JP4622113B2 - Reclining device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a reclining device for constituting a reclining seat.
[0002]
[Prior art]
As one type of reclining device, as disclosed in Japanese Patent Application Laid-Open No. 11-70028, an angle adjustment mechanism having a function of adjusting a tilt angle of a seat back in the front-rear direction with respect to a seat cushion within a predetermined angle range, and a seat A tilting movable mechanism having a function of tilting the back forward beyond the adjustment angle range is provided. When desired, the angle adjustment mechanism is operated, and the inclination angle of the seat back in the front-rear direction with respect to the seat cushion is within a predetermined angle range. There is a reclining device of the type that adjusts and operates the fall movable mechanism when desired to tilt the seat back to the maximum to bring it into a fall state.
[0003]
[Problems to be solved by the invention]
The reclining device of this type is provided with a dedicated operating mechanism for operating the angle adjusting mechanism and the overturning movable mechanism, respectively, and when the angle adjusting mechanism is to be operated, a dedicated operating mechanism for the angle adjusting mechanism is provided. If you want to operate the angle adjustment mechanism by operating the operating means (handle, lever), or if you want to operate the fall movable mechanism, operate the operating means (handle, lever) of the dedicated operating mechanism for the fall movable mechanism. It is configured to make the fall movable mechanism function.
[0004]
For this reason, in the reclining device of this type, when it is desired to selectively function the angle adjustment mechanism and the overturning movable mechanism, it is necessary to select each operation means of the operation mechanism independent from each other, but it is particularly inexperienced In this case, it is difficult to select the operation means accurately, and since these operation means are located apart from each other, it is troublesome to operate.
[0005]
Accordingly, the object of the present invention is to make it possible to select both functions with one operation means when the angle adjusting function and the overturning movable function are appropriately selected and functioned as in the case of the reclining device of the type. The purpose is to improve the accuracy of the operation and the ease of operation in order to exhibit each function.
[0006]
[Means for Solving the Problems]
  The present invention relates to a reclining device,The reclining device to which the present invention is applied isFunction to adjust the tilt angle of the seat back in the front-rear direction with respect to the seat cushion within a specified angle rangeAn angle adjustment mechanism havingA function to allow the seat back to fall forward beyond the adjustment angle range.A tilting movable mechanism, and a reclining device that rotates in directions opposite to each other about the axis and operates the angle adjusting mechanism and the tilting movable mechanism selectively in accordance with the rotation operation direction.
[0007]
  Reclining device according to the present inventionIs a reclining device of the type described above, wherein the angle adjustment mechanism and the inclining movable mechanism connect a movable housing attached to the seat back side and a fixed housing attached to the seat cushion side in a superposed state. The partition walls in the space portion formed in this manner are disposed in the respective partition space portions.
[0008]
  Accordingly, the angle adjusting mechanism provided in the reclining device according to the present invention can mesh with the inner teeth having an arc shape provided in the annular peripheral wall portion of the circular recess of one of the two housings. A pole held in the guide groove provided on the housing side so as to be able to advance and retreat with respect to the internal tooth, and the pole is pressed against the internal tooth side to be engaged with each other, and the pressure on the pole is released during operation. A slide cam for releasing the meshed state with the teeth and a rotating cam for engaging the slide cam and operating the slide cam are provided.
[0009]
  The reclining device according to the present inventionThe above-mentioned fall movable mechanism is equipped with an arc-shaped inner tooth provided on the annular peripheral wall portion of the circular recess of the other housing of the two housings, and a guide groove provided on the housing side that can mesh with the inner tooth. A pawl held so as to be able to advance and retreat with respect to the internal teeth, and a slide cam that presses the pawls toward the internal teeth and meshes with each other and releases the press against the pawls during operation to release the meshing state with the internal teeth And a rotating cam that engages with the slide cam and operates the slide cam.
[0010]
  The components constituting the angle adjusting mechanism and the falling movable mechanism equipped in the reclining device according to the present invention have the same shape except for the inner hole shape of the rotating cams to which the operating shaft as the operating means is fitted. It is a part of.
[0011]
  The rotating cams constituting the angle adjusting mechanism and the inclining movable mechanism are positioned so as to be opposed to each other with the partition wall being externally fitted to the operation shaft extending through the partition wall. The shaft is disposed so as to selectively engage with the operation shaft according to the rotation operation direction when the shaft rotates in directions opposite to each other about the axis, and the other components of the angle adjustment mechanism The other constituent members of the overturning movable mechanism are arranged to face each other in the same direction across the partition wall..
[0012]
[Operation and effect of the invention]
In the reclining device according to the present invention, the angle adjusting function and the overturning movable function can be selectively exhibited by the same operating means, and both functions are selected by selecting the operating direction of the operating means. Can do. For this reason, it is easy to select the operation means when selecting both functions, and the selective operation can be performed accurately.
[0013]
Specifically, the reclining device includes an angle adjusting mechanism having a function of adjusting the tilt angle of the seat back in the front-rear direction within a predetermined angle range, and the seat back to the front beyond the adjustment angle range. It is formed by a fallable movable mechanism that has a function to fall down, and the operation means is rotated in directions opposite to each other about the axis and selectively connected to the angle adjusting mechanism and the fallable movable mechanism according to the rotation operation direction. Thus, it is possible to adopt a configuration formed by an operating shaft that operates as described above.
[0014]
In this aspect, the operating mechanism is configured so as to be disposed in a space formed by connecting a fixed housing attached to the seat cushion side and a movable housing fixed to the seat back side in a superposed state. The space formed by the housing and the movable housing is provided with a partition that divides the space into the fixed housing and the movable housing, and the angle adjustment is performed on each partition space defined by the partition. If the mechanism and the above-described fall movable mechanism are respectively disposed, the reclining device having both the angle adjustment function and the fall movable function can be configured in a compact manner, and the weight of the device can be reduced. .
[0015]
Further, in this aspect, the angle adjusting mechanism includes an arcuate inner tooth provided on the annular peripheral wall portion of the circular recess of one of the two housings, and a guide provided on the housing side that can mesh with the inner tooth. A pole that is held in the groove so as to be able to advance and retreat with respect to the internal teeth, and an operating member that presses the pole toward the internal teeth and meshes with each other and releases the pressure on the pole during operation to release the meshed state with respect to the internal teeth. Similarly, the above-described inclining movable mechanism is provided on the side of the housing that can be meshed with the arc-shaped inner teeth provided on the annular peripheral wall portion of the circular recess of the other housing of both housings and the inner teeth. An operating member that presses the pawl toward the internal teeth and meshes with the pole held in the guide groove so as to be able to advance and retreat, and releases the press against the pawl and releases the meshing state with respect to the internal teeth And a configuration in which each of the operating members of both mechanisms is selectively engaged / disengaged with respect to the same operation shaft as the operation means according to the rotation operation direction of the operation shaft. It can be.
[0016]
According to such a configuration, it is possible to provide a reclining device that can accurately perform the angle adjustment function and the fall movable function, and automatically return to the locked position immediately before the seat back falls when the seat back returns from the fall state. It is possible to provide a function capable of returning to the so-called memory function.
[0017]
Further, in this aspect, a cam that moves each pole forward and backward is adopted as each operating member that constitutes the angle adjusting mechanism and the inclining movable mechanism, and the cam is fitted to the outer periphery of the operating shaft. It can be configured to selectively engage and disengage according to the rotational operation direction. As a result, the angle adjustment function and the fall movable function can be accurately exhibited, and the same except for the inner hole shape that fits the operation shaft of the cam as both the angle adjustment mechanism and the fall movable mechanism. There is a great advantage that it is possible to employ these parts, and it is possible to improve the assembling property of each component part and to reduce the cost.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, the present invention will be described with reference to the drawings. 1 is a longitudinal sectional view of a reclining device according to an example of the present invention, FIG. 2 is a partially omitted front view of the reclining device as seen from the direction of arrow 2 in FIG. 1, and FIG. 3 is an angle adjustment mechanism constituting the reclining device. FIG. 4 is an exploded perspective view, and FIG. 4 is an exploded perspective view of an overturning movable mechanism constituting the reclining device.
[0019]
The reclining device R includes an angle adjustment mechanism 10 and a fallen movable mechanism 20. The angle adjustment mechanism 10 and the overturning movable mechanism 20 integrally form an operation mechanism in the present invention, and many of the main components of these mechanisms 10 and 20 are formed by the fixed housing 15 and the movable housing 25. It is disposed in the space. In the reclining device R, there are a plurality of types of components constituting the angle adjusting mechanism 10 and the falling movable mechanism 20 that are shared by both the mechanisms 10, 20. For the sake of convenience, the following description will be given with reference numerals in the 30s.
[0020]
The angle adjusting mechanism 10 constituting the reclining device R includes a pair of poles 11, a slide cam 12, a rotating cam 13, a connecting arm 14, and a movable housing 15, and includes a holding plate 31 and four guide blocks 32. I have. In addition, the falling movable mechanism 20 includes a pair of poles 21, a slide cam 22, a rotating cam 23, a spiral spring 24, and a fixed housing 25, and a holding plate 31 and four guide blocks 32. Further, both the mechanisms 10 and 20 include a set plate 33 which is a common part, an operation shaft 34 and an operation lever 35. The operation shaft 34 and the operation lever 35 constitute a common operation mechanism of the angle adjustment mechanism 10 and the falling movable mechanism 20.
In the reclining device R, the movable housing 15 and the fixed housing 25 are overlapped with each other, and are integrally coupled by caulking the outer peripheral edge portion of the set plate 33 fitted from the movable housing 15 side. ing. The poles 11 and 21, the slide cams 12 and 22, the rotating cams 13 and 23, the connecting arm 14, and the spiral spring 24 are in a state in which they are housed in a space formed by the fixed housing 15 and the movable housing 25. Is supported directly or indirectly via a component part on the operation shaft 34 penetrating the central part. An operation lever 35 is attached to the outer end portion of the operation shaft 34.
[0021]
In the reclining device R, the movable housing 15 is assembled to the upper arm A1 attached to the lower end portion of the seat back, and the fixed housing 25 is assembled to the lower arm A2 attached to the rear end portion of the seat cushion. The reclining seat is configured by supporting the seat back on the seat cushion so as to be pivotable in the front-rear direction.
[0022]
The movable housing 15 constituting the reclining device R has a disk shape. As shown in FIGS. 1 to 3, a stepped circular recess 15 b is provided inside a disk-shaped housing body 15 a, and the circular recess A pair of arcuate inner teeth 15c are formed on the inner circumference of a small-diameter annular portion inside 15b while maintaining a predetermined circumferential interval. The housing main body 15a having each internal tooth 15c constitutes a ratchet of the angle adjusting mechanism 10. Further, the fixed housing 25 has a disk shape like the movable housing 15, and as shown in FIGS. 1, 2 and 4, a stepped circular recess 25b is formed inside the disk-shaped housing body 25a. In addition, a pair of arcuate inner teeth 25c are formed on the inner circumference of a small-diameter annular portion inside the circular recess 25b while maintaining a predetermined circumferential interval. The housing main body 25a having the respective internal teeth 25c constitutes a ratchet for the falling movable mechanism 20. In these housings 15 and 25, the housing main bodies 15a and 25a are formed to have dimensions that allow the housing main body 25a to be fitted into the opening of the circular recess 15b of the housing main body 15a when they are superposed on each other.
[0023]
The holding plate 31 is a disk-shaped plate having a predetermined thickness, and functions as a partition wall in the present invention. A space portion formed by overlapping the movable housing 15 and the fixed housing 25 is fixed to the movable housing 15 side. It functions to partition on the housing 25 side. The holding plate 31 has a large-diameter circular hole 31b at the center of the disk-shaped plate body 31a, and four fitting holes 31c penetrating in a fan shape on the same circumference on the outer peripheral side of the circular hole 31b. Each is formed with a predetermined circumferential interval.
[0024]
Each guide block 32 has a thickness several times larger than the thickness of the holding plate 31, is formed in a fan shape similar to each fitting hole 31c, and is fitted into each fitting hole 31c to be attached to the plate body 31a. It penetrates. Each guide block 32 has one end protruding toward the movable housing 15 in a state where the holding plate 31 is sandwiched between the housings 15 and 25 and disposed in the space formed by the housings 15 and 25. The other end protrudes toward the fixed housing 25 and comes into contact with the inner wall of the circular recess 25 b of the housing 25.
[0025]
In this state, each guide block 32 forms a cross-shaped guide groove centered on the circular hole 31b of the holding plate 31 on the fixed housing 15 side and the movable housing side 25, and the guide groove on the movable housing 15 side. The pole 11 and the slide cam 12 constituting the angle adjusting mechanism 10 are fitted, and the pole 21 and the slide cam 22 constituting the falling movable mechanism 20 are fitted in the guide groove on the fixed housing 25 side. ing.
[0026]
The poles 11 and 21 have a portal shape, and have external teeth 11a and 21a on the front end side, and left and right on the rear end opposite to the external teeth 11a and 21a (in the assembled state, on the radially inner side). A pair of leg portions 11b and 21b are provided, and engaging projections 11c and 21c projecting toward the other leg portions 11b and 21b are formed on one of the leg portions 11b and 21b. The external teeth 11a and 21a of the poles 11 and 21 are configured to be able to mesh with the internal teeth 15c and 25c of the housings 15 and 25, respectively.
[0027]
The slide cams 12 and 22 are provided with engaging protrusions 12b and 22b at the center of the upper and lower edges of the rectangular plate bodies 12a and 22a, and uneven portions on the left and right sides of the engaging protrusions 12b and 22b. Shaped receiving cam portions 12c and 22c. Further, the center portions of the plate bodies 12a and 22a are provided with fitting holes 12d and 22d into which rotating cams 13 and 23 described later are fitted. Each of the fitting holes 12d and 22d has a horizontally long and substantially oval shape, and includes a pair of engaging groove portions 12d1, 12d2, 22d1, and 22d2 protruding from the outer periphery of the hole portion, and the engaging groove portions 12d1, 12d2 are provided. The engaging grooves 22d1 and 22d2 are positioned 180 degrees away from each other. The slide cams 12 and 22 are fitted to the crossing portions of the guide grooves on the housing 15 and 25 side that intersect in a cross shape so as to be slidable in the lateral direction.
[0028]
The poles 11 and 21 are fitted to the upper and lower portions of the intersections of the guide grooves so as to be slidable in the vertical direction with the slide cams 12 and 22 interposed therebetween. The cams 12 and 22 are received by the receiving cam portions 12c and 22c. In this assembled state, each of the poles 11 and 21 is in a position where the engaging protrusions 11c and 21c can engage with the engaging protrusions 12b and 22b of the slide cams 12 and 22, respectively.
[0029]
The rotating cams 13 and 23 are constituted by cylindrical cylindrical portions 13a and 23a and engaging arm portions 13b and 23b formed on the outer peripheral side of the cylindrical portions 13a and 23a, as shown in particular in an enlarged manner in FIG. Has been. The inner holes 13c and 23c of both the cylindrical portions 13a and 23a are mainly circular holes 13c1 and 23c1 which are coaxially opposed to each other, and are circular arcs having a predetermined width and a predetermined length on the outer circumferences of the circular holes 13c1 and 23c1. Engaging grooves 13c2 and 23c2 are provided. The engaging grooves 13c2 and 23c2 are positioned on the engaging arm portion 13b in the rotating cam 13, and are positioned on the opposite side of the rotating cam 23 that is substantially 180 degrees away from the engaging arm portion 23b. ing. The rotating cams 13 and 23 are supported by being fitted to the outer periphery of the operation shaft 34 in a loosely fitted state.
[0030]
The operation shaft 34 has a cross-sectional shape similar to the inner holes 13c and 23c of the rotary cams 13 and 23, and includes an arcuate engagement protrusion 34b having a predetermined width and a predetermined length on the outer periphery of the cylindrical portion 34a. Yes. The engaging protrusion 34b of the operation shaft 34 is formed to be shorter than the engaging grooves 13c2, 23c2 of the inner holes 13c, 23c of the rotating cams 13, 23 by a predetermined length.
[0031]
The operation shaft 34 is inserted through the inner holes 13c and 23c of both the rotating cams 13 and 23 and supports the both rotating cams 13 and 23 in a loosely fitted state. In this loose-fitting state, the engaging arm portions 13b and 23b are offset from each other by approximately 180 degrees and are fitted in the fitting holes 12d and 22d of the slide cams 12 and 22, respectively. In this fitted state, the engaging arm portion 13 b of the rotating cam 13 is positioned in one engaging groove portion 12 d 1 of the slide cam 12, and the engaging arm portion 23 b of the rotating cam 23 is the other end of the slide cam 22. Is located in the engaging groove 22d2. That is, the engaging arm portions 13b and 23b of both the rotating cams 13 and 23 are positioned in the engaging groove portions 12d1 and 22d2 in a state of being deviated from each other by 180 degrees.
[0032]
The spiral spring 24 has a predetermined number of turns, the inner end 24a is wound in a square shape, and the outer end 24b protrudes outward. The inner end portion 24 a is formed so as to be able to be just fitted on the outer periphery of one end portion of the circular cylindrical portion 23 c of the rotating cam 23, and the outer end portion 24 b can be hooked on a part of the holding plate 31. It is formed as follows. The connecting arm 14 is loosely fitted to the outer periphery of the operation shaft 34 and is connected to the rotating cam 13 and the spiral spring 24 as shown in FIG. The connecting arm 14 transmits the urging force of the spiral spring 24 to the rotating cam 13. Accordingly, the spiral spring 24 constantly urges both the rotating cams 13 and 23 in the counterclockwise direction shown in FIG.
[0033]
The set plate 33 is provided with a cylindrical portion 33b at the outer peripheral edge of the annular plate body 33a. It is formed in a size that can be fitted. As shown in FIG. 1, the set plate 33 is fitted to the movable housing 15 and the fixed housing 25, and the distal end portion of the cylindrical portion 33 b is caulked to couple the housings 15 and 25 to each other. .
[0034]
Each of these components is assembled in the following order, for example, to constitute a reclining device R having the structure shown in FIGS. That is, the rotating cam 23, the slide cam 22 and both poles 21, the spiral spring 24, the holding plate 31 fitted with each guide block 32, and the connecting arm 14 are connected to the operating shaft 34 that penetrates the fixed housing 25. The movable cam 13, the slide cam 12, both poles 11, and the movable housing 15 are assembled in this order, and then the set plate 33 is fitted to the outer periphery of the movable housing 15 from the fixed housing 25 side, and the cylindrical portion 33b of the set plate 33 The tip of the sword is crimped as shown in FIG. Thereby, the reclining device R is assembled.
[0035]
In the reclining device R, as shown in FIGS. 1 and 2, the movable housing 15 is assembled to the upper arm A1, the fixed housing 25 is assembled to the lower arm A2, and the operation lever 35 and the spiral are mounted on the operation shaft 34. A spring 36 is assembled. A reclining seat is constructed by assembling the lower arm A2 to the rear end of the seat cushion and assembling the upper arm A1 to the lower end of the seat back.
[0036]
In this assembled state, the inner end portion 24a of the spiral spring 24 is fitted on the end portion of the cylindrical portion 23a of the rotating cam 23, and the outer end portion 24b is hooked on the tip of the connecting plate 14, Further, the connecting arm 14 connects the spiral spring 24 to the rotating cam 13.
[0037]
The slide cam 12 is disposed in a guide groove on the movable housing 15 side formed by each guide block 32 fitted to the holding plate 31 so as to be slidable in the lateral direction, and is externally fitted to the rotating cam 13. Is located in the guide groove so as to be slidable in the radial direction at the upper and lower portions of the rotating cam 13. In this state, as shown in FIG. 6, the engaging arm portion 13 b of the rotating cam 13 is fitted in one engaging groove 12 d 1 of the slide cam 12. The rotating cam 13 is urged counterclockwise in the figure by the urging force of the spiral spring 24 to push the slide cam 12 to the left in the figure.
[0038]
The slide cam 22 is disposed in a guide groove on the side of the fixed housing 25 formed by each guide block 32 fitted to the holding plate 31 so as to be slidable in the lateral direction, and is externally fitted to the rotating cam 23. Is positioned in the guide groove so as to be slidable in the radial direction at the upper and lower portions of the rotating cam 23. In this state, as shown in FIG. 7, the engaging arm portion 23 b of the rotating cam 23 is fitted in the other engaging groove 22 d 2 of the slide cam 22. Further, the rotating cam 23 is urged clockwise in the drawing by the urging force of the spiral spring 24 to push the slide cam 22 to the left in the drawing.
[0039]
Further, in this assembled state, each pole 11 is received by each receiving cam portion 12c of the slide cam 12 by its both leg portions 11b, and the engaging projection portion 11c is the engaging projection portion of the slide cam 12. It is opposed to 12b in a separated state. The slide cam 12 slides to the left in the figure, receives each leg portion 11b of each pole 11 by the convex portion of each receiving cam portion 12c, and advances each pole 11 to move inside the movable housing 15. It meshes with a part of the tooth 15c. The internal teeth 15c of the movable housing 15 are formed in a long shape so that the inclination angle of the seat back in the front-rear direction can be adjusted within a predetermined angle range.
[0040]
Each pole 21 is received by each receiving cam portion 22c of the slide cam 22 at both leg portions 21b, and the engaging projection portion 21c is opposed to the engaging projection portion 22b of the slide cam 22 in a separated state. Yes. The slide cam 22 slides to the left in the drawing, receives the leg portions 21b of the respective poles 21 by the convex portions of the respective receiving cam portions 22c, and advances the respective poles 21 to move inside the fixed housing 25. The teeth 25c are engaged with each other. The inner teeth 25c of the fixed housing 25 are not directly related to the adjustment of the inclination angle in the front-rear direction of the seat back, and are formed in a short length that allows the respective poles 21 to be engaged with each other without difficulty. All matching parts are free zones.
[0041]
Next, the operation of the reclining device R will be described with reference to FIGS. However, FIG. 6 is a front view illustrating the operational relationship between the pole 11, the slide cam 12, and the rotating cam 13, and the operating lever 35 and the operating shaft 34 in the angle adjusting mechanism 10, and shows a non-operating state. Show. FIG. 7 is a front view illustrating the operational relationship among the pole 21, the slide cam 22 and the rotating cam 23, the operation lever 35 and the operation shaft 34 in the overturning movable mechanism 20, and shows a non-operation state. Yes. FIG. 8 is a schematic diagram for explaining the relationship between the operation shaft 34 and the rotary cams 13 and 23 when the angle adjusting mechanism 10 is operated. FIG. 9 is a diagram illustrating the operation shaft 34 and each time when the fall movable mechanism 20 is operated. It is front view explanatory drawing which shows the relationship with the dynamic cams 13 and 23. FIG.
[0042]
In the reclining device R, the operation lever 35 is in a neutral position when in a non-operation state, and the pole 11, the slide cam 12 and the rotation cam 13 in the angle adjustment mechanism 10 are in the state shown in FIG. And the pole 21, the slide cam 22, and the rotation cam 23 in the fall movable mechanism 20 are in the state shown in FIG. That is, the pole 11 of the angle adjusting mechanism 10 meshes with the internal teeth 15c of the movable housing 15, and the pole 21 of the lying movable mechanism 20 meshes with the internal teeth 25c of the fixed housing 25. These meshing states are blocked. They are connected to each other through a holding plate 31 fitted with 32. For this reason, the movable housing 15 and the fixed housing 25 are in a locked state, and the seat back is locked to the seat cushion.
[0043]
When the operation lever 35 is in a non-operation state, the relationship between the rotation cam 13 of the angle adjustment mechanism 10 and the operation lever 34 is in the state shown in FIGS. 8 (a) and 9 (a), and The relationship between the turning cam 23 of the overturning movable mechanism 20 and the operation lever 34 is the relationship shown in FIG. 8 (c) and FIG. 9 (c). That is, the rotating cam 13 is in contact with the right end of the engaging protrusion 34 b of the operation shaft 34, and the rotating cam 23 is in contact with the left end of the engaging protrusion 34 b of the operating shaft 34.
[0044]
In the reclining device R, when the inclination angle in the front-rear direction with respect to the seat cushion of the seat back is adjusted to a desired inclination angle, the operation lever 35 is rotated in the direction of arrow 6 shown in FIG. As a result, the operation shaft 34 rotates by a predetermined amount in the clockwise direction in the drawing. In this case, in the angle adjusting mechanism 10, the operating shaft 34 engages the engaging protrusion 34 b with the engaging groove 13 c 2 of the rotating cam 13, and as shown in FIG. Are rotated in the same direction by a predetermined amount. As a result, the slide cam 12 slides to the right in the drawing, the engaging projection 12b is engaged with the engaging projection 11c of each pole 11, and each pole 11 is retracted radially inward, The slide cam 12 receives both leg portions 11b of each pole 11 in a recess of the receiving cam portion 12c. As a result, the slide cam 12 releases the lock state by releasing the engagement of each pole 11 with the inner teeth 15c of the movable housing 15.
[0045]
In this case, in the overturning movable mechanism 20, since the engaging groove portions 13c2 and 23c2 of both the rotating cams 13 and 23 are biased from each other, the operation shaft 34 is as shown in FIGS. 8 (c) and 8 (d). The engaging protrusion 34b is not engaged with the engaging groove 23c2 of the rotating cam 23, and the rotating cam 23 is not rotated in the same direction. For this reason, the engagement of each pole 21 with the internal teeth 25c of the fixed housing 25 is maintained, and the locked state is maintained.
[0046]
When the pole 11 of the angle adjusting mechanism 10 is unlocked and the pole 21 of the falling movable mechanism 20 is locked, only the movable housing 15 is free in the circumferential direction unlike other components. There is a state. That is, in this state, the movable housing 15 can be rotated concentrically with respect to the fixed housing 25, and the seat back is rotated in the front-rear direction with respect to the seat cushion to adjust the tilt angle in the front-rear direction. be able to.
[0047]
Further, after the movable housing 15 is rotated by a desired amount with respect to the fixed housing 25 and the inclination angle in the front-rear direction with respect to the seat cushion of the seat back is adjusted, the rotation operation of the operation lever 34 in the arrow 6 direction is released. For example, the rotating action on the rotating cam 13 disappears, and the rotating cam 13, the operating shaft 34, and the operating lever 35 are rotated and returned by the urging force of the spiral spring 24. As a result, the slide cam 13 returns to slide and disengages from the pole 11, and the slide cam 13 loses the acting force in the backward direction with respect to the pole 11, and at the same time is pressed by the convex portion of the receiving cam portion 12c. The pole 11 is moved forward by the action, and the pole 11 is engaged with the other part of the inner teeth 15 c of the movable housing 15. As a result, the pole 11 is locked to the movable housing 15, and the movable housing 15 is locked to the fixed housing 25 via other components.
[0048]
On the other hand, in the reclining device R, when the seat back is to be tilted forward beyond the adjustment angle range by the angle adjustment mechanism 10, the operation lever 35 is rotated in the direction of arrow 7 shown in FIG. As a result, the operation shaft 34 rotates by a predetermined amount in the counterclockwise direction in the figure. In this case, in the overturning movable mechanism 20, the operation shaft 34 engages the engagement protrusion 34 b with the engagement groove 23 c 2 of the rotation cam 23, and as shown in FIG. Are rotated in the same direction by a predetermined amount. As a result, the slide cam 22 slides to the right in the figure, the engagement projection 22b is engaged with the engagement projection 21c of each pole 21, and each pole 21 is retracted radially inward, The slide cam 22 receives both leg portions 21b of each pole 21 in a recess of the receiving cam portion 22c. As a result, the slide cam 22 releases the engagement of each pole 21 with the inner teeth 25c of the movable housing 25 to release the locked state.
[0049]
In this case, in the angle adjusting mechanism 10, since the engaging groove portions 13c2 and 23c2 of the both rotating cams 13 and 23 are biased from each other, the operation shaft 34 is as shown in FIGS. 9 (a) and 9 (b). The engaging protrusion 34b is not engaged with the engaging groove 13c2 of the rotating cam 13, and the rotating cam 13 is not rotated in the same direction. Therefore, the engagement of each pole 11 with the internal teeth 15c of the movable housing 15 is maintained, and the locked state is maintained.
[0050]
When the pole 21 of the falling movable mechanism 20 is in an unlocked state and the pole 11 of the angle adjusting mechanism 10 is in a locked state, only the fixed housing 25 is free in the circumferential direction unlike other components. There is a state. That is, in such a state, the movable housing 15 can be rotated concentrically with respect to the fixed housing 25. In this case, since the inner teeth 25c of the fixed housing 25 are formed to be short enough to engage with the pole 21, the inner teeth 25c are not immediately formed by the rotation of the movable housing 15. It will slide on the free zone.
[0051]
For this reason, in the middle of the forward movement of the movable housing 15, the engagement of the pole 21 with the inner teeth 25 c is held in the released state, and the seat back is moved forward to the set maximum. During this time, the pole 11 of the angle adjusting mechanism 10 and the internal teeth 15c of the movable housing 15 are held in the meshed state immediately before the seat back overturning operation, and thus function as a memory mechanism.
[0052]
Further, after the movable housing 15 is rotated forward with respect to the fixed housing 25 as much as possible and the seat back is tilted forward, the seat back is lifted forward in order to return the seat back to pivot. Rotate backward. In this case, the movable housing 15 rotates with respect to the fixed housing 25 while maintaining the meshing state between the pole 11 of the angle adjusting mechanism 10 and the internal teeth 15 c, and the pole 21 of the falling movable mechanism 20 is connected to the fixed housing 25. The rotation is stopped when meshed with the inner teeth 25c, and the seat back returns to the state immediately before the fall.
[0053]
Thus, according to the reclining device R, by causing the angle adjustment mechanism 10 to function, the inclination angle in the front-rear direction with respect to the seat cushion of the seat back can be adjusted within a predetermined angle range, and the falling movable mechanism By functioning 20, the seat back can be tilted forward to the set maximum, and further, the following various effects can be achieved.
[0054]
That is, in the reclining device R, the angle adjusting mechanism 10 and the overturning movable mechanism 20 can be selectively operated by the operation lever 35 which is the same operation means, and the operation of both the mechanisms 10 and 20 can be selected. Can be performed by selecting the direction in which the operation lever 35 is rotated. For this reason, the selection at the time of selection of both the mechanisms 10 and 20 is easy, and the selection operation can be performed exactly.
[0055]
The reclining device R is a space formed by connecting the fixed housing 25 attached to the seat cushion side and the movable housing 15 fixed to the seat back side to each other in a superposed state. The angle adjusting mechanism 10 and the overturning movable mechanism 20 are accommodated in each of the partitioned space sections thus configured to make the device compact and to reduce the weight of the device.
[0056]
Further, in the reclining device R, the angle adjusting mechanism 10 can be meshed with the arc-shaped inner teeth 15c provided on the annular peripheral wall portion of the circular recess 15b of the movable housing 15 and the inner teeth 15c, and can be engaged with the housing 15 side. The pawl 11 held in the guide groove so as to be able to advance and retreat with respect to the inner teeth 15c and the pawl 11 are pressed and meshed with the inner teeth 15c. The operation member (the slide cam 12 and the rotation cam 13) that releases the state is provided. Similarly, the inclining movable mechanism 20 is fitted in an arc-shaped inner tooth 25c provided on the annular peripheral wall portion of the circular recess 25b of the fixed housing 25, and a guide groove provided on the housing 25 side that can mesh with the inner tooth 25c. A pole 21 held so as to be able to advance and retreat with respect to the tooth 25c, and an actuating member that presses the pole 21 toward the inner tooth 25c and meshes with each other and releases the pressure against the pole 21 during operation and releases the meshed state with respect to the inner tooth 25c. The configuration includes a (sliding cam 22 and a rotating cam 23).
[0057]
As a result, the apparatus can be configured to be compact and lightweight. Furthermore, the guide groove for assembling the pole 11 and the slide cam 12 of the angle adjusting mechanism 10, and the pole 21 and the slide cam 22 of the falling movable mechanism 20 can be used. Since the guide groove for assembling is formed in the accommodation space by the common holding plate 31 and guide block 32, the apparatus can be configured more compactly and lightly.
[0058]
According to such a configuration, it is possible to provide the reclining device R that can accurately exhibit the angle adjustment function and the fall movable function, and the angle adjustment mechanism 10 can be used immediately before the seat back is lowered when the seat back is returned from the fall state. It can also function as a so-called memory mechanism that can automatically return to the lock position, and there is no need to use a dedicated component for providing the memory function.
[0059]
In addition, according to such a configuration, the slide cams 12 and 13 and the rotating cams 13 and 23 for moving the poles 11 and 22 forward and backward are used as the operating members constituting the angle adjusting mechanism 10 and the falling movable mechanism 20. The cams 13 and 23 are fitted to the outer periphery of the operation shaft 34 so as to be selectively engaged and disengaged according to the rotation operation direction of the operation shaft 34. As a result, the angle adjusting mechanism 10 and the overturning movable mechanism 20 can be accurately operated, and the same parts can be adopted as the constituent parts of these mechanisms except for the rotating cams 13 and 23. Therefore, it is possible to improve the assembling property of each component and reduce the cost.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of a reclining device according to an example of the present invention.
2 is a partially omitted front view of the reclining device as seen from the direction of arrow 2 in FIG.
FIG. 3 is an exploded perspective view of an angle adjusting mechanism constituting the reclining device.
FIG. 4 is an exploded perspective view of a falling movable mechanism constituting the reclining device.
FIG. 5 is a perspective view showing a relationship between each rotation cam and an operation shaft constituting the same angle adjusting mechanism and the falling movable mechanism.
FIG. 6 is a partially omitted front view for explaining the operation of the same angle adjustment mechanism.
FIG. 7 is a partially omitted front view for explaining the operation of the overturning movable mechanism.
FIG. 8 is a schematic diagram for explaining a relationship between an operation shaft and each rotation cam when the angle adjustment mechanism is operated.
FIG. 9 is a schematic diagram for explaining a relationship between an operation shaft and each rotation cam when the overturning movable mechanism is operated.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 10 ... Angle adjustment mechanism, 11 ... Pole, 11a ... External tooth, 11b ... Leg part, 11c ... Engagement projection part, 12 ... Slide cam, 12a ... Plate main body, 12b ... Engagement projection part, 12c ... Receiving cam part , 12d: fitting hole, 12d1, 12d2: engagement groove portion, 13: rotating cam, 13a ... cylindrical portion, 13b ... engagement arm portion, 13c ... inner hole, 13c1 ... circular hole portion, 13c2 ... engagement groove portion, DESCRIPTION OF SYMBOLS 14 ... Connection arm, 15 ... Movable housing, 15a ... Housing main body, 15b ... Circular recess, 15c ... Internal tooth, 20 ... Inclination movable mechanism, 21 ... Pole, 21a ... External tooth, 21b ... Leg part, 21c ... Engagement Joint projection, 22 ... slide cam, 22a ... plate body, 22b ... engagement projection, 22c ... receiving cam, 22d ... fitting hole, 22d1, 22d2 ... engagement groove, 23 ... rotating cam, 23a ... Tube part, 23b ... engagement arm part 23c ... inner hole, 23c1 ... circular hole, 23c2 ... engagement groove, 24 ... spiral spring, 24a ... inner end, 24b ... outer end 25 ... fixed housing, 25a ... housing main body, 25b ... circular recess, 25c ... internal teeth, 31 ... holding plate, 31a ... plate body, 31b ... circular hole, 31c ... fitting hole, 32 ... guide block, 33 ... set plate, 33a ... plate body, 33b ... cylinder part, 34 ... operating shaft, 34a ... cylindrical portion, 34b ... engagement projection, 35 ... operating lever, 36 ... spiral spring, R ... reclining device, A1 ... upper arm, A2 ... lower arm.

Claims (1)

An angle adjustment mechanism having a function of adjusting a tilt angle of the seat back in the front-rear direction with respect to the seat cushion within a predetermined angle range ; A reclining device comprising operation means that rotates in directions opposite to each other about an axis and selectively functions the angle adjustment mechanism and the fall movable mechanism according to a rotation operation direction , wherein the angle adjustment mechanism and the angle adjustment mechanism The falling movable mechanism is disposed in each partition space defined by partition walls in a space formed by connecting a movable housing mounted on the seat back side and a fixed housing mounted on the seat cushion side in a superposed state. A reclining device,
The angle adjusting mechanism includes an arcuate inner tooth provided on an annular peripheral wall portion of a circular recess of one of the two housings, and a guide groove provided on the housing side that can mesh with the inner tooth. A pawl held so as to be able to advance and retreat, a slide cam that presses the pawl toward the inner teeth and meshes and releases the press against the pawl during operation and releases the meshed state with respect to the inner teeth, A rotating cam that engages the slide cam and operates the slide cam is provided.
The falling movable mechanism includes an arcuate inner tooth provided on an annular peripheral wall portion of a circular recess of the other housing of the two housings, and a guide groove provided on the housing side that can mesh with the inner tooth. A pawl held so as to be able to advance and retreat, a slide cam that presses the pawl toward the inner teeth and meshes and releases the press against the pawl during operation and releases the meshed state with respect to the inner teeth, A rotating cam that engages the slide cam and operates the slide cam is provided.
Each constituent member constituting the angle adjusting mechanism and the inclining movable mechanism is a component having the same shape except for the inner hole shape of each rotating cam into which the operation shaft as the operation means is fitted.
The rotating cams are fitted on the operation shaft extending through the partition wall and are opposed to each other with the partition wall interposed therebetween, and are rotated when the operation shaft rotates in directions opposite to each other about the axis. It is arranged to selectively engage with the operation shaft according to the dynamic operation direction,
The other component members of the angle adjustment mechanism and the other component members of the fall movable mechanism are arranged to face each other in the same direction with the partition wall in between .

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