This invention relates to an improvement in a mechanism for assisting at least the forward movement of a movable body supported by a stationary body up to a position where the movement ends from a predetermined movement position, by urging means.
When a door is closed, there is a mechanism according to Japanese Patent Application No. 2006-332237 in which the present applicant previously disclosed as the mechanism assisting the pivoting of the door up to the position where the door is completely closed from a predetermined rotational position by the urging means.
Also, when a sliding door is closed, there is a mechanism according to Japanese Patent Application No. 2007-101629 in which the present applicant previously disclosed a mechanism for assisting the movement of the sliding door up to the position where the sliding door is completely closed from the predetermined movement position by the urging means.
The mechanism according to Japanese Patent Application No. 2006-332237 includes a striker member provided in the door as the movable body, and a catcher member provided in a door frame as the stationary body.
The mechanism according to Japanese Patent Application No. 2007-101629 includes the striker member provided in the door frame as the stationary body, and the catcher member provided in the sliding door as the movable body.
In either mechanism, the catcher member is provided so as to be movable between a standby position and a retracted position, and at the standby position, the catcher member is positioned in the standby position by holding means while being urged by the urging means. Then, when the movable body is moved forward to a predetermined movement (or rotational) position, the striker member is caught and engaged with the catcher member positioned in the standby position, and subsequently, holding by the holding means is released to allow the catcher member to move or relatively move up to the retracted position by being urged by the urging means. This causes the urging force to be applied to the movable body up to the position where the movement ends.
Here, in these mechanisms, if the holding of the catcher member by the holding means is inadvertently released from a state wherein the movable body is not moved forward to the predetermined movement position, the catcher member may move to the retracted position without catching the striker member due to the urging. In such case, a return to a desired state is attempted to be carried out by moving the movable body up to the position where the movement ends, and allowing the catcher member which is in the retracted position to catch and engage the striker member. Therefore, in a case wherein an assembled or combined state of the movable body relative to the stationary body was damaged for some reason, for example, in a case such that the door frame as the stationary body or the door as the movable body had a deviation and the like, even if the movable body is moved up to the position where the movement ends, the striker member cannot enter into an engaging portion of the catcher member which is in the retracted position.
The main problem which this invention is directed to solving is to make it possible to easily and reliably carry out a return to the desired state in the case that the holding of the catcher member by the holding means is inadvertently released as mentioned above in this kind of mechanism, even in such case that the assembled or combined state of the movable body relative to the stationary body was damaged for some reason.
In order to solve said problem, in this invention, an assist device for a movable body comprises the following structures (1) to (5).
(1) The assist device for the movable body assisting at least the forward movement of the movable body supported by a stationary body up to a position where the movement ends from a predetermined movement position by urging means, and
(2) including a striker member provided in either one of the stationary body or the movable body, and a catcher member provided in the other one of same,
(3) wherein the catcher member is provided so as to be movable between a standby position and a retracted position, and also at the standby position, the catcher member is positioned in the standby position by holding means while being urged by urging means, and
(4) when the movable body is moved forward to a predetermined movement position, the striker member is caught and engaged with the catcher member which is positioned in the standby position, and subsequently, the holding by the holding means is released to allow the catcher member to move or relatively move up to the retracted position by being urged by the urging means, and this causes the urging force to be applied to the movable body up to the position where the movement ends, and
(5) furthermore, the assist device for the movable body comprises operation means allowing the catcher member, which was moved to the retracted position without catching the striker member to operate, to move toward the standby position.
If the holding of the catcher member by the holding means is inadvertently released from a state wherein the movable body is not moved forward to the predetermined movement position, the catcher member may move to the retracted position while not catching the striker member due to the urging. In such case, a return to a desired state is attempted to be carried out by moving the movable body up to the position where the movement ends and catching and engaging the striker member with the catcher member which is in the retracted position. However, in a case wherein an assembled or combined state of the movable body relative to the stationary body was damaged for some reason, for example, in a case such that the door frame as the stationary body or the door as the movable body had an deviation and the like, even if the movable body is moved up to the position where the movement ends, the striker member cannot enter into an engaging portion of the catcher member which is in the retracted position. In the assist device according to this invention, even in such case, the striker member can be caught and engaged with the catcher member by moving the catcher member toward the standby position for a dimension of the deviation as mentioned above by the operation means.
The striker member is constituted by a striker base and a striker axis projecting from the striker base so as to be retractable by being urged. The catcher member is constituted as a pivotal body, and also comprises an engaging recess of the striker axis which is open in the outer circumference and continues toward the pivot center side. When the movable body is moved forward to the predetermined movement position, the striker axis is entered into the engaging recess of the catcher member which is in the standby position, and due to the subsequent urging of the urging means, the catcher member is pivoted to the retracted position, so that the urging force is applied to the movable body up to the position where the movement ends. Also, in a state wherein the catcher member is moved to the retracted position without catching the striker member, the forward movement of the movable body toward the position where the movement ends may be allowed due to the retraction of the striker axis against the urging accompanied with the abutting against a lateral portion of the engaging recess in the striker member.
In the case wherein the catcher member is moved to the retracted position without catching the striker member, if the movable body is moved forward up to the position where the movement ends, the striker axis hits the lateral portion of the engaging recess in the striker member, and the striker axis retracts once against the urging, so that the lateral portion of a projecting end of the striker axis can cross over. Then, after this crossing over, due to the urging, the striker axis projects again, is entered into the engaging recess of the catcher member which is in the retracted position, and is caught and engaged. In the case wherein the assembled or combined state of the door as the movable body relative to the door frame as the stationary body had a deviation or the like, even if the door is moved up to the position where the movement ends, the striker axis of the striker member cannot enter into the engaging recess of the catcher member which is in the retracted position. In such assist device, even in such case, due to the operation means, the catcher member can be pivoted toward the standby position for the dimension of the deviation or the like up to the position where the striker axis of the striker member enters into the engaging recess of the catcher member.
According to the assist device of this invention, it is possible to easily and reliably carry out the return to the desired state in the case that the holding of the catcher member by the holding means is inadvertently released as mentioned above even in such case that the assembled or combined state of the movable body relative to the stationary body was damaged for some reason.
a), 6(b) are broken views of the same essential parts (In
a), 7(b) are broken views of the same essential parts (In
Hereinafter, best modes for conducting this invention are explained based on
Incidentally, here,
Also,
The assist device of a movable body according to the present embodiment assists at least the forward movement of a movable body M which is supported by a stationary body S up to the position where the movement ends from a predetermined movement position due to urging means 3.
Such an assist device typically can be used for the door Ma, a swing door or the like which pivots, the sliding door Mb, an overhung door or the like which slides, or the like, as the movable body M.
Such assist device includes the striker member 1 which is provided in either one of the stationary body S or the movable body M, and the catcher member 2 which is provided in the other one of those.
The catcher member 2 is provided so as to be movable between the standby position and the retracted position, and also at the standby position, the catcher member 2 is positioned in the standby position by holding means 4 while being urged by urging means 3. Then, when the movable body M is moved forward to the predetermined movement position, the striker member 1 is caught and engaged with the catcher member 2 which is positioned in the standby position, and subsequently, holding by the holding means 4 is released to allow the catcher member 2 to move or relatively move up to the retracted position by being urged by the urging means 3, so that the urging force is applied to the movable body M up to the position where the movement ends.
Thereby, according to such assist device, the movable body M which was moved forward up to the predetermined movement position can be moved up to the position where the movement ends by the catcher member 2 which is moved or relatively moved to the retracted position by the urging while catching the striker member 1 at the predetermined movement position. If the movable body M which was moved to the position where the movement ends in such manner is moved backward, the catcher member 2 which is in the retracted position with catching the striker member 1 is moved or relatively moved up to the standby position while being urged by the urging means 3, and at the standby position, the catcher member 2 is repositioned by the holding means 4. Also, the catcher member 2 releases the striker member 1 from being caught and engaged. (Release)
At the same time, such assist device according to the embodiment comprises the operation means 5 allowing the catcher member 2 which was moved to the retracted position without catching the striker member 1, to move toward the standby position.
If the holding of the catcher member 2 by the holding means 4, is inadvertently released from the state wherein the movable body M is not moved forward to the predetermined movement position, the catcher member 2 happens to move to the retracted position without catching the striker member 1 by the urging. In such case, a return to a desired state is attempted to be carried out by allowing the movable body M to move up to the position where the movement ends, and the striker member 1 to be caught and engaged with the catcher member 2 which is in the retracted position. Therefore, in a case wherein an assembled or combined state of the movable body M relative to the stationary body S was damaged for some reason, for example, in a case such that the door frame Ma as the stationary body S or the door Ma as the movable body M had a deviation or the like, even if the movable body M is moved up to the position where the movement ends, the striker member 1 cannot enter into an engaging portion of the catcher member 2 which is in the retracted position. In the assist device according to the embodiment, even in such case, the striker member 1 can be caught and engaged with the catcher member 2 by moving the catcher member 2 toward the standby position by a dimension of the deviation as mentioned above by the operation means 5.
(Examples Shown in
In
In this example, the striker member 1 is constituted by a striker base 10 and a striker axis 11 projecting is biased so as to be retractable from the striker base 10. One end of the striker base 10 is fixed to the door Ma, and also the other end of the striker base 10 includes a housing tube portion 10a of the striker axis 11 projecting toward the upper side. (
On the other hand, the catcher member 2 is structured as a pivotal body 20 provided with a pivot axis 20a in a direction along an axial line of the striker axis 11, and also comprises the engaging recess 20b of the striker axis 11 which is open in the outer circumference thereof and continues toward the pivot center side thereof. When the door Ma as the movable body M is moved forward to the predetermined movement position, the striker axis 11 enters into the engaging recess 20b of the catcher member 2 which is in the standby position (position in
In this example, in the state wherein the catcher member 2 is moved to the retracted position without catching the striker member 1, due to the retraction of the striker axis 11 against the urging accompanied with the abutting against a lateral portion 20c of the engaging recess 20b in the striker member 1, the forward movement of the movable body M toward the position, where the movement ends, is possible. An inclined surface 20d which allows such retraction is formed on the lower surface side of such lateral portion 20c.
In this example, in the case wherein the catcher member 2 is moved into the retracted position without catching the striker member 1, if the movable body M is moved forward up to the position where the movement ends, the striker axis 11 hits the lateral portion 20c of the engaging recess 20b in the striker member 1, and retracts against the urging once, so that the lateral portion 20c of a projecting end of the striker axis 11 can cross over. Then, after this crossing over, due to the urging, the striker axis 11 projects again by the urging, and is entered into the engaging recess 20b of the catcher member 2 which is in the retracted position, so that the striker axis 11 is caught and engaged. In the case wherein the assembled or combined state of the door Ma as the movable body M relative to the door frame Sa as the stationary body S had the deviation and the like, even if the door Ma is moved up to the position where the movement ends, the striker axis 11 of the striker member 1 cannot be entered into the engaging recess 20b of the catcher member 2 which is in the retracted position. (
In the illustrated examples, the catcher member 2 is assembled and housed so as to be pivotal in a casing 60 whose upper surface is an attachment surface 60a which is attached to the lower surface of the upper frame portion Sb of the door frame Sa. The casing 60 is constituted so as to form a slender box shape whose lower surface is open. The catcher member 2 is provided in a position slanting to an end 60b side of the casing 60. On the lateral side of the disposed portion of the catcher member 2 in the casing 60, an open portion 60c, wherein the formation portion of the engaging recess 20b of the catcher member 2 which is in the standby position projects, is formed.
The catcher member 2 is structured by forming the engaging recess 20b to have a split groove shape whose one end is open in the arcuate border 20f thereof, and which continues to the pivot axis 20a (i.e., the pivot center side), in a fan-shaped body 20e wherein the formation side of the pivot axis 20a is an essential part. The engaging recess 20b in the catcher member 2 is provided in the position which is the other side of the fan-shaped body 20e and slants to a linear border 20g. A gear portion 20i which engages a rack 70a provided along a sliding direction of a slider 70 which is supported by and combined with the casing 60 so as to be slidable in a length direction of the casing 60, is formed in the arcuate border 20f extending between the engaging recess 20b of the catcher member 2 and the other linear border 20h of the fan-shaped body 20e.
A pinion 80 engaging the rack 70a of such slider 70 is provided between the other end 60d in the casing 60 and the catcher member 2. Also, in the casing 60, an extension coil spring 30 whose one end 30b is attached to the other end 60d side of the casing 60 and also wherein a linkage part 90 is clamped in the other end 30a and connected to the pinion 80, is provided as the urging means 3. The linkage part 90 is pivotally supported by the pinion 80 in the position slanting to a rotational axis of the pinion 80. Then, in the illustrated examples, when the pivot supporting portion 80a is positioned on an imaginary straight line x passing a rotational center 80b of the pinion 80 and an attached portion of the spring one end 30b of the extension coil spring 30, the spring 30 is maximally stretched. Also, when the pivot supporting portion 80a is positioned at the back further than this imaginary straight line x, the slider 70 is moved the most to the other end 60d side of the casing 60, and in this state, the catcher member 2 is positioned in the standby position by the spring 30. (
A supporting portion 60e supporting a button body 50 so as to be movable up and down, is formed on the one end 60b side of the casing 60. The supporting portion 60e comprises a projecting opening 60f of the button body 50 on the lower side, and an entering opening 60g of the end portion of the slider 70 on the lateral side, respectively. The button body 50 projects the outer end thereof from the supporting portion 60e with hooking a jaw portion 50b on the inner edge of the projecting opening 60f of the supporting portion 60e by a spring 60i which is installed between a back portion 60h of the supporting portion 60e and an inner end 50a of the button body 50. On the side facing the entering opening 60g in the button body 50, an abutment surface 50c to an end portion 70b of the slider 70 forming a tilt in a direction gradually separating from the movement center axis of the button body 50 as going to the lower side, is formed. Then, in the illustrated examples, when the catcher member 2 is in the standby position, the end portion 70b of the slider 70 is entered into the supporting portion 60e, and positioned in the upper side of the hitting surface 50c of the button body 50. (
In the case that the catcher member 2 is moved to the retracted position without catching the striker member 1 because there is the deviation and the like in the assembled or combined state of the door Ma relative to the door frame Sa, even if the door Ma is moved up to the position where the movement ends, when the striker axis 11 of the striker member 1 cannot enter into the engaging recess 20b of the catcher member 2 which is in the retracted position, (
Also,
Incidentally, in the illustrated examples, a damper slider 100 engaging the rack with the pinion 80 at a side (front) opposite to a side engaging with the slider 70 is supported to be slidable in the direction along the length direction of the casing 60. Also, a piston damper 110 which allows a piston rod 110a to move into a cylinder 110b due to the movement toward the other end 60d side of the casing 60 of the damper slider 100, is built into the casing 60. Due to the piston damper 110, breaking is applied to the rotation of the catcher member 2 toward the retracted position from the standby position, so that the movement of the door Ma toward the position where the movement ends can be slowly carried out. Also, an open lower surface 60j of the casing 60 is covered by a lid body which is not shown and includes a split groove along a movement trajectory of the striker axis 11.
(Examples Shown in
In
In this example, the striker member 1 is constituted so as to form an axis shape whose upper end is attached to the above-mentioned position.
On the other hand, the catcher member 2 is housed inside the groove-shaped space Me so as to be movable along a movement direction of the sliding door Mb. The catcher member 2 includes a catcher stopper 22 provided so as to be retractable in an up-and-down direction relative to a catcher main body 21, a retaining body 23 of the striker member 1 which is provided so as to be movable backward and forward and also receives the striker member 1 from the front in a non-retaining state, and an urging body 24 for same. The catcher stopper 22 and the retaining body 23 are coordinated, and when the catcher stopper 22 projects from the catcher main body 21 by such urging body 24, the retaining body 23 is in a forward movement position and in the non-retaining state. (
If the striker member 1 is entered into the retaining body 23 of the catcher member 2 which is in the standby position (position in
Specifically, in this example, the holding means 4 is constituted by such catcher stopper 22 and the engaging hole 61a.
In this example, in the case wherein the catcher member 2 is moved to the retracted position without catching the striker member 1, if the sliding door Mb as the movable body M is moved forward up to the position where the movement ends, the retaining body 23 of the catcher member 2 which is in the retracted position and in the backward movement position retains, catches, and engages the striker member 1.
Specifically, in this example, the retaining body 23 is constituted by integrally connecting a slide body 23a combined with the catcher main body 21 so as to be movable backward and forward, and a right and left pair of retaining pieces 23b, 23b by resin hinge portions 23c ranging between the front end of the slide body 23a and the back end of the retaining piece 23b. At the same time, notches 61b which allow the retaining pieces 23b of the retaining body 23 of the catcher member 2 which is in the standby position to enter in, are formed in a portion of the inner wall along the movement direction of the sliding door Mb in the casing 60 constituting the groove-shaped space Me. Also, (
In the case that there is a deviation or the like in the assembled or combined state of the sliding door Mb as the movable body M relative to the door frame Sc as the stationary body S, even if the sliding door Mb is moved up to the position where the movement ends, the striker member 1 cannot enter between the right and left pair of retaining pieces 23b, 23b constituting the retaining body 23 of the catcher member 2 which is in the retracted position. (
In the example in
In the example in
Also, the example in
Such cylindrical body 54 is supported between the inner walls along the movement direction of the sliding door Mb of the casing 60 so as to be movable in the direction orthogonal to the movement direction. Also, the supporting axle 54a is provided in the position decentered from the circle center, and can be operated by the tool and the like via the operation hole 53b penetrating between the sliding door Mb and the casing 60. Then, by operating the supporting axle 54a, the circumferential surface of the cylindrical body 54 on a side far from the supporting axle 54a can contact the back end portion 21a of the catcher main body 21. Thereby, the catcher member 2 which is in the retracted position is moved to the front end Md side of the sliding door Mb against the urging of the urging means 3.
Also, the example in
In the illustrated examples, the catcher member 2 is combined and housed in the casing 60 which is embedded in the upper part of the sliding door Mb and whose inside is the groove-shaped space Me so as to be movable as mentioned above. The casing 60 is constituted so as to form a slender box shape whose upper surface is open. The casing 60 is divided into above and below by a dividing portion 61d, and the engaging hole 61a is formed in the dividing portion 61d. Also, on the lower side of the dividing portion 61d, an extension coil spring 31 as the urging means 3 is embedded. One end 31a of the spring 31 is attached to the catcher main body 21 of the catcher member 2, and the other end 31b of the spring 31 is attached to the end portion positioned on the back end side of the sliding door Mb in the casing 60. Then, in the state wherein the catcher member 2 is in the standby position, this spring 31 is stretched maximally. If the sliding door Mb is moved forward up to the predetermined movement position, the catcher member 2 catches the striker member 1 and halts. At the same time, the holding of the holding means 4 is released, so that due to the urging of the spring 31, the sliding door Mb moves up to the position where the movement ends, and the catcher member 2 is relatively moved to the retracted position inside the groove-shaped space Me. When the sliding door Mb which is in the position where the movement ends is moved backward up to the predetermined movement position, the catcher member 2 is relatively moved up to the standby position while being urged by the spring 31, and releases the striker member 1. At the same time, due to the holding means 4, the catcher member 2 is positioned in the standby position.
Incidentally, in the illustrated examples, in the back end portion 21a of the catcher main body 21 of the catcher member 2, the piston damper 110 which allows the piston rod 110a to move into the cylinder 110b due to the relative movement toward the retracted position of the catcher member 2 is combined inside the casing 60. Due to this piston damper 110, the braking is provided for the relative movement of the catcher member 2 toward the retracted position from the standby position, so that the movement of the sliding door Mb toward the position where the movement ends, is slowly carried out.
Incidentally, the entire contents of the Specification, Claims, Drawings and Abstract of Japanese Patent Application 2007-258647 filed on Oct. 2, 2007 are cited here and are incorporated as a disclosure of the specification of the present invention.
Number | Date | Country | Kind |
---|---|---|---|
2007-258647 | Oct 2007 | JP | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
---|---|---|---|---|
PCT/JP2008/067857 | 10/1/2008 | WO | 00 | 4/29/2010 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2009/044783 | 4/9/2009 | WO | A |
Number | Name | Date | Kind |
---|---|---|---|
3771823 | Schnarr | Nov 1973 | A |
5044680 | Baker et al. | Sep 1991 | A |
5072973 | Gudgel et al. | Dec 1991 | A |
5551187 | Brouwer et al. | Sep 1996 | A |
5901992 | Winkler | May 1999 | A |
20070186481 | Tomita et al. | Aug 2007 | A1 |
Number | Date | Country |
---|---|---|
2004-052454 | Feb 2004 | JP |
2005-34348 | Feb 2005 | JP |
2005-127527 | May 2005 | JP |
2006-169723 | Jun 2006 | JP |
2006-200301 | Aug 2006 | JP |
2007-107211 | Apr 2007 | JP |
2007-177459 | Jul 2007 | JP |
2007-255018 | Oct 2007 | JP |
Number | Date | Country | |
---|---|---|---|
20100229341 A1 | Sep 2010 | US |