unit 211 includes a plate 215 fixed to the seat frame side of the seat, a rotation plate 216 fixed to the back frame side, and a hinge shaft 217 fixed to the plate 215. An operating lever 218 rotatably provided on the hinge shaft 217, a lock member 219, and the like.
[0058]
The hinge shaft 217 includes a cylindrical end portion 228 provided with a slit 227, a retaining ring mounting groove 229, a non-circular cross-sectional portion 230, a cylindrical intermediate body portion 231, a terminal portion 232, and the like. Yes.
[0059]
A non-circular hinge mounting hole 240 is provided at the upper end when the seat portion of the plate 215 is mounted. The hinge mounting hole 240 is fixed in a state where the non-circular cross-sectional portion 230 of the hinge shaft 217 is fitted.
[0060]
A spring locking portion 245 is provided on a part of the plate 215, and one end 247 of the tension spring 246 is locked to the spring locking portion 245. The other end 248 of the tension spring 246 is locked to a part 218a of the operation lever 218, and the elasticity of the spring 246 causes the operation lever 218 to be urged in the direction of the lock position.
[0061]
The operation lever 218 includes an operation unit 218b used when a person or the like adjusts the angle of the seat, and is rotatably attached to the hinge shaft 217. That is, a circular hole 251 is provided at the base of the operation lever 218, and a retaining ring 252 such as an E ring is mounted in the retaining ring mounting groove 229 with the end 228 of the hinge shaft 217 inserted into the hole 251. By doing so, the operation lever 218 is prevented from being detached from the hinge shaft 217. An interlocking pin 254 is provided in the vicinity of the hole 251 at the base of the operation lever 218.
[0062]
Inner teeth 261 are provided below the rotating plate 216 so as to follow an arc centered on the hinge shaft 217. A circular bearing hole 262 located at the center of the arc of the internal tooth 261 is provided at the center of the rotating plate 216. The intermediate body 231 of the hinge shaft 217 is inserted into the bearing hole 262 so as to be relatively rotatable. Further, an arc-shaped elongated hole 263 centering on the bearing hole 262 is provided around the bearing hole 262.
[0063]
A spring hook pin 265 is fixed to the upper portion of the rotating plate 216. The outer end 267 of the spiral spring 266 is locked to the spring hook pin 265. The inner end 268 of the spiral spring 266 is fitted in the slit 227 of the hinge shaft 217, and the elastic force of the spring 266 acts in the direction in which the rotating plate 216 causes the backrest.
[0064]
A lock member 219 is sandwiched between the operation lever 218 and the rotation plate 216. The lock member 219 is formed in a teardrop shape having a top portion 271 in the direction of the internal teeth 261 of the rotation plate 216. A through hole 286 for inserting a hinge, which is sufficiently larger than the outer diameter of the central body 231 of the hinge shaft 217, is provided at the substantially central portion so that the rotation of the lock member 219 is not restricted by the hinge shaft 217. I have to.
[0065]
An arc-shaped insertion hole 287 centered on the hole 286 is provided around the through-hole 286, and an interlocking pin 254 provided at the base of the operation lever 218 can be inserted.
[0066]
The top portion 271 of the lock member 219 has the above internal teeth 261 It is formed in a pointed shape so that it can be engaged and disengaged.
Further, the interlocking pin 254 passes through the long hole 263 of the rotating plate 216 and protrudes to the outside of the rotating plate 216, and the distal end portion of the interlocking pin 254 is a connection hole 293 a of the terminal component 293 of the connecting rod 292. In It is connected. The connection hole 293a is formed in an arc shape with the hinge shaft 217 as the center. The connecting rod 292 has a rod body 294 that extends horizontally in the width direction of the seat. One end side opening 295 of rod body 294 is rotatably supported by a terminal portion 232 of hinge shaft 217. The other end opening 296 of the rod body 294 is rotatably supported by a terminal portion (not shown) of a hinge shaft 317 of the second reclining unit 212 described later. The connection hole 297a of the terminal component 297 on the other end side of the connecting rod 292 is also formed in an arc shape with the hinge shaft 317 as the center, and an interlocking pin (not shown) of the second reclining unit 212 is connected. Yes.
[0067]
The second reclining unit 212 is interlocked with the first reclining unit 211, and similarly to the first embodiment, an interlocking pin insertion hole (not shown) provided in the lever 318 and the lock member (not shown). 2) except for the shape of the first reclining unit 211. The insertion hole provided in the lock member of the second reclining unit 212 is formed in a circular shape with a size that the second interlocking pin just fits.
[0068]
Also in the second embodiment described above, since the hole size of the differential insertion hole 287 is set according to the angle at which the interlocking pin 254 moves in the connection holes 293a, 297a, the first reclining unit 211 and the second reclining unit 212 can be unlocked almost simultaneously.
[0069]
【The invention's effect】
According to the present invention, when the operation lever provided in one reclining unit is operated in the unlocking direction, the first reclining unit and the second reclining unit can be unlocked almost simultaneously, and the operation feeling is improved. Can be improved.
[Brief description of the drawings]
FIG. 1 is an exploded perspective view of a part of a reclining device showing a first embodiment of the present invention.
FIG. 2 is an exploded perspective view showing a second reclining unit in the reclining device according to the first embodiment of the present invention.
3 is a side view of a cam member in the reclining device shown in FIG. 1. FIG.
4 is a cross-sectional view of a part of the apparatus showing an operating state of the reclining apparatus shown in FIG. 1;
FIG. 5 is an exploded perspective view of a reclining device showing a second embodiment of the present invention.
FIG. 6 is a perspective view of a double-sided lock liner.
7 is a side view as seen from vii-vii in FIG. 6 showing a twisted state of the connecting rod.
FIG. 8 is an exploded perspective view showing a conventional reclining device.
[Explanation of symbols]
10 ... Reclining device
11 ... 1st reclining unit
12 ... Second reclining unit
15 ... First base plate
16 ... 1st rotation plate
17 ... 1st hinge axis
18 ... Control lever
19: First latch member
20: First cam member
54 ... First interlocking pin
61,161 ... internal teeth
87 ... Differential hole
92 ... Connecting rod (connecting member)
115 ... Second base plate
116: Second rotating plate
117 ... Second hinge shaft
119 ... Second latch member
120 ... Second cam member
154 ... Second interlocking pin

Claims (2)

A reclining device comprising a first reclining unit provided on one of the left and right sides of the seat and a second reclining unit provided on the other,
The first reclining unit is
A first base plate fixed to the seat side of the seat;
The first base plate is provided so as to be rotatable about a first hinge axis in the horizontal direction, and is fixed to the backrest side of the seat, and is provided with internal teeth along an arc centered on the first hinge axis. A first rotating plate;
A lock position that is accommodated between the first base plate and the first rotation plate and that meshes with the internal teeth along a guide wall provided on the first base plate, and an unlock position that is disengaged from the internal teeth A first latch member that is reciprocally movable over the
The first base plate and the first rotating plate are accommodated between the first base plate and have a through hole through which the first hinge shaft is inserted. The first hinge shaft is rotatably supported around the first hinge shaft. A first cam member having a shape capable of driving one latch member over the lock position and the unlock position;
An operation lever provided rotatably about the first hinge shaft;
A first interlocking pin that is provided in the operation lever and extends through the hole provided in the first base plate to the first cam member side to connect the operation lever and the first cam member; ,
A first spring that always urges the operation lever toward the lock position;
Configured with
The second reclining unit is
A second base plate fixed to the seat side of the seat;
The second base plate is provided so as to be rotatable about a second hinge shaft in the horizontal direction, and is fixed to the backrest side of the seat, and is provided with internal teeth along an arc centered on the second hinge shaft. A second rotating plate;
A lock position that is received between the second base plate and the second rotating plate and that meshes with the inner teeth along a guide wall provided on the second base plate, and an unlock position that is disengaged from the inner teeth A second latch member reciprocally movable over the
The second base plate and the second rotating plate are accommodated between the second base plate and have a through hole through which the second hinge shaft is inserted. The second hinge shaft is rotatably supported around the second hinge shaft. A second cam member having a shape capable of driving the two latch members across the locked position and the unlocked position;
A lever provided rotatably about the second hinge axis;
A second interlocking pin that is provided in the lever and extends to the second cam member side through a hole provided in the second base plate and connects the lever and the second cam member;
A second spring that constantly biases the lever toward the lock position;
A connecting rod for transmitting the rotational force of the operating lever of the first reclining unit to the second cam member of the second reclining unit;
Further comprising
The connecting rod has a first connection hole through which the first interlocking pin passes through one end side terminal part, and a second connection hole through which the second interlocking pin passes through the other end terminal part of the connecting rod. The connecting hole is rotatable about the hinge shaft, and each connecting hole has a play between each interlocking pin so as to absorb the mounting angle error between the first reclining unit and the second reclining unit. And having
The first interlocking pin is inserted through a differential hole formed in the first cam member and the first connection hole, and the differential hole is unlocked from the operation lever. When the force is input, the unlocking force is not transmitted to the first cam member until the torsion of the connecting rod is absorbed within the range in which the interlocking pin moves in the first connection hole. As described above, the first cam member rotates with respect to the first interlocking pin, and the first cam member rotates before the second cam member when the operation lever is operated in the unlocking direction. A reclining device, wherein the first reclining unit and the second reclining unit are unlocked substantially simultaneously by preventing this. The differential hole is an arc-shaped long hole centered on the hinge axis, and the interlocking pin can move the play in the length direction of the long hole. The reclining device according to claim 1 .

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