CN102317559B

CN102317559B - Assist mechanism for pivoting body

Info

Publication number: CN102317559B
Application number: CN200980156645.1A
Authority: CN
Inventors: 石井庸介
Original assignee: Nifco Inc
Current assignee: Nifco Inc
Priority date: 2009-02-12
Filing date: 2009-12-24
Publication date: 2014-07-02
Anticipated expiration: 2029-12-24
Also published as: JP5225199B2; KR20110122845A; EP2397632A1; WO2010092734A1; JP2010209673A; EP2397632A4; CN102317559A; KR101254436B1

Abstract

An assist mechanism includes a striker which is provided in a door, and a receiving member provided in a door frame and moving after capturing the striker at a predetermined forward-moving position of the door, to assist a forward movement of the door to a closing position. The striker is supported in a striker base including an attachment portion relative to the door so as to be capable of adjusting a supporting position in a direction approximately along a rotational direction of the door by an adjusting device.

Description

The boosting mechanism of rotor

Technical field

The present invention relates to towards go to journey release position to go the rotor of journey action bringing into play the improvement of the mechanism of function from the predetermined journey operating position that goes to going to go journey action to carry out boosting to it between journey release position (assisting).

Background technology

There is a kind of door closer, the body that engages of closing rotating with the pin card merga pass force application component arranging on door before door just will be closed with boosting door is arranged on to frame side and forms (with reference to patent documentation 1).In contrast, have a kind of door closure device, pin is set and forms at reveal hold-down arm in frame side, the pin card that wherein arm and reveal are installed merges and is rotated with closing of boosting door and formed (with reference to patent documentation 2) by the application of force of spring.

In this mechanism, in above-mentioned reveal or frame side or occur on the two deviation of such as distortion and/or warpage and/or cooperation position etc. afterwards, even door is closed to preposition, also can suitably not catch pin at the engaging position of above-mentioned engaging body and arm, cannot realize the action of the expectation of journey actuating mechanism.And, occurring this type of state of affairs in the situation that, in the mechanism shown in

patent documentation

1 and 2, pin can only be taken off and reinstalls to suitable position from door or doorframe.

Patent documentation 1: JP 2007-177459 communique

Patent documentation 2: JP 2007-120140 communique

Summary of the invention

The subject matter that the present invention will solve is, in this boosting mechanism, can easily and suitably be accepted the position adjustment of the collision body of parts seizure.

For addressing the above problem, in the present invention, a kind of boosting mechanism of rotor, possesses: be arranged on rotor and can support rotationally the collision body on the either party of supporter of this rotor; Be arranged on both another and go journey operating position to move after catching this collision body rotor to the parts of accepting that go journey to move to carry out boosting that go to journey release position in rotor predetermined, it is characterized in that: collision body is supported on collision body pedestal can adjust the mode of Support Position by adjusting member, and this collision body pedestal possesses the installation portion that the either party of rotor and supporter is installed.

To make rotor go journey to move predetermined while removing journey operating position, collision body catches by accepting parts, by the movement of accepting parts after this seizure and by means of collision body, rotor is carried out to boosting to the journey action of going of going to journey release position.But, if not by collision body with accept respectively suitably configuration of parts, can not realize this and go the boosting of journey action.In the case of rotating side or support side or produce on the two deviation etc. of distortion and/or warpage and/or cooperation position afterwards, even if make rotor go the journey action can not be by the action of accepting parts and suitably catching collision body and can not realize the expectation of boosting mechanism.According to said structure, adjusted the Support Position of collision body not produce the mode of reinstalling of collision body pedestal by above-mentioned adjustment member, can correct collision body by generations such as above-mentioned skews with respect to the inappropriate configuration of accepting parts.

If collision body is supported on collision body pedestal can be adjusted at generally along the mode of the Support Position in the direction of the rotation direction of rotor by adjusting member, can produce reinstalling of collision body pedestal and be adjusted at generally along the Support Position of the collision body in the direction of the rotation direction of rotor.In addition, if collision body is supported on collision body pedestal can be adjusted at the mode of the Support Position in the direction crossing with the rotation direction of rotor by adjusting member, can not produce reinstalling of collision body pedestal and be adjusted at the Support Position of the collision body in the direction crossing with the rotation direction of rotor.In addition, if this collision body is supported on collision body pedestal in the mode that at least can adjust generally along the Support Position in the direction of the rotation direction of rotor and can be adjusted at the Support Position in the direction crossing with the rotation direction of rotor by adjusting member, can at least adjusts the Support Position of collision body on both direction.

Above-mentioned adjustment member is adjusted member and is combined by combine the second part on the first part, this first part has collision body and is supported on collision body pedestal in the mode that can move to the direction of the rotation direction generally along rotor, this second part has the auxiliary section that the portion of being engaged to forming on this first part coordinates, and be engaged cooperation position portion and be supported on collision body pedestal to the mode of move operation of the non-cooperation position of removing this cooperation from auxiliary section being coupled to this can carry out, have again, above-mentioned auxiliary section possesses multiple with at least one party who is engaged portion on the moving direction of the first part.

In this case, also possess and overcome the force application component that the second part moves towards non-cooperation position.

In such cases, when the Support Position that need to adjust upward collision body in the side of the rotation direction generally along rotor, in the cooperation of removing the auxiliary section of the second part and the portion that is engaged of the first part, the first part is moved to after collision body is positioned at suitable position, by auxiliary section is coordinated with the portion of being engaged again, thereby can easily carry out above-mentioned adjustment.In addition, if possess above-mentioned force application component, make the second part move operation to non-cooperation position by overcoming this application of force, remove the above-mentioned cooperation that is engaged portion and auxiliary section, and in the time stopping this operation, can utilize the above-mentioned application of force that auxiliary section and the portion of being engaged are coordinated.

Above-mentioned collision body pedestal possesses: the main part that supports collision body, and there is installation portion that the either party of rotor and supporter is installed and under the state of the movement of the direction crossing with the rotation direction of this rotor, be combined to the mounting parts on this main part can carry out main part, have again, adjusting member forms by combine movable part on this mounting parts, this movable part has auxiliary section that the portion of being engaged to forming on this mounting parts installs and is supported on the main part of collision body pedestal to the mode of move operation of the non-cooperation position of removing this cooperation from auxiliary section being coupled to this cooperation position that is engaged portion can carry out, have again, above-mentioned auxiliary section possesses multiple with at least one party who is engaged portion in the direction crossing with the rotation direction of rotor.

In this case, also possess and overcome the force application component that movable part moves towards non-cooperation position.

In such cases, when the Support Position that need to adjust upward collision body in the side crossing with the rotation direction of rotor, in the cooperation of removing the auxiliary section of movable part and the portion that is engaged of mounting parts, main part is moved to after collision body is positioned at suitable position, by auxiliary section is coordinated with the portion of being engaged again, and can easily carry out above-mentioned adjustment.In addition, if possess above-mentioned force application component, make the second part move operation remove the above-mentioned cooperation that is engaged portion and auxiliary section to non-cooperation position by overcoming this application of force, and in the time stopping this operation, can auxiliary section and the portion of being engaged be coordinated by the above-mentioned application of force.

According to the present invention, can not produce collision side demolition carry out adjusting by accepting the position of collision body that parts catch, thereby can easily and suitably carry out this position adjustment.

Accompanying drawing explanation

Fig. 1 is the three-dimensional structure diagram that represents to apply the use state of the boosting mechanism that the present invention forms, from the upper side of beneath door represent.

Fig. 2 is the action of accepting parts of the boosting mechanism for the ease of understanding Fig. 1 and this accepts the structure chart of parts from beneath, represents to accept parts and be positioned at the state of position of readiness.

Fig. 3 is the action of accepting parts of the boosting mechanism for the ease of understanding Fig. 1 and this accepts the structure chart of parts from beneath, represents to accept parts and catches collision body and move to the state that proceeds to position.

Fig. 4 is the three-dimensional structure diagram representing from the parts on the collision side of oblique upside observation formation boosting mechanism.

Fig. 5 is the longitudinal sectional structure chart that forms the parts on the collision side of boosting mechanism.

Fig. 6 is the longitudinal sectional structure chart that forms the parts on the collision side of boosting mechanism, represents the state to non-cooperation position by the second part push operation.

Fig. 7 is the three-dimensional structure diagram representing from the parts on the collision side of oblique downside observation formation boosting mechanism.

Fig. 8 is the three-dimensional structure diagram representing from the parts on the collision side of oblique downside observation formation boosting mechanism, represents the situation that the second part push operation is forwards pulled out from collision body pedestal to non-cooperation position and by the first part.

Fig. 9 observes it from oblique downside under the state taking off in the base bottom of parts that composition is formed to the collision side of boosting mechanism and the three-dimensional structure diagram that represents.

Figure 10 is the exploded perspective structure chart that forms the parts on the collision side of boosting mechanism.

Figure 11 is the three-dimensional composition figure that forms the pedestal top side of the parts on the collision side of boosting mechanism from the further exploded representation of state of Figure 10.

Figure 12 is the three-dimensional structure diagram representing from the part variation of the parts on the collision side of oblique downside observation formation boosting mechanism.

Figure 13 is longitudinal sectional structure chart of the part variation of the parts on collision side, only represents the main part of collision body pedestal.

Figure 14 be make the mounting parts of part variation of the parts that form collision side and main part from state under the three-dimensional structure diagram that represents, represent mounting parts to be installed to the state on rotor.

Figure 15 be make the mounting parts of part variation of the parts that form collision side and main part from state under the three-dimensional structure diagram that represents.

Figure 16 observes from the installation side to rotor the three-dimensional structure diagram that the state midway of the mounting parts of the part variation of the parts on formation collision side and main part combination is represented.

Figure 17 observes to it three-dimensional structure diagram representing from oblique downside under the state that the base bottom of the part variation of the parts on formation collision side is taken off.

Figure 18 is the three-dimensional structure diagram that forms the pedestal top of the part variation of the parts on collision side from the further exploded representation of state of Figure 17.

Figure 19 (a) to (c) represents respectively the situation that the collision body of part variation of the parts that form collision side is supported in reference position and the situation of adjusting to the left from this reference position and the three-dimensional structure diagram of the situation of adjustment to the right.

The specific embodiment

According to Fig. 1～Figure 19 (c), exemplary embodiment of the present invention is described below.Have, Fig. 1～Figure 11 represents the basic structure example of the parts of collision body 4 sides of the boosting mechanism of applying the present invention's formation again, and Figure 12～Figure 19 (c) represents the part variation of the parts of these collision body 4 sides.

The boosting mechanism of the rotor M that this embodiment relates to is from the predetermined journey operating position that goes to the mechanism that goes between journey release position it to go journey action to carry out boosting to bring into play function (assisting) to the rotor M towards going to journey release position to go journey action.

This rotor M be by supporter F support can go journey action and rotate and backhaul action the parts that rotate, typically, although can enumerate door and hinged door etc., but as long as supported can go journey action and rotate by supporter F and backhaul action the parts that rotate it is enough, be not particularly limited.In illustrated example, represent to possess the example of boosting mechanism on door Ma and doorframe Fa.

In illustrated example, as the door Ma of the rotor M interior side's of sealing doorframe Fa in the one side Mb that makes journey when action and become front encounters as the fastening position (going to journey release position) of the door contact site Fb of the doorframe Fa of supporter F peristome Fc.And, as rotor M door Ma in the time that the open position that never seals this peristome Fc goes journey motion action to above-mentioned fastening position, go in the process of journey action at this, what collision body 4 butts that form boosting mechanism formed boosting mechanisms accepts parts 1, and the effect of performance boosting mechanism is until this fastening position.

In illustrated example, this collision body 4 is arranged on the door Ma side as rotor M.Therefore,, in illustrated example, possess the parts of acceptance 1 in the doorframe Fa side as supporter F.Have again, with illustrated example differently, even collision body 4 is arranged on to the doorframe Fa side as supporter F, possess the parts of acceptance 1 in the door Ma side as rotor M, also can carry out boosting to the journey action of going of this rotor M midway from it.

In illustrated example, collision body 4 is positioned to become the front of the one side Mb of front in journey when action of going of door Ma by collision body pedestal 5.More specifically, in illustrated example, this collision body 4 is the upper end side equipment at door Ma in the door hinge Mc of door Ma side.Collision body pedestal 5 has the installation portion 5a that the door Ma as rotor M is installed, and supports collision body 4 at the leading section 5b that is arranged in this installation portion 5a front.This collision body 4 is configured to the axis body of giving prominence to upward from the leading section 5b of this collision body pedestal 5.The upper end of collision body 4 is positioned at substantially identical or than its slightly downward height with the upper end of door Ma, towards the fastening position of door Ma go journey to move time, the parts 1 of accepting that possessed by the frame top at doorframe Fa caught this collision body 4 before door Ma just will close tight.The upper surface of the leading section of this collision body pedestal 5 be positioned at than rotationally storage accept parts 1 aftermentioned main part 2 bottom height on the lower.

On the other hand, accept parts 1 and be configured to, move and rotor M is carried out to boosting to the journey action of going of going to journey release position after journey operating position seizure collision body 4 in predetermined the going of rotor M.

In illustrated example, this accepts parts 1 at position of readiness and proceeds between (returning り Write body) position to be assembled into rotationally in main body 2.This main body 2, as the installation portion that top 2a is installed to the frame top of doorframe Fa, is accepted parts 1 and is supported on rotationally main body 2 with the vertical axis 2b giving prominence to downwards from the top 2a of this main body 2.This is accepted parts 1 and possesses the fan-shaped profile of cardinal principle under the state of looking up, and possesses the axis hole 1a with respect to above-mentioned vertical axis 2b in the major part of this fan shape.In addition, accept parts 1 and be formed with and open wide at the arcuation edge 1b place of above-mentioned fan shape and from this arcuation edge 1b to the recessed seizure recess 1c of axis hole 1a side at this.And, in illustrated example, accept at above-mentioned position of readiness parts 1 seizure recess 1c entrance 1d towards go journey when action door Ma approach side front side, and to make a Ma go journey to move predetermined while removing journey operating position, collision body 4 enters the seizure recess 1c that accepts parts 1 that is arranged in (Fig. 2) this position of readiness (in the time that this goes journey action, be positioned at the recess inwall 1e of the entrance 1d side of the seizure recess 1c in position of readiness, the inwall 1e of the front side in 1f departs from the side of the motion track z of collision body 4, the inwall 1f of rear side is positioned on this motion track z (Fig. 2)).And, collision body 4 as described above enter catch recess 1c in time, accept entrance 1d that parts 1 make to catch recess 1c to proceeding to position forward towards rear side, and in this forward, act on the active force of force application component 3 midway from it, by as the parts 1 of accepting of above-mentioned forward carry out opposite house Ma and carry out boosting to the journey action of going of going to journey release position.In illustrated example, pulling force helical spring 3a by equipment in main body 2 forms this force application component 3 as follows, the size, spring one end 3b is fixed on and accepts the arcuation edge 1b side of parts 1 and spring other end 3c is fixed in main body 2, and between this both ends of the

spring

3b, 3c is being accepted the position of readiness of parts 1 and is being proceeded to centre position between position for maximum.And, realize the boosting of going journey action of above-mentioned door Ma and accept parts 1 by this spring 3a and be positioned at position of readiness and proceed to maintaining of location status.; in illustrated example; the above-mentioned centre position that this spring 3a is positioned on substantially identical imaginary line at both ends of the

spring

3b, 3c and vertical axis 2b can be stretched the longest; thus; by collision body 4 be received into catch in recess 1c accept parts 1 due to the going journey action of door Ma from position of readiness by when moving to the position that exceedes centre position, thereby accept parts 1 due to the application of force of above-mentioned spring 3a from centre position forward position force just forwarding to the journey action of going that proceeds to position opposite house Ma and carry out boosting.In addition, cause the stretching of above-mentioned spring 3a in the forward of accepting to accept when parts 1 are positioned at position of readiness parts 1, and, be positioned at while proceeding to position accepting parts 1, the reversion of accepting parts 1 also causes the stretching of above-mentioned spring 3a, thereby is maintained respectively and accepted parts 1 and be positioned at the state of position of readiness and be positioned at the state that proceeds to position by this spring 3a.If use not shown damper device to accepting the above-mentioned forward effect brake force of parts 1, can make the journey action of going of the door Ma after boosting become mitigation.In the time that a door Ma who makes to be positioned at journey release position carries out backhaul action, the parts 1 of accepting that catch collision body 4 are inverted to position of readiness with it, when arriving when position of readiness, thereby collision body 4 allows the backhaul of door Ma to move from catching recess 1c and departing from and be released.

In addition,, in the boosting mechanism relating at this embodiment, above-mentioned collision body 4 is supported on collision body pedestal 5 generally along the mode of the Support Position in the direction of the rotation direction x of rotor M with capable of regulating by adjusting member 6.

To make to go journey to move as the door Ma of rotor M predetermined while removing journey operating position, collision body 4 catches by accepting parts 1, by means of collision body 4, the journey action of going towards the door Ma that goes to journey release position is carried out to boosting by the movement of accepting parts 1 after this seizure.But if not by collision body 4 with accept parts 1 suitably configuration respectively, this goes boosting of journey action not realize.In the door Ma side as rotor M or as the doorframe Fa side of supporter F or for example produce on the two deviation etc. of distortion and/or warpage and/or cooperation position afterwards, even if make a Ma go journey action, can not be by the action of accepting parts 1 and suitably catching collision body 4 and can not realize the expectation of boosting mechanism.In this embodiment, can not produce being adjusted at generally along the Support Position of the collision body 4 in the direction of the rotation direction of rotor M of collision body pedestal 5 by above-mentioned adjustment member 6 with reinstalling, thereby can correct collision body 4 by generations such as above-mentioned skews with respect to the inappropriate configuration of accepting parts 1.

In this embodiment, this adjustment member 6 is by combining and form having the first part 61 of collision body 4 and the second part 62.

The first part 61 with the direction of the rotation direction x to generally along rotor M movably mode be supported on collision body pedestal 5.On the other hand, the second part 62 has the auxiliary section 62a that coordinates of the 61a of the portion that is engaged to forming on the first part 61, and is engaged cooperation position the 61a of portion and is supported on collision body pedestal 5 to the mode of move operation of the non-cooperation position of removing this cooperation from auxiliary section 62a being coupled to this can carry out.

In illustrated example, collision body pedestal 5 is by combining base bottom 51 and pedestal top 52 to form.Wherein, the formation of this base bottom 51 possesses: the longitudinal installation board 51a that becomes the installation portion 5a that the one side Mb of opposite house Ma installs; With the 51c of cover plate portion laterally giving prominence to from the lower edge of this installation board 51a, the formation at pedestal top 52 possesses: the longitudinal board 52a installing additional at the front surface of the installation board 51a of base bottom 51; With from the forwards outstanding unlimited housing department 52c of soffit that makes of this longitudinal board 52a.

And, the first part 61 can be accommodated in the housing department 52c at this pedestal top 52 front and back movingly, and, the second part 62 can be accommodated in the housing department 52c at this pedestal top 52 up and down movingly, have again, under state in the housing department 52c that the force application component described later 63 of the second part 62 is accommodated in to pedestal top 52 and with the front surface 51b of the installation board 51a in base bottom 51, install longitudinal board 52a at pedestal top 52 additional and the mode of the 51c of the cover plate portion sealing of the soffit base bottom 51 of the housing department 52c at this pedestal top 52 is combined to base bottom 51 and pedestal top 52.In illustrated example, from as the above-mentioned state that pedestal top 52 and base bottom 51 are combined both are utilized by the screwed hole that figure, mark 51f, 52i represent and are undertaken that screw is fixed and integrated.Jag at the housing department 52c at pedestal top 52 is formed with the opened portion 52j that penetrates the first part 61, and the first part 61 combines with collision body 5 the outstanding state in its front end 61b side direction front making from this opened portion 52j.Collision body 4 is being equipped to the front end 61b of the first outstanding part 61 of the outside of collision body pedestal 5 and from then on highlightedly by this opened portion 52j.Should the first part 61, will cut apart to the left and right, position within the scope of rear end the position in the middle of substantially from its fore-and-aft direction, can be up and down moving between the 61c of left and right wall portion, the 61c of having cut apart receive the second part 62.In addition, in illustrated example, between the upper inside surface 52h of the housing department 52c at pedestal top 52 and the second part 62, storage becomes the compression helical spring 63a of force application component 63, utilizes this spring 63a that the second part 62 is positioned at conventionally its underpart 62b by the cooperation position being pressed on the inner surface 51d of the 51c of cover plate portion of base bottom 51.(Fig. 5) be formed with operation in the central authorities of the bottom of the second part 62 and use protuberance 62c, and on the 51c of cover plate portion of base bottom 51, be formed with the fenestra 51e that only holds this operation use protuberance 62c size.

And, in this embodiment, on the moving direction y of the first part 61, possess multiple above-mentioned auxiliary section 62a and be engaged at least one of the 61a of portion.In illustrated example, on the first part 61, on its moving direction y, possess multiple 61a of portion that are engaged, and also on the moving direction y of the first part 61, possess multiple auxiliary section 62a on the second part 62.

Like this, in this embodiment, when the Support Position that need to adjust upward collision body 4 in the side of the rotation direction x generally along rotor M, removing the cooperation of the auxiliary section 62a of the second part 62 and the 61a of the portion that is engaged of the first part 61, the first part 6 is moved to make after collision body 4 is positioned at suitable position, again auxiliary section 62a is coupled to and is engaged the 61a of portion above, thereby can easily carry out above-mentioned adjustment.

More specifically, in this embodiment, the 61a of the portion that is engaged of the first part 61 is only formed at the downside of the 61c of this left and right wall portion, 61c at the inner surface (towards the face of another 61c of wall portion side) of the above-mentioned left and right 61c of wall portion, 61c, overcoming make the second part 62 be moved upward operation during as the spring 63a of above-mentioned force application component 63, remove the cooperation that this is engaged the auxiliary section 62a of the 61a of portion and the second part 62, and, in the time stopping this operation, can make auxiliary section 62a and be engaged the 61a of portion to coordinate by the above-mentioned application of force., in this embodiment, adjust member 6 and possess and overcome the force application component 63 that the second part 62 moves to non-cooperation position.And, in illustrated example, thereby can carry out from the below of collision body pedestal 5 move operation (Fig. 8) to non-cooperation position for the second part 62 of this adjustment by above-mentioned fenestra 51e with revolving the pressing operations such as tool protuberance 62c.

Particularly, in illustrated example, be formed with the guiding incorporating section 52d of the first part 61 from above-mentioned opened portion 52j to longitudinal board 52a at the housing department 52c at pedestal top 52.The first part 61 makes the outstanding size minimum from opened portion 52j in the position that makes its rear end be connected to the inner surface of longitudinal board 52a.Position in the middle of the fore-and-aft direction cardinal principle of the first part 61 is also formed with at the 61c of left and right wall portion, 61c the protuberance 61d giving prominence to laterally from its external surface respectively, and the opened portion 52j side at guiding incorporating section 52d is formed with in the time that the first part 61 is forwards moved this protuberance 61d from the anti-delinking part 52e of rearward collision, (Figure 11) make the first part 61 anti-ly extract the position of the 52e of portion from the outstanding size maximum of opened portion 52j this protuberance 61d is collided.

Position between the 61c of left and right wall portion, the 61c of the first part 61 in the 52d of this guiding incorporating section and in the 52d of this guiding incorporating section and and the inner surface of longitudinal board 52a between leave compartment of terrain and be formed with the 52f of guiding walls portion, the second part 62 can be up and down moving from front and back between this 52f of guiding walls portion and longitudinal board 52a on the other side be held (Fig. 5).In illustrated example, the second part 62 is configured to and is the long rectangular plate-like in front and back, both sides in its width side are formed with respectively groove 62d on above-below direction, and are formed with respectively the rib 52b, the 52g that enter in this groove 62d on the above-mentioned guiding walls 52f of portion and longitudinal board 52a on the other side.

In illustrated example, the size of the first part 61 between the inner surface 51d of the 51c of cover plate portion of the size of above-below direction of the forming part of the 61c of left and right wall portion, 61c and the upper inside surface 52h of the housing department 52c at pedestal top 52 and base bottom 51 equates substantially, on the other hand, the above-below direction of the second part 62 is of a size of the only about half of size of the size of the above-below direction of the forming part of the 61c of left and right wall portion, the 61c of the first part 61.And the 61a of the portion that is engaged of the first part 61 is formed into downside from the position in the middle of the above-below direction cardinal principle of the above-mentioned left and right 61c of wall portion, 61c, the auxiliary section 62a of the second part 62 forms in the both sides of its length side.

The 61a of the portion that is engaged of the first part 61 is configured to and is the outstanding rib shape of inner surface from the 61c of left and right wall portion, 61c respectively, makes this be engaged the 61a of portion in the 61c of left and right wall portion, 61c and on fore-and-aft direction, between the adjacent 61a of the portion that is engaged, leaves equal intervals respectively and arrange multiple.Respectively being engaged the 61a of portion, to make shape of cross section be substantially to make rib shape continuous on above-below direction leg-of-mutton chevron shape, is formed with by the plurality of that to be engaged the shape of cross section that makes that the 61a of portion forms be the wavy 61e of spline-simulating portion at the inner surface of the left and right of the first part 61 61c of wall portion, 61c.

On the other hand, the auxiliary section 62a of the second part 62 is configured to respectively from the outstanding rib shape in the both sides of its length side, makes in 62aGai both sides, this auxiliary section and on fore-and-aft direction, between adjacent auxiliary section 62a, leave equal intervals respectively and arrange multiple.It is substantially to make rib shape continuous on above-below direction that each auxiliary section 62a makes shape of cross section leg-of-mutton chevron shape, is also formed with respectively by the plurality of that to be engaged the shape of cross section that makes that the 62a of portion forms be the wavy 62e of spline-simulating portion in the both sides of the length side of the second part 62.

And, in illustrated example, at above-mentioned cooperation position, in the 61e of spline-simulating portion of the left and right of the first part 61 61c of wall portion, 61c and the 62e of the spline-simulating portion engagement of the second corresponding part 62 with it.; in the time that the first part 61 is positioned at arbitrary position of fore-and-aft direction; the second part 62 is all between the left and right of the first part 61 61c of wall portion, 61c; the 61e of spline-simulating portion forming on the left and right of the first part 61 61c of wall portion, 61c and the corresponding 62e of the spline-simulating portion engagement forming on the second part 62 respectively, to receive auxiliary section 62a and receive and be engaged the 61a of portion between adjacent

auxiliary section

62a, 62a between the adjacent 61a of the portion that is engaged, 61a.Like this, in illustrated example, can make the first part 61 stably locate in this each position of adjusting., under the state that can carry out the move operation smoothly (being push operation upward) of the second part 62 to non-cooperation position in illustrated example, can make multiple auxiliary section 62a and be engaged the 61a of portion to coordinate.Make the second part 62 move operations to non-cooperation position and adjust the first part 61 after the overhang of collision body pedestal, in the time stopping this move operation, utilize as the application of force of the spring 63a of above-mentioned force application component 63 and limit makes the 62e of spline-simulating portion of the second part 62 again engage limit with the 61e of spline-simulating portion of the first part 61 makes the second part 62 move to cooperation position.

In addition, in illustrated example, collision body can be incorporated in reception hole 61f up and down movingly, and the hole axle that the front end 61b that this reception hole 61f makes at the first part 61 forms is along above-below direction.In illustrated example, collision body 4 forms flange 4a in the lower end of cylinder.Be formed with to the Access Division 61g of this flange 4a clamping at the upper hole oral area of reception hole 61f, and between by the lower end of the cylinder of the lid 61h in the aperture, bottom of reception hole 61f and formation collision body 4, get involved installation compression helical spring 61i, collision body 4 is equipped in the first part 61 (Fig. 5) from the aperture, top of reception hole 61f highlightedly because the application of force of this spring 61i makes the top of the flange 4a of cylinder.

If above-mentioned collision body pedestal 5 is by possessing the fixation side parts of the installation portion 5a that in rotor M and supporter F, either party installs and supporting collision body 4 and form with respect to the drawer at movable side parts that these fixation side parts carry out capable of regulating block position in the direction crossing with the rotation direction x of rotor M and combine, can not only be in the direction of the rotation direction x generally along rotor M, in illustrated example, be on fore-and-aft direction and in the direction crossing with the rotation direction x of this rotor M, in illustrated example on left and right directions also easily and suitably carry out the position adjustment of collision body 4.Typically, form above-mentioned drawer at movable side parts by said base top 52 and base bottom 51, and by these drawer at movable side parts can the enterprising line position of left and right directions adjust with fixation side component combination, in illustrated example, these fixation side parts are arranged on the door Ma of rotor M.

Figure 12～Figure 19 (c) represent using as the main part 5 ' of the collision body pedestal 5 of these drawer at movable side parts by means of being equipped in the part variation on rotor M as the mounting parts 53 of these fixation side parts.In this part variation, collision body pedestal 5 is made up of the main part 5 ' and the mounting parts 53 that possess above-mentioned collision body 4, base bottom 51, pedestal top 52 and adjustment member 6.This mounting parts 53 possesses the installation portion 5a that rotor M is installed.And collision body 4 is supported generally along the Support Position adjustment in the direction of the rotation direction x of rotor M and the mode that can carry out the Support Position adjustment in the direction crossing with the rotation direction x of rotor M at least can carrying out by this adjustment member 6.

In this part variation, the main part 5 ' of this collision body pedestal 5 can carry out being assembled into mounting parts 53 under the state of the movement of the direction x ' crossing with the rotation direction x of rotor M.

This mounting parts 53 be configured to make on left and right directions long and on above-below direction shorter cardinal principle rectangular tabular.Between the two ends, left and right of this mounting parts 53, on its left and right directions, leave compartment of terrain two through hole 53a longer on above-below direction are set, mounting parts 53 utilizes this through hole 53a to be fixed on by screw on this rotor M under the state that makes its one side side contacts rotor M.(Figure 14),, in this part variation, the one side of this mounting parts 53 is as the above-mentioned installation portion 5a performance function of collision body pedestal 5.In illustrated example, be formed with the 53b of portion that is engaged described later at the front face contrary with installation portion 5a of this mounting parts 53.

In addition, in this part variation, base bottom 51 is different from the basic structure example shown in Fig. 1～Figure 11, does not have the board of installation 51a.In this part variation, base bottom 51 possesses along this end edge outstanding rib 51g that presses upward at the end edge of the 51c of cover plate portion.

In addition, in this part variation, pedestal top 52 possesses within the scope of this upper end the rearward outstanding eaves shape 52k of portion in the longitudinal upper end of board 52a, and possesses along this end edge outstanding rib 52m that presses downwards at the end edge of this eaves shape 52k of portion.

And, in this part variation, be formed with the slot part 51h of longitudinal board 52a lower end at storage pedestal top 52 in the front of pressing rib 51g in the upper surface side of the 51c of cover plate portion of base bottom 51, receive and under the lower end of longitudinal board 52a the state of combination, between the longitudinal board 52a that presses rib 51g and pedestal top 52 that presses rib 52m and base bottom 51 at pedestal top 52, be formed with the interval suitable with the thickness of the upper lower edge of mounting parts 53 at this slot part 51f, and, between the eaves shape 52k of portion at pedestal top 52 and the 51c of cover plate portion of base bottom 51, be formed with the interval (Figure 13) suitable with the width of mounting parts 53.

And, in this part variation, from as above-mentioned from the state of mounting parts 53 is installed at rotor M, this mounting parts 53 is embedded in the embedded space 5c of the mounting parts 53 forming between the longitudinal board 52a that presses rib 51g and pedestal top 52 that presses rib 52m and base bottom 51 at pedestal top 52, thereby can carries out being combined to mounting parts 53 under the state of the movement of the direction x ' crossing with the rotation direction x of rotor M at the main part 5 ' of collision body pedestal 5.In illustrated example, the pressing of rib 52m and base bottom 51 of pressing in the left side of Figure 14 of main part 5 ' at pedestal top 52 is formed with mounting parts 53 to the introducing port 5d embedding in embedded space 5c between rib 51g, for making the right-hand member in Figure 14 of mounting parts 53 enter in embedded space 5c and make main part 5 ' slide into the left side of Figure 14 from this introducing port 5d, thereby can carry out the combination of mounting parts 5c and main part 5 '.A side contrary with introducing port 5d of embedded space 5c is closed, and the main part 5 ' right-hand member moving to as in above-mentioned Figure 14 that is combined to the mounting parts 53 on main part 5 ' that can slide is to the left positioned at its closure bit position.

In addition, in this part variation, adjust member 6 and form by combine movable part on above-mentioned mounting parts 53, this movable part has the auxiliary section 62f that coordinates of the 53b of the portion that is engaged to forming on this mounting parts 53 and can carry out from making auxiliary section 62f be coupled to being operatively supported on collision body pedestal 5 that this cooperation position that is engaged the 53b of portion moves to the non-cooperation position of removing this cooperation.In illustrated example, on the second part 62 of the basic structure example shown in Fig. 1～Figure 11, one possesses the auxiliary section 62f that this mounting parts 53 is coordinated, and this second part 62 is as above-mentioned movable part performance function.

In this part variation, the position at the left and right directions of longitudinal board 52a at pedestal top 52 in the middle of is substantially formed with the notch 52n of the inside and outside connection of main part 5 '.And the rearward end 62g of the second part 62 enters in above-mentioned embedded space 5c by this notch 52n, is formed with above-mentioned auxiliary section 62f at this rearward end 62g.

In illustrated example, above-mentioned notch 52n by a part of 52o of the residual longitudinal board 52a that possesses above-mentioned rib 52b in the position in the middle of its left and right directions cardinal principle, cut apart by left and right.On the other hand, rearward end 62g and the operation at rear (installation portion 5a side) of both sides in the width side that is arranged in the second part 62 is formed with the guide hole 62h that runs through this second part 62 on above-below direction between with protuberance 62c, the second part 62 by a part of 52o of above-mentioned longitudinal board 52a by the state of this guide hole 62h under can on move down twelve Earthly Branches and support on pedestal top 52.

In addition,, in this part variation, above-mentioned auxiliary section 62f and the both sides that are engaged the 53b of portion possess multiple on the direction x ' crossing with the rotation direction x of rotor M.

The 53b of the portion that is engaged of mounting parts 53 forms in the lower edge of its front face.This is engaged the 53b of portion and is configured to the rib shape that is outstanding from front face, and and left and right directions on leave equal intervals between the adjacent 53b of the portion that is engaged and arrange multiple.Respectively being engaged the 53b of portion, to make shape of cross section be substantially to make rib shape continuous on above-below direction leg-of-mutton chevron shape, is formed with by the plurality of 53b of portion, the 53b of being engaged to its left and right directions from the right-hand member of the mounting parts 53 of Figure 14 the position in the middle of substantially ... the shape of cross section that makes forming is the wavy 53c of spline-simulating portion.This size up and down that is engaged the 53b of portion equates substantially with the thickness of the second part 62, in the time that the second part 62 is positioned at cooperation position, being engaged the 53b of portion engages with the auxiliary section 62f of the second part 62, but in the time that the second part 62 is pressed into non-cooperation position, remove both engagements.

On the other hand, the auxiliary section 62f of the second part 62 is configured to and is from the outstanding rib shape of end 62g thereafter, and and left and right directions on leave equal intervals between adjacent auxiliary section 62f and arrange multiple.It is substantially to make rib shape continuous on above-below direction that each auxiliary section 62f makes shape of cross section leg-of-mutton chevron shape, and being also formed with at the rearward end 62g of the second part 62g the shape of cross section that makes being made up of multiple

auxiliary section

62f, 62f is the wavy 62i of spline-simulating portion.

And in illustrated example, at above-mentioned cooperation position, the 62i of spline-simulating portion of the second part 62 can engage with the 53c of spline-simulating portion of mounting parts 53.; the 53c of spline-simulating portion forming on mounting parts 53 and the corresponding 62i of the spline-simulating portion engagement forming on the second part 62, to receive auxiliary section 62f and receive and be engaged the 53b of portion between adjacent auxiliary section 62f between the adjacent 53b of the portion that is engaged.

Like this, in illustrated example, the upper mobile main part 5 ' of adjusting collision body pedestal 5 of direction x ' that can be crossing with the rotation direction x of rotor M in the scope of the 62i of spline-simulating portion of the 53c of spline-simulating portion of mounting parts 53 and the second part 62 engagement, and stably locate in its each position of adjusting.; can carry out under the state of the move operation smoothly of the second part 62 to non-cooperation position (in illustrated example push operation) upward; make multiple auxiliary section 62a, the 62a of the second part 62 ... the multiple 61a of portion, 61a of being engaged with the first part ... coordinate, and make multiple auxiliary section 62f, the 62f of the second part 62 ... the multiple 53b of portion, 53b of being engaged with mounting parts 53 ... coordinate.Be that carry out after left and right adjusts the Support Position of collision body 4 by the main part of collision body pedestal 55 ' to non-cooperation position move operation making the second part 62, in the time stopping this move operation, due to the application of force of the spring 63a as above-mentioned force application component 63, limit makes the 53c of spline-simulating portion of the 62e of spline-simulating portion, the 62i of the second part 62 and the 61e of spline-simulating portion of the first part 61 and mounting parts 53 again engage limit the second part 62 is moved to cooperation position.

,, in part variation, collision body 4 is substantially supported by collision body pedestal 5 along the ground, Support Position on the Support Position in the direction of the rotation direction x of rotor M and the direction x ' crossing with the rotation direction x of rotor M with capable of regulating by adjusting member 6.

In addition, in illustrated example, the extension 62j that utilizes the bight between from the second rearward end 62g of part 62 and the both sides of length side to stretch out to side, the size that increases the left and right directions of this hinder marginal part 62g is the length of the 62i of spline-simulating portion.If increase the length of the 62i of this spline-simulating portion, can in more wide scope, carry out the Support Position adjustment on the left and right directions of collision body 4.

In addition, in illustrated example, the 53c of spline-simulating portion of mounting parts 53 in Figure 16, between the 53b of the portion that is engaged of left end and the left end of mounting parts 53, be formed with cam part 53d, this cam part form towards be positioned at the upper end that is engaged the 53b of portion substantially equal height place top 53e and increase gradually and towards the inclined-plane in left side 53f.Like this, in illustrated example, mounting parts 53 is installed with installation portion 5a on rotor M after, make mounting parts 53 enter above-mentioned embedded space 5c in time, first, the inclined-plane 53f of this cam part 53d meets the auxiliary section 62f of the second part 62 and overcomes the application of force of above-mentioned spring 63a and the second part 62 is pressed into non-cooperation position, allows mounting parts 53 to enter in embedded space 5c.And, the keep left position of side part of the auxiliary section 62f that the ratio that is arranged in the 62i of spline-simulating portion of the second part 62 at the top of cam part 53d 53e is positioned at Figure 16 left end, make the second part 62 move to cooperation position by the application of force of above-mentioned spring 63a, can carry out with once-through operation the combination of mounting parts 53 and main part 5 '.

In addition, in this example, easily see: on left and right directions, in the time that the Support Position of collision body 4 is positioned at reference position, Figure 19 (a)～left end (c) of mounting parts 53 is positioned at the mouth edge of the introducing port 5d of above-mentioned embedded space 5c, in the case of the left end of mounting parts 53 is given prominence to thus (Figure 19 (c)), collision body 4 is carried out to Yi Bi reference position, Support Position on the right side, and, in the case of the left end of mounting parts 53 enters thus (Figure 19 (a)), collision body 4 is carried out to Yi Bi reference position, the Support Position side that keeps left.

All the other structures of part variation described above are identical with the example of the basic structure shown in Fig. 1～Figure 11 essence, therefore for the identical mark of mark using in the identical figure that component parts marks with basic structure example relates in Fig. 1～Figure 11 that represents this part variation of this essence of this part variation, the description thereof will be omitted.

Have again; quote the full content of scope, accompanying drawing and the specification digest of manual, the request protection of No. 2009-29978th, the Japanese patent application of submitting on February 12nd, 2009 and No. 2009-125211st, the Japanese patent application of submitting on May 25th, 2009 here, be incorporated to as the disclosure of manual of the present invention.

Claims

1. a boosting mechanism for rotor, possesses: be arranged on rotor and can support rotationally the collision body on the either party of supporter of this rotor; Be arranged on both another and go journey operating position to move after catching this collision body rotor to the parts of accepting that go journey to move to carry out boosting that go to journey release position in rotor predetermined, it is characterized in that:

Collision body is supported on collision body pedestal can adjust the mode of Support Position by adjusting member, and this collision body pedestal possesses the installation portion that the either party of rotor and supporter is installed,

Adjust member and combine by combine the second part on the first part,

This first part has collision body and is supported on collision body pedestal in the mode that can move to the direction of the rotation direction generally along rotor,

This second part has the auxiliary section that the portion of being engaged to forming on this first part coordinates, and be engaged cooperation position portion and be supported on collision body pedestal to the mode of move operation of the non-cooperation position of removing this cooperation from auxiliary section being coupled to this can carry out

Above-mentioned auxiliary section possesses multiple with at least one party who is engaged portion on the moving direction of the first part.

2. the boosting mechanism of rotor according to claim 1, is characterized in that:

Collision body is supported on collision body pedestal can be adjusted at generally along the mode of the Support Position in the direction of the rotation direction of rotor by adjusting member.

3. the boosting mechanism of rotor according to claim 1, is characterized in that:

Possess and overcome the force application component that the second part moves towards non-cooperation position.

4. a boosting mechanism for rotor, possesses: be arranged on rotor and can support rotationally the collision body on the either party of supporter of this rotor; Be arranged on both another and go journey operating position to move after catching this collision body rotor to the parts of accepting that go journey to move to carry out boosting that go to journey release position in rotor predetermined, it is characterized in that:

Collision body pedestal possesses: the main part that supports collision body; And there is installation portion that the either party of rotor and supporter is installed and under the state of the movement of the direction crossing with the rotation direction of this rotor, be combined to the mounting parts on this main part can carry out main part,

Adjusting member forms by combine movable part on this mounting parts, this movable part has auxiliary section that the portion of being engaged to forming on this mounting parts installs and is supported on the main part of collision body pedestal to the mode of move operation of the non-cooperation position of removing this cooperation from auxiliary section being coupled to this cooperation position that is engaged portion can carry out

Above-mentioned auxiliary section possesses multiple with at least one party who is engaged portion in the direction crossing with the rotation direction of rotor.

5. the boosting mechanism of rotor according to claim 4, is characterized in that:

Collision body is supported on collision body pedestal can be adjusted at the mode of the Support Position in the direction crossing with the rotation direction of rotor by adjusting member.

6. the boosting mechanism of rotor according to claim 4, is characterized in that:

Possess and overcome the force application component that movable part moves towards non-cooperation position.

7. a boosting mechanism for rotor, possesses: be arranged on rotor and can support rotationally the collision body on the either party of supporter of this rotor; Be arranged on both another and go journey operating position to move after catching this collision body rotor to the parts of accepting that go journey to move to carry out boosting that go to journey release position in rotor predetermined, it is characterized in that:

Collision body is supported on collision body pedestal in the mode that at least can adjust generally along the Support Position in the direction of the rotation direction of rotor and can be adjusted at the Support Position in the direction crossing with the rotation direction of rotor by adjusting member,

Adjust member and on the first part, combine the second part,

Above-mentioned auxiliary section and at least one party who is engaged portion possess multiple on the moving direction of the first part,

Collision body pedestal also possesses: the main part that supports collision body; And there is installation portion that the either party of rotor and supporter is installed and under the state of the movement of the direction crossing with the rotation direction of this rotor, be combined to the mounting parts on this main part can carry out main part,

Adjust member and on this mounting parts, combine movable part, this movable part has auxiliary section that the portion of being engaged to forming on this mounting parts installs and is supported on the main part of collision body pedestal to the mode of move operation of the non-cooperation position of removing this cooperation from auxiliary section being coupled to this cooperation position that is engaged portion can carry out