KR101011129B1 - Power transmission structure for tempered glass doorlock - Google Patents

Abstract

PURPOSE: A power transmission structure of a tempered glass door lock is provided to prevent the bending displacement of a connector since power is transmitted by power generated by the pulling of a pair of connectors. CONSTITUTION: A power transmission structure of a tempered glass door lock is constituted as follows. A pair of guide grooves(33,43) are formed on the inner side of inner and outer cases(30,40) around fastening holes(30a,40a). Guides(31,41) formed with hanging shafts(31a,41a) on one end of the upper side are coupled with the guide groove. The hanging shafts of the guide groove are coupled with a rotator(32,42) formed with a pair of long holes. A projection shaft is eccentric in the rotator of the inner case.

Description

Power transmission structure for tempered glass doorlock

The present invention relates to a power transmission structure of the tempered glass door lock, and more particularly, the pair of connectors at the time of hanging or unlocking the tempered glass door lock is stable because the power is always transmitted by the pulling force, and thus the bending of the connector The present invention relates to a power transmission structure of a tempered glass door lock that not only prevents deformation but also smoothly transmits power.

In general, a door installed at an entrance of a building is often provided with glass so that the inside can be seen. In this case, the door glass is easily damaged by an external impact, and thus, tempered glass having good impact resistance is used to prevent it.

The tempered glass is equipped with a door lock for locking the door. At this time, the door is locked and released through rotation of a key cylinder formed on the outside of the door lock or a lock lever formed on the inside.

And the conventional tempered glass door lock is fixed to the through-hole of the "tempered glass door (D) in the domestic registered utility model No. 20-0271118, as shown in [Fig. 1] to [2] door (D In the door lock device for setting or releasing the lock, the support member 100 is fixed to the through hole of the door (D), the guide piece (140) is formed at the end; A first operation part 200 mounted to the support member 100 and operative to set or release the lock of the door D; a door D mounted to the support member 100 that is outside the door D; A second operating part 300 operative to set or release the lock; connect the support 220 of the first operating part 200 and the support 320 of the second operating part 300; The locking member of the tempered glass door, characterized in that the connecting member 400 is configured to have been disclosed.

At this time, the rotary spheres 230 and 330 rotated by the handle 270 and the key cylinder 350 of the first and second operating units 200 and 300 are coupled to the support units 220 and 320. Threads 231, 331, 223, and 323 are formed on the outer circumferential surfaces of the rotary holes 230 and 330 and the inner circumferential surfaces of the guide holes 222 and 322 of the support holes 220 and 320, respectively, to transmit the rotational force.

However, the locking device of the tempered glass door is a structure in which power is transmitted by a band-shaped connecting member having a single horizontal structure, and when the locking or unlocking of the locking device is interrupted according to the rotational relationship between the handle or the key cylinder, The pulling force of the connecting member is stable, whereas the force of pushing the connecting member by the support on the contrary is due to the structural characteristics of the connecting member formed of a thin steel sheet. There was this.

In addition, the rotating sphere is a structure accommodated inside the guide hole is limited in size, and the screw thread formed on the outer circumferential surface of the rotary sphere and the inner circumferential surface of the guide hole to obtain a lot of rotational force to lock and unlock the tempered glass door Silver is inevitably formed, so the durability is significantly reduced, so the conventional locking device of the conventional tempered glass door has a serious problem that the screw thread is worn or broken to reach an inoperable state.

KR 20-0271118 Y1 2002. 03. 26, claim 1, drawing 4

Therefore, the present invention has been devised to solve the above problems, the pair of connectors at the time of hanging and unlocking the tempered glass door lock always transmits power by the pulling force is stable and thereby prevents bending deformation of the connector In addition, a smooth power transmission is achieved, and a pair of long holes are provided in the turning tool and the turning tool for converting the rotational force by the locking lever or the key cylinder into the linear motion to transmit power to the connector. It is formed and the guide hole is formed so that the locking shaft is accommodated in the long hole is generated by the projection shaft rather than the conventional gear system to prevent frequent breakage of the rotary ball and the guide port so that the door lock can be used semi-permanently The purpose is to provide a power transmission structure of the tempered glass door lock.

The power transmission structure of the tempered glass door lock according to the present invention for achieving the above object, the locking lever and the key cylinder, and a fastening hole is formed for each of the locking lever and the key cylinder, and guides and rotation for power transmission Inner / outer case provided with a sphere, a moving tool which is interlocked with the rotary hole of the inner case, a connector that is connected to the guide of the inner and outer case, coupled to the inner and outer case and in close contact with the tempered glass door In the power transmission structure of the tempered glass door lock consisting of a closing hole, a pair of guide grooves are formed in the longitudinal direction on the inner surface of the inner and outer cases, and the locking shaft is formed at one end of the upper surface of the guide groove. Guide holes of a predetermined length are formed is coupled, the locking shaft of the guide is coupled to the rotary sphere provided with a pair of long holes, to the rotary sphere of the inner case It characterized in that the axial projection that is accommodated in the movement sphere through hole configured to be eccentric.

In addition, a pair of guide grooves are formed on the inner surface of the inner and outer cases to guide the connector, and the guide grooves are coupled to the guide grooves so as to be guided without interference to the tempered glass door.

As described above, the present invention is stable because the pair of connectors always transmit power by a pulling force when hanging or unlocking the tempered glass door lock, thereby preventing the bending deformation of the connector and making a smooth power transmission. Will have an effect.

In addition, in the rotary tool and the guide for converting the rotational force by the locking lever or the key cylinder to the linear motion to transfer the power to the connector, a pair of long holes are formed in the rotary ball and the guide is accommodated in the long hole It is a very useful invention to use the door lock semi-permanently by preventing the frequent breakage of the rotation and guide because the power is generated by the projection shaft rather than the conventional gear system by forming the locking shaft is formed.

1-an exploded perspective view showing a conventional tempered glass door lock.
2-side cross-sectional view of the coupled state of FIG.
Figure 3-An exploded perspective view showing a tempered glass door lock according to the present invention.
4-3 is a perspective view showing the combined state of FIG.
5-reference state of use of the present invention.

The present invention for achieving the above objects and effects are described in detail by the accompanying drawings as follows.

As shown in FIG. 3, the power transmission structure of the tempered glass door lock 1 according to the present invention includes a lock lever 10 and a key cylinder 20, the lock lever 10 and a key cylinder 20. Fastening holes 30a and 40a are formed to fasten the inner and outer cases 30 and 40, respectively, having guide holes 31 and 41 and rotating holes 32 and 42 for power transmission. A moving tool 50 interlocked with the rotary hole 32 of the case 30, a connecting tool 60 connected to the guides 31 and 41 of the inner and outer cases 30 and 40, and the inner and In the power transmission structure of the tempered glass door lock coupled to the outer case 30, 40 and made of a finish opening 70 in close contact with the tempered glass door (A), the inner surface of the inner and outer cases (30, 40) A pair of guide grooves 33 and 43 are formed in the longitudinal direction with respect to the fastening holes 30a and 40a, and the guide grooves 33 and 43 have predetermined locking shafts 31a and 41a formed at one end of the upper surface thereof. Guides 31 and 41 of length are combined, The locking shafts 31a and 41a of the guide guides 31 and 41 are coupled to the rotary holes 32 and 42 provided with a pair of long holes 32a and 42a, and the rotary holes of the inner case 30. In the 32, the projection shaft 32b accommodated in the through hole 51 of the movable tool 50 is eccentric.

In addition, a pair of guide grooves 34 and 44 are formed on the inner surfaces of the inner and outer cases 30 and 40 to guide the connector 60, and the guide grooves 33 and 44 are made of tempered glass. The supports 35 and 45 are configured to be coupled so that the door A is guided without interference.

The lock lever 10 is a means for controlling the locking and unlocking of the door lock by the user's operation in the room side, the bottom of the lock lever 10 is formed with a fastener 11 and the lower inner side of the fastener 11 The fixing groove 11a is formed in the. At this time, the fixing groove (not shown) is formed in a polygonal shape so as to smoothly transmit the rotational force, and the end of the fixing protrusion (not shown) of the rotating tool 32 is also formed in a polygonal shape so as to correspond to the fixing groove. . That is, the fixing protrusion is inserted and coupled to the fixing groove so that the rotational force of the locking lever 10 is transmitted to the rotating hole 32.

The key cylinder 20 is a means for controlling the locking and unlocking of the door lock by key operation on the outdoor side, and is usually formed in a cylindrical shape. At this time, the coupling hole 42b is formed in the center of the rotary sphere 42 so that the end of the key cylinder 20 is coupled.

The inner and outer cases 30 and 40 are rectangular plate-shaped bodies having respective fastening holes 30a and 40a formed at the center for fastening the lock lever 10 and the key cylinder 20. A pair of guide grooves 33 and 43 are formed around the fastening holes 30a and 40a so that the guide holes 31 and 41 are inserted into the inner surfaces of the outer cases 30 and 40 so as to be movable left and right. .

At this time, engaging shafts 31a and 41a are formed at one end of the upper surface of the guides 31 and 41, and the engaging shafts 31a and 41a are accommodated in the long holes 32a and 42a of the rotary holes 32 and 42. Is coupled to, the rotary hole 32 of the inner case 30 is configured so that the projection shaft 32b accommodated in the through hole 51 of the moving port 50 is eccentric.

That is, the rotational force by the locking lever 10 or the key cylinder 20 is transmitted to the rotary holes 32 and 42, and the locking shaft 31a accommodated in the long holes 32a and 42a of the rotary holes 32 and 41. , 41a is guided according to the long hole, which causes the guide holes 31 and 41 provided with the locking shafts 31a and 41a to move from side to side in the guide grooves 33 and 43.

At this time, the end of the guide (31, 41) is fixed to the connector 60, the rotating tool (32, 42) so as not to interfere with the fixing means for fixing the connector 60, 42 is formed to have a shape close to a semicircle.

And the fastening hole (40a) of the outer case 40 is relatively larger in diameter than the fastening hole (30a) of the inner case 30 for the coupling of the key cylinder 20 of the outer case (40) The guide groove 43 is formed in a '-' shape, and the guide opening 41 is also formed in a '-' shape so as to correspond to the guide groove 43.

The movable tool 50 is a means for achieving the locking and unlocking of the door lock by being coupled to the rotary tool 32 of the inner case 30, the rotary tool in the through hole 51 formed on one side of the movable tool 50 The projection shaft 32b of 32 is coupled, and the pair of fixing rods 52 for locking and unlocking of the door lock are formed.

At this time, the rotating tool 32 receives the rotational force by the locking lever 10 to move the pair of guides 31 to the left and right, and at the same time to move the movable port 50 to the left and right to unlock the door lock You will be in charge.

The connector 60 is a means for transmitting the rotational force, that is, the power transmitted by the locking lever 10, the key cylinder 20, the rotary holes 32, 42, the guides 31, 41, a thin steel sheet Is formed in the shape of a band. At this time, both ends of the connector (60) is fixed to one end of the guide (31,41) inserted into the guide grooves (33, 43) of the inner and outer cases (30, 40), smooth induction of the connector (60) That is, a pair of guide grooves 34 and 44 are formed on the inner surfaces of the inner and outer cases 30 and 40 to move left and right, and the guide grooves 33 and 44 are provided in the tempered glass door A. Supports 35 and 45 are coupled so that the connector 60 is guided without interference.

The finish opening 70 is a 'c' shaped plate-shaped body coupled to the inner and outer cases 30 and 40 and is a conventional coupling means that is in close contact with the tempered glass door (A), the finish opening 70 Is coupled to the inner and outer cases 30 and 40 by a fastening means 71.

Referring to the operation of the present invention tempered glass door lock 1 having the above configuration in detail as follows.

First, when the lock lever 10 or the key cylinder 20 is rotated by a user's operation or a key operation for locking and unlocking the door lock, an inner / outer case connected to the lock lever 10 and the key cylinder 20. The rotating holes 32 and 42 of the 30 and 40 rotate, and the guide holes 31 and 41 are provided by the locking shafts 31a and 41a accommodated in the long holes 32a and 42a of the rotating holes 32 and 42. ) Is moved left and right along each guide groove (33, 43), each inner and outer case (30, by a pair of connectors 60 fixed to the ends of the guide (31, 41) 40) to transmit power.

At this time, the power is a pull force and a pushing force acts at the same time, the structural characteristics of the band-shaped connector 60 formed of the thin steel sheet, the power is a pull force acts preferentially because of the connector 60 Smooth power transmission is achieved while preventing bending deformation.

That is, when the lock lever 10 is operated in the room side, the lock lever 10, the rotary tool 32, the guide 31, the connector 60 is operated in sequence, the connector 60 Power is transmitted to the guide port 41 of the outer case 40 fixed at the end of the) and the power is applied to the guide port 41 of the outer case 40 because the pulling force is applied first. And at the same time to rotate the rotary sphere (42).

Of course, the protrusion shaft 32b formed to be eccentric to the rotation hole 32 of the inner case 30 is coupled to the through hole 51 of the movement hole 50, so that the lock lever 10 is rotated according to the rotation state. The moving tool 50 is moved left and right to perform the locking and unlocking of the door lock.

As described above, the present invention has been described by means of a limited embodiment, but the present invention is not limited thereto and is intended by the person skilled in the art to which the present invention pertains to the technical spirit of the present invention and the claims to be described below. Various modifications and variations are possible within the scope of equivalents.

* Description of the symbols for the main parts of the drawings *
1: the present invention tempered glass door lock
10: lock lever 20: key cylinder
30: inner case 40: outer case
31, 41: guide 31a, 41a: locking shaft
32, 42: Rotator 32a, 42a: Long hole
32b: projection shaft 33,43: guide groove
34,44: guide groove 35,45: support
50: mobile device 51: through hole
60: connector 70: closure
A: tempered glass door

Claims (2)

Fastening holes 30a and 40a are formed to lock the lock lever 10 and the key cylinder 20, and the lock lever 10 and the key cylinder 20, respectively, and guides 31 and 41 for power transmission. And inner and outer cases 30 and 40 provided with the rotating holes 32 and 42, a moving tool 50 interlocked with the rotating holes 32 of the inner case 30, and the inner and outer cases. The connector 60 connected to the guides 31 and 41 of the 30 and 40, and the finishing hole 70 to be coupled to the inner and outer cases 30, 40 and in close contact with the tempered glass door (A) Is configured, but the engaging shaft (31a, 41a) of the guide (31, 41) is coupled to the rotary holes (32, 42) provided with a pair of long holes (32a, 42a), the inner case (30) In the rotation hole 32 of the power transmission structure of the tempered glass door lock is configured so that the projection shaft (32b) accommodated in the through hole 51 of the movable hole 50,
On the inner surfaces of the inner and outer cases 30 and 40, a pair of guide grooves 33 and 43 are formed in the longitudinal direction with respect to the fastening holes 30a and 40a, and the guide grooves 33 and 43 Guide holes 31 and 41 of a predetermined length having engaging shafts 31 a and 41 a are formed at one end of the upper surface, and a band-shaped connector 60 is coupled to the ends of the guides 31 and 41. Power transmission structure of the tempered glass door lock, characterized in that.
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