The present application claims priority to and incorporates by reference the entire contents of Japanese Patent Application No. 2014-220836 filed in Japan on Oct. 29, 2014.
1. Field of the Invention
The present invention relates to a door latch device for a vehicle and a method of assembling the door latch device for a vehicle.
2. Description of the Related Art
Some door latch devices for a vehicle are configured by integrating an engaging unit assembly including a body made of synthetic resin that is fixed to a door, a latch that is stored in the body and is capable of engaging with a striker on a vehicle body side, and an engaging mechanism such as a pole that is capable of engaging with the latch, and an operation unit assembly including a casing made of synthetic resin that is fixed to a rear side of the body and an operation mechanism that is mounted into the casing and can switch a locked state and an unlocked state of the door by operating the engaging mechanism (for example, refer to Japanese Patent No. 4765123 and Japanese Patent Application Laid-open No. 2012-233318). Such door latch devices for a vehicle include a lever that rotates the pole to disengage the latch from the pole based on an opening operation of a handle arranged on the door.
In recent years, automatic assembly has been performed to improve assembling efficiency of the door latch devices, and further improvement in assembling efficiency has been required. In the related art, an outside lever that disengages the latch from the pole based on the opening operation of an outside handle arranged on a vehicle exterior side of a door is rotatably fixed to the casing of the operation unit assembly with a screw. Accordingly, a screwing process is required to mount the outside lever, and the assembling efficiency may be disadvantageously lowered.
It is an object of the present invention to at least partially solve the problems in the conventional technology.
A door latch device for a vehicle according to one aspect of the present invention includes: a body that is arranged on any one of a door or a vehicle body and has a striker advancing groove formed on one surface thereof through which a striker advances corresponding to a closing movement of the door, the striker being arranged on the other one of the door and the vehicle body; a latch configured to engage with the advanced striker so as to be rotatable from an open position to a latch position; a pole configured to rotate from a release position at which the Dole is disengaged from the latch to an engaging position at which the pole is capable of engaging with the latch at the latch position interlocking with rotation of the latch and be engaged with the latch so as to restrain the door at a closed position; a lever configured to rotate from a disengaging position to a standby position based on an opening operation of a handle to rotate the interlocking pole from the release position to the engaging position, the handle being arranged on the door or the vehicle body; and a spring configured to urge the lever to rotate from the disengaging position to the standby position. The lever has a shaft hole. The body comprises: a spring accommodating part that accommodates the spring; and a pivot that is inserted into the shaft hole of the lever to rotatably support the lever.
According to another aspect of the invention, a method of assembling a door latch device for a vehicle is provided. The door latch device for a vehicle includes: a body that is arranged on any one of a door or a vehicle body and has a striker advancing groove formed on one surface thereof through which a striker advances corresponding to a closing movement of the door, the striker being arranged on the other one of the door and the vehicle body; a latch configured to engage with the advanced striker to be rotatable from an open position to a latch position; a pole configured to rotate from a release position at which the pole is disengaged from the latch to an engaging position at which the pole is capable of engaging with the latch at the latch position interlocking with rotation of the latch and be engaged with the latch so as to restrain the door at a closed position; a lever configured to rotate from a disengaging position to a standby position based on an opening operation of a handle to rotate the interlocking pole from the release position to the engaging position, the handle being arranged on the door or the vehicle body; and a spring configured to urge the lever to rotate from the disengaging position to the standby position. The lever has a shaft hole. The body includes: a spring accommodating part that accommodates the spring; a pivot that is inserted into the shaft hole of the lever to rotatably support the lever; a hooked part to which one end of the spring is hooked; and a projection that is brought into contact with the lever at the standby position. The method includes: a mounting process of the spring for causing one end of the spring to be hooked to the hooked part, and causing the other end of the spring to be brought into contact with the projection of the body; a temporary mounting process of the lever for inserting the pivot of the body into the shaft hole of the lever, and causing a surface of the lever on the body side to be brought into contact with the projection of the body; and a mounting process of the lever for pressing the lever toward the body side to rotate in a direction against an urging force from the spring, and tightly inserting the lever between the other end of the spring and the projection of the body.
A door latch device for a vehicle according to still another aspect of the invention is manufactured by using the method of assembling the door latch device for a vehicle above.
The above and other objects, features, advantages and technical and industrial significance of this invention will be better understood by reading the following detailed description of presently preferred embodiments of the invention, when considered in connection with the accompanying drawings.
The following describes an embodiment of a door latch device for a vehicle and a method of assembling the door latch device for a vehicle according to the present invention with reference to the drawings. The invention is not limited to the embodiment. The same or corresponding components are appropriately denoted by the same reference numerals throughout the drawings.
The following describes a door latch device for a vehicle according to the embodiment with reference to
The door latch device 100 according to the embodiment is attached to a rear end of a front side door (hereinafter, abbreviated as a “door”) on the right side of an automobile, and is configured by integrating an engaging unit assembly 200 with an operation unit assembly 300 by mounting the engaging unit assembly 200 to the operation unit assembly 300 for operating the engaging unit assembly 200, the engaging unit assembly 200 to be engaged with a striker on a vehicle body side to keep the door in a closed state.
First, the following describes a configuration of the engaging unit assembly 200.
As illustrated in
Next, the following describes respective members of the engaging unit assembly 200 in detail.
The body 201 is made of synthetic resin, for example. On one side (rear side) of the body 201, formed is a striker advancing groove 201a through which the striker provided to the vehicle body advances corresponding to a closing movement of the door.
Returning to
The back plate 203 is, for example, made of various types of metals, and is fixed to the cover plate 202 with the body 201 interposed therebetween using the latch shaft 204 and a bolt V1. As a result, the engaging unit assembly 200 is integrated. The back plate 203 also includes a cross-shaped hole 203a into which the cross-shaped projection formed at the distal end of the pivot 201b of the body 201 is inserted.
The latch shaft 204 passes through a shaft hole 202b of the cover plate 202, a shaft hole 205a of the latch 205, and a shaft hole 201d of the body 201 in this order from the rear side. A small-diameter shaft part 204a at the distal end thereof is press-fitted into a shaft hole 203b the back plate 203 in a substantially unrotatable manner.
The latch 205 is pivotally supported by the latch shaft 204, accommodated in an inner part on the rear side of the body 201, and engages with the advanced striker so as to rotate about the latch shaft 204 from an open position to the latch position. The latch 205 also includes an engaging part 205b protruding toward the front side.
Returning to
Next,
The pole 206 also includes a release lever 206c serving as a lever that disengages the pole 206 from the latch 205 when a release member 302 of the operation unit assembly 300 (described later) is brought into contact with the pole 206 to rotate it from the engaging position to the release position based on an opening operation of a handle provided to the door.
Returning to
As illustrated in
The first lever 207a and the second lever 207b integrally moves from the standby position to the release position illustrated in
An end of the second lever 207b on the vehicle exterior side is coupled to an outside handle (not illustrated) arranged on an outer panel of the door via an operation force transmitting member (not illustrated) such as a rod. When an opening operation is performed on the outside handle, an input based on the opening operation can be performed on the release lever 206c of the pole 206 to open the door via the release member 302 of the operation unit assembly 300 (described later) coupled to an end 207ac of the first lever 207a on the vehicle interior side.
That is, the outside lever 207 rotates from the disengaging position to the standby position based on the opening operation of the outside handle that is arranged on the door for opening the door from the outside of the vehicle body, and can rotate the interlocking pole 206 from the engaging position to the release position to disengage the latch 205 from the pole 206.
Returning to
One end 209a of the spring 209 is hooked to a hooked part 201g on the front side of the body 201 as the near side of the sheet, and the other end 209b thereof is hooked to the engaging part 205b of the latch 205 to urge the latch 205.
One end 210a of the spring 210 is hooked to a hooked part 201h of the body 201, and the other end 210b thereof is hooked to an engaging part 206e of the pole 206 to urge the pole 206.
The spring 211 is accommodated in the spring accommodating part 201c. One end 211a of the spring 211 is hooked to the hooked part 201h of the body 201, and the other end 211b thereof is hooked to an engaging part 207ad of the first lever 207a to urge the first lever 207a and the second lever 207b.
Returning to
A bolt V2 and a bolt V3 pass through attaching holes (not illustrated) of the inner panel of the door to be screwed into a screw hole 202e and a screw hole 202f of the cover plate 202, respectively. The engaging unit assembly 200 is fixed to the inner panel of the door together with the operation unit assembly 300 using these bolts V1 to V3. In this case, the bolt V1 is also screwed into the screw hole 203d of the back plate 203, so that the back plate 203 is fixed to the back surface of the body 201.
Subsequently, the following describes an operation of the engaging unit assembly 200.
First, the following describes the operation of the engaging unit assembly 200 to switch the state of the door from an opened state to a closed state. When a door-closing operation is performed and the striker S advances into the striker advancing groove 201a of the body 201 as indicated by the arrow A11 in
Next, the following describes an operation of the engaging unit assembly 200 to switch the state of the door from the closed state to the opened state. When an input based on the opening operation of the handle is performed on the release lever 206c of the pole 206 in the closed state of the door, the pole 206 rotates from the engaging position to the release position as indicated by the arrow A13 in
Next, the following describes a configuration of the operation unit assembly 300. The operation unit assembly 300 has a function of causing the door to be openable by disengaging the latch 205 of the engaging unit assembly 200 from the striker through an opening operation of the outside handle on the vehicle exterior side of the door or an inside handle on the vehicle interior side of the door in the unlocked state, and causing the door not to be opened even when the opening operation is performed on the outside handle or the inside handle in the locked state.
The operation unit assembly 300 includes: the release member 302 engaged with the first lever 207a of the outside lever 207 described above; a lock lever 304 that is engaged with the release member 302, includes a cam silencer 303 fitted thereto, and can switch a locked position and an unlocked position; a slide lever 307 that interlocks with a key access 306 into which a ring 305 is fitted and can switch the position of the lock lever 304 between the locked position and the unlocked position; a motor 308 for a locking operation and an unlocking operation; a worm wheel 309 that engages with the cam silencer 303 and a worm 308a fixed to a rotor shaft of the motor 308 and can switch the position of the lock lever 304 between the locked position and the unlocked position; a switch plate 314 that is mounted to the casing 301 by integrally coupling a coupler 310, a half-closed door detection switch 311 that detects the position of the latch 205, a lock/unlock detection switch 312 that detects the position of the lock lever 304, and a key switch 313 that detects the position of the slide lever 307 with each other; an inside lever 315 that causes the door to be openable through the opening operation of the inside handle; and a cancel lever 316 engaged with the release member 302.
The engaging unit assembly 200 and the operation unit assembly 300 are accommodated in a case formed with the casing 301, a covering member 318 made of synthetic resin that covers an opening of the casing 301 on the vehicle interior side and is fixed to the casing 301 using a screw 317, a coupler cushion 319 fitted to the covering member 318 from an vehicle inside direction to protect the outer circumference of the coupler 310, a waterproof cover 320 made of synthetic resin that is fitted from above to prevent rainwater and the like from entering the case, and a waterproof seal 321 attached to a side surface of the covering member 318 on the vehicle interior side to prevent rainwater and the like from entering the vehicle interior side.
Next, the following describes the respective components of the operation unit assembly 300 in detail.
The casing 301 is made of synthetic resin, for example, and includes an operation unit assembly accommodating part 301a opened to the vehicle interior side, and a engaging unit assembly accommodating part 301b that extends from the rear end of the operation unit assembly accommodating part 301a toward the vehicle outside direction at a substantially right angle and is continuous to the operation unit assembly accommodating part 301a.
The end 207ac on the vehicle interior side of the first lever 207a of the outside lever 207 is coupled to a coupling part 302a of the release member 302, and the release member 302 interlocks with the outside lever 207. The release member 302 is brought into contact with and interlocks with the inside lever 315 rotated by the opening operation of the inside handle in the unlocked state.
A groove formed at the center of an upper side of the cam silencer 303 is engaged with an engaging part (not illustrated) formed on the vehicle exterior side of the worm wheel 309.
The lock lever 304 is incorporated in the operation unit assembly accommodating part 301a such that a shaft tube 304a facing a vehicle inside and outside direction is fitted to, from the vehicle interior side, a support shaft 301aa facing the vehicle interior side protruding from a side surface of the operation unit assembly accommodating part 301a. The lock lever 304 is urged toward the locked position when it is at the locked position, and is urged in the unlocked position when it is at the unlocked position, by a turnover spring 322.
A spring 323 is inserted into the shaft tube 304a of the lock lever 304, and the release member 302 is mounted thereon. As a result, the release member 302 is urged by the spring 323 in a direction in which the release member 302 is disengaged from the pole 206 (the lower side in
The position of the lock lever 304 is switched between the locked position at which the release member 302 is not engaged with the pole 206, and the unlocked position at which the release member 302 is engaged with the pole 206, through an operation of the slide lever 307 or the motor 308.
The key access 306 is rotated by the locking operation and the unlocking operation of a key cylinder (not illustrated) arranged on the outer panel of the door.
The slide lever 307 is mounted into the operation unit assembly accommodating part 301a from the vehicle interior side. The slide lever 307 moves in a vertical direction interlocking with the key access 306, and switches the lock lever 304 between the locked position and the unlocked position.
The motor 308 is mounted into an opening 314a formed at a substantially center portion of the switch plate 314 from the vehicle interior side. The worm 308a fixed to the rotor shaft of the motor 308 engages with the worm wheel 309 so as to rotate forward and backward, and switches the lock lever 304 between the locked position and the unlocked position.
A shaft hole 309a at the center of the worm wheel 309 is fitted to a support shaft 301ab that faces the vehicle interior side and protrudes from the center portion of the operation unit assembly accommodating part 301a. Accordingly, the worm wheel 309 is mounted into the operation unit assembly accommodating part 301a from the vehicle interior side. Teeth formed on the outer circumference of the worm wheel 309 engage with the worm 308a of the motor 308, and an engaging part thereof formed on the vehicle exterior side engages with the cam silencer 303. As a result, the worm wheel 309 switches the lock lever 304 between the locked position and the unlocked position with the rotation of the motor 308.
The inside lever 315 is mounted into the operation unit assembly accommodating part 301a from the vehicle interior side such that a shaft hole 315a at an upper end of the inside lever 315 is fitted to a support shaft 301ac facing the vehicle interior side that protrudes from a side surface of a rear side end of the operation unit assembly accommodating part 301a and is inserted through a spring 324. The inside lever 315 is urged by the spring 324 to be rotated in a direction to return the opening operation of the inside handle to the standby state (counterclockwise in
The cancel lever 316 is engaged with the release member 302. With the cancel lever 316, when a locking operation is performed on a lock knob to be in a locked state with a door opened and the door is closed as it is, the locked state is canceled at the time when the door is closed and switched to the unlocked state, and when a locking operation is performed on the lock knob to be in the locked state with the door opened and the door is closed while performing the opening operation on the outside handle, the locked state is not canceled.
Next, the following describes an operation of the operation unit assembly 300.
First, the following describes a case in which the door is in the locked state, that is, the lock lever 304 is at the locked position.
First, as illustrated in
Next, when the door-opening operation is performed on the outside handle, the first lever 207a of the outside lever 207 rotates in the arrow A22 direction interlocking with the second lever 207b of the outside lever 207. In this case, the end 207ac of the first lever 207a is coupled to the coupling part 302a of the release member 302, so that the release member 302 interlocks with the rotation of the first lever 207a. In this case, even when the release member 302 moves upward as indicated by the arrow A23 in the locked state, an engaging part 302b of the release member 302 is not brought into contact with the release lever 206c of the pole 206 and is idle, so that the closed state of the door is maintained.
As described above, the operation unit assembly 300 operates such that the closed state of the door is maintained even when the opening operation is performed on the inside handle or the outside handle in the locked state.
Next, the following describes a case in which the door is in the unlocked state, that is, the lock lever 304 is at the unlocked position.
In the unlocked state of the door, the lock lever 304 is at the unlocked position rotated clockwise from the locked position as indicated by the arrow A24. Interlocking therewith, the release member 302 is positioned on the rear side as compared with the locked state as indicated by the arrow A25.
As illustrated in
Next, when the door-opening operation is performed on the outside handle, the second lever 207b of the outside lever 207 is pulled in the arrow A31 direction. The first lever 207a of the outside lever 207 then rotates in the arrow A32 direction interlocking with the second lever 207b. In this case, the end 207ac of the first lever 207a is coupled to the coupling part 302a of the release member 302, so that the release member 302 moves upward interlocking with the rotation of the first lever 207a as indicated by the arrow A28. The engaging part 302b of the release member 302 is brought into contact with the release lever 206c of the pole 206, so that the pole 206 is rotated as indicated by the arrow A29. As a result, the pole 206 is disengaged from the latch 205, the latch 205 rotates as indicated by the arrow A30, and the engaging between the latch 205 and the striker is released. In this state, when the door-opening operation is performed in the vehicle outside direction, the door is caused to be in the opened state.
As described above, the operation unit assembly 300 operates such that the door is caused to be in the opened state when the opening operation is performed on the inside handle or the outside handle in the unlocked state.
Subsequently, the following describes a process of assembling the engaging unit assembly 200. First, the latch shaft 204 is inserted into the shaft hole 202b of the cover plate 202, and the cover plate 202 is set as it is on an automatic assembly line and the like so that the front side of the cover plate 202 faces upward. The latch 205 is overlapped thereon so that the latch shaft 204 is inserted into the shaft hole 205a. The body 201 is further overlapped thereon so that the latch shaft 204 is inserted into the shaft hole 201d.
Next, the bumper rubber 208 is inserted into the bumper rubber mounting hole 201f on the front side of the body 201. The spring 209 is mounted so that the end 209a is hooked to the hooked part 201g on the front side of the body 201 and the other end 209b is hooked to the engaging part 205b of the latch 205.
Subsequently, the pole 206 is inserted into the Pole mounting hole 201e on the front side of the body 201. The spring 210 is mounted so that the end 210a is hooked to the hooked part 201h of the body 201 and the other end 210b is hooked to the engaging part 206e of the pole 206.
Next, as illustrated in
The pivot 201b of the body 201 is inserted into the shaft hole 207ba of the second lever 207b so that the second lever 207b is overlapped with the front side of the first lever 207a as illustrated in
The small-diameter shaft part 204a of the latch shaft 204 is unrotatably press-fitted into the shaft hole 203b of the back plate 203. In this case, the screw hole 203d of the back plate 203 is caused to be overlapped with the through hole 202d of the cover plate 202 and the through hole 201j of the body 201. As illustrated in
The outside lever in the related art is rotatably fixed to the casing of the operation unit assembly with a screw. That is, a screwing process has been required to mount the outside lever.
However, in the door latch device 100, the outside lever 207 is mounted such that the pivot 201b of the body 201 of the engaging unit assembly 200 is inserted through the shaft hole 207aa of the first lever 207a and the shaft hole 207ba of the second lever 207b. As a result, the outside lever 207 is integrated with the engaging unit assembly 200, so that another screwing process is not required to mount the outside lever 207. In other words, the door latch device 100 is a door latch device for a vehicle the assembling efficiency of which is improved.
In addition, the door latch device 100 exhibits an effect of reducing the number of components because it eliminates the need for a screw for the screwing process.
The engaging unit assembly 200 is integrally formed by fixing the cover plate 202 to the back plate 203 with the body 201 interposed therebetween using the latch shaft 204 and the bolt V1. The cross-shaped projection of the body 201 is then fitted into the cross-shaped hole 203a of the back plate 203 and they are fixed to each other. As a result, the outside lever 207 is rotatably fixed to the engaging unit assembly 200 so as not to be detached. Thus the door latch device 100 is a door latch device for a vehicle the assembling efficiency of which is improved because the screwing process is not required.
Typically, to fix a shaft into a shaft hole, the distal end of the shaft needs to be caulked to be fixed. Examples of a caulking process include rolling caulking. The caulking process requires at least a little less than one second, which is a process taking a longer time than other processes. Due to this, when the number of such caulking processes is large in the assembling process of the door latch device that takes about several seconds as a whole, the assembling efficiency is decreased.
However, the door latch device 100 requires no caulking process in mounting the outside lever 207 due to the configuration described above. Thus the door latch device 100 is a door latch device for a vehicle the assembling efficiency of which is improved.
As described above, the outside lever has been mounted on the operation unit assembly side in the related art, so that a spring for urging the outside lever needs to be arranged between the outside lever and the engaging unit assembly. This arrangement degrades a mounting property of the spring, and the spring may come off in an assembling work. In addition, because the spring is disposed between the outside lever and the engaging unit assembly, the size of the door latch device has been disadvantageously increased.
However, in the door latch device 100, the spring 211 is accommodated in the spring accommodating part 201c of the body 201, and the back plate 203 is fixed thereon via the first lever 207a and the second lever 207b. As a result, the spring 211 is accommodated in a space enclosed by the body 201 and the back plate 203 and is prevented from coming off. Thus, the door latch device 100 is a door latch device for a vehicle the mounting property of which is improved.
The spring 211 is accommodated in a space enclosed by the body 201 and the back plate 203, so that a space for disposing the spring 211 is not required between the outside lever 207 and the engaging unit assembly 200. Thus, the door latch device 100 is a downsized door latch device for a vehicle.
Typically, a process of tightly inserting another member between two members requires a complicated process of applying a force to at least the two members at the same time. However, the assembling process of the door latch device 100 includes the mounting process of the spring, the temporary mounting process of the lever, and the mounting process of the lever, which are processes of applying a force to one of the spring 211 and the first lever 207a. As a result, the door latch device 100 is a door latch device for a vehicle that requires no complicated process and has an improved mounting property.
As described above, the door latch device 100 according to the embodiment is a door latch device for a vehicle the assembling efficiency of which is improved, and a method of assembling the door latch device 100 is a method of assembling the door latch device for a vehicle the assembling efficiency of which is improved.
In the above embodiment, the door latch device for a vehicle is arranged on the door side, and the striker is arranged on the vehicle body side. However, the door latch device for a vehicle is not limited thereto. That is, the door latch device for a vehicle can be applied in a case in which the door latch device for a vehicle is provided on the vehicle body side and the striker is provided on the door side.
In the above embodiment, the door latch device for a vehicle is attached to the front side door of the automobile. Naturally, the door latch device for a vehicle according can also be attached to a rear door.
In the above embodiment, the door latch device for a vehicle is attached to the right door of the automobile. When the door latch device for a vehicle is attached to the left door of the automobile, the configuration may be bilaterally symmetrical to the above configuration with respect to a plane along a front and rear direction of the vehicle.
In the above embodiment, the distal end of the pivot of the body is the cross-shaped projection, which is fitted into the cross-shaped hole of the back plate. However, the door latch device for a vehicle is not limited thereto. That is, it is sufficient that the shape of the distal end of the pivot of the body is identical to the shape of the shaft hole of the back plate, and the distal end is fitted into the shaft hole to allow the positions of the body and the back plate to be fixed each other. For example, the shape thereof may be a polygon.
The door latch device for a vehicle is a door latch device for a vehicle the assembling efficiency of which is improved, and the method of assembling a door latch device for a vehicle is a method of assembling the door latch device for a vehicle the assembling efficiency of which is improved.
Although the invention has been described with respect to specific embodiments for a complete and clear disclosure, the appended claims are not to be thus limited but are to be construed as embodying all modifications and alternative constructions that may occur to one skilled in the art that fairly fall within the basic teaching herein set forth.
Number | Date | Country | Kind |
---|---|---|---|
2014-220836 | Oct 2014 | JP | national |
Number | Name | Date | Kind |
---|---|---|---|
4756563 | Garwood | Jul 1988 | A |
5516164 | Kobayashi | May 1996 | A |
7478846 | Yoshikuwa | Jan 2009 | B2 |
9180798 | Suzumura | Nov 2015 | B2 |
20090199605 | Spurr | Aug 2009 | A1 |
20110204675 | Sonnek | Aug 2011 | A1 |
20120110920 | Takagi | May 2012 | A1 |
20120181798 | Margheritti | Jul 2012 | A1 |
20120256429 | Nagaoka | Oct 2012 | A1 |
20120292927 | Vazquez | Nov 2012 | A1 |
20120299313 | Organek | Nov 2012 | A1 |
20130056996 | Akizuki | Mar 2013 | A1 |
20130285389 | Akizuki | Oct 2013 | A1 |
20140217753 | Bendel | Aug 2014 | A1 |
20140284944 | Rosales | Sep 2014 | A1 |
20150204121 | Bendel | Jul 2015 | A1 |
Number | Date | Country |
---|---|---|
2007197974 | Aug 2007 | JP |
2008063913 | Mar 2008 | JP |
2009167729 | Jul 2009 | JP |
2009235753 | Oct 2009 | JP |
2009235756 | Oct 2009 | JP |
2010189957 | Sep 2010 | JP |
2011140803 | Jul 2011 | JP |
2011153431 | Aug 2011 | JP |
4765123 | Sep 2011 | JP |
2012-233318 | Nov 2012 | JP |
2012211502 | Nov 2012 | JP |
Number | Date | Country | |
---|---|---|---|
20160123046 A1 | May 2016 | US |