CN110446625A - Locking device - Google Patents

Abstract

A kind of locking device is provided, smooth movement is able to achieve, is in addition able to achieve and gives passenger's cup holder of advanced impression.Locking device includes locking component (60), from the first planar portions (65) and makes second component (20) to using position (Y₂) deceleration slowed down of at least part during movement tilts facial (66) and formed；It releases component (25), is formed in non-use position (Y₁) abutting part (31) that is abutted with the first planar portions (65)；Torque spring (68) loads on the direction that locking component (60) is rotated centered on second component (20) mobile direction towards the direction that inclination face (66) and abutting part (31) separates of slowing down；It is unlocked by releasing component (65) decline, after inclination facial (66) of slowing down while locking component (60) is resisted torque spring (68) and rotated is slided with abutting part (31), abutting part (31) is by by groove portion (61), and second component (20) is to non-use position (Y₂) mobile.

Description

Locking device

Technical field

The present invention relates to a kind of locking device (Locking that moving body is locked or unlocked in specific position Apparatus)。

Background technique

In the past, locking device was for example for cup holder possessed by the console of automobile (Console) (Cup Holder) etc. In.Cup holder documented by following patent documents 1 is following composition: the limitation body of circular saucer (Cup Tray) and annular shape It is connected via rack-and-pinion (Rack-Pinion).Cup holder in the state of not using, store and lock by saucer and limitation body It is scheduled on the inside of console.When passenger's pressing operation button unlocks, by self weight, saucer limits body while decline Rise, becomes the state that can accommodate the container of beverage etc..The movement of saucer decline passes through aerodynamic retarder (Air Damper) And it is buffered.On the other hand, when limitation body is depressed, saucer is pressed, back to original state.

Existing technical literature

Patent document

Patent document 1:JP special open 2013-107456 bulletin.

Summary of the invention

Problems to be solved by the invention

But above-mentioned cup holder saucer while unlocking declines, and due to jerking, exists and gives passenger The case where rudimentary impression.In addition, needing aerodynamic retarder, therefore increase component count to buffer the movement of saucer decline Amount, in addition, it is desirable to ensure the allocation position of aerodynamic retarder.

The present invention is in view of such actual situation to propose.That is, its purpose is to provide a kind of locking device, it can It realizes smooth movement, gives passenger's cup holder of advanced impression in addition, can be realized.

The means used to solve the problem

To achieve the above object, locking device of the invention, comprising: configure the movement in first position or the second position Body；The locking component that the moving body is locked in the first position；It is characterized in that the locking component has reduction part, it should Reduction part makes the moving body slow down at least part of the second position during mobile, by unlocking, institute Moving body is stated to slow down by the reduction part and move to the second position.

Locking device of the invention is characterized in that the moving body has abutting part, and the abutting part is in the first position It is abutted against with the locking component, the moving body or the locking component have the first loaded members, first loaded members On the direction that the direction mobile with the moving body intersects, the direction left towards the reduction part with the abutment portion adds It carries, by unlocking, the moving body is moved with the locking component towards the direction for resisting first loaded members is opposite It is dynamic, and the reduction part and abutting part resistance first loaded members and slided, the moving body is towards institute It is mobile to state the second position.

Locking device of the invention is characterized in that the moving body is included in the first position and the locking component The first abutting part abutted against；In first abutting part compared to the first position far from the position of the locking component Set the second abutting part to be formed；The moving body or the locking component have the first loaded members, which exists On the direction that mobile direction intersects with the moving body, supported towards the reduction part and first abutting part and described second The direction load that socket part separates, by unlocking, the moving body and the locking component add towards resisting described first The direction of mount components relatively moves, and the reduction part is resisted first loaded members with first abutting part and slided Later, the reduction part and second abutting part are resisted first loaded members and are slided, the moving body towards The second position is mobile.

Locking device of the invention is characterized in that the reduction part of the locking component is inclination face, the locking Component has the planar portions being respectively formed in the two sides of inclination face and by groove portion, passes through the abutting part and the plane Portion abuts against, and the moving body is locked in the first position, by unlocking, while the locking component is mobile, The inclination face is mobile towards the abutting part, and after being slided with the abutting part, the abutting part passes through described logical Groove portion is crossed, the moving body is mobile towards the second position.

Locking device of the invention is characterized in that the reduction part is the friction member for generating resistance to sliding.

Locking device of the invention is characterized in that the moving body has the seat surface portion of carrying content, the locking structure Part is formed as circular, and the moving body passes through the locking component, has supporter, locks described in the support body supports Component, and the moving body is support in a manner of it can move, by unlocking, the locking component is circumferentially Direction rotates, and the moving body is mobile towards the second position by the locking component.

Locking device of the invention is characterized in thering is the second loaded members, second loaded members are to the moving body It is loaded towards the second position.

The effect of invention

Locking device of the invention is to constitute as described above.That is, moving body is slowed down by reduction part, therefore moving body It is slowly moving.Thus it is possible to realize smooth movement, it can be realized and give passenger's cup holder of advanced impression.In addition, due to The component of the movement of buffering moving body is not needed, therefore can be realized compact composition.

Locking device of the invention, moving body have the abutting part abutted against in first position and locking component, moving body Or locking component has the first loaded members, first loaded members on the direction that the direction mobile with moving body intersects, to The direction left of reduction part and abutment portion load, by unlocking, moving body and locking component towards resistance first plus The directions of mount components relatively moves, and reduction part and abutting part the first loaded members of resistance and slided, moving body towards The second position is mobile.That is, on the basis of the development of resistance caused by the sliding of reduction part and abutting part acts on, the first loaded members Reaction force acts in locking component, so that moving body slows down and slowly moving.Thus it is possible to realize smooth movement.

Locking device of the invention, moving body include the first abutting part abutted against in first position and locking component；In The second abutting part that the position of separate locking component is formed compared to the first abutting part of first position；Moving body or locking structure Part has the first loaded members, and first loaded members are on the direction that the direction mobile with moving body intersects, towards reduction part The direction left with the first abutting part and the second abutment portion loads, and by unlocking, moving body and locking component are towards supporting The direction relative movement of anti-first loaded members, and reduction part and the first abutting part resist the first loaded members and slide it Afterwards, reduction part is resisted the first loaded members with the second abutting part and is slided, and moving body is mobile to the second position.That is, subtracting The reaction force acts of resistance caused by the sliding of fast portion and the first abutting part and the first loaded members are caused by locking component On the basis of resistance, resistance caused by sliding of the reduction part with the second abutting part also plays a role, so that moving body further subtracts It is fast and slowly moving.So can be realized smooth movement.

Locking device according to the present invention, the reduction part of locking component are inclination faces, and locking component has in the inclination The planar portions and pass through groove portion that the two sides of face are respectively formed, are abutted against, moving body is at first by abutting part and planar portions Set locked, by unlocking, while locking component is mobile, inclination face is mobile towards abutting part, carries out with abutting part After sliding, abutting part is by the way that by groove portion, moving body is mobile towards the second position.That is, moving body is by abutting part along inclining Inclined plane part slowly slides, to be decelerated and slowly moving.Thus it is possible to realize smooth movement.

Locking device according to the present invention, reduction part are the friction members for generating resistance to sliding.That is, passing through reduction part and supporting Frictional resistance caused by the sliding of socket part, moving body slow down and it is slowly moving.Thus it is possible to realize smooth movement.

Locking device according to the present invention, moving body have the seat surface portion of carrying content, and locking component is formed as annulus Shape, and moving body passes through locking component, has a supporter, the support body supports locking component, and by moving body with can Mobile mode supports, and by unlocking, while locking component circumferentially rotates, moving body passes through locking structure Part and it is mobile to the second position.That is, can be realized compact composition since locking component is passed through by moving body.In addition, energy It is enough that content is carried in seat surface portion.

Locking device of the invention has the second loaded members loaded to moving body towards the second position.Pass through the structure At certain mobile to the second position of moving body can be made.

Detailed description of the invention

Fig. 1 is outer before showing the movement of the state of the cup holder of the locking device with embodiments of the present invention before movement See perspective view.

Fig. 2 is outer after showing the movement of the state of the cup holder of the locking device with embodiments of the present invention after movement See perspective view.

Fig. 3 is the exploded perspective view with the cup holder of locking device of embodiments of the present invention.

Fig. 4 is the exploded perspective view with the cup holder of locking device of embodiments of the present invention.

Fig. 5 shows the supporter of the cup holder of the locking device with embodiments of the present invention, and (a) is seen in the top Top view is (b) the A-A side view cutaway drawing seen in the side.

Fig. 6 is the perspective view for showing the locking component of locking device of embodiments of the present invention.

Fig. 7 is the perspective view for showing a component of locking device for embodiments of the present invention.

Fig. 8 is the stereoscopic figure with the cup holder of locking device of embodiments of the present invention.

Fig. 9 shows state of the cup holder of the locking device with embodiments of the present invention before movement, and (a) is internal Perspective view (b) is B-B partial sectional view in (c), is (c) birds-eye perspective.

Figure 10 shows state of the cup holder of the locking device with embodiments of the present invention in movement, and (a) is internal Perspective view, (b) be C-C partial sectional view in (c), be (c) birds-eye perspective.

Figure 11 shows state of the cup holder of the locking device with embodiments of the present invention after movement, and (a) is internal Perspective view, (b) be D-D partial sectional view in (c), be (c) birds-eye perspective.

Figure 12 shows state of the cup holder of the locking device with embodiments of the present invention before movement, and (a) is to overlook Scheme, is (b) the E-E side view cutaway drawing of (a).

Figure 13 shows state of the cup holder of the locking device with embodiments of the present invention before movement, and (a) is side view Scheme, is (b) the F-F overhead sectional view of (a).

Figure 14 shows state of the cup holder of the locking device with embodiments of the present invention in movement, and (a) is to overlook Scheme, is (b) the G-G side view cutaway drawing of (a).

Figure 15 shows state of the cup holder of the locking device with embodiments of the present invention in movement, and (a) is side view Scheme, is (b) the H-H overhead sectional view of (a).

Figure 16 shows state of the cup holder of the locking device with embodiments of the present invention after movement, and (a) is to overlook Scheme, is (b) the I-I side view cutaway drawing of (a).

Figure 17 shows state of the cup holder of the locking device with embodiments of the present invention after movement, and (a) is side view Scheme, is (b) the J-J overhead sectional view of (a).

Figure 18 shows the variation and action state of the locking device of embodiments of the present invention, and (a) is locked out device A part perspective view, (b) be show movement before state broken section skeleton diagram, (c), (d) be show movement in shape The broken section skeleton diagram of state.

Specific embodiment

The locking device of embodiments of the present invention is that the moving body that will be moved locks or release lock in specific position Fixed device is used in various mechanisms.As the present embodiment of one example, locking device is, for example, to assemble Composition in the case where on the cup holder possessed by the console of automobile (illustration omitted).Hereinafter, with reference to the accompanying drawings, to the present invention The locking device of embodiment be illustrated together with cup holder.

Fig. 1 and Fig. 2 shows the cup holders 1 for being assembled with locking device to be mounted to the state on console 2, Fig. 1 is 1 quilt of cup holder State before use, Fig. 2 are the states that cup holder 1 is used.Fig. 3 shows the composition structure for being assembled with the cup holder 1 of locking device The appearance of part.Fig. 4 is to decompose cup holder 1 and show.

As shown in Figures 1 and 2 like that, cup holder 1 is the first component 10 of mutual OQ t and as the second of moving body Component 20 is supported on supporter 40, and each component 10,20 can be moved towards direction close to each other or separate direction Composition.As shown in Figure 1, for cup holder 1 in the case where not using, each component 10,20 is same flat with the surface of console 2 Flat configuration on face, and it is incorporated in the inside of console 2.On the other hand, as shown in Figure 2, situation in use Under, first component 10 is prominent from the surface of console 2, and second component 20 is pulled into the inside of console 2.In addition, In In the following description, on the moving direction of each component 10,20, using the direction of rising as top, using the direction of decline as Lower section, using the direction vertical with up and down direction as side.In addition, the position of each component 10,20 in the state of not using is Non-use position (the appended drawing reference Y of (b) in 2 referring to Fig.1 as first position₁), in use in the state of each component 10,20 position is to use position Y as the second position₂(the appended drawing reference Y of (b) in 6 referring to Fig.1₂)。

As shown in Figures 3 and 4 like that, cup holder 1 includes: first component 10 and second component 20；By each component 10,20 with Non-use position Y₁With use position Y₂Between the supporter 40 that supports of the mode that can move；It is propped up together with second component 20 Support is on the supporter 40 and by second component 20 in non-use position Y₁The locking component 60 of locking；Make first component 10 and The linkage component 70 of two components 20 linkage.

Here, illustrating supporter 40 according to Fig. 4 and Fig. 5.Fig. 5 shows plane and the section of supporter 40.

40 > of < supporter

As shown in Figures 4 and 5 like that, supporter 40 includes: the lower canister portion 41 for being formed as cylindric；With the lower canister portion 41 The circular supporter bottom 44 that the periphery of upper end is connected and extends towards side；In the upper surface of the supporter bottom 44 It is formed and canister portion 47 on canister portion 45 and inside on the cylindric outside that is configured on concentric circles.Supporter bottom 44 be formed with from Upper surface card-stopping bar portion 48 outstanding upwards.

Lower canister portion 41 is formed with stop portion 42 on the inside of the periphery of upper end.The stop portion 42 is prominent towards inside and is formed For ring-type.The receiving hole 43 of inside as lower canister portion 41 is up and down.Circumference of the canister portion 45 from supporter bottom 44 on outside Edge is erected towards top, and is formed with the multiple mounting portions 46 stretched out from the circumferential edges of upper end towards side.Mounting portion 46 Central axis relative to supporter 40 is spaced from each other about 90 degree of interval and configures on four direction.The formation of canister portion 47 on inside For diameter is smaller than canister portion 45 on outside and the inside of configuration upper canister portion 45 on the outside, and it is bigger than lower canister portion 41 to be formed as diameter.

Supporter bottom 44 is formed with linkage component receiving portion 49 in lower surface, in the side of lower canister portion 41.The linkage structure Part receiving portion 49 is a pair, and the central axis relative to supporter 40 is spaced from each other the about interval of 180 degree and configures.In addition, linkage Component receiving portion 49 is prominent towards lower section, is formed with linkage portion support portion 50 and rack gear receiving hole 52 in inside.Linkage portion support Portion 50 is formed with the linkage portion supported hole 51 penetrated through on the direction vertical with up and down direction.Rack gear receiving hole 52 is by supporter bottom Portion 44 is up and down.Rack gear receiving hole 52 includes: that the outside configured between canister portion 45 on canister portion 47 and outside on inside accommodates Hole 53；The inside receiving hole 54 configured between canister portion 47 and lower canister portion 41 on inside.

Then, first component 10 and second component 20 are illustrated according to Fig. 3 and Fig. 4.

10 > of < first component

As shown in Figures 3 and 4 like that, first component 10 includes first component main part 11 and content support portion 15. First component main part 11 includes: to be formed as disk-shaped first component bottom 12；From the periphery of the first component bottom 12 to Top erect first rack gear 13a, 13b.First component bottom 12 is formed with the through hole that second component 20 passes through in center 14.First rack gear 13a, 13b is a pair, and the central axis relative to supporter 40 is spaced from each other the about interval of 180 degree and configures.The One rack gear 13a, 13b is faced each other and is set, and is formed in opposed facing side with teeth.Content support portion 15 is formed as cylinder Shape is connected with the upper end of first rack gear 13a, 13b.Content support portion 15 is the content such as the container for accommodating beverage The size of (illustration omitted) is supported the side of container.

20 > of < second component

As shown in Figures 3 and 4 like that, second component 20 includes second component main part 21 and second component driving portion 33.Second component main part 21 includes: seat surface portion 22, is formed as disk-shaped；Operation portion 23, in the center in the seat surface portion 22 It is formed；Release component 25, be formed as cylindric, via operation with helical spring 24 (referring to Fig.1 2) and under operation portion 23 Surface is connected；Second rack gear 32a, 32b extends from the periphery in seat surface portion 22 towards lower section.On the other hand, second component drives Dynamic portion 33 includes: the driving helical spring 34 as the second loaded members, releases component 25 therethrough；Cylindric or cylinder The second component bottom 35 of shape is mounted on the lower end of the driving helical spring 34, and the lower end phase with releasing component 25 Connection.

It releases component 25 and is formed with locking protruding portion 27 in the side of the cylinder extended up and down or the column sections 26 of cylindrical shape And abut protruding portion 29.Engaging protruding portion 27 is a pair, and the central axis relative to column sections 26 is spaced from each other between about 180 degree Every and configure.Protruding portion 27 is engaged in the side of column sections 26, it is for extend up and down rodlike and prominent towards side, in one portion Divide and forms fastener 28.Fastener 28 is notch.Abutting protruding portion 29 is a pair, central axis relative to column sections 26 mutually every It opens the about interval of 180 degree and configures.Protruding portion 29 is abutted in the side of column sections 26, for extend up and down rodlike and towards side It is prominent, gap 30 is formed in part of it and is disconnected up and down.The lower end surface of abutting protruding portion 29 at gap 30, which is formed, to abut Portion 31.Locking protruding portion 27 and abut protruding portion 29 relative to the central axis of column sections 26 be spaced from each other about 90 degree interval and Configuration.In addition, fastener 28 and the configuration of abutting part 31 are in position almost the same up and down.Each protruding portion 27,29 is relative to pillar The central axis in portion 26 is spaced from each other about 90 degree of interval and mutually staggers configuration in a circumferential direction.

Second rack gear 32a, 32b is a pair, and the central axis relative to supporter 40 is spaced from each other the about interval of 180 degree and matches It sets.Second rack gear 32a, 32b is faced each other and is set, with formed on the side of opposed facing side opposite side it is with teeth.Seat surface Portion 22 is the size of support container.

Then, locking component 60 is illustrated according to Fig. 6.Fig. 6 shows the appearance of locking component 60.

60 > of < locking component

As shown in Figure 6, locking component 60 is annulus, is formed in inner peripheral surface a pair of by groove portion 61 and a pair of of locking Groove portion 62 is formed with multiple protrusions 63 in outer peripheral surface, is formed with locking teat 64 in upper surface.It is a pair by groove portion 61, Central axis relative to locking component 60 is spaced from each other the about interval of 180 degree and is formed.On the other hand, locking groove portion 62 is also one Right, the central axis relative to locking component 60 is spaced from each other the about interval of 180 degree and is formed.Each groove portion 61,62 is relative to locking The central axis of component 60 is spaced from each other about 90 degree of interval, mutually staggers configuration in a circumferential direction.Locking component 60 is in upper table On face, by being formed between groove portion 61 and locking groove portion 62 as the first planar portions 65 of planar portions and the second planar portions 69.In other words, each planar portions 65,69 are prominent towards the center of locking component 60 between each groove portion 61,62.

The deceleration inclination face 66 as reduction part is formed on the boundary with the first planar portions 65 by groove portion 61.Slow down Inclination face 66 is by groove portion 61, gradually prominent towards circumferencial direction with from the upper surface of locking component 60 towards lower surface It tilts out.In other words, in a circumferential direction, planar portions 65 are respectively formed in the two sides for the inclination face 66 that slows down and pass through slot Portion 61.In addition, the component that inclination face 66 is the frictional force with resistance to sliding as defined in generation that slows down.

Groove portion 62 is engaged on the boundary with the second planar portions 69, is formed with locking inclination face 67.Locking inclination face 67 It is gradually prominent towards circumferencial direction and tilt with from the upper surface of locking component 60 towards lower surface in locking groove portion 62.It changes For it be respectively formed the second planar portions 69 and locking groove portion 62 in the two sides of locking inclination face 67 in a circumferential direction.

Protrusion 63 is prominent towards side, the central axis relative to locking component 60 be spaced from each other about 120 degree of interval and It is formed in three positions.While locking teat 64 is prominent towards top, upper end is bent towards circumferencial direction.Locking teat 64 connects Then as the torque spring of the first loaded members (Torsion spring) 68.

Then, linkage component 70 is illustrated according to Fig. 7.Fig. 7 shows the appearance of linkage component 70.

70 > of < linkage component

As shown in Figure 7, linkage component 70 includes: that the multiple connections for linking first component 10 and second component 20 pass Pass component 71a, 71b；The displacement transfer component 72 linked between transmission member 71a, 71b will be linked.Connection transmission member 71a, 71b is, for example, gear, has been formed centrally within hole.Via the displacement transfer component 72 across the hole of gear 71a, 71b by gear Link between 71a, 71b and constitutes linkage component 70.In addition, gear 71a, 71b also can have rotary type damper.

Displacement transfer component 72 is, for example, close circle helical spring or torsion coil spring etc., is freely deformed in non-linear shape.Here, It is not straight line that so-called non-linear shape, which refers to,.That is, 72 free bend of displacement transfer component or warpage.Displacement transfer component 72 passes through gear 71a, 71b are rotated and are compressed.If being described in detail by taking close circle helical spring as an example, close circle helical spring gear 71a towards In the case that the direction of arrow L rotates, wound towards the direction of compression.As a result, when gear 71a rotates, close circle helical spring One end 73 towards arrow L direction reverse.Close circle helical spring is rigidly got higher while compression, and the other end 74 is followed Person's one end 73 and towards the direction of arrow R reverse.At the same time, the direction of gear 71b towards arrow R rotate.In addition, the work Even it is also the same to reverse coil spring used in displacement transfer component 72.

As described above, each component 10,20,40,60,70 is constituted.Then, illustrated according to Fig. 4, Fig. 6, Fig. 7 and Fig. 8 The assembling sequence of each component 10,20,40,60,70.Fig. 8 shows the appearance of cup holder 1.

In Fig. 4 and Fig. 8, linkage component 70 is contained in the linkage component receiving portion 49 of supporter 40.Specifically, it links Gear 71a, 71b of component 70 are contained in the linkage portion supported hole 51 of linkage component receiving portion 49, the deformation of linkage component 70 Transmission member 72 is bent and is configured with surrounding the state of 41 half cycle of lower canister portion of supporter 40 in the periphery of lower canister portion 41.

In Fig. 4 and Fig. 6, locking component 60 is installed on the second component main part 21 of second component 20.Specifically, it locks Determine component 60 to extend through on the releasing component 25 of second component main part 21, the locking inclination face 67 of locking component 60 is locked to The fastener 28 of the locking protruding portion 27 of component 25 is released, the abutting part 31 for releasing the abutting protruding portion 29 of component 25 is connected to lock Determine the first planar portions 65 of component 60.

In this state, in Fig. 4, second component main part 21 and second component driving portion 33 from being installed to support up and down On body 40.Specifically, component 25 is released from the receiving hole 43 that top extends through supporter 40, also, locking component 60 Protrusion 63 is configured at the stop portion 42 of supporter 40, and the front end of second rack gear 32a, 32b of second component main part 21 is passed through Through in the inside receiving hole 54 of linkage component receiving portion 49.Locking component 60 can circumferentially revolve in stop portion 42 Turn.Second rack gear 32a, 32b is meshed with gear 71a, 71b.The card of the supporter bottom 44 of torque spring 68 and supporter 40 Only stick portion 48 is connected.Further, second component driving portion 33 is extended through from below in receiving hole 43, in driving helical spring 34 with abutted against under stop portion 42 in the state of compressing, second component bottom 35 is connected with the lower end of releasing component 25.

Then, in Fig. 4 and Fig. 8, content support portion 15 and first component main part 11 from being installed to supporter up and down On 40.Specifically, the front end of first rack gear 13a, 13b of first component main part 11 extends through linkage component appearance from below It receives in the outside receiving hole 53 in portion 49, second component bottom 35 is configured in the through hole 14 of first component bottom 12.First Rack gear 13a, 13b are meshed with gear 71a, 71b.Further, content support portion 15 is inserted from above into the upper canister portion 45 in outside With between canister portion 47, be connected with the upper end of first rack gear 13a, 13b on inside.

In the cup holder 1 constituted as described above, linkage component 70 content support portion 15 inside and release structure The outside configuration (referring to Fig.1 2 in (b)) of part 25.

In such cup holder 1, the locking device of present embodiment is by releasing component 25, locking component 60, second component Driving portion 33 is realized.In addition, realizing gear by linkage component 70, first rack gear 13a, 13b, second rack gear 32a, 32b Structure.Hereinafter, the effect of linkage mechanism and locking device is illustrated together with the movement of cup holder 1 with reference to the accompanying drawings.Fig. 9 is extremely Figure 11 shows in cup holder 1 second component 20 from non-use position Y₁It is moved to and uses position Y₂When locking device state. Fig. 9 is shown in non-use position Y₁, locking device acted and the locked state of second component 20, and Figure 10 shows locking quilt The state of the midway of releasing, Figure 11 show the state after locking is just released from.

As shown in Figure 9, in non-use position Y₁, the locking inclination face of locking component 60 67 is locked to releasing component The fastener 28 of 25 locking protruding portion 27, the abutting part 31 for releasing the abutting protruding portion 29 of component 25 are connected to locking component 60 The first planar portions 65.Second component 20 is by the driving helical spring 34 of compression towards using position Y₂And added downwards It carries.At this point, torque spring 68 is the state for not applying external force.In addition, as the side to intersect with the central axis for releasing component 25 To, the circular direction centered on the central axis to release component 25, i.e., on the circumferencial direction of locking component 60, torque spring 68 towards slow down tilt facial 66 directions separate with abutting part 31 be loaded it is also possible.That is, in (c) of Fig. 9, locking Component 60 can also be loaded towards anticlockwise direction.

In this state, when resist operation with helical spring 24 (referring to Fig.1 2) and when towards lower section press operating part 23, Locking is released from, and as shown in Figure 10, while releasing the decline of component 25, locking component 60 circumferentially rotates. Specifically, locking component 60 is pressed downwards locking inclination face 67 and using fastener 28 for releasing component 25, To resist torque spring 68 and circumferentially rotate.When locking component 60 rotates, the first planar portions 65 are relative to supporting Socket part 31 and slided, locking component 60 further persistently rotates, and the inclination face that slows down 66 is slided relative to abutting part 31 It is dynamic.

Inclination face 66 slowing down relative to abutting part 31 and after sliding, as shown in Figure 11, is passing through driving spiral shell The effect of the restoring force of spring 34 is revolved, second component bottom 35 is pressed downwards, and 31 one side of abutting part is along deceleration inclined surface Portion 66 is slowly slided, and has passed through groove portion 61 on one side.Meanwhile releasing component 25 and being declined by locking component 60, the second structure Part 20 is to using position Y₂It is mobile.

As described above, the restoring force of the torque spring 68 when circumferentially rotating of locking component 60, which plays, makees With further, frictional force caused by sliding of the inclination face 66 with abutting part 31 of slowing down plays a role, therefore locking component 60 exists Second component 20 is moved to using position Y₂During a part in, from locking will be released from before until locking just Slow down after being released from.

Then, illustrate linkage mechanism with reference to the accompanying drawings.Figure 12 to Figure 18 shows in cup holder 1 second component 20 from not using Position Y₁It is moved to and uses position Y₂When linkage mechanism state.Figure 12 and Figure 13 is shown in non-use position Y₁Gear Structure acted before state, Figure 14 and Figure 15 show the state for the midway that linkage mechanism is acted, and Figure 16 and Figure 17 show State after linkage mechanism movement out.

As shown in FIG. 12 and 13 like that, in non-use position Y₁, first component 10 and second component 20 are separate up and down Direction on configure.That is, the configuration of first component 10 is in bottom, the configuration of second component 20 is topmost.In addition, the second rack gear 32a, 32b face the inner peripheral surface of content support portion 15 and configure.In this state, such as Figure 14 and as shown in Figure 15, when When resistance operation is pressed downwards operation portion 23 with helical spring 24, the locking of locking device is released from, via linkage structure Part 70, each component 10, about 20 relatively move.Specifically, second component 20 decline when, by the second rack gear 32a, 32b decline, each gear 71a, 71b are rotated towards the direction that the second rack gear 32a32b declines (in (b) middle gear 71a of Figure 14 Rotated towards arrow R, gear 71b is rotated towards arrow L) while, displacement transfer component 72 is also rotated towards identical direction. In other words, each gear 71a, 71b link via displacement transfer component 72.It is rotated by each gear 71a, 71b, is such as schemed 16 and as shown in Figure 17, first component 10 and first rack gear 13a, 13b rise together.

Relatively moved by each component 10, about 20 as described above, the rising of content support portion 15 and from console 2 Surface it is prominent while, seat surface portion 22 is pulled into the inside of console 2, and each component 10,20 is towards using position Y₂It is mobile. In this state, first rack gear 13a, 13b faces the outer peripheral surface in seat surface portion 22 and configures.

Using position Y₂Cup holder 1 again return to non-use position Y₁In the case where, by by content support portion 15 are pressed into downwards, thus each component 10,20 via linkage component 70 and with each mono- lifting of rack gear 13a, 13b, 32a, 32b. At this point, in Figure 16 and Figure 17, depressed position X₁、X₂Simultaneously be pressed and by content support portion 15 be pressed into the case where, first While the nearly horizontal decline of component 10, second component 20 rises.On the other hand, such as depressed position X is only being pressed₁And hold In the case that object support portion 15 of receiving is pressed into, although first component 10 be the first rack gear 13a than the first rack gear 13b slightly first under Drop, but the first rack gear 13b instantaneously follows and also declines.Specifically, decline along with the first rack gear 13a, gear 71a is towards arrow The direction of head L rotates, so that the one end 73 of displacement transfer component 72 is reversed towards the direction of arrow L.Displacement transfer component 72 Compression while rigidly improve, 74 follower's one end 73 of the other end and towards the direction of arrow R reverse, meanwhile, gear The direction of 71b towards arrow R rotate.The nearly horizontal decline of first component 10, while second component 20 rises, each component 10, 20 return to non-use position Y₁.In addition, this acts on only pressing depressed position X₂And the case where being pressed into content support portion 15 It is lower also the same.

As described above, linkage mechanism and locking device act together with cup holder 1.

Then, it is illustrated for the effect of the locking device of present embodiment.

As described above, according to locking device, as shown in Figure 6, locking component 60 is annulus, is formed in inner peripheral surface Have a pair of by groove portion 61 and a pair of of locking groove portion 62.Deceleration is formed on the boundary with the first planar portions 65 by groove portion 61 to incline Inclined plane part 66.In addition, locking component 60 is formed with locking teat 64 in upper surface, and is connected with torque spring 68.Another party Face, as shown in Figure 4, the releasing component 25 of second component 20 is formed in the side of column sections 26 abuts protruding portion 29.It supports It is rodlike and towards side protrusion, at gap 30 the lower end surface shape extended up and down that protruding portion 29, which is connect, in the side of column sections 26 At abutting part 31.

As shown in Figure 9, locking component 60, which is worn, releases on component 25, releases abutting part 31 and the locking of component 25 First planar portions 65 of component 60 abut against.By this composition, when releasing the decline of component 25, as shown in FIG. 9 and 10 like that, Locking component 60 is resisted torque spring 68 and is circumferentially rotated.When locking component 60 rotates, 65 phase of the first planar portions Abutting part 31 is slided, locking component 60 further persistently rotation and slow down inclination face 66 relative to abutting part 31 into Row sliding.Later, as shown in Figure 11, pass through the driving effect of the restoring force of helical spring 34, second component bottom 35 It is pressed downwards, abutting part 31 has passed through groove portion 61 while slowly sliding along the inclination face 66 that slows down.Meanwhile It releases component 25 to decline by locking component 60, second component 20 is to using position Y₂It is mobile.

That is, locking component 60 is when circumferentially rotating, the restoring force of torque spring 68 plays a role, into one Step, frictional force caused by sliding of the inclination face 66 with abutting part 31 of slowing down plays a role, so that locking component 60 is in the second structure Part 20 is towards using position Y₂In a part of mobile process, up to locking has just been solved before it will be released from from locking Except slowing down later.

Thus it is possible to realize smooth movement, the cup holder 1 that advanced impression can be given to passenger can be realized.In addition, by In not needing such as using buffering the movement of second component 20 aerodynamic retarder, therefore it can be realized compact composition.

Especially as shown in Figure 6, slow down inclination face 66 by groove portion 61, along with from locking component 60 Upper surface is gradually tilted towards circumferencial direction protrusion towards lower surface.Therefore, as shown in Figures 9 to 11 like that, second component 20 66 are slowly slided by abutting part 31 along the inclination face that slows down, to be decelerated and slowly moving.Thus it is possible to realize Smooth movement.

According to locking device, the inclination face 66 that slows down is the component of the frictional force with resistance to sliding as defined in generation.That is, By the frictional resistance caused by sliding of the inclination face 66 with abutting part 31 that slows down, second component 20 is decelerated and slowly moves It is dynamic.Thus it is possible to realize smooth movement.

According to locking device, as shown in Figure 4, there is driving spiral shell in the second component driving portion 33 of second component 20 Spring 34 is revolved, such as Figure 12 and as shown in Figure 16, second component 20 is by the driving helical spring 34 of compression, towards using position Set Y₂And it is loaded downwards.Thus it is possible to make second component 20 it is certain towards using position Y₂It is mobile.

In addition, the present invention is also possible to the following embodiments and the accompanying drawings other than above-mentioned present embodiment.

In present embodiment, the inclination face 66 that slows down is the component of the frictional force with resistance to sliding as defined in generation, but It is to be constituted in the present invention as other, is also possible to the structure that abutting part is the frictional force with resistance to sliding as defined in generation Part.

In present embodiment, it is locked out the composition that component 60 is circumferentially rotated relative to second component 20, but It is to be constituted in the present invention as other, is also possible to the composition that second component is rotated relative to locking component.In the structure Cheng Zhong, releasing component has the first loaded members, by the first loaded members, release component towards slow down inclination face with abut The direction that part is left is loaded.

In present embodiment, the first loaded members are torque springs 68, and helical spring is used in the second loaded members and operation It is helical spring 24,34, but is constituted in the present invention as other, as long as can be realized identical effect, can is respectively Helical spring, torque spring, leaf spring etc..

In present embodiment, by the driving helical spring 34 of compression, second component 20 is towards using position Y₂And by It loads downwards, but is constituted in the present invention as other, be also possible to the driving helical spring by elongation, the second structure Part is pulled downwards towards position is used.

In present embodiment, there is driving helical spring 34, but constituted in the present invention as other, be also possible to The composition for declining second component using self weight without driving helical spring.

In present embodiment, the releasing component 25 of second component 20 forms an abutting part 31 in fastener 28, but originally It is used as variation in invention, multiple abutting parts can also be formed.Here, illustrating the locks of embodiments of the present invention with reference to the accompanying drawings Determine the variation of device.Figure 18 show locking device variation and second component 20 it is mobile when locking component 160 State.

As shown in Figure 18, component 125 is being released, abutting protruding portion 129 is formed with lower end towards the circle of column sections 126 Circumferential direction the first abutting part 181 outstanding.In addition, abutting protruding portion 129 compared to the first abutting part 181 and from locking component 160 are formed with protrusion 180 towards the separate position in top.The protrusion 180 is prominent towards circumferencial direction, is formed in lower end surface There is the second abutting part 182.In addition, other compositions are identical as locking component 60, description will be omitted.

According to the locking device, as shown in (b) in Figure 18, the first of the abutting protruding portion 129 of component 125 is released Abutting part 181 is connected to the first planar portions 165 of locking component 160.It unlocks when pressing operation portion 123 downwards When, as shown in (c) in Figure 18, release component 125 decline while, locking component 160 resist torque spring and along Circumferencial direction rotation, planar portions 165 are slided relative to the first abutting part 181, and locking component 160 further persistently rotates, and subtracts Speed inclination face 166 is slided relative to the first abutting part 181.After first abutting part 181 has passed through groove portion 161, such as Shown in (d) in Figure 18 like that, it releases component 125 further to decline, and slows down and tilt face 166 and resist torque spring and phase Second abutting part 182 is slided.

That is, the restoring force of torque spring when circumferentially rotating of locking component 160 plays a role, further, Frictional force caused by sliding of the inclination face 166 with the first abutting part 181 of slowing down plays a role, and further, slow down inclination face Frictional force caused by 166 sliding with the second abutting part 182 plays a role, thus locking component 160 second component 20 towards Use position Y₂In a part of mobile process, carried out after locking has just been released from before will being released from from locking Slow down.Thus it is possible to realize smooth movement.

Alternatively, it is also possible to being composition that second component is rotated relative to locking component.In this composition, component is released The side that component leaves towards the inclination face that slows down with abutment portion is released by the first loaded members with the first loaded members To being loaded.

Then, it is illustrated for the effect of linkage mechanism.

As described above, according to linkage mechanism, as shown in Figure 8, linkage component 70 includes multiple gears 71a, 71b and the displacement transfer component 72 that will link between the gear 71a, 71b, via the change across the hole of gear 71a, 71b Shape transmission member 72 is connected between gear 71a, 71b.Displacement transfer component 72 is close circle helical spring or torsion coil spring etc., Free bend or warpage.So the arrangement of linkage component 70 is free, it being capable of flexible design arrangement.Moreover, can be with few portion Part constitutes linkage component 70.

In addition, as shown in FIG. 16 and 17 like that, using position Y₂, assuming that only pressing depressed position X₁And content In the case that support portion 15 is pressed into, although first component 10 is that the first rack gear 13a is slightly fallen before than the first rack gear 13b, It is that the first rack gear 13b instantaneously follows and also declines.Specifically, decline along with the first rack gear 13a, gear 71a is towards arrow L Direction rotate, thus the one end 73 of displacement transfer component 72 towards arrow L direction reverse.Displacement transfer component 72 is being pressed It is rigidly improved while contracting, the other end 74 follows one end 73 and reverses to the direction of arrow R, meanwhile, gear 71b is towards arrow The direction of head R rotates.The nearly horizontal decline of first component 10 as a result,.That is, via each rack gear 13a, 32a, gear 71a rotation While, displacement transfer component 72 reverses, gear 71b rotation, therefore each gear 71a, 71b almost link simultaneously, each rack gear 13b, 32b also link.Thus it is possible to make first component 10 or the quick and stable lifting of second component 20.

According to linkage mechanism, since displacement transfer component 72 is close circle helical spring or torsion coil spring, free bend or Warpage, therefore can flexibly design the arrangement of linkage component 70.

According to linkage mechanism, such as Figure 12 and as shown in Figure 16, first component 10 has the content for being formed as cylindric Support portion 15, second component 20, which has, is formed as disk-shaped seat surface portion 22.In addition, in non-use position Y₁, the second rack gear The inner peripheral surface of 32a, 32b and content support portion 15 is faced and is configured, and is using position Y₂, first rack gear 13a, 13b, which is configured, to exist The periphery in seat surface portion 22.Inside of the linkage component 70 in content support portion 15 and the outside configuration in releasing component 25.Pass through This composition, by each rack gear 13a, 13b, 32a, 32b, seat surface portion 22 declines while content support portion 15 rises, the first structure Part 10 and second component 20 are towards using position Y₂It is mobile.Thus it is possible to content is carried in seat surface portion 22 and appropriate It is supported in content support portion 15.

In addition, linkage mechanism is also possible to composition below.

Linkage mechanism is the composition of the torsion of displacement transfer component 72 and compression when first component 10 declines, but as it Its example is also possible to the displacement transfer component torsion when second component declines and the composition of compression.Referring to Fig.1 in 2 (b), in this composition, decline along with the second rack gear 32a, gear 71a rotates to the right, thus displacement transfer component 72 also towards Identical direction torsion.Displacement transfer component 72 rigidly improves while compression, the other end follow one end and towards The direction of anticlockwise is reversed, meanwhile, gear 71b is rotated to the left.The nearly horizontal decline of second component 20, while first component 10 Rise, each component 10,20 is configured in using position Y₂.That is, gear 71a rotate while, displacement transfer component 72 torsion and Gear 71b rotation, therefore each gear 71a, 71b almost link simultaneously.

Linkage mechanism is first component 10 and second component 20 towards non-use position Y₁Or use position Y₂Mobile structure At, but as other examples, be also possible to second component fix and only first component rise and to using position mobile Constitute or first component fix and only second component decline and to the composition for using position mobile.In this composition, only One component or second component folk prescription have rack gear.

In linkage mechanism, connection transmission member is made of two gears 71a, 71b, but as other examples, it can also It is constituted with the gear by three or more.In this composition, corresponding to the quantity of gear, first component and second component have Multiple rack gears.

In linkage mechanism, connection transmission member is each gear 71a, 71b, but as other examples, it can also be by even Linkage constitutes connection transmission member.In this composition, via link mechanism, linkage component is connected with second component.

More than, embodiments of the present invention are described in detail, but the present invention is not limited to above embodiment.This hair It is bright without departing from protective scope of the claims, be able to carry out various design alterations.

The explanation of appended drawing reference

1 cup holder

2 consoles

10 first components

11 first component main parts

12 first component bottoms

The first rack gear of 13a, 13b

14 through holes

15 content support portions

20 second components (moving body)

21 second component main parts

22 seat surface portions

23,123 operation portion

Helical spring is used in 24 operations

25,125 component is released

26,126 column sections

27,127 locking protruding portion

28,128 fastener

29,129 protruding portion is abutted

30,130 gap

31 abutting parts

The second rack gear of 32a, 32b

33 second component driving portions

Helical spring (the second loaded members) are used in 34 drivings

35 second component bottoms

40 supporters

41 lower canister portions

42 stop portions

43 receiving holes

44 supporter bottoms

The upper canister portion in 45 outsides

46 mounting portions

The upper canister portion in 47 insides

48 card-stopping bar portions

49 linkage component receiving portions

50 linkage portion support portions

51 linkage portion supported holes

52 rack gear receiving holes

53 outside receiving holes

54 inside receiving holes

60,160 locking component

61,161 pass through groove portion

62 locking groove portions

63 protrusions

64 locking teats

65,165 first planar portions (planar portions)

66,166 decelerations tilt facial (reduction part)

67 locking inclination faces

68 torque springs (the first loaded members)

69 second planar portions

70 linkage components

71a, 71b gear

72 displacement transfer components

73 one ends

74 the other end

180 protrusions

181 first abutting parts

182 second abutting parts

L, R arrow

X₁、X₂Depressed position

Y₁Non-use position (first position)

Y₂It uses position (second position)

Claims (7)

1. a kind of locking device, comprising: configure the moving body in first position or the second position；By the moving body described The locking component of one position locking, which is characterized in that

The locking component has a reduction part, the reduction part make the moving body to the second position it is mobile during extremely Few a part is slowed down,

By unlocking, the moving body is slowed down by the reduction part and is moved to the second position.

2. locking device as described in claim 1, which is characterized in that

The moving body has abutting part, which abuts against in the first position and the locking component,

The moving body or the locking component have the first loaded members, and first loaded members are mobile with the moving body The direction that intersects of direction on, the direction left towards the reduction part and the abutment portion loads,

By unlocking, the moving body is moved with the locking component towards the direction for resisting first loaded members is opposite It is dynamic, and the reduction part and abutting part resistance first loaded members and slided, the moving body is towards institute It is mobile to state the second position.

3. locking device as described in claim 1, which is characterized in that

The moving body includes the first abutting part abutted against in the first position and the locking component；Compared to institute State the second abutting part of first abutting part of first position and the position formation far from the locking component；

The moving body or the locking component have the first loaded members, and first loaded members are mobile with the moving body The direction that intersects of direction on, the direction left towards the reduction part and first abutting part and second abutment portion Load,

By unlocking, the moving body is moved with the locking component towards the direction for resisting first loaded members is opposite It is dynamic, and the reduction part and first abutting part resist first loaded members and after sliding, the reduction part with Second abutting part is resisted first loaded members and is slided, and the moving body is mobile towards the second position.

4. locking device as claimed in claim 1 or 2, which is characterized in that the reduction part of the locking component is inclination Face, the locking component have the planar portions being respectively formed in the two sides of inclination face and pass through groove portion,

It being abutted against by the abutting part and the planar portions, the moving body is locked in the first position,

By unlocking, while the locking component is mobile, the inclination face is moved towards the abutting part, and described After abutting part is slided, for the abutting part by described by groove portion, the moving body is mobile towards the second position.

5. locking device as described in any one of claims 1 to 4, which is characterized in that the reduction part is to generate sliding resistance The friction member of power.

6. such as locking device according to any one of claims 1 to 5, which is characterized in that there is the moving body carrying to accommodate The seat surface portion of object,

The locking component is formed as circular, and the moving body passes through the locking component,

With supporter, locking component described in the support body supports, and the moving body is supported in a manner of it can move ,

By unlocking, the locking component circumferentially rotates, and the moving body passes through the locking component And it is mobile towards the second position.

7. such as locking device according to any one of claims 1 to 6, which is characterized in that there are the second loaded members, this second Loaded members load the moving body towards the second position.