CN101048091A - Reclining device - Google Patents

Abstract

A reclining device for adjusting the angle of the backrest of a seat for a vehicle, wherein a ratchet plate is rotatably stacked on a base plate, and an operating shaft is rotatably disposed on the rotating center axis thereof. A circular recessed part disposed about the operating shaft is formed on the opposed face of the ratchet plate to the base plate, and internal teeth are formed in the inner peripheral wall surface of the recessed part. Also, a pole having, on the front end face side, external teeth engage able with and disengage able from the internal teeth from the radial direction of the addendum circle thereof is disposed in the recessed part. On the other hand, a guide projection slidably guiding the pole in the radial direction is formed on the base plate, and a cam rotating together with the operating shaft is disposed in a space on the rear end face side of the pole. A release plate is disposed between the pole and the cam and ratchet plate so as to be rotated together with the cam, and a projection engaged with the cam groove of the pole is formed at the rotating end part of the release plate so that the internal teeth can be disengaged from the external teeth.

Description

Tilting gearing

Technical field

The present invention relates to a kind of inclination (リ Network ラ イ ニ Application グ) device of angle adjustment of the backrest that is used for seat.In more detail, relate to tilting gearing with such mechanism, the overlapping pivotally ratchet plate of the relative substrate of this mechanism, configuration operation axle on its rotary middle spindle has the mechanism that both relative rotary positions can be adjusted into desired angle between ratchet plate and substrate.

Background technology

As this tilting gearing, for example has the device of the formation of Fig. 1～as shown in Figure 3.In these figure, substrate 1 is fixed in the underarm of vehicle seat cushion pad side, and ratchet plate 5 is fixed in the upper arm of chair back side.

Ratchet plate 5 substrate 1 relatively is overlapping pivotally, supports operating axis 3 pivotally by substrate 1 and ratchet plate 5 on its rotary middle spindle.Forming with operating axis 3 at forward surface ratchet plate 5 and substrate 1 is the central circular recess, and forms internal tooth 7 at the internal perisporium face of this recess.

In addition, at the above-mentioned recess arrangement ratchet 11 of ratchet plate 5, this ratchet 11 has in the front end face side can be from the external tooth 9 that radially engages and break away from internal tooth 7 of outside circle.On the other hand, substrate 1 be provided with towards radially to ratchet 11 carry out the direction protrusion 13,13 of sliding guidance '.

In addition, on operating axis 3, cam 15 is installed pivotally with the operating axis one.Cam 15 is disposed at the space of the rear end face side of ratchet 11, and the back of pushing ratchet 11 makes the external tooth 9 of ratchet 11 be engaged to the internal tooth of ratchet plate 5.In addition, in the outer end of these cam 15 joint helical springs 17, the inner end fastening of this helical spring 17 is in substrate 1.Like this, cam 15 is engaged in direction (locking direction) application of force of the internal tooth 7 of ratchet plate 5 towards the external tooth 9 that makes ratchet 11.

Discoideus release board 21 is inserted the elliptic cross-section part of logical operating axis 3 with cam 15.In addition, release board 21 be contacted with cam 15, ratchet 11, direction protrusion 13,13 ' single face ground overlapping.Cam 15 form can be chimeric with the hole 21a of release board 21 protuberance 15a, release board 21 turns round integratedly with cam 15.

Face in ratchet plate 5 sides of ratchet 11 forms projection 11a, and this projection 11a engages with the cam path 21b that is formed at release board 21.The shape set of this cam path 21b is such shape, this shape make when release board in Fig. 1 when counter clockwise direction is turned round, the direction that the internal tooth 7 towards the external tooth 9 of ratchet 11 from ratchet plate 5 leaves makes ratchet 11 move (for example with reference to patent documentation 1).

In addition, in another tilting gearing, also have mechanism as shown in Figure 4, this mechanism does not use release board at the external tooth that makes ratchet when the internal tooth of ratchet plate leaves.In the figure, ratchet 33 also is disposed between substrate 41 and the ratchet plate 37.This ratchet 33 is made internal tooth 39 engagements of external tooth 35 with the ratchet plate 37 of ratchet 33, or is left on the contrary by the direction protrusion 45,45 that is formed at substrate 41 ' radially channeling conduct of court.

In this existing device, the back with slot part 33a is formed at ratchet 33 forms the arm 31a that can engage with the slot part 33a of ratchet 33 at cam 31.When unlocking, in Fig. 4, make cam 31 towards revolution counterclockwise.Like this, make the external tooth 35 of ratchet 33 move (for example, with reference to patent documentation 2) towards the direction that the internal tooth 39 from ratchet plate 37 leaves.

Patent documentation 1: TOHKEMY 2001-87071 communique

Patent documentation 2: TOHKEMY 2001-87069 communique

Patent documentation 3: TOHKEMY 2004-105637 communique

Patent documentation 4: No. 3115231 communique of Japan Patent

Patent documentation 5: TOHKEMY 2002-34695 communique

Patent documentation 6: TOHKEMY 2003-180478 communique

Summary of the invention

There are following such problem in Fig. 1～tilting gearing shown in Figure 3, tilting gearing shown in Figure 4.

(1) Fig. 1～tilting gearing shown in Figure 3

The masterpiece that acts on the external tooth 9 of ratchet 11 by both engagement position K (with reference to Fig. 2) from the internal tooth 7 of ratchet plate 5 is used the middle body of the thickness of slab direction of ratchet 11.With respect to this, the masterpiece that acts on the projection 11a of ratchet 11 by both contact site S (with reference to Fig. 2) from the side wall surface of the cam path 21b of release board 21 is used from the surface of ratchet 11 towards the position of thickness of slab direction (operating axis 3 axially) skew.

Therefore, the occasion of the latch-release operation of leaving from the internal tooth 7 of ratchet plate 5 at the external tooth 9 that makes release board 21 revolution, carries out ratchet 11 makes the moment of ratchet 11 towards the direction M (with reference to Fig. 2) of thickness of slab direction inclination, and the latch-release operation sense is bad.

(2) tilting gearing shown in Figure 4

The masterpiece that acts on the slot part 33a of ratchet 33 from the arm 31a of cam 31 is used for the middle body of the thickness of slab direction of ratchet 33, so, do not produce the moment of above-mentioned direction M.

; the direction protrusion 45,45 ' not only of this tilting gearing carries out sliding guidance to ratchet 33; and; to turn round load when vehicle collision etc. takes place when putting on the ratchet plate, the external tooth 35 of still not removing ratchet 33 and the engagement ground of the internal tooth 39 of ratchet plate 37 is the position of maintenance ratchet 33 firmly.Therefore, direction protrusion 45,45 ' require predetermined strength.

Yet, in formation shown in Figure 4, direction protrusion 45,45 ' in direction protrusion 45 ' in order to prevent the interference with the arm 31a of cam 31, littler than direction protrusion 45, be difficult to guarantee direction protrusion 45 ' predetermined strength.

The present invention makes in order to address the above problem, and its purpose is to realize the tilting gearing that the latch-release operation sense is good, the intensity of direction protrusion also can be guaranteed.

Be used to address the above problem, the invention of technical scheme 1 provides a kind of tilting gearing, this tilting gearing has substrate, the overlapping pivotally ratchet plate of this substrate relatively, be disposed at the operating axis on the rotary middle spindle of this ratchet plate pivotally, is that the center forms circular recess at above-mentioned ratchet plate and forward surface aforesaid substrate with above-mentioned operating axis, be formed at the internal tooth of the internal perisporium face of this recess, be disposed at above-mentioned recess and form the ratchet of the external tooth of indented joint and disengaging in outside circle radially above-mentioned relatively in the front end face side, be located at aforesaid substrate, along the above-mentioned direction protrusion that radially above-mentioned ratchet is carried out sliding guidance, be disposed at the space of above-mentioned ratchet rear end face side, turn round and the cam that can push with the aforesaid operations axle the rear end face of above-mentioned ratchet, the direction of internal tooth that is engaged to above-mentioned ratchet plate towards the external tooth that makes above-mentioned ratchet is to the force application mechanism of the above-mentioned cam application of force, at least towards above-mentioned ratchet plate side opening be formed at the cam path of above-mentioned ratchet, and the release board that between above-mentioned ratchet plate, disposes pivotally at above-mentioned ratchet and above-mentioned cam with above-mentioned cam; This release board is provided with the projection that engages with above-mentioned cam path in its revolution end, when the power of the above-mentioned force application mechanism of resistance makes the revolution of aforesaid operations axle, interaction by above-mentioned cam path and this projection, make the centre of gyration side shifting of above-mentioned ratchet forcibly, make of the internal tooth disengaging of the external tooth of above-mentioned ratchet from above-mentioned ratchet plate towards above-mentioned cam.

In the present invention, use ratchet thickness of slab direction central portion at the cam path of ratchet by the masterpiece of both contact site effects from the projection of release board.For this reason, the occasion of the latch-release operation of leaving from the internal tooth of ratchet plate at the external tooth that makes release board revolution, makes ratchet does not make the moment of the direction that ratchet tilts towards the thickness of slab direction.

The invention of technical scheme 2 also has such feature on the basis of the tilting gearing of technical scheme 1: be disposed in the external tooth of above-mentioned ratchet in broad ways, the external tooth that is disposed at central portion is made of such profile of tooth, and this profile of tooth is compared the profile of tooth of the external tooth that is disposed at both ends and carried out negative transposition (translocation position).

In the present invention, being disposed at the profile of tooth that the external tooth of width (pitch circle direction) central portion of ratchet carried out negative transposition by the profile of tooth of comparing the external tooth that is disposed at both ends constitutes, so, be disposed at the transverse tooth thickness attenuation of external tooth on the pitch circle of external tooth at both ends, that be disposed at central portion, being disposed at the external tooth of ratchet central portion can be not and the interior interference of tooth ground engagement of ratchet plate.Like this, the external tooth that is disposed at both ends can mesh more deeply at the internal tooth of when locking and ratchet plate, does not produce the gap at external tooth that is disposed at both ends and interior between cog.Like this, under the lock-out state that meshes securely at both ends, even from ratchet plate side by its internal tooth at the ratchet service load, also can reduce the inclination of ratchet, it is a lot of that mesh volume is reduced.

The invention of technical scheme 3 also has such feature on the basis of the tilting gearing of technical scheme 1: in order to improve the intensity of direction protrusion, the rear side of the direction protrusion on substrate does not form recess.

The invention of technical scheme 4 also has such feature on the basis of the tilting gearing of technical scheme 1: be provided with inclined cam surface and bearing-surface at above-mentioned cam; This inclined cam surface pushes the rear end face of above-mentioned ratchet when the revolution of above-mentioned cam, make the external tooth of above-mentioned ratchet be engaged to the internal tooth of above-mentioned ratchet plate; This bearing-surface be positioned at this inclined cam surface, make the front side of the rotating direction of above-mentioned cam and the either party at least of rear side by above-mentioned force application mechanism, and, when the internal tooth engagement of the external tooth of above-mentioned ratchet and above-mentioned ratchet plate and the rear end face end of above-mentioned ratchet in opposite directions, when the rear end face end of when above-mentioned ratchet plate puts on above-mentioned ratchet with the load of gyratory directions, supporting above-mentioned ratchet; Above-mentioned bearing-surface constitutes by the 1st inclined plane that tilts towards the direction identical with above-mentioned inclined cam surface with towards the 2nd inclined plane that the direction opposite with above-mentioned inclined cam surface tilts, and is provided with the 1st teat that can contact with above-mentioned the 1st inclined plane and the 2nd teat that can contact with above-mentioned the 2nd inclined plane in the rear end face end of above-mentioned ratchet.

In the present invention, the cam that is subjected to the power of force application mechanism is engaged in the direction revolution of the internal tooth of ratchet plate towards the external tooth of ratchet.Like this, the rear end face of the inclined cam surface of cam pushing ratchet, ratchet is towards making its external tooth be engaged in the moving radially of internal tooth of ratchet plate.When this ratchet moves, the 1st teat as a ratchet part also moves in the same direction, leave from the centre of gyration of cam, but when when the 1st teat of ratchet is watched the 1st inclined plane of cam, the 1st teat of ratchet is caught up with on the 1st inclined plane of cam corresponding to the revolution of cam.For this reason, can avoid the gap on the 1st inclined plane of the 1st teat of ratchet and cam excessively to increase.

When the locking of the internal tooth engagement of the external tooth of ratchet and ratchet plate, apply load from the ratchet plate at ratchet as the collision of vehicle etc., then ratchet tilts, and its 1st teat is contacted with the 1st inclined plane of cam, and its 2nd teat is contacted with the 2nd inclined plane of cam.Therefore, by the inclined cam surface and the 1st of cam, the 2nd inclined plane totally 3 ratchet is supported.

From the ratchet plate load is being put on the occasion of ratchet,, contact pressure is being acted on common normal direction at this contact-making surface at the contact-making surface of the 1st teat of the 1st inclined plane of cam and ratchet.Therefore, by be provided with towards with the 1st inclined plane of inclined cam surface inclined, thereby will also act on cam towards the component that the direction that unlocks pushes back cam.

On the other hand, at cam the 2nd inclined plane that tilts towards the direction opposite with inclined cam surface is set, the contact-making surface at the 2nd teat of the 2nd inclined plane of cam and ratchet will make cam act on cam towards the rotating component of locking direction.Therefore, that the 1st inclined plane produces by being provided with, as will to push back cam towards latch-release direction power does not reach latch-release by because the rightabout power that the existence on the 2nd inclined plane produces is eliminated or reduced.

Though the 2nd inclined plane may not contact with the 2nd teat yet during locking, even in this occasion cam counter-rotating, when the 2nd teat of ratchet contacted with the 2nd inclined plane of cam, cam also stopped.This is because when the 2nd teat of ratchet contacted with the 2nd inclined plane of cam, the existence owing to the 2nd inclined plane made cam towards the rotating component of locking direction.

The invention of technical scheme 5 also has such feature on the basis of the tilting gearing of technical scheme 4: select the shape of inclined cam surface of above-mentioned cam and the shape on the 1st inclined plane, make the gap of the 1st teat of the 1st inclined plane of above-mentioned cam and above-mentioned ratchet in the front and back unified (necessarily) of the position of engagement of the internal tooth of the external tooth of above-mentioned ratchet and above-mentioned ratchet plate.

The invention of technical scheme 6 also has such feature on the basis of the tilting gearing of technical scheme 1: as the external tooth that makes above-mentioned ratchet makes above-mentioned cam turn round from the internal tooth of above-mentioned ratchet plate with breaking away from, the ratchet confined planes of above-mentioned ratchet that then is recovered to the centre of gyration side of above-mentioned cam is contacted with the cam confined planes of above-mentioned cam, forbids that above-mentioned cam further turns round.

In the present invention, usually the power by force application mechanism makes the cam revolution, and the rear end face of pushing ratchet makes the external tooth of ratchet be engaged in the internal tooth of ratchet plate, becomes the relative rotating lock-out state of forbidding substrate and ratchet plate.

, make the operating axis revolution as the power of revolting force application mechanism here, make the revolution of cam and release board, then release board makes the centre of gyration side shifting of ratchet towards cam forcibly, and the external tooth of ratchet breaks away from from the internal tooth of ratchet plate, removes the locking of tilting gearing.

When cam further turned round, the cam confined planes of cam was contacted with the ratchet confined planes of ratchet, forbids the revolution of further cam, i.e. the revolution of operating axis.

The invention of technical scheme 7 also has such feature on the basis of the tilting gearing of technical scheme 1: be provided with at the outer peripheral face of aforesaid operations axle parallel with the rotary middle spindle of aforesaid operations axle the 1st ' the plane; Be provided with through hole at above-mentioned cam, have at this through hole and insert the aforesaid operations axle with gap, and form 1st plane parallel with the rotary middle spindle of above-mentioned cam at inner peripheral surface; At the inner peripheral surface of the through hole of above-mentioned cam and there is configuration elastic force generation member between the outer peripheral face of the aforesaid operations axle that inserts in above-mentioned through hole with gap, this elastic force generation member is crimped on the inner peripheral surface of above-mentioned through hole and the outer peripheral face of aforesaid operations axle, make the 1st of the 1st plane of through hole of above-mentioned cam and aforesaid operations axle ' plane contact.

The invention of technical scheme 8 also has such feature on the basis of the tilting gearing of technical scheme 7: above-mentioned elastic force generation member is made of maintaining part and elastic force generating unit; This maintaining part be installed on the aforesaid operations axle outer peripheral face, with the inner peripheral surface part in opposite directions of the through hole of above-mentioned cam beyond the position; This elastic force generating unit is connected with in this maintaining part, is crimped on the inner peripheral surface of through hole of above-mentioned cam and the outer peripheral face of aforesaid operations axle.

The invention of technical scheme 9 also has such feature on the basis of the tilting gearing of technical scheme 8: the cross sectional shape of the through hole of above-mentioned cam for form at inner peripheral surface above-mentioned the 1st plane and with the ellipse on the 1st parallel plane the 2nd plane, the cross sectional shape of aforesaid operations axle for form at outer peripheral face above-mentioned the 1st ' plane and with the ellipse on the 1st ' parallel plane the 2nd ' plane; In addition, form along the 1st groove of the rotary middle spindle of above-mentioned cam, form along the 2nd groove of the rotary middle spindle of above-mentioned cam on above-mentioned the 2nd plane on above-mentioned the 1st plane of above-mentioned cam; In addition, the maintaining part of above-mentioned elastic force generation member by base portion, the 1st pressure contact portion, and the 2nd pressure contact portion constitute; This base surface to the aforesaid operations axle the 1st ' plane and the 2nd ' interplanar side face in opposite directions; The 1st pressure contact portion is connected with the square end portion in this base portion, is crimped on the 1st ' plane of aforesaid operations axle; The 2nd pressure contact portion is connected with in the opposing party's of above-mentioned base portion end, is crimped on the 2nd ' plane of aforesaid operations axle; In addition, be provided with the 1st direction protrusion portion at above-mentioned the 1st pressure contact portion, the 1st direction protrusion portion inserts above-mentioned the 1st groove, has the shape that the width in above-mentioned the 1st well width direction is narrowed down gradually towards front end; Be provided with the 2nd direction protrusion portion and elastic portion at above-mentioned the 2nd pressure contact portion; The 2nd direction protrusion portion inserts above-mentioned the 2nd groove under the state on the 2nd ' plane that is crimped on the aforesaid operations axle, have the shape that the width in above-mentioned the 2nd well width direction is narrowed down gradually towards front end; This elastic portion is inserted above-mentioned the 2nd groove, is crimped on the bottom surface of above-mentioned the 2nd groove, with the co-operating of above-mentioned the 2nd direction protrusion portion, makes the 1st plane of through hole of above-mentioned cam and the 1st ' plane contact of aforesaid operations axle.

The effect of invention

According to the invention of technical scheme 1, when carrying out the latch-release operation, do not occur in the moment that the thickness of slab direction makes the direction of ratchet inclination, the latch-release operation sense is good.In addition, because cam and direction protrusion do not interfere, so, do not need to reduce direction protrusion, also can guarantee the intensity of direction protrusion.

According to the invention of technical scheme 2, being disposed at the external tooth of ratchet central portion can be not and the interior interference of tooth ground engagement of ratchet plate, the result, and the external tooth that is disposed at both ends can mesh more deeply with the internal tooth of ratchet plate when locking, does not produce the gap between the two.Therefore, under this lock-out state, mesh securely at both ends, even apply load by this internal tooth at ratchet from ratchet plate side, also can reduce the inclination of ratchet, and mesh volume can not reduce significantly, can stably obtain high locking intensity.

According to the invention of technical scheme 3, the rear side of the direction protrusion on substrate does not form recess, so, the intensity height of direction protrusion, the result does not have the distortion of direction protrusion etc., so the inclination of ratchet is little, can stably obtain high locking intensity.

Invention according to technical scheme 4, when ratchet when locking direction moves, the 1st teat as a ratchet part also moves in the same direction, leave from the centre of gyration of cam, but when when the 1st teat of ratchet is watched the 1st inclined plane of cam, the 1st teat ground that ratchet is caught up with corresponding to the revolution of cam in the 1st inclined plane of cam is approaching, so, can avoid the gap on the 1st inclined plane of the 1st teat of ratchet and cam excessively to become big.Therefore, locking intensity can not descend significantly, can stably obtain high locking intensity.

In addition, in the occasion that load is put on ratchet from the ratchet plate, cam is also acted on cam towards the component that the latch-release direction pushes back, but also be provided with towards the 2nd inclined plane of the direction inclination opposite with inclined cam surface at cam, like this, make cam also act on cam towards the rotating component of locking direction.Therefore, rightabout power that the 1st inclined plane produces by being provided with, that the power that cam pushes back towards the latch-release direction will be produced by the existence because of the 2nd inclined plane is eliminated or is reduced, and does not reach latch-release, also can obtain high locking intensity from this point.

Invention according to technical scheme 5, front and back in the position of engagement of the internal tooth of the external tooth of ratchet and ratchet plate, because the gap of the 1st inclined plane of cam and the 1st teat of ratchet is unified, so, even component tolerance makes the position of engagement from regular target location skew, locking intensity can not produce big change yet.

Invention according to technical scheme 6, form cam confined planes and ratchet confined planes at above-mentioned cam and above-mentioned ratchet, this cam confined planes and ratchet confined planes contact when the internal tooth of above-mentioned ratchet plate breaks away from the external tooth of above-mentioned ratchet, forbid that above-mentioned cam further turns round, like this, the latch-release action cam confined planes by the cam ratchet confined planes that is contacted with ratchet finishes.The operating physical force of latch-release is delivered to cam from operating axis.Therefore, the rotating deviating cause of the operating axis during latch-release only becomes the gap of operating axis and cam, compares existing tilting gearing, and the operational stroke when making the rotating angle latch-release of operating axis during latch-release reduces.

In addition, be provided with cam, ratchet, the substrate of the direction protrusion of ratchet channeling conduct is set at high strength, make tilting gearing under lock-out state, have enough locking intensity.The ratchet confined planes that the latch-release action cam confined planes by cam is contacted with ratchet finishes.Therefore, even be big latch-release operating physical force, owing to high-intensity cam contacts with ratchet, so, not needing high-intensity relieving mechanism yet, cost is low.

Invention according to technical scheme 7, through hole at cam forms the 1st plane, form the 1st ' plane at operating axis, and, setting makes the elastic force generation member of two plane contact, so, can make the rotary middle spindle of operating axis consistent, the impression the during operation that improves tilting gearing with the rotary middle spindle of cam.

Invention according to technical scheme 8, at above-mentioned elastic force generation member maintaining part is set, this maintaining part be installed on the aforesaid operations axle outer peripheral face, with the through hole inner peripheral surface part in opposite directions of above-mentioned cam beyond the position, like this, when assembling elastic force generation member, at first maintaining part is remained in operating axis temporarily, then, elastic force generation member is moved along the rotary middle spindle of operating axis, thereby can easily the elastic force generating unit be inserted between the outer peripheral face of the inner peripheral surface of through hole and aforesaid operations axle.

Invention according to technical scheme 9, at first the maintaining part with elastic force generation member remains in operating axis temporarily, then, and when making elastic force generation member when operating axis moves, the 1st guide part of the 1st pressure contact portion is inserted into the 1st groove, and the 2nd guide part of the 2nd pressure contact portion is inserted into the 2nd groove.The 1st guide part, the 2nd guide part are the shape that the width width at the 1st groove, the 2nd groove is narrowed down gradually towards front end, so, when the side wall surface sliding-contact of the 1st guide part, the 2nd guide part at the 1st groove, the 2nd groove, the power that the base portion that makes maintaining part in the effect of elastic force generation member moves towards the outer peripheral face direction of operating axis.

Be contacted with the outer peripheral face of operating axis by the base portion of maintaining part, thereby on the plane parallel, become the location direction that is parallel to above-mentioned the 1st plane, above-mentioned cam and operating axis with the plane of rotation of cam.

In the present invention, on the plane parallel, become the location direction that is parallel to above-mentioned the 1st plane, above-mentioned cam and operating axis with the plane of rotation of cam.That is, can make the rotary middle spindle of operating axis consistent, the impression the during operation that further improves tilting gearing with the rotary middle spindle of cam.

Description of drawings

Fig. 1 is the part sectioned view of existing tilting gearing.

Fig. 2 is the sectional view of the cut-out line II-II of Fig. 1.

Fig. 3 is the sectional view of the cut-out line III-III of Fig. 2.

Fig. 4 is the figure that another existing example is shown.

Fig. 5 is the figure that the outward appearance of the present invention's the 1st form example is shown.

Fig. 6 is the sectional view of the cut-out line VI-VI of Fig. 5.

Fig. 7 is the back view of Fig. 5.

Fig. 8 is the sectional view of the cut-out line VIII-VIII of Fig. 5.

Fig. 9 is the sectional view of the cut-out line IX-IX of Fig. 6.

Figure 10 is the figure that removes release board of Fig. 9.

Figure 11 wants portion's enlarged drawing among Figure 10.

Figure 12 is the details drawing of the ratchet among Figure 10.

Figure 13 is the sectional view of direction protrusion.

Figure 14 is the schematic diagram of the operating axis peripheral construction of the present invention's the 2nd form example.

Figure 15 is the decomposition diagram that the operating axis periphery of the present invention's the 2nd form example is shown.

Figure 16 is the figure that the outward appearance of the present invention's the 2nd form example is shown.

Figure 17 is the sectional view of the cut-out line XVII-XVII of Fig. 6.

Figure 18 is the back view of Figure 16.

Figure 19 is the sectional view of the cut-out line XIX-XIX of Figure 16.

Figure 20 is the sectional view of the cut-out line XX-XX of Figure 17.

Figure 21 is the figure that removes release board of Figure 20.

Figure 22 (A) is front elevation for the figure of explanation release board, (B) is left surface figure, (C) is right hand view, (D) is top figure.

Symbol description

100 substrates

120 operating axis

130 ratchet plates

133 internal tooths

140,150 ratchets

141,151 external tooths

144,154 cam paths

180 release boards

183,184 projections

The specific embodiment

The 1st form example

Below with reference to Fig. 5～Figure 13 form of implementation example of the present invention is described.At first, as shown in Figure 6, in the tilting gearing of this form example, substrate 100 is installed on the underarm 201 of vehicle seat cushion pad side, ratchet plates 130 is installed at the upper arm 202 of chair back side.

As Fig. 5～as shown in Figure 8, discoideus relatively substrate 100 chimeric discoideus ratchet plates 130, thereby can be overlapping relatively pivotally both.The installation accessory 205 of tubular wraps into substrate 100 and ratchet plate 130 from the outside, forbid that ratchet plate 130 leaves from substrate 100.Specifically, the end fastening that accessory 205 is installed is in the outer peripheral portion of substrate 100, and another distolateral ratchet plate maintaining part 205a is from centre of gyration direction of principal axis pushing ratchet plate 130.

Position on the rotary middle spindle of substrate 100 and ratchet plate 130 forms hole 101, hole 131, operating axis 120 is inserted led to these holes 101, hole 131.At ratchet plate 130 and forward surface substrate 100, as Fig. 6 and as shown in Figure 8, forming with operating axis 120 is the recess 132 of central circular, and carves at the internal perisporium of this recess 132 and to establish internal tooth 133.

On substrate 100, with the forward surface of the recess 132 of ratchet plate 130, also and as shown in Figure 8 as Fig. 6, form recess 104, as shown in Figure 9, in the bottom surface of this recess 104 towards ratchet plate 130 prominent a pair of direction protrusion 105,106 and a pair of direction protrusions 107,108 established.

The substrate 100 of this form example forms by forging.As not using forging, and be to use common drawing to make substrate 100 from sheet material, then such shown in Figure 13 (A), at the residual recess 100H that produces by stamping die (formpiston) of the dorsal part of direction protrusion 105,106,107 and 108, produce thin-walled portion SL at direction protrusion 105,106,107 and 108, direction protrusion 105,106,107 and 108 intensity descend.

In this form example, use to forge and make substrate 100, at this moment, such shown in Figure 13 (B), not the direction protrusion on substrate 100 105,106, and 108 rear side form recess, in other words, with direction protrusion 105,106, and 108 form solid shape, and make the wall thickness of its peripheral part enough big, thereby improve direction protrusion 105,106, and 108 intensity.

Substrate 100, with the face of ratchet plate 130 side opposition sides, it is the same circumference at center that a plurality of joints that will be used to be installed to the underarm 201 of vehicle seat cushion pad side by equal intervals are configured to hole 101 with projection 100a.At ratchet plate 130 and faces substrate 100 side opposition sides, also to be configured in hole 131 with projection 130a be the same circumference at center to a plurality of joints that will be used to be installed to the upper arm 202 of chair back side by equal intervals.

Ratchet 140 has in the front end face side can be from the radially relative internal tooth 133 of ratchet plate 130 external tooth 141 that engages and break away from of outside circle, as shown in Figure 9, being sandwiched in spigot surface 105a, the 106a of direction protrusion 105,106, is that the outside circle of internal tooth 133 radially is subjected to sliding guidance towards the direction with the rotary middle spindle orthogonal of ratchet plate 130.

Ratchet 150 also forms and ratchet 140 identical shapes, be sandwiched in spigot surface 107a, the 108a of direction protrusion 107,108, outside circle towards internal tooth 133 radially is subjected to sliding guidance, and the external tooth 151 of front end face side can constitute with the internal tooth 133 engagement ground of ratchet plate 130.

With external tooth 151 be the external tooth 141,151 of example explanation ratchet 140,150 here.As shown in Figure 12, at ratchet 150, the profile of tooth that the external tooth 151 (151A) that is disposed at width central portion Lc has carried out negative transposition by the profile of tooth of comparing the external tooth 151 (151B, 151C) that is disposed at both ends Ls1, Ls2 constitutes.For this reason, relatively the transverse tooth thickness of the transverse tooth thickness of external tooth 151B, the 151C on the pitch circle of external tooth 151B, 151C and external tooth 151A as can be known, the transverse tooth thickness of external tooth 151A that is disposed at central portion Lc is thinner, this external tooth 151A can not interfere ground to mesh with the internal tooth 133 of ratchet plate 130.By reducing the transverse tooth thickness of external tooth 151A, thereby make the external tooth 151B, the 151C that are disposed at both ends Ls1, Ls2 when locking, can mesh more deeply, in 133 generations of external tooth 151B, 151C and internal tooth gap with the internal tooth 133 of ratchet plate 130.

The quantity that is disposed at external tooth 151B, the 151C of both ends Ls1, Ls2 for example is about 3 teeth, and the quantity that is disposed at the external tooth 151A of central portion Lc for example is about 19 teeth.Ground formed at the bottom of the external tooth bonding part of both ends Ls1, Ls2 and central portion Lc was connected tooth gently.In addition, the O1 among Figure 12 is the center of the pitch circle of external tooth 151B, 151C.

Can be in the configuration of the space of rear end face 146,156 sides of ratchet 140,150 with operating axis 120 rotating cams 170.That is, at the pars intermedia of operating axis 120 as shown in Figure 6, form elliptic cross-section part 123, this elliptic cross-section part 123 is matched with the elliptical aperture 171 of cam 170.Like this, operating axis 120 and cam 170 chimeric one-tenth can not relative rotating states, and cam 170 is with operating axis 120 revolutions.

Ratchet 140,150 and cam 170 form identical thickness of slab, and, be configured on the same level of substrate 100.Be provided with inclined cam surface 174b, 175b at cam 170, this inclined cam surface 174b, 175b are used for when the revolution of cam 170 rear end face 146,156 of pushing ratchet 140,150, make the external tooth 141,151 of ratchet 140,150 be engaged to the internal tooth 133 of ratchet plate 130.In order to bring into play this function, the incline direction of inclined cam surface 174b, 175b is set at such direction, promptly, at cam 170 towards the rotating occasion of when locking gyratory directions, the contact point of the rear end face 146,156 of inclined cam surface 174b, 175b and ratchet 140,150 is left from the centre of gyration O of cam 170, for example, when the inclined cam surface 175b about Figure 11 illustrates, become curve or straight line towards upper right liter.

In addition, be provided with teat 174g, 175g at cam 170, the front side of gyratory directions (counter clockwise direction of Figure 10) when this teat 174g, 175g are in cam 170 locking of this inclined cam surface 174b, 175b, and during internal tooth 133 engagements of the external tooth 141,151 that is formed on ratchet 140,150 and ratchet plate 130 across end (front part of gyratory directions when cam 170 locks) bearing-surface 174a, the 175a in opposite directions of the rear end face 146,156 of gap and ratchet 140,150.From ratchet plate 130 the anticlockwise load of Figure 10 was being put on ratchet at 140,150 o'clock, this bearing- surface 174a, 175a are contacted with the end of the rear end face 146,156 of ratchet 140,150, it is supported, forbid the inclination of further ratchet 140,150.

In addition, be provided with bearing- surface 174c, 175c at cam 170, the rear side of gyratory directions when this bearing- surface 174c, 175c are in cam 170 locking of this inclined cam surface 174b, 175b, and during internal tooth 133 engagements of the external tooth 141,151 that is formed on ratchet 140,150 and ratchet plate 130 and end (rear section of gyratory directions when cam 170 locks) bearing-surface 174c, the 175c in opposite directions of the rear end face 146,156 of ratchet 140,150.This bearing- surface 174c, 175c were putting on ratchet from ratchet plate 130 at 140,150 o'clock with the clockwise load of Figure 10, be contacted with the end of the rear end face 146,156 of ratchet 140,150, it is supported, forbid the further inclination of ratchet 140,150.

With reference to Figure 11 is the detailed construction of example explanation bearing- surface 174a, 174c, 175a, 175c and periphery thereof with bearing-surface 175a.Bearing-surface 175a is made of the 1st inclined plane 175e of the length L 1 that tilts towards the direction identical with inclined cam surface 175b and the 2nd inclined plane 175f of the length L 2 that tilts towards the direction opposite with inclined cam surface 175b, is provided with the 1st teat 150e that can be contacted with the 1st inclined plane 175e and the 2nd teat 150f that can be contacted with the 2nd inclined plane 175f in the end of the rear end face 156 of ratchet 150.

Below, the concrete example of the 1st inclined plane 175e and the 2nd inclined plane 175f is described.When the 1st inclined plane 175e makes and to lock the position of gyratory directions then the distance of the centre of gyration of this position and cam 170 more form its outer peripheral face with diminishing.On the contrary, the 2nd inclined plane 175f form make gyratory directions when locking the position then the distance of the centre of gyration of this position and cam 170 become the earth more and form its outer peripheral face.

Therefore, form in the example of the 1st inclined plane 175e and the 2nd inclined plane 175f in the part of use by circular arc C T boundary point N, radius R of the 1st inclined plane 175e and the 2nd inclined plane 175f, it is that the center makes the inclined plane of circular arc C T towards the state (warpage state) that counterclockwise tilts that the 1st inclined plane 175e of boundary point N upside becomes with boundary point N, and it is the inclined plane of the center state (warpage state) that makes circular arc and tilt toward the clockwise direction that the 2nd inclined plane 175f of boundary point N downside becomes with boundary point N.Bearing- surface 174a, 174c and 175c beyond the bearing-surface 175a also are provided with the 1st inclined plane and the 2nd inclined plane by same configuration.

Form cam confined planes 174h, 175h at the inclined cam surface 174b of teat 174g, the 175g of cam 170, the sidepiece of 175b side.On the other hand, form the rear end face 146,156 of ratchet 140,150 of inclined cam surface 174b, the 175b pushing of cams 170 at teat 145,155, form ratchet confined planes 145a, the 155a that can contact with cam confined planes 174h, 175h at the sidepiece of teat 145,155.

These cam confined planes 174h, 175h, ratchet confined planes 145a, 155a are in the contact when the internal tooth 133 of ratchet plate 130 breaks away from of the external tooth 141,151 of ratchet 140,150.When cam confined planes 174h, 175h with ratchet confined planes 145a, when 155a contacts, forbid the further revolution of cam 170.

Face in ratchet plate 130 sides of ratchet 140,150 forms cam path 144,154 (in this form example, cam path 144,154 becomes the hole of the face that penetrates into substrate 100 sides).In addition, a side's of the release board 180 of formation relieving mechanism face and ratchet 140,150 and cam 170 are overlapping, and the opposing party's face sliding-contact is disposed in ratchet plate 130 ground.Central portion at release board 180 wears the hole 181 that is used for inserting logical operating axis 120.

As Fig. 9 and as shown in Figure 10, form the projection 176,177 that is projected into ratchet plate 130 sides at cam 170, this projection 176,177 is fitted to the edge part in the hole 181 that is formed at release board 180, towards the little slotted hole 182,183 that radially extends.For this reason, cam 170 turns round linkedly with release board 180.

In addition, as Fig. 6 and as shown in Figure 9, join the projection 183,184 of cam path 144,154 to by formation such as drawings in the revolution end of release board 180.The shape of cam path 144,154 make when release board 180 when the clockwise direction of Fig. 9 turns round, make the centre of gyration side shifting of ratchet 140,150 forcibly by the interaction of cam path 144,154 and projection 183,184 towards cam 170.

As Fig. 9 and as shown in Figure 10, the hook 111,112 that is suspended to substrate 100 as the inner of the helical spring 191,195 of force application mechanism is fixed, the outer end is suspended to the stage portion 178,179 of cam 170 and is fixed, so rear end face 146,156 ground of cam 170 pushing ratchets 140,150 turn round the application of force to cam 170.

The following describes the start of the tilting gearing of above-mentioned formation.Under lock-out state, make the rear end face 146,156 of cam 170 pushing ratchets 140,150 by the elastic force of helical spring 191,195, make the external tooth 141,151 of ratchet 140,150 be in the state of the internal tooth 133 that is engaged in ratchet plate 130, forbid the revolution of ratchet plate (chair back) 130.

The following describes the action when this lock-out state shifts.The cam 170 that is subjected to the elastic force of helical spring 191,195 is engaged in the direction revolution of the internal tooth 133 of ratchet plate 130 earlier towards the external tooth 141,151 that makes ratchet 140,150.Like this, the rear end face 146,156 of inclined cam surface 174b, the 175b of cam 170 pushing ratchet 140,150, ratchet 140,150 is engaged in the moving radially of internal tooth 133 of ratchet plate 130 towards its external tooth 141,151.

Bearing-surface 175a periphery with cam 170 is the example explanation action of this moment.When ratchet 150 moves, the 1st teat 150e as the part of ratchet 150 also moves in the same direction, leave from the centre of gyration O of cam 170, but when the 1st teat 150e from ratchet 150 watches the 1st inclined plane 175e of cam 170, corresponding to the revolution of cam 170, it is approaching that the 1st inclined plane 175e of cam 170 catches up with the 1st teat 150e ground of ratchet 150.

For this reason, can avoid the gap of the 1st inclined plane 175e of the 1st teat 150e of ratchet 150 and cam 170 when locking, to become excessive.Therefore, locking intensity can not descend a lot, can stably obtain high locking intensity.

Under the lock-out state of the external tooth 151 of ratchet 150 and internal tooth 133 engagements of ratchet plate 130, make as the collision of vehicle etc. and to apply load at ratchet 150 from ratchet plate 130, then ratchet 150 tilts, its the 1st teat 150e is contacted with the 1st inclined plane 175e of cam 170, and its 2nd teat 150f is contacted with the 2nd inclined plane 175f of cam 170.Therefore, by the inclined cam surface 175b and the 1st of cam 170, the 2nd inclined plane 175e, 175f totally 3 supporting ratchets 150.

From ratchet plate 130 load is being put on the occasion of ratchet 150, at the contact-making surface of the 1st teat 150e of the 1st inclined plane 175e of cam 170 and ratchet 150, contact pressure acts on the common normal direction of this contact-making surface.Therefore, by be provided with towards with the 1st inclined plane 175e of inclined cam surface 175b inclined, thereby will also act on cam 170 towards the component F1 (producing the power of the clockwise torque of Figure 11) that the latch-release direction pushes back cam 170.

On the other hand, be provided with towards the 2nd inclined plane 175f that tilts with inclined cam surface 175b rightabout at cam 170, contact-making surface at the 2nd teat 150f of the 2nd inclined plane 175f of cam 170 and ratchet 150 will make cam 170 also act on cam 170 towards the rotating component F2 of locking direction (producing the power of the anticlockwise torque of Figure 11).Therefore, component F1 that the 1st inclined plane 175e produces by being provided with, push back cam 170 towards the latch-release direction is by because the rightabout power F2 that the existence of the 2nd inclined plane 175f produces eliminates or reduces, do not reach latch-release, can obtain high locking intensity yet from this point.

During locking, the discontiguous occasion of the 2nd teat 150f that also may have the 2nd inclined plane 175f and the ratchet 150 of cam 170, but in this occasion, even cam 170 counter-rotatings, in the moment that the 2nd teat 150f of ratchet 150 contacts with the 2nd inclined plane 175f of cam 170, cam 170 stops.This is because in the moment that the 2nd teat 150f of ratchet 150 contacts with the 2nd inclined plane 175f of cam 170, because the existence of the 2nd inclined plane 175f, generation makes cam 170 towards the rotating component F2 of locking direction.

Under lock-out state, as revolt helical spring 191,195 elastic force makes operating axis 120 revolution toward the clockwise direction in Figure 10, cam 170 is revolution toward the clockwise direction also, then remove the ratchet 140 of cam 170,150 at rear end face 146,156 pushing, and, the projection 183 of release board 180,184 sliding-contacts are in ratchet 140,150 cam path 144,154 inclined wall, ratchet 140,150 external tooth 141,151 directions of leaving from the internal tooth 133 of ratchet plate 130 retreat, remove ratchet 140,150 external tooth 141,151 with the engagement of the internal tooth 133 of ratchet plate 130, ratchet plate (chair back) 130 becomes the state (latch-release state) that can fascinate.

This latch-release action contacts and finishes with ratchet confined planes 145a, 155a by cam confined planes 174h, 175h.

As make the chair back desired angle of fascinating, releasing is at the operating physical force of operating axis 120, then make the rear end face 146,156 of cam 170 pushing ratchets 140,150 by the elastic force of helical spring 191,195, the external tooth 141,151 of ratchet 140,150 is engaged to the internal tooth 133 of ratchet plate 130 once more, forbids the rotating state of ratchet plate (chair back) 130.

According to such form example, can obtain following such effect.

(1) in this form example, is used for the thickness of slab direction central portion of ratchet by the masterpiece of both contact site effects at the cam path of ratchet from the projection of release board.For this reason, when the latch-release operation that the external tooth that makes release board revolution, makes ratchet leaves from the internal tooth of ratchet plate, do not produce the moment that makes the direction that ratchet tilts towards the thickness of slab direction.Therefore, do not make the power of the direction that ratchet 140,150 floats from ratchet plate 130, so the latch-release operation sense is good.In addition, because cam and direction protrusion do not interfere, so, not needing to reduce direction protrusion, the intensity of direction protrusion also can be guaranteed.

(2) in this form example, owing to will be integrally formed at release board 180 as projection 183,184 at the junction surface of cam path 144,154, so, can make the formation of this part simple, and, can be by the drawing release board that is shaped at an easy rate, so, but the cost of implement device reduces.

(3) external tooth 141,151 that is disposed at the central portion of ratchet 140,150 can not interfered the ground engagement with the internal tooth 133 of ratchet plate 130, the result, the external tooth 141,151 that is disposed at both ends can mesh more deeply with the internal tooth 133 of ratchet plate 130 when locking, does not produce the gap at external tooth 141,151 that is disposed at both ends and 133 of internal tooths.Meshing securely under the lock-out state at both ends like this, even by its internal tooth 133 load is acted on ratchet 140,150 from ratchet plate 130 sides, ratchet 140,150 also is difficult to tilt, and can reduce its inclination, little amplitude reduces mesh volume, can stably obtain high locking intensity.

(4) because the direction protrusion on substrate 100 105,106,107 and 108 rear side do not form recess, in other words, direction protrusion 105,106,107 and 108 is formed solid shape, so, can improve the intensity of direction protrusion 105,106,107 and 108, the result does not produce distortion, the breakage of direction protrusion 105,106,107 and 108, ratchet 140,150 also is difficult to tilt, and can improve locking intensity.

(5) in this form example, can avoid the gap on the 1st inclined plane of the 1st teat of ratchet 140,150 and cam 170 to become excessive.Therefore, locking intensity can not descend significantly, can stably obtain high locking intensity.In addition, in the occasion that load is put on ratchet 140,150 from ratchet plate 130, also act on cam 170 though push back the component of cam 170 towards the latch-release direction, but also be provided with towards the 2nd inclined plane that tilts with the inclined cam surface rightabout at cam 170, like this, make cam 170 rotating component also act on cam 170 towards locking direction.Therefore, power that the 1st inclined plane produces by being provided with, that push back cam 170 towards locking direction does not reach latch-release by because the rightabout power that the existence on the 2nd inclined plane produces is eliminated or reduced, and can obtain high locking intensity from this point yet.

(6) particularly in the front and back of the position of engagement of the internal tooth 133 of the external tooth 141,151 of ratchet 140,150 and ratchet plate 130, make the gap of the 1st protuberance of the 1st inclined plane 175e of cam 170 and ratchet 140,150 set the shape of bearing-surface (the 1st inclined plane and the 2nd inclined plane) 174a, the 174c of cam 170,175a, 175c, inclined cam surface 174b, 175b uniformly, even then component tolerance makes the position of engagement from regular target location skew, locking intensity can not produce big change yet.

(7) in this form example, the latch-release action contacts and finishes with ratchet confined planes 145a, 155a by cam confined planes 174h, 175h.The operating physical force of latch-release is delivered to cam 170 from operating axis 120.Therefore, in this form example, the rotating deviating cause of the operating axis 120 during latch-release only is an operating axis 120 and the gap of cam 170, compares existing tilting gearing, and the operational stroke during latch-release during the rotating angle latch-release of operating axis 120 diminishes.

(8) cam 170, ratchet 140,150, the substrate 100 that is provided with the direction protrusion 105,106,107,108 of ratchet 140,150 channeling conducts are set at higher intensity, make tilting gearing have enough locking intensity under lock-out state.Ratchet confined planes 145a, 155a that latch-release action cam confined planes 174h, the 175h by cam 170 is contacted with ratchet 140,150 finish.Therefore,, also contact with ratchet 140,150 owing to the high cam 170 of intensity even be big latch-release operating physical force, so, not needing high-intensity release board (relieving mechanism) 180, cost is low.

The invention is not restricted to above-mentioned form example.For example the shape of the bearing-surface of cam 170 (the 1st inclined plane and the 2nd inclined plane) 174a, 174c, 175a, 175c, inclined cam surface 174b, 175b is not limited to above-mentioned form example.For example, in its shape, inclined cam surface and the 1st inclined plane be as long as form like this shape of outer peripheral face, that is, and and the feasible position of gyratory directions when locking, the distance of the centre of gyration of this position and cam is more little, on the contrary, the 2nd inclined plane is as long as form outer peripheral face like this, promptly, make the position of gyratory directions when locking, the distance of the centre of gyration of this position and cam is big more.This be because, as the shape be even then the position tolerance makes the position of engagement of internal tooth of the external tooth of ratchet and ratchet plate be offset from regular target location, can prevent that also both gaps from becoming excessive, and, can avoid the counter-rotating of cam 170.

In addition, also can constitute each bearing- surface 174a, 174c, 175a, the 175c of cam 170 not as above-mentioned form example like that by the 1st inclined plane and the 2nd inclined plane, but only constitute a part (for example bearing- surface 174a, 175a) by the 1st inclined plane and the 2nd inclined plane, constitute other bearing-surface (for example supporting 174c, 175c) by bearing-surface with the same shape of prior art.

In addition, also the 1st, the 2nd inclined plane can be set, but with peripheral shape be the face of circular arc as bearing- surface 174a, 174c, 175a, 175c, this circular arc is with the centre of gyration of cam 170.In this occasion, the protuberance of ratchet 140,150 sides has one to get final product corresponding to bearing- surface 174a, 174c, 175a, 175c.

In addition, as the method that this form example is installed to vehicle seat, also can ratchet plate 130 be installed, at chair back side installation base plate 100 in vehicle seat cushion pad side.

When ratchet plate 130, substrate 100 are installed on upper arm, underarm, with the joint of ratchet plate 130 with the joint of projection 130a, substrate 100 with the through hole that projection 100a is embedded in upper arm, underarm, weld the several of this fitting portion.In this occasion, in order to increase weld strength, increased joint projection 130a, engaged quantity with projection 100a, weld at a plurality of fitting portions.Yet, increasing joint projection 130a, engaging occasion with projection 100a, Han Jie thermal strain sometimes brings harmful effect to apparatus function.For fear of this problem, on ratchet plate 130, substrate 100 not with engage with projection 130a, engage the position of interfering and form the smooth welding protuberance of front end with projection 100a, should weld and be contacted with upper arm, underarm, and carry out laser weld in this part and get final product with protuberance.

In addition, the quantity of ratchet 140,150 can be 1, also can be more than 3, and the application of force of cam 170 is not limited to utilize the method for above-mentioned helical spring 191,195.

The 2nd form example

At first, Figure 14 illustrates the schematic diagram of the characteristic of relative the 1st form example.Form through hole 505 at cam 501 with the 1st plane 503 parallel with the rotary middle spindle of cam 501.On the other hand, the outer peripheral face at operating axis 511 forms the 1st ' plane 513 parallel with the rotary middle spindle of operating axis 511.

When the outer peripheral face of the inner peripheral surface of the through hole 505 of elastic force generation member 521 crimping cams 501 and operating axis 511, the 1st plane 503 of the through hole 505 of cam 501 contacts with the 1st ' plane 513 of operating axis 511.

In this constitutes, as the inner peripheral surface of the through hole 505 of elastic force generation member 521 crimping cams 501 and the outer peripheral face of operating axis 511, then the 1st plane 503 of the through hole 505 of cam 501 contacts with the 1st ' plane 513 of operating axis 511, thereby can carry out on the plane parallel with the plane of rotation (paper) of cam 501 and the location direction of the 1st plane 503 orthogonals (being the arrow directions X in Figure 14), cam 501 and operating axis 511.

Owing on the plane parallel, carry out and the location direction of the 1st plane 503 orthogonals, cam 501 and operating axis 511, so feeling during the tilting gearing operation becomes good with the plane of rotation of cam 501.As elastic force generation member, for example be the leaf spring that constitutes with metal, resin, helical spring, plate etc., but be not limited thereto.

Specifically describe the 2nd form example of the present invention according to Figure 15～Figure 22 below.In these figure, adopt same-sign in the part corresponding with the 1st form example.At first as shown in Figure 17, in the tilting gearing of this form example, substrate 100 is installed on the underarm 201 of chair back side, ratchet plates 130 is installed at the upper arm 202 of chair back side.

As Figure 16～as shown in Figure 19,, thereby make that both can be overlapping relatively pivotally by discoideus relatively substrate 100 chimeric discoideus ratchet plates 130.The installation accessory 205 of tubular wraps into substrate 100 and ratchet plate 130 from the outside, forbid that ratchet plate 130 leaves from substrate 100.Specifically, the end fastening that accessory 205 is installed is in the outer peripheral portion of substrate 100, and another distolateral ratchet plate maintaining part 205a pushes down ratchet plate 130 from centre of gyration direction of principal axis.

Position on the rotary middle spindle of substrate 100 and ratchet plate 130 forms hole 101, hole 131, operating axis 120 is inserted led to these holes 101, hole 131.At ratchet plate 130 and forward surface substrate 100, as Figure 17 and as shown in Figure 19, forming with operating axis 120 be central circular recess 132, and, establish internal tooth 133 quarter at the internal perisporium face of this recess 132.

On substrate 100, with the forward surface of the recess 132 of ratchet plate 130, also as Figure 17 with form recess 104 as shown in Figure 19, as shown in Figure 20, in the bottom surface of this recess 104 towards ratchet plate 130 prominent a pair of direction protrusion 105,106 and a pair of direction protrusions 107,108 established.

At substrate 100 and faces ratchet plate 130 side opposition sides, it is the same circumference at center that a plurality of joints that will be used to be installed on the underarm 201 of chair back side by equal intervals are disposed at hole 101 with projection 100a.At faces ratchet plate 130 and opposition sides substrate 100 sides, also to be disposed at hole 131 with projection 130a be the same circumference at center to a plurality of joints that will be used to be installed to the upper arm 202 of chair back side by equal intervals.

Ratchet 140 has in the front end face side can be from the radially relative internal tooth 133 of ratchet plate 130 external tooth 141 that engages and break away from of outside circle, as shown in Figure 20, spigot surface 105a, 106a by direction protrusion 105,106 clamp, and are that the outside circle of internal tooth 133 radially carries out slide-and-guide towards the direction with the rotary middle spindle orthogonal of ratchet plate 130.

Ratchet 150 is clamped by spigot surface 107a, the 108a of direction protrusion 107,108 too, radially carries out sliding guidance, the external tooth 151 engageable internal tooths 133 to ratchet plate 130 of front end face side towards the outside circle of internal tooth 133.

In the space of rear end face 146,156 sides of ratchet 140,150, configuration can be with operating axis 120 rotating cams 170.

Use the installation constitution of Figure 15, Figure 22 description operation axle 120 and cam 170 here.Be formed for having at cam 170 and insert hole operating axis 120, elliptical cross-sectional shape (through hole) 171 with gap.Inner peripheral surface at elliptical aperture 171 forms the 1st plane 171a and with 1st plane 171a parallel 2nd plane 171b parallel with the rotary middle spindle of cam 170.In addition, form along the 1st groove 171c of the rotary middle spindle of cam 170, form along the 2nd groove 171d of the rotary middle spindle of cam 170 at the 2nd plane 171b at the 1st plane 171a of cam 170.

On the other hand, the cross sectional shape of the pars intermedia of operating axis 120 is oval, forms the 1st ' plane 120a and with 1st ' plane 120a parallel 2nd ' plane 120b parallel with the rotary middle spindle of operating axis 120 at outer peripheral face.In addition, project into outside part in the hole 101 from substrate 100 of operating axis 120, the flange part 120c of the diameter that formation is bigger than the diameter in the hole 101 of substrate 100, formation operating axis 120 is the anti-delinking part towards ratchet plate 130 directions from substrate 100.

At the pars intermedia of operating axis 120, be provided with latch plate 301 as elastic force generation member.In this latch plate 301, be divided into maintaining part 303 and elastic force generating unit 305 substantially; This maintaining part 303 be installed in operating axis 120 outer peripheral face, with the inner peripheral surface part in opposite directions of the elliptical aperture 171 of cam 170 beyond the position; This elastic force generating unit 305 is connected with in maintaining part 303, is crimped on the inner peripheral surface of elliptical aperture 171 of cam 170 and the outer peripheral face of operating axis 120.

Maintaining part 303 by base portion the 311, the 1st pressure contact portion 313, and the 2nd pressure contact portion 315 constitute; The 1st ' plane 120a of this base portion 311 and operating axis 120 and the side face 120d between the 120b of the 2nd ' plane are in opposite directions; The 1st pressure contact portion 313 is connected with the square end portion in base portion 311, is crimped on the 1st ' plane 120a of operating axis 120; The 2nd pressure contact portion 315 is connected with the opposing party end in base portion 311, is crimped on the 2nd ' plane 120b of operating axis 120.

Be provided with the 1st guide part 321, the 1 guide parts 321 at the 1st pressure contact portion 313 and be inserted into the 1st groove 171c, have the shape that the width on the 1st groove 171c width is narrowed down gradually towards front end, be provided with the 2nd guide part 323 and elastic portion 325 at the 2nd pressure contact portion 315; This guide part 323 is inserted into the 2nd groove 171d by the state of the 2nd ' plane 120b that is crimped on operating axis 120, has the shape that the width on the 2nd groove 171d width is narrowed down gradually towards front end; 180 degree turn back into the base end part side of the 2nd guide part 323 in this spring portion 325, be inserted into the 2nd groove 171d, be crimped on the bottom surface of the 2nd groove 171d,, the 1st plane 171a of the elliptical aperture 171 of cam 170 contacted with the 1st ' plane 120a of operating axis 120 with 323 co-operatings of the 2nd guide part.That is, constitute elastic force generating unit 305 by the 2nd guide part 323 and spring portion 325.

Below, the operating axis 120 of this form example and the assemble method of cam 170 are described.At first, have in the elliptical aperture 171 that with gap operating axis 120 is inserted into cam 170.Then, the maintaining part 303 of latch plate 301 is installed on operating axis 120 outer peripheral face, with the elliptical aperture 171 inner peripheral surfaces part in opposite directions of cam 170 beyond the position, keep temporarily.Then,, the 1st guide part 321 is inserted into the 1st groove 171c of cam 170, the 2nd guide part 323, spring portion 325 (elastic force generating unit 305) is inserted into the 2nd groove 171d of cam 170 along operating axis 120 mobile spring plates 301.

When inserting, because the 1st groove 171c, the 2nd groove 171d are the shapes that the width at width narrows down gradually towards front end, so, when the 1st guide part the 321, the 2nd guide part 323 sliding-contacts during in the side wall surface of the 1st groove 171c, the 2nd groove 171d, the power that the 1st guide part the 321, the 2nd guide part 323 makes maintaining part 303 in latch plate 301 effects base portion 311 moves towards the outer peripheral face direction of operating axis 120.

Be contacted with the outer peripheral face of operating axis 120 by the base portion 311 of maintaining part 303, thereby on the plane parallel, carry out the location direction parallel, cam 170 and operating axis 120 with the 1st plane 171a with the plane of rotation of cam 170.

In addition, the 2nd ' plane 120b (outer peripheral face of operating axis 120) of the 2nd guide part 323 crimping operation axles 120 of elastic force generating unit 305, the bottom surface of the 2nd groove 171d of spring portion 325 crimping cams 170 (inner peripheral surface of the elliptical aperture 171 of cam 170).Like this, the 1st plane 171a of the elliptical aperture 171 by cam 170 contacts with the 1st ' plane 120a of operating axis 120, thereby carries out on the plane parallel with the plane of rotation (paper) of cam 170 and the location direction (the arrow directions X in Figure 15) of the 1st plane 171a orthogonal, cam 170 and operating axis 120.

Like this, operating axis 120 and cam 170 chimeric one-tenth can not relative rotating states, and cam 170 is with operating axis 120 revolutions.

Ratchet 140,150 and cam 170 form same thickness of slab, and, be configured on the same plane of substrate 100.Be provided with inclined cam surface 174b, 175b at cam 170, this inclined cam surface 174b, 175b are used for the rear end face 146,156 of pushing ratchet 140,150 when cam 170 revolutions, make internal tooth 133 engagements of the external tooth 141,151 and the ratchet plate 130 of ratchet 140,150.In order to bring into play this function, the incline direction of inclined cam surface 174b, 175b be set at when the contact point of cam 170 rear end face 146,156 of inclined cam surface 174b, 175b and ratchet 140,150 during towards the revolution of locking gyratory directions from the centre of gyration O of cam 170 away from direction.

In addition, be provided with bearing- surface 174a, 175a at cam 170, the front side of gyratory directions (counter clockwise direction of Figure 21) when this bearing- surface 174a, 175a are positioned at cam 170 locking of this inclined cam surface 174b, 175b, and, when internal tooth 133 engagements of the external tooth 141,151 of ratchet 140,150 and ratchet plate 130, in opposite directions across the end (front part of gyratory directions when cam 170 locks) of the rear end face 146,156 of gap and ratchet 140,150.This bearing- surface 174a, 175a were putting on ratchet from ratchet plate 130 at 140,150 o'clock with the anticlockwise load of Figure 21, be contacted with the end of the rear end face 146,156 of ratchet 140,150, it is supported, forbid the further inclination of ratchet 140,150.

In addition, be provided with bearing- surface 174c, 175c at cam 170, the rear side of gyratory directions when this bearing- surface 174c, 175c are in cam 170 locking of this inclined cam surface 174b, 175b, and when internal tooth 133 engagements of the external tooth 141,151 of ratchet 140,150 and ratchet plate 130 and the end (rear section of gyratory directions when cam 170 locks) of the rear end face 146,156 of ratchet 140,150 in opposite directions.This bearing- surface 174c, 175c were putting on ratchet from ratchet plate 130 at 140,150 o'clock with the clockwise load of Figure 21, be contacted with the end of the rear end face 146,156 of ratchet 140,150, it is supported, forbid the inclination of further ratchet 140,150.

Face in ratchet plate 130 sides of ratchet 140,150 forms cam path 144,154 (in this form example, cam path 144,154 becomes the hole of the face that penetrates into substrate 100 sides).In addition, a side's of the release board 180 of formation relieving mechanism face and ratchet 140,150 and cam 170 are overlapping, and the opposing party's face sliding-contact is disposed in ratchet plate 130 ground.Central portion at release board 180 wears the hole 181 that is used for inserting logical operating axis 120.

As Figure 20 and as shown in Figure 21, form the projection 176,177 that is projected into ratchet plate 130 sides at cam 170, this projection 176,177 is fitted to the edge part in the hole 181 that is formed at release board 180, towards the little slotted hole 182,183 that radially extends.For this reason, cam 170 turns round linkedly with release board 180.

In addition, as Figure 17 and as shown in Figure 20, join the projection 183,184 of cam path 144,154 to by formation such as drawings in the revolution end of release board 180.The shape of cam path 144,154 make when release board 180 when the clockwise direction of Figure 20 turns round, make the centre of gyration side shifting of ratchet 140,150 forcibly by the interaction of cam path 144,154 and projection 183,184 towards cam 170.

As Figure 20 and as shown in Figure 21, the hook 11,112 that is suspended to substrate 100 as the inner of the helical spring 191,195 of force application mechanism is fixed, the outer end is suspended to the stage portion 178,179 of cam 170 and is fixed, and rear end face 146,156 ground of cam 170 pushing ratchets 140,150 turn round the application of force to cam 170.

The following describes the start of the tilting gearing of above-mentioned formation.Under lock-out state, make the rear end face 146,156 of cam 170 pushing ratchets 140,150 by the elastic force of helical spring 191,195, make the external tooth 141,151 of ratchet 140,150 be in the state of the internal tooth 133 that is engaged in ratchet plate 130, forbid the revolution of ratchet plate (chair back) 130.

Under lock-out state, as revolt helical spring 191,195 elastic force makes operating axis 120 revolution toward the clockwise direction in Figure 21, cam 170 is revolution toward the clockwise direction also, then remove the ratchet 140 of cam 170,150 at rear end face 146,156 pushing, and, the projection 183 of release board 180,184 sliding-contacts are in ratchet 140,150 cam path 144,154 inclined wall, ratchet 140,150 external tooth 141,151 directions of leaving towards the internal tooth 133 from ratchet plate 130 retreat, remove ratchet 140,150 external tooth 141,151 with the engagement of the internal tooth 133 of ratchet plate 130, ratchet plate (chair back) 130 becomes the state that can fascinate (latch-release state).

As make the chair back desired angle of fascinating, releasing is at the operating physical force of operating axis 120, then make the rear end face 146,156 of cam 170 pushing ratchets 140,150 by the elastic force of helical spring 191,195, the external tooth 141,151 of ratchet 140,150 is engaged to the internal tooth 133 of ratchet plate 130 once more, forbids the rotating state of ratchet plate (chair back) 130.

According to such form example, can obtain following such effect.

(1) the elastic force generating unit (the 2nd guide part 323 and spring portion 325) 305 by latch plate 301 makes the 1st plane 171a of the elliptical aperture 171 of cam 170 contact with the 1st ' plane 120a of operating axis 120, thereby can carry out on the plane parallel with the plane of rotation of cam 170 and the location direction of the 1st plane 171a orthogonal, cam 170 and operating axis 120.

The 2nd guide part 323 of elastic force generating unit 305 meets the 2nd ' plane 120b (outer peripheral face of operating axis 120) of operating axis 120, the bottom surface of the 2nd groove 171d of spring portion 325 crimping cams 170 (inner peripheral surface of the elliptical aperture 171 of cam 170).Like this, the 1st plane 171a of the elliptical aperture 171 of cam 170 contacts with the 1st ' plane 120a of operating axis 120, thereby carries out on the plane parallel with the plane of rotation (paper) of cam 170 and the location direction of the 1st plane 171a orthogonal (being the arrow directions X in Figure 15), cam 170 and operating axis 120.

That is, can make the rotary middle spindle of operating axis 120 consistent, the sensation when further improving the operation of tilting gearing with the rotary middle spindle of cam 170.

(2) by maintaining part 303 being set at latch plate 301, thereby the maintaining part 303 with latch plate 301 remains in operating axis 120 temporarily at first, then, latch plate 301 is moved along operating axis, thereby can easily the 1st guide part 321 be inserted into the 1st groove 171c of cam 170, the 2nd guide part 323, spring portion 325 (elastic force generating unit 305) be easily inserted into the 2nd groove 171d of cam 170.

In the 2nd form example, also can carry out the modification same with the occasion of the 1st form example, the invention is not restricted to the 2nd form example.

Claims (9)

1. a tilting gearing has

Substrate,

Relatively this substrate overlapping pivotally the ratchet plate,

Be configured in the operating axis on the rotary middle spindle of this ratchet plate pivotally,

Is that the center forms circular recess at described ratchet plate and forward surface described substrate with described operating axis,

Be formed at the internal tooth of the internal perisporium face of this recess,

Ratchet, described ratchet are disposed at described recess and are formed with in the front end face side can be from the external tooth of indented joint in outside circle radially described relatively and disengaging,

Be located at described substrate, along the described direction protrusion that radially described ratchet is carried out sliding guidance,

Be disposed at described ratchet rear end face side the space, turn round and the cam that can push with described operating axis the rear end face of described ratchet,

The direction of internal tooth that is engaged to described ratchet plate towards the external tooth that makes described ratchet is to the force application mechanism of the described cam application of force,

At least towards described ratchet plate side opening be formed at the cam path of described ratchet, and

The release board that between described ratchet plate, disposes pivotally at described ratchet and described cam with described cam; This release board is provided with the projection that engages with described cam path in its revolution end, when the power that applies of the described force application mechanism of resistance makes described operating axis revolution, interaction by described cam path and this projection makes the centre of gyration side shifting of described ratchet towards described cam forcibly, makes the internal tooth disengaging of the external tooth of described ratchet from described ratchet plate.

2. tilting gearing according to claim 1 is characterized in that: be disposed in the external tooth of described ratchet in broad ways, the external tooth that is disposed at central portion is made of such profile of tooth, and this profile of tooth is compared the profile of tooth of the external tooth that is disposed at both ends and born transposition.

3. tilting gearing according to claim 1 is characterized in that: the rear side of the described direction protrusion on described substrate does not form recess.

4. tilting gearing according to claim 1 is characterized in that: be provided with inclined cam surface and bearing-surface on described cam;

This inclined cam surface pushes the rear end face of described ratchet when the revolution of described cam, make the external tooth of described ratchet be engaged to the internal tooth of described ratchet plate;

What this bearing-surface was positioned at this inclined cam surface makes the front side on the rotating direction of described cam or the either party at least of rear side by described force application mechanism, and, when the internal tooth engagement of the external tooth of described ratchet and described ratchet plate and the rear end face end of described ratchet in opposite directions, when the rear end face end of when described ratchet plate puts on described ratchet with the load of gyratory directions, supporting described ratchet;

Described bearing-surface constitutes by the 1st inclined plane that tilts towards the direction identical with described inclined cam surface with towards the 2nd inclined plane that the direction opposite with described inclined cam surface tilts,

Be provided with the 1st teat that can contact and the 2nd teat that can contact with described the 2nd inclined plane with described the 1st inclined plane in the rear end face end of described ratchet.

5. tilting gearing according to claim 4, it is characterized in that: select the shape of inclined cam surface of described cam and the shape on the 1st inclined plane, make that the gap of the 1st teat of the 1st inclined plane of described cam and described ratchet is unified in the front and back of the position of engagement of the internal tooth of the external tooth of described ratchet and described ratchet plate.

6. tilting gearing according to claim 1, it is characterized in that: when the external tooth that makes described ratchet when the internal tooth of described ratchet plate makes described cam turn round with breaking away from, the ratchet confined planes of described ratchet that is recovered to the centre of gyration side of described cam is contacted with the cam confined planes of described cam, forbids that described cam further turns round.

7. tilting gearing according to claim 1 is characterized in that: the outer peripheral face at described operating axis is provided with the 1st ' plane parallel with the rotary middle spindle of described operating axis;

Be provided with through hole at described cam, have at this through hole and insert described operating axis with gap, and form 1st plane parallel with the rotary middle spindle of described cam at inner peripheral surface;

At the inner peripheral surface of the through hole of described cam and have between the outer peripheral face of the described operating axis that inserts in described through hole with gap and dispose elastic force generation member, this elastic force generation member is crimped on the inner peripheral surface of described through hole and the outer peripheral face of described operating axis, makes the 1st plane of through hole of described cam and the 1st ' plane contact of described operating axis.

8. tilting gearing according to claim 7 is characterized in that: described elastic force generation member is made of maintaining part and elastic force generating unit;

This maintaining part be installed on described operating axis outer peripheral face, with the inner peripheral surface part in opposite directions of the through hole of described cam beyond the position;

This elastic force generating unit is connected with in this maintaining part, is crimped on the inner peripheral surface of through hole of described cam and the outer peripheral face of described operating axis.

9. tilting gearing according to claim 8 is characterized in that: the cross sectional shape of the through hole of described cam for be formed with at inner peripheral surface described the 1st plane and with the ellipse on the 1st parallel plane the 2nd plane,

The cross sectional shape of described operating axis for be formed with at outer peripheral face described the 1st ' plane and with the ellipse on the 1st ' parallel plane the 2nd ' plane;

In addition, form along the 1st groove of the rotary middle spindle of described cam, form along the 2nd groove of the rotary middle spindle of described cam on described the 2nd plane on described the 1st plane of described cam;

In addition, the maintaining part of described elastic force generation member by base portion, the 1st pressure contact portion, and the 2nd pressure contact portion constitute;

The 1st ' plane of this base portion and described operating axis and the 2nd ' interplanar side face in opposite directions; The 1st pressure contact portion is connected with in a side's of this base portion end, is crimped on the 1st ' plane of described operating axis; The 2nd pressure contact portion is connected with in the opposing party's of described base portion end, is crimped on the 2nd ' plane of described operating axis;

In addition, be provided with the 1st direction protrusion portion at described the 1st pressure contact portion, the 1st direction protrusion portion inserts described the 1st groove, has the shape that the width in described the 1st well width direction is narrowed down gradually towards front end;

Be provided with the 2nd direction protrusion portion and elastic portion at described the 2nd pressure contact portion; The 2nd direction protrusion portion inserts described the 2nd groove under the state on the 2nd ' plane that is crimped on described operating axis, have the shape that the width in described the 2nd well width direction is narrowed down gradually towards front end; This elastic portion is inserted described the 2nd groove, is crimped on the bottom surface of described the 2nd groove, with the co-operating of described the 2nd direction protrusion portion, makes the 1st plane of through hole of described cam and the 1st ' plane contact of described operating axis.

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