JP4299067B2 - Lock set - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention comprises a locking device in which a dead bolt protrudes from a body when locked and a dead bolt is immersed in the body when unlocked, and a locking box which is embedded in a door frame and forms a space into which the dead bolt is inserted. It relates to a lock set .
[0002]
[Prior art]
Conventionally, the lock device of this type of lock set is equipped with a dead bolt slidable on the body embedded in the end of the door, and the dead bolt protrudes from the body and is locked to the door frame, thus being locked. Occasionally, the immersion control lever was configured to be locked to the dead bolt. This prevents an illegal act of pushing the dead bolt into the immersive side with a tool such as a bar. Moreover, the sickle member is provided in the dead bolt so that rotation is possible, and this sickle member was the structure latched to the upper edge part of the locking hole provided in the door frame (for example, patent document 1). reference).
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 11-44137 (paragraph [0022], FIG. 1)
[0004]
[Problems to be solved by the invention]
However, since the immersion control lever of the conventional locking device described above is inclined with respect to the sliding direction of the dead bolt and is in contact with the dead bolt, the immersion regulation of the dead bolt is not sufficient, and the dead bolt is impossible. There was a risk of being unlocked illegally by being pushed into the immersion direction. In addition, since the sickle member provided in the conventional locking device was configured to be locked at the upper edge of the locking hole, the entire door was shifted in the vertical direction, and the locking of the sickle member became shallower, and illegally There is a risk that the locking device may be unlocked.
[0005]
The present invention has been made in view of the above circumstances, and an object thereof is to provide a lock set capable of preventing unauthorized unlocking.
[0006]
[Means for Solving the Problems]
In order to achieve the above object, a locking device according to the invention of claim 1 includes a body embedded in an end portion of a door, and a body that is assembled to the body and slides between a locked position and an unlocked position. At the position, the door protrudes from the body and locks the door, while at the unlocked position, the dead bolt that immerses into the body and releases the lock, and the dead bolt of the body is placed in the place where the dead bolt is inserted. A cam rotating member that rotates about the rotating shaft that faces, and a cam rotating member that is provided on the cam rotating member and is abutted against an end surface facing the immersive side of the dead bolt at the locking position, thereby immersing the dead bolt. A cam abutting portion that is arranged so as to be regulated and aligned in the sliding direction of the dead bolt, and the cam rotating member is rotated by the unlocking operation, so that the dead bolt and the cam abutting at the locking position are rotated. Matching with the department Together is released, in sliding contact with the portion of the cam contact portion is dead bolt, a locking device for immersive dead bolt unlocking position, is embedded in the door frame, constitutes an immersive destination space deadbolt It is a lock set consisting of a lock box, and the lock device opens to the tip of the dead bolt, and rotates to the dead bolt and the slit that receives the locked member that crosses the space where the dead bolt enters. When the dead bolt is in the unlocked position, the slit is opened, and when the dead bolt is in the locked position, a sickle member that closes the open side of the locked member of the slit is provided. The outer box fixed to the door frame, the slider accommodated inside the outer box so as to be movable up and down, and attached to the slider and received by the slit of the dead bolt Has a locked member, the characterized in that the engaged member is provided with a position biasing a matching means for biasing the slider so as to face the slit deadbolt being.
[0007]
According to a second aspect of the present invention, in the lock set according to the first aspect , a portion of the dead bolt that is abutted against the cam contact portion at the locking position has an arc surface corresponding to the rotation locus of the cam contact portion. It is characterized by where it is formed.
[0008]
According to a third aspect of the present invention, in the lock set according to the first or second aspect , the dead bolt is provided with a pair of opposed walls opposed in the thickness direction of the door, and the sickle member is a pair of opposed walls. The cam pin is pivotally supported by the shaft passed between the two, and is provided with a cam pin protruding toward the body. The body slides on the cam pin as the dead bolt slides, and rotates the sickle member. It is characterized in that a cam groove to be moved is formed.
[0009]
[Action and effect of the invention]
<Invention of Claim 1>
In the lock set of claim 1, when the dead bolt is in the locking position, the cam contact portion and the rotation shaft of the cam rotation member are aligned in the sliding direction of the dead bolt, and the cam contact portion is dead. Butted against the end face of the bolt. As a result, when the dead bolt is pushed in, the force applied to the cam contact portion is directed to the rotation center of the cam rotation member, and no rotation moment is generated, so that the dead rotation of the dead bolt is restricted by the cam rotation member. Is maintained, and an illegal immersion operation of the deadbolt can be prevented.
[0010]
In the lock set of the present invention, when the dead bolt moves to the locking position, the locked member is received in the slit provided in the dead bolt, and the open side of the slit is blocked by the sickle member. It is. In other words, when the dead bolt is in the locked position, the locked member is disposed in the closed space, and even if the entire door is displaced, the engagement between the locked member and the dead bolt does not become shallow, which is an illegal solution. Locking operation is prevented.
[0011]
Furthermore, in the lock set of the present invention, even when the entire door is shifted up and down with the dead bolt of the lock device engaged with the locked member of the locking box, the locked box is locked together with the door. The member moves up and down, the deformation of the locked member is prevented, and an unauthorized unlocking operation can be prevented.
[0012]
<Invention of Claim 2>
In the lock set according to claim 2, an arc surface corresponding to a turning locus of the cam contact portion when the cam turning member is rotated is formed in a portion of the dead bolt that contacts the cam contact portion at the locking position. Therefore, even if the direction of alignment of the rotation shaft of the cam rotation member and the cam contact portion is slightly inclined with respect to the sliding direction of the dead bolt, the dead bolt is pushed into the cam contact portion. Such force is directed to the rotation center of the cam rotation member, the rotation of the cam rotation member is restricted, and an illegal immersion operation of the dead bolt can be prevented.
[0013]
<Invention of Claim 3 >
In the lock set of claim 3 , since the sickle member is held between the pair of opposing walls provided for the dead bolt, the dead bolt and the sickle member reinforce each other, and the strength is increased.
[0014]
DETAILED DESCRIPTION OF THE INVENTION
<First Embodiment>
Hereinafter, an embodiment of the present invention will be described with reference to FIGS. 1-7.
The door indicated by reference numeral 90 in FIG. 1 is rotatably attached to one side (not shown) of the door frame 91 by a hinge (not shown). And the locking device 10 which concerns on this invention is embed | buried in the edge part on the opposite side to a hinge among the doors 90. FIG. A locking box 11 is embedded in a portion of the door frame 91 that faces the lock device 10.
[0015]
The detailed structure of the locking box 11 is shown in FIGS. As shown in FIG. 4, the locking box 11 includes a vertical slider 82 inside an outer box 81 embedded in the door frame 91. The outer box 81 has a box shape in which the front side facing the lock device 10 is open, and has a structure in which mounting pieces 81A and 81A protrude in the vertical direction from the upper and lower edges on the front surface. Further, from the bottom surface of the outer box 81, a spring locking wall 83 is formed upright by cutting out a part of the bottom surface into a protruding piece shape. A portion of the spring locking wall 83 is recessed backward to form a spring accommodating portion 84.
[0016]
The vertical slider 82 has a structure in which a pair of opposing walls 85, 85 laid on both side walls of the outer box 81 are connected by a front wall 86 and a rear wall 87. A large long hole 99 </ b> A and a small long hole 99 </ b> B are formed side by side in the advancing / retreating direction of the dead bolt 17 at a position closer to the upper end of the opposing walls 85 and 85. The front wall 86 is disposed on the lower front side of the front surface of the space sandwiched between the opposing walls 85, 85, while the rear wall 87 is disposed on the center of the rear surface. Further, a spring accommodating hole 88 corresponding to the spring accommodating portion 84 of the outer box 81 is formed in the front wall 86.
[0017]
The vertical slider 82 is accommodated in the outer box 81 with the front wall 86 disposed in front of the spring locking wall 83 in the outer box 81. Then, the spring accommodating hole 88 of the upper and lower sliders 82 and the spring accommodating portion 84 of the outer box 81 are overlapped, and the compression coil spring 96 (corresponding to the “alignment biasing means” of the present invention) is accommodated therein. Yes.
[0018]
A front plate 95 is attached to the front surface of the outer box 81. A rectangular window 95 </ b> W is formed on the front plate 95, and a lower edge portion of the rectangular window 95 </ b> W is overlapped with the front wall 86 of the vertical slider 82. Thereby, the compression coil spring 96 is held so as not to be detached from the spring accommodating hole 88 and the spring accommodating portion 84. Then, when the vertical slider 82 moves upward (see FIG. 7) and when the vertical slider 82 moves downward (see FIG. 6), the compression coil spring 96 is compressed and deformed. As a result, the vertical slider 82 is biased to an intermediate position of a stroke that can move up and down.
[0019]
A front / rear slider 92 is housed inside the upper / lower slider 82. The front / rear slider 92 has a structure in which a locking pin 12 (corresponding to the “locked member” of the present invention) is passed between both ends of a U-shaped base member 92B. Further, the locking pin 12 passes through one end side of the both side surfaces of the base member 92B, and both end portions thereof protrude laterally from one end portion of the base member 92B. Further, a sliding projection 94 projects from the other end of the base member 92B. Then, both end portions of the locking pin 12 are fitted into the large and long holes 99A of the upper and lower sliders 82, and the sliding projections 94 are fitted into the small and long holes 99B. Can be moved back and forth. Further, as shown in FIG. 5, a compression coil spring 97 is housed in a stretched state between the rear end surface of the front / rear slider 92 and the rear wall 87 of the upper / lower slider 82, thereby urging the front / rear slider 92 forward. Has been.
[0020]
Embosses 82E and 92E for locking the end portions of the compression coil springs 97 are formed on the rear end surface of the front / rear slider 92 and the rear surface wall 87 of the upper / lower slider 82, respectively.
[0021]
As shown in FIG. 1, the locking device 10 is formed by assembling various parts to a body 13 embedded in a door 90. The body 13 has a flat box shape, and the locking devices 10 are fixed to the door 90 by screwing projecting pieces 15 and 15 extending from the front end wall 14 to the end surface of the door 90. A dead bolt 17 is inserted into an insertion / extraction hole 16 formed through the front end wall 14 of the body 13. The dead bolt 17 is formed by bending a sheet metal into a groove shape, and has a shape in which a pair of opposing walls 19 and 19 (see FIG. 3) hang down from both edge portions of the upper surface wall 18. Further, a hook piece 40 which will be described later is continuously formed from the lower end portion of one opposing wall 19, and both the opposing walls 19, 19 have the same shape except for the hook piece 40.
[0022]
A notch 20A is provided at the upper edge of both opposing walls 19, and the projecting wall 20 extends from the portion of the top wall 18 corresponding to the notch 20A toward both sides. In addition, a pair of guide protrusions 21 and 21 are formed on both side walls 13A of the body 13 so as to be vertically aligned, and the protrusion wall 20 is slidably engaged between the guide protrusions 21 and 21. As a result, the locking position (see FIG. 1) in which the dead bolt 17 protrudes from the front end wall 14 of the body 13 and enters the locking box 11, and the dead bolt 17 retracts from the locking box 11 and enters the body 13. Slide between the unlocked position (see FIG. 2).
[0023]
A slit 22 that is opened forward in the sliding direction of the dead bolt 17 is formed at the tip of the dead bolt 17 that enters the locking box 11. As shown in FIG. 1, the dead bolt 17 is in the locked position. Then, the locking pin 12 is received in the slit 22.
[0024]
The dead bolt 17 is provided with a sickle member 23 sandwiched between the opposing walls 19 and 19. The sickle member 23 is rotatably supported by a shaft body 24 provided between the opposing walls 19 and 19. The shaft body 24 is disposed on the rear bolt lower side (the lower right side in FIG. 1) of the dead bolt 17. The sickle member 23 projects toward the front side from the shaft body 24, and the tip is upward. A sickle-shaped locking portion 25 that is bent is formed. A sickle cam pin 26 passes through a portion of the sickle member 23 opposite to the sickle-shaped locking portion 25 with the shaft 24 interposed therebetween. The sickle cam pin 26 projects to both sides of the dead bolt 17 through the interference prevention hole 27 formed in the opposing wall 19 of the dead bolt 17 and engages with the sickle cam groove 28 formed in the side wall 13A of the body 13. ing.
[0025]
The sickle cam groove 28 has a structure in which an end toward the front side (front end wall 14 side) is bent downward. Accordingly, when the dead bolt 17 is moved to the locking position, the sickle cam pin 26 of the sickle member 23 is guided by the sickle cam groove 28 and lowered downward as shown in FIG. And the opening side of the slit 22 is closed by the sickle-shaped locking portion 25. When the dead bolt 17 is moved to the unlocking position, the sickle cam pin 26 is guided by the sickle cam groove 28 and lifted upward as shown in FIG. The slit 22 is opened.
[0026]
On the rear end face of the dead bolt 17 facing the immersive side to the body 13, a positioning wall 41 protrudes rearward from the upper part and an extension wall 42 extends downward from the lower part. ing. Further, the hook piece 40 described above extends backward from the lower end portion of the extension wall 42 in the one opposing wall 19, and the tip end side of the hook piece 40 rises vertically upward. A portion surrounded by the positioning wall 41, the extension wall 42, and the hook piece 40 is a cam portion 29, and a rear end edge of the extension wall 42 and a lower end edge of the positioning wall 41 in the cam portion 29 are formed. The corner formed is a locking engagement portion 43, and the bottom of the hook piece 40 is an unlocking engagement portion 44.
[0027]
A cam rotating member 30 is provided in the body 13 where the dead bolt 17 is immersed. The cam rotation member 30 is formed by bending a sheet metal, and has a structure in which a pair of strip plates 30A and 30A facing the side wall 13A of the body 13 are connected by a bottom wall 30B. The shaft body 31 penetrating the strips 30A, 30A is fixed so as to penetrate between the side walls 13A, 13A of the body 13. The shaft body 31 is disposed behind the locking engagement portion 43 of the dead bolt 17 in the sliding direction of the dead bolt 17, and the cam rotation member 30 has a horizontal posture and a vertical posture around the shaft body 31. Rotate between.
[0028]
An abutting cam pin 32 (corresponding to a “cam abutting portion” of the present invention) is passed between the strip plates 30A and 30A at one end in the longitudinal direction of the cam rotating member 30. Further, as shown in FIG. 3, a cylindrical sliding metal 33 is fitted into a portion of the contact cam pin 32 sandwiched between the strip plates 30A and 30A. When the dead bolt 17 is in the locking position, the cam rotation member 30 is in a horizontal position, and the contact cam pin 32 is engaged with the locking engagement portion 43 via the sliding metal 33 (hereinafter referred to as “sliding”). When the dead bolt 17 is in the unlocked position, the cam rotating member 30 is in a vertical posture and the contact cam pin 32 engages with the unlocking engagement portion 44.
[0029]
The side wall 13A of the body 13 is formed with a terminal protrusion 34 that abuts against the rear end portion of the cam rotation member 30 when the cam rotation member 30 assumes a horizontal posture.
[0030]
A rotating arm 50 is provided above the cam rotating member 30. The rotary arm 50 has a structure in which a cylindrical body 52 is erected laterally from the central portion of the flat plate member, and a key operation shaft 51 is fitted inside the cylindrical body 52. The key operation shaft 51 is coupled to a key cylinder (not shown) fixed to the outer surface of the door 90, and the key operation shaft 51 is centered by a key operation in which a key (not shown) is inserted into the key cylinder and rotated. The rotating arm 50 rotates. Further, the one end portion of the rotating arm 50 and the rear end portion of the cam rotating member 30 are connected by a link 53, whereby the cam rotating member 30 rotates in conjunction with the rotating arm 50. In addition, one end of a return spring 56 having a torsion coil spring structure is attached to the other end of the rotary arm 50. The other end of the return spring 56 is locked to a fixed shaft 57 provided at a position horizontally aligned with the rotation center of the rotary arm 50 in the body 13. As a result, when the rotary arm 50 is oriented in the horizontal direction, both end portions of the return spring 56 are closest to each other to exert a resilience, and the rotary arm 50 is oriented in any diagonal direction with respect to the horizontal direction. Energized as follows.
[0031]
Next, operation | movement of the locking device 10 of this embodiment which consists of the said structure is demonstrated.
When unlocking the locking device 10, the rotary arm 50 is rotated counterclockwise in FIG. 1 by operating a key inserted in a key cylinder (not shown). Then, the cam rotation member 30 changes from a horizontal posture to a vertical posture (see FIG. 2). In the process, the abutting cam pin 32 pulls the cam portion 29 (specifically, the hook piece 40) of the dead bolt 17 rearward, and the dead bolt 17 is pulled into the inner portion of the body 13. As a result, as shown in FIG. 2, the tip of the dead bolt 17 is immersed in the insertion / extraction hole 16 of the body 13, and the door 90 can be opened and closed.
[0032]
The sickle member 23 is in sliding contact with the sickle cam groove 28 in conjunction with the slide of the dead bolt 17, and the slit 22 at the tip of the dead bolt 17 is opened.
[0033]
To lock the locking device 10, the door 90 is closed, and the rotary arm 50 is rotated clockwise in FIG. 2 by a key operation. Then, the cam rotation member 30 approaches the horizontal posture from the vertical posture, and in this process, the contact cam pin 32 presses the cam portion 29 of the dead bolt 17 forward, and the tip of the dead bolt 17 is moved as shown in FIG. The locking pin 12 enters the locking box 11 provided in the door frame 91 and is received in a state where the locking pin 12 is pressed against the back of the slit 22 at the tip of the dead bolt 17 (see FIG. 5).
[0034]
When the rotating arm 50 is further rotated to the end, the dead bolt 17 is further slid to reach the locking position, and in conjunction with this sliding, the sickle cam pin 26 is slidably contacted with the sickle cam groove 28 and the sickle member 23 Rotates and the tip of the slit 22 is closed. When the rotary arm 50 is rotated to the end, the contact cam pin 32 is brought into sliding contact with the arc surface 43A of the locking engagement portion 43, and at this time, the dead bolt 17 is stopped and only the cam rotation member 30 is slightly rotated. To do. Finally, the contact cam pin 32 comes into contact with the lower side of the positioning wall 41 of the dead bolt 17 and is positioned on the locking engagement portion 43 of the dead bolt 17. Thus, the locking device 10 is locked.
[0035]
Now, for example, when a bar is inserted between the door 90 and the door frame 91 and the dead bolt 17 is pushed in the immersive direction while the locking device 10 is locked, an illegal act is performed as follows. That is, in the locking device 10 of the present embodiment, when the dead bolt 17 is in the locking position, the contact cam pin 32 and the shaft body 31 of the cam rotation member 30 are aligned in the sliding direction of the dead bolt 17, The contact cam pin 32 is abutted against the end face of the dead bolt 17. As a result, the force applied to the contact cam pin 32 when the dead bolt 17 is pushed is directed toward the rotation center of the cam rotation member 30, so that no rotation moment is generated, and the dead rotation 17 is immersed by the cam rotation member 30. Is maintained, and an illegal immersion operation of the dead bolt 17 can be prevented.
[0036]
In addition, an arc surface 43A corresponding to the turning locus of the contact cam pin 32 when the cam turning member 30 is rotated is formed in a portion of the dead bolt 17 that contacts the contact cam pin 32 at the locking position. Therefore, even when the alignment direction of the contact cam pin 32 and the shaft body 31 of the cam rotation member 30 is slightly inclined with respect to the sliding direction of the dead bolt 17, the force when the dead bolt 17 is pushed is cam. The rotation center 30 faces the center of rotation and the rotation of the cam rotation member 30 is restricted, so that the dead bolt 17 can be reliably prevented from entering.
[0037]
Further, in the locking device 10, since the sickle member 23 is accommodated between the pair of opposing walls 19 and 19 provided in the dead bolt 17 (see FIG. 3), the dead bolt 17 and the sickle member 23 reinforce each other. The strength is improved and the deformation of the dead bolt 17 is prevented. Even if the shaft body 31 is deformed, the terminal protrusion 34 abuts on the rear end portion of the cam rotation member 30 and the dead bolt 17 can be restricted from being pushed in. Furthermore, in the locking device 10 of the present embodiment, the locking pin 12 is received in the slit 22 provided in the dead bolt 17, the opening of the slit 22 is closed with the sickle member 23, and the locking pin 12 is closed. Therefore, even if the entire door 90 is displaced, the engagement between the locking pin 12 and the dead bolt 17 does not become shallow, and an unauthorized unlocking operation is prevented.
[0038]
Further, when the locking pin 12 is engaged with the dead bolt 17, the entire door 90 is shifted downward as shown in FIG. 6, or the entire door 90 is moved upward as shown in FIG. In this case, the locking pin 12 in the locking box 11 slides up and down together with the door 90, so that the locking pin 12 is prevented from being deformed by shifting the entire door up and down, and unauthorized unlocking operation is prevented. can do.
[0039]
<Other embodiments>
The present invention is not limited to the above-described embodiment. For example, the embodiments described below are also included in the technical scope of the present invention, and various other than the following can be made without departing from the scope of the invention. It can be changed and implemented.
(1) In the above-described embodiment, the cam rotation member 30 is interlocked with the rotary arm 50 that is rotated by key operation. However, the cam rotation member itself is directly rotated by key operation. Also good.
[0040]
( 2 ) In the above embodiment, the rotary arm 50 and the cam rotation member 30 are rotated by key operation. However, the rotation arm and / or the cam is rotated by a knob (thum turn) provided on the outer surface of the door. You may make it the structure which rotates a member.
[0041]
( 3 ) The locking pin 12 as the locked member according to the present invention has a pin shape with a circular cross section, but it does not necessarily have a pin shape, and may be, for example, a plate shape.
[Brief description of the drawings]
[0042]
FIG. 1 is a side sectional view when a locking device according to a first embodiment of the present invention is in a locked state. FIG. 2 is a side sectional view when a locking device is in an unlocked state. Fig. 4 is an exploded perspective view of the locking box. Fig. 5 is a side sectional view of the locking box in a locked state. Fig. 6 is a side sectional view of the locking box when the door is shifted downward. FIG. 7 is a side sectional view of the locking box when the door is shifted upward.
[0043]
DESCRIPTION OF SYMBOLS 10 ... Locking device 12 ... Locking pin (locked member)
DESCRIPTION OF SYMBOLS 13 ... Body 17 ... Dead bolt 23 ... Sickle member 30 ... Cam rotation member 32 ... Contact cam pin (cam contact part)
43A ... Arc surface 80 ... Locking box 81 ... Outer box 82 ... Up / down slider 90 ... Door 92 ... Front / back slider 96 ... Compression coil spring

Claims (3)

A body embedded at the end of the door;
It is assembled to the body and slides between a locked position and an unlocked position, and in the locked position, the door is protruded from the body to lock the door, while in the unlocked position, the body is immersed and locked. Deadbolt to release
A cam rotation member disposed around the dead bolt of the body and rotating about a rotation axis facing the thickness direction of the door;
Provided on the cam rotation member, but is abutted against an end surface facing the immersive side of the dead bolt at the locking position, and restricts the immersion of the dead bolt and slides the rotation shaft and the dead bolt. A cam abutting portion arranged to line up with
The cam rotation member is rotated by the unlocking operation to release the butting between the dead bolt and the cam contact portion at the locked position, and the cam contact portion becomes a part of the dead bolt. A lock set comprising a lock device that slides into contact with the unlocked position of the dead bolt and a locking box that is embedded in a door frame and forms a space into which the dead bolt is inserted,
The locking device is opened at the tip of the dead bolt and receives a locked member that crosses the space where the dead bolt enters, and is rotatably coupled to the dead bolt. A slit member that opens the slit when in the unlocked position, and a sickle member that closes the open side of the locked member of the slit when the dead bolt is in the locked position,
The locking box has an outer box fixed to the door frame, a slider accommodated inside the outer box so as to be movable up and down, and is attached to the slider and is received by the slit of the dead bolt. And a positioning biasing means for biasing the slider so that the latched member faces the slit of the dead bolt. The arc surface corresponding to the rotation locus of the cam contact portion is formed in a portion of the dead bolt that is abutted against the cam contact portion at the locking position. Tablets set. The dead bolt is provided with a pair of opposed walls opposed in the thickness direction of the door,
The sickle member is pivotally supported by a shaft body interposed between the pair of opposing walls, and includes a cam pin protruding toward the body. The dead bolt is provided on the body. The lock set according to claim 1, wherein a cam groove is formed which is slidably contacted with the cam pin along with the sliding of the cam pin and rotates the sickle member.

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