JP7266833B1 - Locking handle structure - Google Patents

Abstract

A locking handle structure that can be downsized. A locking device includes a first handle and a second handle that are turnably provided on a first mounting seat and a second mounting seat, respectively, a lock bar, and a locking mechanism provided on the first mounting seat. The mechanism has a first locking piece pivoted integrally with the first handle, a second locking piece pivoted integrally with the lock bar, and a lock block 30 . A concave portion 300 is formed in the facing portion, and a first sliding portion 301 and a second sliding portion 302 are formed on both sides of the concave portion 300. When the second handle is lifted, the second lock is pushed through the lock bar. The second lock piece pushes the first sliding portion 301 to turn the lock block 30, and brings the second sliding portion 302 of the lock block 30 closer to the first lock piece, thereby causing the second locking piece to rotate. The sliding portion 302 restricts reverse rotation of the first lock piece due to depression of the first handle. [Selection drawing] Fig. 6

Description

The present invention relates to a locking handle construction for use on doors or windows.

CN107829603A discloses a locking handle structure with a locking mechanism.

However, in the locking handle structure described in CN107829603A, the locking mechanism includes a sliding plate that can slide along the longitudinal direction of the locking handle structure, so that a space for sliding the sliding plate is secured. Therefore, there is a problem that it is impossible to sufficiently reduce the size of the locking handle structure.

SUMMARY OF THE INVENTION Accordingly, it is an object of the present invention to provide a lock-type handle structure that can be downsized.

According to one aspect of the invention, there is provided a locking handle arrangement for use on a door or window, comprising a first handle pivotally mounted on a first mounting seat and a second handle pivotally mounted on a second mounting seat. A second handle, a lock bar interlocking with a latch, and a lock mechanism provided on the first mounting seat, wherein the lock mechanism is a first lock piece provided so as to be capable of rotating integrally with the first handle. a second lock piece provided coaxially with the first lock piece so as to be able to rotate integrally with the lock bar; and a lock block provided non-coaxially with the first lock piece and the second lock piece. a concave portion is formed at a portion facing the first locking piece and the second locking piece on the outer circumference of the lock block, and a first sliding portion and a second sliding portion are formed on both sides of the lock block in the concave portion A sliding portion is formed to rotate the second lock piece through the lock bar as the second handle rotates in one direction, so that the second lock piece rotates the lock block. By pushing the sliding portion and bringing the second sliding portion of the lock block close to the first locking piece, the second sliding portion moves the second sliding portion along with the turning of the first handle in the other direction. The reverse rotation of the first lock piece is restricted, the second lock piece is reversely rotated through the lock bar as the second handle is rotated in the other direction, and the second lock piece reverses the lock block. By pushing the second sliding portion to pivot and separating the second sliding portion from the first locking piece, the second sliding portion causes the first handle to pivot in the other direction. A locking handle structure is provided that permits reverse pivoting of the first locking piece associated with.

According to aspects of the present invention, it is possible to reduce the size of the locking handle structure.

FIG. 1 is a perspective view showing a locking handle structure according to the first embodiment. FIG. FIG. 2 is a cross-sectional view showing the locking handle structure according to the first embodiment. FIG. 3 is an exploded view showing the first handle and first mounting seat according to the first embodiment. FIG. 4 is an exploded view (another viewpoint) showing the first handle and the first mounting seat according to the first embodiment. FIG. 5 is an exploded view showing the second handle and second mounting seat according to the first embodiment. 6 is a front view showing a locked state of the lock block according to the first embodiment; FIG. FIG. 7 is a front view showing the locked state of the lock block (with the first lock piece removed) according to the first embodiment. 8 is a front view showing an unlocked state of the lock block according to the first embodiment; FIG. FIG. 9 is a perspective view showing the locking handle structure according to the second embodiment. FIG. 10 is a cross-sectional view showing a locking handle structure according to the second embodiment. FIG. 11 is an exploded view showing the first handle and first mounting seat according to the second embodiment. FIG. 12 is an exploded view (another viewpoint) showing the first handle and the first mounting seat according to the second embodiment. FIG. 13 is an exploded view showing a second handle and a second mounting seat according to the second embodiment. FIG. 14 is a perspective view showing a locked state of the lock block according to the second embodiment. FIG. 15 is a perspective view showing an unlocked state of the lock block according to the second embodiment. FIG. 16 is a perspective view showing a state in which the cylinder drives the lock block by the lock mechanism in the second embodiment. FIG. 17 is a perspective view showing a first mounting seat according to a modification. FIG. 18 is a front view showing an unlocked state of the lock block according to the modification.

Hereinafter, modes for carrying out the present invention (hereinafter referred to as embodiments) will be described with reference to the accompanying drawings. In addition, in this specification, the same code|symbol is attached|subjected to the same element through the whole.

(First embodiment)
Next, the locking handle structure according to the first embodiment will be described with reference to FIGS. 1 to 8. FIG.

As shown in FIGS. 1 to 8, the locking handle structure according to the first embodiment is used for a door or window, and includes a first handle 1 pivotally mounted on a first mounting seat 2 and a , a second handle 6 rotatably provided on the second mounting seat 5 , a lock bar 4 interlocking with a latch 40 (see FIG. 9), and a locking mechanism 3 provided on the first mounting seat 2 . . The second handle 6 is connected to one end of the lock bar 4 , and the first handle 1 is connected to the other end of the lock bar 4 via the lock mechanism 3 .

In the first embodiment, the lock mechanism 3 includes a first lock piece 31 provided so as to be able to rotate integrally with the first handle 1 and a second lock piece 31 provided coaxially with the first lock piece 31 so as to be integrally turnable with the lock bar 4 . 2 lock pieces 32 and a lock block 30 provided non-coaxially with the first lock piece 31 and the second lock piece 32 . The lock block 30 pivots between the lock position and unlock position of the first mounting seat 2 . The lock block 30 overlaps the first lock piece 31 and the second lock piece 32 in the axial direction of the pivot shaft of the first lock piece 31 , the second lock piece 32 , or the lock block 30 . The lock block 30 is positioned on one side (left side) of the lock mechanism 3 (specifically, the first lock piece 31 and the second lock piece 32). A position restoring device 7 is provided on the other side of the locking mechanism 3 (specifically, the first locking piece 31 and the second locking piece 32 ) in the first mounting seat 2 . That is, the first lock piece 31 and the second lock piece 32 are positioned between the lock block 30 and the position restoration device 7 .

A concave portion 300 is formed on the side of the lock block 30 facing the first locking piece 31 and the second locking piece 32 (that is, the portion facing the first locking piece 31 and the second locking piece 32 on the outer periphery of the lock block 30). ing. A first sliding portion 301 and a second sliding portion 302 are formed on both sides of the lock block 30 in the recess 300 . In the first embodiment, the first sliding portion 301 and the second sliding portion 302 respectively have a first sliding surface and a second sliding surface. The first sliding portion 301 and the second sliding portion 302 are provided symmetrically about the pivot axis of the lock block 30 . Two adjacent positioning holes 303 are formed at positions of the lock block 30 corresponding to the first sliding portion 301 . Similarly, two adjacent positioning holes 303 are formed at positions of the lock block 30 corresponding to the second sliding portion 302 . Two adjacent positioning holes 303 communicate with each other on the surface of the lock block 30 . Further, as shown in FIG. 8, in the first embodiment, all the positioning holes 303 are formed on the same circumference around the pivot axis of the lock block 30. As shown in FIG.

A positioning mechanism is provided in the first mounting seat 2 to position the lock block 30 at the locked position or the unlocked position. In the first embodiment, the positioning mechanism has a positioning member 8 and two positioning holes 303 . The positioning member 8 has a positioning recess 21 provided in the first mounting seat 2 , a positioning spring 81 placed in the positioning recess 21 , and a ball 82 connected to the tip of the positioning spring 81 . Two positioning holes 303 are formed in the lock block 30 so as to engage with the balls 82 . The ball 82 moves between one positioning hole 303 and the other positioning hole 303 as the lock block 30 turns. Specifically, when the ball 82 is engaged with one positioning hole 303, the lock block 30 is positioned at the locking position, and when the ball 82 is engaged with the other positioning hole 303, the lock block 30 is positioned in the unlocked position.

The first locking piece 31 has a substantially disk shape, and is formed by a first notch portion 310 formed on the side facing the lock block 30 (a portion facing the lock block 30 ) and a first notch portion 310 formed by the first notch portion 310 . It has an arcuate surface 311 , a regulation surface 312 positioned on one side (upper side) of the first arcuate surface 311 , and an avoidance surface 315 positioned on the other side (lower side) of the first arcuate surface 311 . The first circular arc surface 311 is close to the first sliding portion 301 or the second sliding portion 302 . When the first arcuate surface 311 approaches the second sliding portion 302 , the second sliding portion 302 abuts against the restricting surface 312 of the first locking piece 31 , so that the first locking piece 31 is reversed (reversed). clockwise) restricts turning.

The second lock piece 32 has a substantially disk shape, and is formed by a second notch portion 320 formed on the side facing the lock block 30 (a portion facing the lock block 30) and a second notch portion 320 formed by the second notch portion 320. It has an arcuate surface 321 and guide surfaces 322 positioned on both sides of the second arcuate surface 321 . The second lock piece 32 pushes the lock block 30 by sliding between the guide surface 322 and the first sliding portion 301 or the second sliding portion 302 , thereby moving the lock block 30 to the locked position of the first mounting seat 2 . and unlocked positions. The second sliding portion 302 approaches the second arcuate surface 321 when the lock block 30 is positioned at the lock position. On the other hand, when the lock block 30 is positioned at the unlock position, the first sliding portion 301 approaches the second circular arc surface 321 . The second locking piece 32 and the locking bar 4 are fixedly connected. Here, when the first arcuate surface 311 and the second arcuate surface 321 come close to the first sliding portion 301 or the second sliding portion 302, the minimum distance between the two becomes zero and they come into contact with each other. However, the first arcuate surface 311 or the second arcuate surface 321 does not push the first slide 301 or the second slide 302 to move.

A shift hole 313 is formed in the first lock piece 31 . The second lock piece 32 is provided with a transmission portion 323 that is inserted into the shift hole 313 . A clearance is formed between the transmission portion 323 (specifically, the transmission portion 323 inserted into the shift hole 313 ) and the shift hole 313 . Then, by turning (that is, lifting) the second handle 6 in one direction to turn the second lock piece 32 , the transmission part 323 turns the first lock piece 31 through the shift hole 313 . On the other hand, by rotating the second handle 6 in the opposite direction (that is, pressing it down) to drive the second lock piece 32 to rotate in the opposite direction, the transmission portion 323 rotates in the opposite direction in the shift hole 313, and the first lock The second lock piece 32 reverses the lock block 30 to the unlock position because the piece 31 does not rotate in the reverse direction with the second lock piece 32 due to the clearance, and the guide surface 322 pushes the second sliding portion 302 . swirl. In the first embodiment, the shift hole 313 is composed of two fan-shaped holes that communicate with each other and are provided symmetrically about the center. The second lock piece 32, the lock bar 4 and the transmission portion 323 are integrally provided. The transmission portion 323 has a linear shape when viewed from the front, and is inserted into two fan-shaped holes. As shown in FIG. 6, when the transmission portion 323 is turned clockwise, the transmission portion 323 comes into direct contact with one side wall of the shift hole 313 and turns the first locking piece 31 clockwise. On the other hand, when the transmission portion 323 is rotated counterclockwise, the transmission portion 323 rotates by a predetermined angle and then contacts the other side wall of the shift hole 313 (the side wall opposite to the one side wall). rotate counterclockwise. The predetermined angle is an angle for pushing the second sliding portion 302 of the lock block 30 so as not to interfere with the turning of the first lock piece 31 by turning the second lock piece 32 .

Both the first mounting seat 2 and the second mounting seat 5 are provided with an initial state restoring device 9 having a coil torsion spring 91 and a transmission piece 92 . The transmission piece 92 is formed with a non-circular hole as a connection hole that is connected to the first handle 1 or the second handle 6 by rotating integrally therewith. One side of the transmission piece 92 is provided with a projection 921 positioned between both ends of the coil torsion spring 91 . Both the first mounting seat 2 and the second mounting seat 5 are provided with stoppers 90 located between both ends of the coil torsion spring 91 . During turning of the transmission piece 92 , the projection 921 abuts one end of the coil torsion spring 91 , and the stopper 90 abuts the other end of the coil torsion spring 91 . A protrusion 314 is provided on the first lock piece 31 . The protrusion 314 is connected to the transmission piece 92 of the first mounting seat 2 , that is, the transmission piece 92 is pivoted integrally with the first locking piece 31 .

Both the first mounting seat 2 and the second mounting seat 5 are provided with a position restoring device 7 having a position restoring flat plate 71 as a position restoring plate and two position restoring springs 72 . One end of the two position restoring springs 72 contacts one surface of the position restoring flat plate 71 and the other end contacts the first mounting seat 2 or the second mounting seat 5 (specifically, these wall portions). touch. A position restoring plane 70 is formed on each of the outer peripheries of the transmission piece 92 , the first locking piece 31 and the second locking piece 32 . The position-restoring plane 70 contacts the other surface of the position-restoring flat plate 71 to hold the transmission piece 92 connected to the first lock piece 31 in the initial state in which the coil torsion spring 91 is not twisted. When the transmission piece 92 is in the initial state, the two guide surfaces 322 are provided symmetrically with respect to the position restoring flat plate 71, and the control surface 312 is adjacent to the upper guide surface 322 adjacent to the control surface 312 and the second guide surface 312 is provided. 2 sliding portion 302 . In this case, the two guide surfaces 322 of the second locking piece 32 are provided parallel to the position restoring plane 70 of the second locking piece 32 . Also, when the transmission piece 92 is in the initial state, the lower guide surface 322 is positioned between the first sliding portion 301 and the avoidance surface 315 . The avoidance surface 315 does not contact the first sliding portion 301 no matter how the first locking piece 31 and the second locking piece 32 rotate. As a result, the avoidance surface 315 does not interfere with the sliding between the guide surface 322 below the second lock piece 32 and the first sliding portion 301 . When the first locking piece 31 or the second locking piece 32 rotates, the contact with the position restoring flat plate 71 changes from surface contact to point contact, and the position restoring flat plate 71 is displaced, causing the two position restoring springs 72 to move. The restoring force (elastic force) of the two position restoring springs 72 restores the position of the first locking piece 31 or the second locking piece 32 .

When using the locking handle structure, by pivoting (i.e., lifting) the second handle 6 in one direction and pivoting the second locking piece 32 clockwise through the locking bar 4, When the lock bar 4 rotates clockwise, the latch 40 is extended (that is, the latch 40 is positioned at the locked position, which is also called locked), and the guide surface 322 below the second lock piece 32 moves toward the first sliding portion 301. turn until it abuts. When the second lock piece 32 turns further, sliding occurs between the lower guide surface 322 of the second lock piece 32 and the first sliding surface of the first sliding portion 301 , unlocking the lock block 30 . Push to pivot clockwise from locked position to locked position. That is, the second sliding portion 302 of the lock block 30 is brought close to the first arcuate surface 311 of the first locking piece 31 , and the upper restricting surface 312 of the first locking piece 31 contacts the second sliding portion 302 . This restricts the reverse rotation of the first lock piece 31 . At this time, the first lock piece 31 cannot be turned counterclockwise by turning (that is, pressing down) the first handle 1 in the other direction, and locking can be realized. When the second handle 6 is released, the initial state restoring device 9 restores the second handle 6 to the horizontal position as the initial position, and the position restoring device 7 restores the position of the second lock piece 32 to lock the handle. It is maintained that the block 30 restricts the reverse rotation of the first lock piece 31 .

Then, the second handle 6 is turned (that is, pushed down) in the other direction, and the second lock piece 32 is turned counterclockwise through the lock bar 4, so that the lock bar 4 moves counterclockwise. A reverse rotation about retracts the latch 40 (ie, the latch 40 is in the unlocked position, also known as unlocked). At this time, the upper guide surface 322 of the second lock piece 32 overcomes the restricting surface 312 and comes into contact with the second sliding surface of the second sliding portion 302, thereby moving the lock block 30 from the locked position to the unlocked position. The second sliding portion 302 of the lock block 30 is pushed away from the first arcuate surface 311 of the first lock piece 31 by pushing so as to rotate counterclockwise. That is, both unlocking and unlocking can be realized by pressing the second handle 6 . At the same time, the transmission portion 323 rotates in the shift hole 313 along with the second locking piece 32, and before the clearance between the transmission portion 323 and the shift hole 313 disappears, the rotation of the second handle 6 causes the first lock piece 32 to rotate. The steering wheel 1 is never turned. When the second handle 6 is released, the initial state restoring device 9 restores the second handle 6 to the horizontal position, the position restoring device 7 restores the position of the second lock piece 32, and the lock block 30 Reverse rotation of the first lock piece 31 is not restricted. At this time, when the first handle 1 is pushed down, the first lock piece 31 is turned counterclockwise, and the first lock piece 31 slides in the recess 300 to turn the second lock piece 32 counterclockwise. By rotating the lock bar 4 counterclockwise, that is, by operating the first handle 1, the lock can be freely unlocked.

(Second embodiment)
Next, a locking handle structure according to a second embodiment will be described with reference to FIGS. 9 to 16. FIG. In the second embodiment, descriptions of the same points as those of the first embodiment will be omitted, and differences from the first embodiment will be mainly described.

In the above-described first embodiment, the lock mechanism 3 has the first lock piece 31, the second lock piece 32 and the lock block 30, whereas in the second embodiment, as shown in FIGS. The lock mechanism 3 further has a third lock piece 33 in addition to the first lock piece 31 , the second lock piece 32 and the lock block 30 . The third locking piece 33 is positioned between the transmission piece 92 of the first mounting seat 2 and the first locking piece 31 . In the axial direction of the pivot shaft of the first locking piece 31, the second locking piece 32, the third locking piece 33, and the lock block 30, the lock block 30 has the first locking piece 31, the second locking piece 32, and the third locking piece. It overlaps with 33. A cylinder 11 is provided in the first handle 1 . The cylinder 11 is inserted through the non-circular hole of the transmission piece 92 of the first mounting seat 2 and rotates integrally with the third lock piece 33 . The third lock piece 33 has a substantially disk shape, and has a third cutout portion 330 formed at a location facing the lock block 30 so as to have substantially the same shape as the second cutout portion 320 , and a third cutout portion 330 facing the lock block 30 . a position restoring plane 70 formed at a place where the second arc surface 321 is formed by the third notch 330; That is, the outer peripheral contour shape of the third locking piece 33 and the outer peripheral contour shape of the second locking piece 32 match. The third lock piece 33 pushes the lock block 30 by sliding between the guide surface 322 and the first sliding portion 301 or the second sliding portion 302 , thereby moving the lock block 30 from the first mounting seat 2 . The third lock piece 33 is rotated between the lock position and the unlock position, and the position restoration plane 70 contacts the position restoration flat plate 71 . Specifically, an arc hole 331 is formed in the third lock piece 33 . The projection 314 of the first locking piece 31 penetrates the arc hole 331 and is connected to the transmission piece 92 of the first mounting seat 2 .

When the key is inserted into the cylinder 11 and the third lock piece 33 is rotated clockwise, the third lock piece 33 slides between the first sliding portion 301 and the guide surface 322 of the third lock piece 33 . pushes the lock block 30 by . Then, when the lock block 30 rotates clockwise, the second sliding portion 302 is brought closer to the second arcuate surface 321 , that is, the second sliding portion 302 is brought closer to the first arcuate surface 311 . The sliding portion 302 can restrict counterclockwise turning of the first locking piece 31 to achieve locking. When the key is released, the position restoring device 7 restores the position of the third locking piece 33, and the key can be extracted.

When the cylinder 11 rotates the third lock piece 33 counterclockwise, the third lock piece 33 pushes the second sliding portion 302 to rotate the lock block 30 in the reverse direction. are separated from the first circular arc surface 311 . Then, when the third lock piece 33 is further rotated in the reverse direction, the projection 314 moves within the arcuate hole 331 until it comes into contact with the side wall of the arcuate hole 331 . At this time, the third lock piece 33 reversely rotates the first lock piece 31, the first lock piece 31 moves in the recess 300 of the lock block 30, and the shift hole 313 of the first lock piece 31 is connected to the transmission portion. Through 323, the second locking piece 32 is turned counterclockwise. That is, the first lock piece 31 can turn the lock bar 4 counterclockwise to unlock and unlock the latch 40 . A user can implement functions such as locking, unlocking, and unlocking by operating the first handle 1 using a key.

(Modification)
Next, a positioning mechanism according to a modification will be described with reference to FIGS. 17 and 18. FIG. In the first and second embodiments, the description of the same points as those of the first and second embodiments will be omitted, and the points that are different from those of the first and second embodiments will be mainly described.

In the first and second embodiments described above, the positioning mechanism is composed of the positioning member 8 and the positioning recess 21, but is not limited to this. It may be configured to have at least a first magnet M1 provided on one of the first mounting seat 2 and two second magnets M2 provided on the other of the lock block 30 ( 17 and 18).

As shown in FIG. 17, the pair of first magnets M1 are provided on the first mounting seat 2 . Specifically, the pair of first magnets M1 are provided in the pair of positioning recesses 21 of the first mounting seat 2 . Also, as shown in FIG. 18, the two pairs of second magnets M2 are provided in the lock block 30. As shown in FIG. Each first magnet M1 corresponds to a pair (two) of second magnets M2. Also, the first magnet M1 and the second magnet M2 are provided so as to face each other. When the first magnet M1 and one second magnet M2 are attracted to each other, the lock block 30 is positioned at the lock position. On the other hand, when the first magnet M1 and the other second magnet M2 are attracted to each other, the lock block 30 is positioned at the unlock position.

Next, the effects of the first and second embodiments and modifications will be described.

A locking handle structure for a door or window, comprising: a first handle 1 pivotally mounted on a first mounting seat 2; a second handle 6 pivotably mounted on a second mounting seat 5; A lock bar 4 that interlocks with the latch 40 and a lock mechanism 3 provided on the first mounting seat 2 are provided. , a second lock piece 32 provided coaxially with the first lock piece 31 so as to be able to rotate integrally with the lock bar 4; a lock block 30 provided non-coaxially with the first lock piece 31 and the second lock piece 32; , and recesses 300 are formed at locations facing the first lock piece 31 and the second lock piece 32 on the outer periphery of the lock block 30, and first sliding portions 301 are formed on both sides of the lock block 30 in the recess 300. and a second sliding portion 302 are formed, and when the second handle 6 is turned (lifted) in one direction, the second lock piece 32 is turned through the lock bar 4, and the second lock piece 32 moves the lock block 30. By pushing the first sliding portion 301 so as to rotate and bringing the second sliding portion 302 of the lock block 30 close to the first locking piece 31 , the second sliding portion 302 moves to the first handle 1 as well as the first handle 1 . Restricts the reverse rotation of the first lock piece 31 accompanying turning (depressing) in one direction, and reverse turning of the second locking piece 32 through the lock bar 4 accompanying reverse turning (depression) of the second handle 6 in the other direction. Then, the second sliding portion 302 is pushed so that the second locking piece 32 rotates the lock block 30 in the reverse direction, and the second sliding portion 302 is separated from the first locking piece 31 to move the second sliding portion. Reference numeral 302 permits reverse turning of the first lock piece 31 accompanying turning (depressing) of the first handle 1 in the other direction.

According to this configuration, locking can be realized by lifting the second handle 6 by the locking mechanism 3, and unlocking and unlocking can be realized by pushing down the second handle 6. The operability of the handle structure can be improved, and each member constituting the lock mechanism 3 can be easily moved (turned). In particular, the second lock piece 32 can simplify the structure of the lock mechanism 3 simply by rotating the lock block 30, thereby stabilizing the operation of the lock handle structure and extending the service life. can. In addition, since the space for the first mounting seat 2 can be reduced compared to a lock mechanism having a sliding plate, it is possible to reduce the size of the lock handle structure as a whole.

The second lock piece 32 has a substantially disk shape, and includes a second cutout portion 320 formed in a portion facing the lock block 30, a second arcuate surface 321 formed by the second cutout portion 320, and a second cutout portion 320. 2 guide surfaces 322 located on both sides of the circular arc surface 321 , and the second lock piece 32 moves the lock block 30 by sliding between the guide surface 322 and the first sliding portion 301 or the second sliding portion 302 . is pushed to rotate the lock block 30 between the lock position and the unlock position of the first mounting seat 2, and when the lock block 30 is located at the lock position, the second sliding portion 302 moves to the second The first sliding portion 301 approaches the second arcuate surface 321 when the second arcuate surface 321 is approached and the lock block 30 is positioned at the unlocked position.

According to this configuration, the structure of the second lock piece 32 can be simplified, and the second lock piece 32 can easily push the lock block 30, so that the lock block 30 is in the locked position. and the unlocked position.

The first locking piece 31 has a substantially disc shape, and includes a first cutout portion 310 formed at a portion facing the lock block 30 , a first arcuate surface 311 formed by the first cutout portion 310 , and a first cutout portion 310 . and a restricting surface 312 located on one side of the first arcuate surface 311, the first arcuate surface 311 being close to the first sliding portion 301 or the second sliding portion 302, and the first arcuate surface 311 being the first sliding portion 301 or the second sliding portion 302. When approaching the second sliding portion 302 , the second sliding portion 302 contacts the restricting surface 312 of the first locking piece 31 to restrict reverse rotation of the first locking piece 31 .

According to this configuration, the structure of the first lock piece 31 can be simplified, the lock block 30 can be easily locked by the first lock piece 31, and depression of the first handle 1 can be easily restricted.

A shift hole 313 is formed in the first lock piece 31 , and a transmission portion 323 to be inserted into the shift hole 313 is provided in the second lock piece 32 or the lock bar 4 . , and the second handle 6 turns (lifts) in one direction to drive the second lock piece 32 to turn. 31 is turned, the second handle 6 is reversely turned (depressed) in the other direction, and the second lock piece 32 is driven to be reversely turned. The second lock piece 32 reverses the lock block 30 to the unlock position because the piece 31 does not rotate in the reverse direction with the second lock piece 32 due to the clearance, and the guide surface 322 pushes the second sliding portion 302 . swirl.

According to this configuration, since the second handle 6 does not turn the first handle 1 when unlocking, the lock mechanism 3 can be easily unlocked.

Both the first mounting seat 2 and the second mounting seat 5 are provided with a coil torsion spring 91 and a transmission piece 92, and the transmission piece 92 is connected to the first handle 1 or the second handle 6 by rotating integrally therewith. One side of the transmission piece 92 is provided with a convex portion 921 located between both ends of the coil torsion spring 91, and the first mounting seat 2 and the second mounting seat 5 are provided with a convex portion 921. Also, a stopper 90 positioned between both ends of the coil torsion spring 91 is provided, and when the transmission piece 92 turns, the transmission piece 92 abuts on one end of the coil torsion spring 91 by means of a convex portion 921 and the stopper 90 is in contact with the other end of the coil torsion spring 91 .

According to this configuration, the first handle 1 and the second handle 6 can be restored to their initial states by the coil torsion spring 91 and the transmission piece 92, thereby improving operability and mountability. In addition, since the coil torsion spring 91 receives force only when it is used, the service life can be extended.

Further, both the first mounting seat 2 and the second mounting seat 5 are provided with a position restoring device 7 having a position restoring flat plate 71 and a position restoring spring 72 , one end of the position restoring spring 72 It abuts on one surface and the other end abuts on the first mounting seat 2 or the second mounting seat 5, and the outer circumferences of the transmission piece 92, the first locking piece 31 and the second locking piece 32 are all restored. A flat surface 70 is formed, and the position restoring flat surface 70 comes into surface contact with the other surface of the position restoring flat plate 71 so that the transmission piece 92 connected to the first locking piece 31 is held in the initial state when the coil torsion spring 91 is not twisted. When the transmission piece 92 is in the initial state, the two guide surfaces 322 are provided symmetrically with respect to the position restoring flat plate 71, and the regulating surface 312 is adjacent to the regulating surface 312. It is located between the second sliding portion 302 .

According to this configuration, the position restoring device 7 can restore the first handle 1, the second handle 6 and the lock mechanism 3 to their initial positions (initial states), thereby stabilizing the operation of the locking handle structure. can be planned.

The lock mechanism 3 further has a third lock piece 33 positioned between the transmission piece 92 of the first mounting seat 2 and the first lock piece 31, and the first handle 1 is provided with a cylinder 11. , the cylinder 11 is inserted through the connection hole of the transmission piece 92 of the first mounting seat 2 and pivoted integrally with the third lock piece 33 . A third notch 330 formed at a location facing the lock block 30 so as to have substantially the same shape as the above, a position restoring plane 70 formed at a location facing the lock block 30, and the third notch 330 and guide surfaces 322 located on both sides of the second arc surface 321, and the third locking piece 33 is configured to be in contact with the guide surface 322 and the first sliding portion 301 or the second sliding portion. By pushing the lock block 30 by sliding with the portion 302, the lock block 30 is pivoted between the lock position and the unlock position of the first mounting seat 2, and the third lock piece 33 restores the position. The plane 70 abuts on the position restoring plate 71 .

According to this configuration, unlocking can be performed with a key, so the range of use can be expanded. In addition, the structure of the third lock piece 33 can be simplified, and such a third lock piece 33 can easily push the lock block 30 .

A circular hole 331 is formed in the third locking piece 33 , and a projection 314 is provided in the first locking piece 31 . 92 , the cylinder 11 pivots the third locking piece 33 , the protrusion 314 moves in the arc hole 331 , and the guide surface 322 of the third locking piece 33 moves the first sliding portion 301 . After the third lock piece 33 is pushed, the arc hole 331 contacts the protrusion 314, and then the first lock piece 31 and the lock bar 4 are rotated.

According to this configuration, the third locking piece 33 is rotatably provided between the transmission piece 92 and the first locking piece 31, which facilitates the assembly of the locking handle structure and prevents the position from shifting. Become.

In addition, the locking handle structure further comprises a positioning mechanism provided within the first mounting seat 2, which positions the locking block 30 at the locked position or the unlocked position.

The positioning mechanism is a positioning member having a positioning recess 21 provided in the first mounting seat 2, a positioning spring 81 placed in the positioning recess 21, and a ball 82 connected to the tip of the positioning spring 81. 8 and two positioning holes 303 formed in the lock block so as to be engageable with the balls 82 , and the balls 82 move one positioning hole 303 and the other positioning hole 303 as the lock block 30 turns. 303 and the lock block 30 is positioned at the lock position when the ball 82 is engaged with one of the positioning holes 303, and when the ball 82 is engaged with the other positioning hole 303 , the lock block 30 is positioned in the unlocked position.

According to these configurations, the lock block 30 is positioned at the locked position or the unlocked position by the positioning mechanism, so that excessive turning of the lock block 30 can be avoided, and the performance of the locking handle structure can be improved. can be improved.

Also, the two positioning holes 303 communicate with each other.

This configuration makes it easier to move the ball 82 between the two positioning holes 303 .

In addition, the positioning mechanism includes a first magnet M1 provided on one of the first mounting seat 2 and the lock block 30, and a first magnet M1 provided on the other of the first mounting seat 2 and the lock block 30. and two second magnets M2, and when the first magnet M1 and one of the second magnets M2 are attracted to each other, the lock block 30 is positioned at the lock position and the first magnet M1 and the other The lock block 30 is positioned at the unlock position when the second magnets M2 are attracted to each other.

According to this configuration, the positioning mechanism can be easily realized by the first magnet M1 and the two second magnets M2, so that the locking handle structure can be easily assembled.

Although the embodiments of the present invention have been described above, the above embodiments merely show a part of application examples of the present invention, and the technical scope of the present invention is not limited to the specific configurations of the above embodiments. do not have.

1 First Handle 2 First Mounting Seat 3 Lock Mechanism 4 Lock Bar 5 Second Mounting Seat 6 Second Handle 30 Lock Block 31 First Lock Piece 32 Second Lock Piece 300 Recess 301 First Sliding Part 302 Second Slide Department

Claims (12)

A locking handle structure for a door or window, comprising:
a first handle pivotally mounted on the first mounting seat;
a second handle pivotally mounted on the second mounting seat;
a locking bar that engages with the latch;
a locking mechanism provided on the first mounting seat,
The locking mechanism is
a first locking piece provided so as to be pivotable integrally with the first handle;
a second lock piece provided coaxially with the first lock piece so as to be able to rotate integrally with the lock bar;
a lock block provided non-coaxially with the first lock piece and the second lock piece,
A concave portion is formed in a portion facing the first lock piece and the second lock piece on the outer circumference of the lock block,
A first sliding portion and a second sliding portion are formed on both sides of the lock block in the recess,
As the second handle is turned in one direction, the second lock piece is turned through the lock bar, and the second lock piece pushes the first sliding portion so as to turn the lock block; By bringing the second sliding portion of the lock block close to the first locking piece, the second sliding portion can rotate the first locking piece in the opposite direction as the first handle turns in the other direction. regulate the
As the second handle is turned in the opposite direction, the second lock piece is turned in the opposite direction through the lock bar, and the second sliding portion is moved so that the second lock piece turns the lock block in the opposite direction. By pushing the second sliding portion away from the first locking piece, the second sliding portion prevents the first locking piece from turning in the opposite direction when the first handle turns in the other direction. To give permission,
Locking handle structure. The second lock piece has a substantially disc shape, and includes a second cutout portion formed in a portion facing the lock block, a second arcuate surface formed by the second cutout portion, and the second arcuate surface. and guide surfaces located on both sides of
The second lock piece pushes the lock block by sliding between the guide surface and the first sliding portion or the second sliding portion, thereby moving the lock block to the locked position of the first mounting seat. and unlocked positions,
when the lock block is positioned at the lock position, the second sliding portion is close to the second arcuate surface;
When the lock block is positioned at the unlocked position, the first sliding portion is close to the second arcuate surface.
The locking handle structure according to claim 1. The first locking piece has a substantially disk shape, and includes a first notch formed in a portion facing the lock block, a first arcuate surface formed by the first notch, and the first arcuate surface. a regulating surface located on one side of the
The first arcuate surface is close to the first sliding portion or the second sliding portion,
When the first arcuate surface comes close to the second sliding portion, the second sliding portion comes into contact with the regulating surface of the first locking piece to prevent the first locking piece from rotating in the reverse direction. regulate,
3. The locking handle structure according to claim 2. A shift hole is formed in the first lock piece,
The second lock piece or the lock bar is provided with a transmission portion that is inserted into the shift hole,
A clearance is formed between the transmission portion and the shift hole,
When the second handle turns in one direction to turn the second lock piece, the transmission unit turns the first lock piece through the shift hole,
When the second handle reversely turns in the other direction to drive the second locking piece to reversely turn, the transmission portion turns reversely in the shift hole, and the first locking piece is moved to the second position by the clearance. The second lock piece rotates the lock block in the opposite direction to the unlock position by pushing the second sliding portion with the guide surface without rotating in the opposite direction along with the second lock piece.
The locking handle structure according to claim 3. Both the first mounting seat and the second mounting seat are provided with a coil torsion spring and a transmission piece,
the transmission piece is formed with a connection hole that is integrally turned and connected to the first handle or the second handle,
one side of the transmission piece is provided with a convex portion located between both ends of the coil torsion spring,
both the first mounting seat and the second mounting seat are provided with a stopper located between the both ends of the coil torsion spring;
When the transmission piece turns, the transmission piece abuts one end of the coil torsion spring by the projection, and the stopper abuts the other end of the coil torsion spring.
5. The locking handle structure according to claim 4. Both the first mounting seat and the second mounting seat are provided with a position restoring device having a position restoring plate and a position restoring spring,
one end of the position restoring spring abuts on one surface of the position restoring plate and the other end abuts on the first mounting seat or the second mounting seat;
A position restoring plane is formed on each of outer peripheries of the transmission piece, the first locking piece and the second locking piece,
The position restoration plane is in surface contact with the other surface of the position restoration plate to hold the transmission piece connected to the first lock piece in an initial state in which the coil torsion spring is not twisted,
When the transmission piece is in the initial state, the two guide surfaces are provided symmetrically with respect to the position restoring plate, and the restricting surface includes the guide surface adjacent to the restricting surface and the second sliding surface. located between the moving parts,
The locking handle structure according to claim 5. The locking mechanism further has a third locking piece located between the transmission piece of the first mounting seat and the first locking piece,
The first handle is provided with a cylinder,
the cylinder is inserted through the connection hole of the transmission piece of the first mounting seat to rotate integrally with the third lock piece;
The third lock piece has a substantially disc shape, and has a third notch formed at a location facing the lock block so as to have substantially the same shape as the second notch, and a third notch facing the lock block. the position restoration plane formed at the point, the second arcuate surface formed by the third notch, and the guide surfaces located on both sides of the second arcuate surface,
The third lock piece pushes the lock block by sliding between the guide surface and the first sliding portion or the second sliding portion, thereby moving the lock block to the position of the first mounting seat. pivoted between the lock position and the unlock position, and the third lock piece contacts the position restoration plate with the position restoration plane;
The locking handle structure according to claim 6. A circular arc hole is formed in the third lock piece,
A protrusion is provided on the first lock piece,
the projection passes through the arcuate hole and is connected to the transmission piece of the first mounting seat, the cylinder rotates the third lock piece, the projection moves in the arcuate hole,
After the guide surface of the third lock piece pushes the first sliding portion to move, the third lock piece is pushed so that the arc hole abuts the protrusion, and then the first lock piece and the pivoting the locking bar;
The locking handle structure according to claim 7. further comprising a positioning mechanism provided within the first mounting seat,
the positioning mechanism positions the lock block at the locked position or the unlocked position;
3. The locking handle structure according to claim 2. The positioning mechanism includes a positioning member having a positioning recess provided in the first mounting seat, a positioning spring placed in the positioning recess, and a ball connected to a tip of the positioning spring; and two locating holes formed in the lock block engagable with
the ball moves between one of the positioning holes and the other of the positioning holes as the lock block turns;
The lock block is positioned at the lock position when the ball is engaged with one of the positioning holes,
The lock block is positioned at the unlock position when the ball is engaged with the other positioning hole,
10. The locking handle structure according to claim 9. the two positioning holes are in communication with each other;
11. The locking handle structure according to claim 10. The positioning mechanism includes a first magnet provided on one of the first mounting seat and the lock block, and two magnets provided on the other of the first mounting seat and the lock block. a second magnet;
the lock block is positioned at the lock position when the first magnet and one of the second magnets are attracted to each other;
the lock block is positioned at the unlock position when the first magnet and the other second magnet are attracted to each other;
10. The locking handle structure according to claim 9.

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