JP5552325B2 - Door lock - Google Patents

Description

  The present invention relates to a door lock used when a door is locked from the inside.

For example, a so-called thumb turn is attached to the inside of a door of a room or the like, and there are various types of door locks that rotate the thumb turn to lock the door. In other words, the door is prevented from being locked due to accidentally closing the door while leaving the room while operating the door lock while the door is open.
For example, the door lock disclosed in Patent Document 1 has a thumb turn when the door is not locked (when the thumb turn is not operated to rotate), in other words, within the case body 100 of the case body attached to the door. When the lock cam 101 interlocked with is not rotated, as shown in FIG. 7A, the lock body 102 that moves in the vertical direction is a long hole (not shown) (provided in the case body 100 or the like). It is stationary at the lowest position. When the lever handle (not shown) is not operated, the cam body 103 interlocked with the lever handle has the ridge 103b of the cam body 103 as shown in FIG. The latch body 107 protrudes from the case body 100 by receiving the biasing force of the spring 108 and receiving the biasing force of the spring 108. At this time, when an external force is applied to the latch body 107 to immerse the latch body 107 into the case body 100, the latch body 107 moves into the case body 100.
However, when the latch handle 107 protrudes from the case main body 100 and the lever handle is rotated clockwise, for example, as shown in FIG. The sliding plate 104 is moved in the direction of the arrow in the figure against the urging force of the main spring 105. Then, the yoke 109 receives a pressing force from the claw portions 104a ₁ and 104a _{2 of the} plate 104, rotates around the shaft rod 110, and the latch body 107 is latched by the pair of arms 109b ₁ and 109b ₂ to the latch body spring 108. The case body 100 is immersed and moved against the urging force. Of course, when the rotation operation of the lever handle is released, the state shown in FIG. 5B shifts to the state shown in FIG.

On the other hand, when the door is closed and the door is locked (when the thumb turn is turned), the state is usually as shown in FIG. 7A before locking. The head 107a of the latch body 107 is engaged with a recess (not shown) of the latch receiving member of the frame body on which the door is disposed. At this time, for example, as shown in FIG. 8A, when the lock cam 101 is rotated in the counterclockwise direction (that is, when the thumb turn is rotated counterclockwise), the rotation is approximately 90 °. Then, the lock body 102 reaches the uppermost position of the long hole. At this time, even if the lever handle is rotated in the counterclockwise direction, the protrusion 103b of the cam body 103 is in contact with the block 106 and does not rotate. The cylindrical portion 103 d of 103 is in contact with the protrusion 102 b ₂₁ of the lock body 102 and does not rotate. The latch member 107, even if external force is applied to try to immersive move the latch member 107 to the case body 100, abuts the end 107 b ₂ of the legs to the left side wall 102a ₁ of the lock member 102 Thus, it does not move into the case body 100 and remains protruding from the case body 100, thereby locking the door. In this door lock, as shown in FIG. 8B, the same effect as in the case of FIG. 8A can be obtained even when the lock cam 101 is rotated in the clockwise direction.

However, the door lock has a structure in which the thumb turn can be rotated not only when the door is closed but also when the door is opened, and the thumb turn is rotated. Since the latch body 107 protrudes from the case body 100, it has a function of preventing the door from being erroneously locked. However, if the thumb turn is erroneously operated when the door is opened, Without knowing (the latch body 107 is in a state of protruding from the case main body 100 and it is not known whether the thumb turn has been operated or not). Since it is in the state of FIG. 8 (A) or 8 (B), it does not immerse and move into the case main body 100, and therefore the door cannot be closed. Therefore, there is a problem in terms of convenience because the door must be closed after the thumb turn is operated so that the latch body 107 can be moved into the case body 100.
JP 2002-371734 (pages 3-6, FIGS. 1-4)

  The problem to be solved is not only to prevent the door from being erroneously locked, but also when the door is opened, the thumb turn for locking the door cannot be operated, that is, the door lock can be prevented from being erroneously operated. It is a point to make.

In the door lock according to claim 1 of the present invention, a case body is disposed at a predetermined position of the door, and a handle of the case body is locked by rotating or moving a movable piece arranged in the case main body. On the other hand, a door lock having a structure that prevents the latch body engaged with the latch receiving member of the frame body on which the door is disposed from being inserted into the case body, and the latch held between the front end claw portions of the yoke. Since the linear movement of the body is performed through the yoke that rotates around the shaft fitted to the case body in conjunction with the rotation operation of the handle, the slight rotation operation of the handle causes smell things being amplified structure Te, the latch body, the yoke and the case body when opening the door, the through hole portion in which the shaft is inserted between the appropriate position at which leading to the tip claw portion Apply the urging force of the elastic body interposed between them. While in immersive staying within the case body by receiving via the yoke to prevent rotation or movement of the movable piece, at the time of closing of the door of the magnet body disposed in said latch receptacle, said elastic body is obtained by the so that is engaged into being attracted by a magnetic force against the biasing force the latch receptacle of a result, a simple structure, of course, possible to prevent erroneous locking of the door, the door is opened The thumb turn for locking the door cannot be operated, that is, the door lock can be prevented from being erroneously operated.

The door lock according to claim 2 of the present invention is such that the magnet body is adjusted in position with respect to the latch body so as to attract the latch body with an appropriate magnetic force, and is smooth when the door is opened and closed. The position relative to the latch body can be adjusted to ensure the above.

  The door lock according to the present invention is configured such that when the door is opened, the latch body remains immersed in the case body so that the thumb turn cannot be rotated. It is excellent in that the thumb turn for locking cannot be operated, that is, the door lock can be prevented from being erroneously operated.

The door lock which concerns on embodiment of this invention is demonstrated with reference to FIGS.
The door lock 1 includes a member incorporated in a case body 3 attached to a predetermined recess (for example, see FIGS. 4 and 5) of a door 2a, and a predetermined recess (for example, a frame 2b in which the door 2a is disposed). 3 (see FIG. 3 (A)) and a member incorporated in the latch receiver 16 to prevent the door from being erroneously locked and to prevent erroneous operation of the door lock. Is.

The members incorporated in the case body 3 and the members incorporated in the latch receiver 16 of the door lock 1 will be described with reference to FIGS.
First, the case body 3 attached to the door 2a is obtained by incorporating the following members of the door lock 1 into a flat rectangular box case composed of a case body 30 and a case cover 31, as shown in FIG. is there. Meanwhile, among the side surfaces of the case body 30, the mounting plate 30a to the recess front of the door 2a, the flange portion 30a ₁ and 30a ₂ having a mounting bolt hole is slightly larger form than the other side have projecting from both ends, The front plate 32 is attached so as to overlap with the attachment plate 30a. Then, a latch body 9 to be described later is guided through a substantially circular through hole 30a ₃ provided in the mounting plate 30a near the flange 30a ₁ and a substantially elliptical through hole 32a of the front plate 32 superposed on the mounting plate 30a. A latch cover 33 is inserted.

Cam body 4 of the member to be incorporated in the case body 3, square mandrel of the lever handle of the door 2a (e.g., see FIGS. 4 and 5) and the cylindrical portion 4a having a square hole 4a ₁ which is fitted, the cylinder A protrusion 4b protruding downward in FIG. 1 from the outer peripheral surface of the part 4a, a tapered arm 4c protruding upward opposite to the protrusion 4b, and a tip of the arm 4c parallel to the cylindrical part 4a The cylindrical portion 4a is smaller than the outer diameter of the cylindrical portion 4a and is slightly shorter than the axial length thereof. The cam body 4 is rotatably fitted in the through hole 30b (the through hole 31b of the case cover 31) of the case body 30 located obliquely upward from the positioning block 5 fixed to the lower right corner of the case body 30. inserted, being adapted to interlock with the rotation of the lever handle (not shown) by angular mandrel is inserted into this square hole 4a ₁ as described above, by rotation to such proper direction, butt One side surface 4 b ₁ of the strip 4 b abuts on the side surface 5 a of the block 5.

In the form facing the block 5, the long and thin plate-like part 6 a and the bent part 6 b are substantially L-shaped, and the following main spring 7 comes into contact with the sliding plate 6 that also serves as a retainer. a pair of claw portions _6a 1, which is substantially upright in the middle parts 6a, each of the sides of 6a ₂ convex _6c 1, 6c ₂ is protruded, guide slots of these convex 6c ₁ is the case body 30 to 30g (in FIG. 1, only one of the convex 6c ₁ is also only one of the guide slots 30g are depicted), also convex 6c ₂ is guided by the guide slots 31g of the case cover 31 In this manner, the mounting plate 30a is arranged so as to be movable in the approaching and separating directions.
The sliding plate 6 is urged in the separating direction by the main spring 7 having a spring seat at one end as a mounting plate 30 a and a spring seat at the other end as a bent portion 6 b of the sliding plate 6. Thus, the other side surface 4b ₂ of the protrusion 4b of the cam body 4 is pressed from the main spring 7 via the bent portion 6b, so that one side surface 4b ₁ is the side surface 5a of the block 5. Are always in contact with each other.

The pair of claw portions 6a ₁ and 6a ₂ erected substantially at the center of the plate-like portion 6a of the sliding plate 6 are a long and narrow holding body 8a having a substantially U-shape in cross section and one side of the holding body 8a. A yoke 8 composed of a pair of arms 8b ₁ and 8b ₂ projecting from the respective ends is fitted into the gripping body 8a. On the other hand, the yoke 8 is a gripping body 8a, and a through hole 8c is formed at a position located downward from the center thereof. The small hole 30c of the case 30 (the small hole of the case cover 31) is formed in the through hole 8c. The shaft 20 fitted to 31c) is inserted. As a result, the yoke 8 can be rotated around the shaft 20 and the movement of the sliding plate 6, that is, the cam motion of the cam body 4 is amplified to the movement of the respective claw portions of the arms 8b ₁ and 8b _2. Can be converted.

However, the respective front end claw portions of the arms 8b ₁ and 8b ₂ are loosely fitted into the groove portions 9c of the latch body 9 described below to sandwich the latch body 9, and accordingly, the front ends of the arms 8b ₁ and 8b ₂ are held. The latch body 9 is moved by the movement of the claw portion.
By the way, the latch body 9 includes a substantially elliptical head portion 9a guided by the latch cover 33 and a cylindrical portion having a diameter smaller than that of the head portion 9a connected to the head portion 9a and substantially the same length as the head portion 9a. A leg portion 9b having a groove portion 9c formed thereon, and the front end claw portions of the arms 8b ₁ and 8b ₂ are loosely fitted into the groove portion 9c. In the present embodiment, a thin, substantially elliptical magnetic member 10 made of a magnetic material is attached to the front end surface of the head 9 a of the latch body 9 with a bolt 11. However, in some cases, the latch body 9 itself may be made of a magnetic material.
Further, the substantially upper left corner of the case 30 in FIG. 1, the supporting portion 12a and the bent portion 12b made of a substantially L-shaped plate, L-shaped having a through-hole 12b ₁ the bent portion 12b of the The plate 12 is fixed to the through hole 12b ₁ in such a manner that the leg portion 9b ₁ connected to the head portion 9a among the leg portions 9b of the latch body 9 is inserted.

Then, a contact portion (not shown) as one spring seat provided at an appropriate position on the inner surface of the mounting plate 30a of the case body 30 and the shaft 20 of the gripping body 8a of the yoke 8 are inserted. A latch body spring (elastic body) 13 is interposed between the other spring seat abutting portion (not shown) provided at an appropriate position above (see FIGS. 4 and 5). 13, the latch body 9 is stopped in a state where the latch body 9 is immersed in the case body 30. Thereby, the latch body 9 acts so that the lock cam 14 cannot be rotated as a result of preventing the movement of a lock body 15 (described later) interlocked with the lock cam 14 (described later) when the door 2a is opened.
By the way, when the latch body 9 protrudes from the inside of the case body 30, the cam motion of the cam body 4 is caused to protrude from the inside of the case body 30 of the latch body 9 via the connecting mechanism of the sliding plate 6 and the yoke 8. Further, the movement amount of the latch body 9 is amplified and transmitted even with a slight cam movement of the cam body 4, in other words, even a slight rotation of the lever handle.

For the latch body 9 that operates in this way, when the door 2a is closed, the lock cam (movable piece) 14 interlocked with the thumb turn (not shown) and the lock cam 14 In the form, the first lock portion that prevents the cam motion of the cam body 4 by rotation and the lock body 15 that combines the second lock portion that prevents the latch body 9 from entering the case body 30 are disposed.
Among lock cam 14 has a cylindrical portion 14a having a rectangular hole 14a ₁ of a rectangular bar thumb is inserted, the arm 14b extending from the outer peripheral surface of one side of the cylindrical portion 14a, the arm 14b The front end of the cylindrical portion 14a is parallel to the cylindrical portion 14a and is approximately half the length of the cylindrical portion 14a. One end is loosely inserted into the through hole 31d) of the case cover 31 so as to be freely rotatable.

On the other hand, the lock body 15 is constituted by a lock cam receiving portion 15a and a cam body receiving portion 15b each having the following space portion that is open on one side and that is partitioned vertically in FIG.
Among them, the cam body receiving portion 15b, and the rib 15c, the space surrounded by the right side wall 15b ₂ in the left side wall 15b ₁ and Kino Kikkake open to the outside at its lower, from the right side wall 15b ₂ The protrusion (first lock part) 15b ₂₁ that restricts the opening portion protrudes into the space, while the protrusion 15b ₁₁ protrudes from both end faces of the left side wall 15b ₁ . And these ridges _{15b 11} is loosely inserted into the long hole 30e of the case body 30 (the long hole 31e of the case cover 31) being adapted to be moved along the long hole 30e, thereby the cam member receiving portion 15b, that is, the lock body 15 can move in the gravity direction and the antigravity direction (in the same figure, the arrow A direction is the gravity direction, the arrow B is the antigravity direction, and so on). When the lock member 15 is moved in the direction of gravity, since the cylindrical portion 4d of the cam member 4 is inserted into the space portion from the opening, the rotatable the space portion toward the right side wall 15b ₂ . Further, as will be described later, the latch body 9 can be stopped in a state in which it is immersed and moved into the case body 30 (see FIG. 4A). On the other hand, when the lock member 15 is moved in the opposite direction to gravity, to the cylindrical section 4d is positioned in the opening, comes into contact with the projection 15b ₂₁ when you try to rotate toward the right side wall 15b ₂ rotates At the same time, as will be described later, the latch body 9 protruding from the case body 30 cannot be moved into the case body 30 (see FIG. 5).

Tablets cam receiving portion 15a includes a rib 15c, the center of the space surrounded by the left side wall 15a ₁ and the right side wall 15a ₂ formed by bending in a direction facing each other projecting from both ends of the rib 15c is, The other side is cut out in a substantially U shape. When the cylindrical portion 14c of the lock cam 14 is stopped at the notch, the lock cam receiving portion 15a, that is, the lock body 15 is stationary at the lowest point of the elongated hole 30e that is the moving groove. ing. However, the cylindrical portion 14a of the lock cam 14, in this embodiment, when rotated in either a clockwise or counterclockwise direction, the cylindrical portion 14c is, the space portion surrounded by the rib 15c and the left side wall 15a _1, or to rotate the space surrounded by the rib 15c and the right side wall 15a _2, accordingly the lock cam receiver 15a, i.e., the slots 30e at the lock body 15 is moved in the opposite direction to gravity, rotated approximately 90 degrees Reach the top of the. At this time, the latch body 9, the last end face of the leg portion 9b can not move in contact with the left side wall (second locking portion) 15a ₁ of the locking member 15, i.e., latch body in a state of protruding from the case main body 30 9 cannot move into the case body 30 (see FIG. 5).

Next, as shown in FIGS. 2 and 3, the latch receiver 16 attached to the frame body 2 b includes a case main body 17, a case plate 18, and a magnet body 19 disposed on the case main body 17. the case body 17 of the out includes an elongated thin plate member 17a having a substantially rectangular shape, open at the front 17a ₁ side center of the thin plate member 17a in the vertically long rectangular shape, and a predetermined dimension from the rear surface 17a ₂ And a bottomed and hollow rectangular parallelepiped member 17b. Then, a rectangular protrusion 17a ₄ having a length substantially equal to the lateral edge of the opening 17a ₃ is provided with a dimension substantially equal to the thickness of the case plate 18 along both lateral edges. Further, a short ridge 17a ₅ having a substantially right-angled triangular cross-section is superimposed on the ridge 17a _{4 at} the center position of the ridge 17a _{4 so} that the inclined surface projects outward (see FIG. 3 (B)). Also, the thin plate member 17a, and the opening 17a ₃ separates the lateral edge on the opposite side, narrow rectangular slit 17a ₆ from the lateral edges in elongate are formed respectively, the larger opening of the slit 17a ₆ is a front 17a ₁ side of the thin plate member 17a, also smaller opening is formed is positioned on the rear surface 17a ₂ (see FIG. 3 (B)). Further, an elliptical insertion hole 17a ₇ having a long axis perpendicular to the vertical direction is provided at the uppermost and lowermost portions of the thin plate-like member 17a. Further, on one vertical side center of the opening 17a _3, a flat small protrusion 17a ₈ it is projected.
On the other hand, as shown in FIG. 3 (A), on a bottom surface toward the substantially central position of the hollow portion of the rectangular parallelepiped members 17b, portions 17b ₁ of the magnet 19 with respect to the magnetic member 10 is disposed is provided, moreover In the present embodiment, the magnet body is smaller than the magnet body 19 below the position where the magnet body 19 is disposed on the bottom surface side of the rectangular parallelepiped member 17b (this magnet body is not drawn in the figure). ) 17b ₂ can be provided.

The case plate 18 is formed of a vertically long thin plate member having a substantially rectangular shape slightly larger than the thin plate member 17a of the case main body 17, and communicates with the hollow of the rectangular parallelepiped member 17b of the case main body 17 at the center of the thin plate member. The substantially rectangular opening 18a ₃ is provided, has a length substantially equal to the lateral edge along both lateral edges of the opening 18a ₃ , and is on the back surface 18a ₂ side of the thin plate member. The protrusions 18a ₄ curved and projecting in the shape of hooks are protruded (see FIG. 3B), and the protrusions 17a ₅ of the case body 17 are engaged with the protrusions 18a ₄ to thereby encase the case body 17. Is attached to the case plate 18 and is slidable in the direction of the arrow in FIG. Further, the thin plate member is subjected to a so-called deep drawing process with a through hole communicating with the insertion hole 17a ₇ of the thin plate member 17a at a position separated from the opening 18a ₃ of the thin plate member. The ring-shaped ridges 18a ₅ protrude along the peripheral edge of the back surface 18a ₂ of the thin plate-like member with dimensions substantially equal to the thickness of the thin plate-like member 17a, and these ridges 18a ₅ are formed in the case body. 17 is guided to the insertion hole 17a ₇ when sliding relative movement with respect to the case plate 18. A notch groove 18a ₆ for guiding the small projecting piece 17a ₈ is provided at the center of one vertical side of the opening 18a ₃ .

Next, the operation of the door lock 1 will be described with reference to FIGS. However, in FIGS. 4 and 5, the latch receiver 16 side is not drawn.
First, the operation of the door lock 1 in a state where the thumb turn is not used in the door lock 1 will be described with reference to FIG.
Under this condition (the lock cam 14 is not rotated, and therefore the lock body 15 is stationary at the lowest point of the long hole 30e), when the door 2a is opened (FIG. 4 ( A)), the latch body 9 is moved into the case main body 30 by the urging force of the spring 13 acting on the yoke 8, and an L-shaped plate is formed at the step portion between the head 9a and the leg 9b of the latch body 9. 12 is stopped. On the other hand, the lower surface of the leg portion 9b of the latch member 9, the locking member 15 acts to prevent the movement in contact with the left side wall 15a ₁ of the lock member 15 interlocked with the lock cam 14, therefore the lock cam As a result, the thumb turn cannot be used. That is, when the door 2a is opened, a thumb turn operation for locking the door 2a cannot be performed, that is, an erroneous operation of the door lock is prevented. Of course, no erroneous locking occurs.
In the state of FIG. 4A, even if the lever handle is rotated and the cam body 4 interlocked with the lever handle is rotated in the clockwise direction in FIG. The pushing force is not transmitted to the yoke 8 simply by pushing the sliding plate 6 against the lever 8, so that the latch body 9 is not affected. Of course, the rotation of the lever handle in the counterclockwise direction in the figure cannot be rotated because the cam body 4 is in contact with the block 5.

However, when the door 2a is closed, the state shown in FIG. 4 (B) is obtained. That is, the latch body 9 is attracted by the magnetic force of the magnet body 19 (not shown in the drawing) of the latch receiving member 16 against the urging force of the spring 13 acting on the yoke 8, and as a result, the case body The door 2a is closed by protruding from the inside 30 and being attracted to the magnet body 19. At this time, the thumb turn is ready for use. When the lever handle is rotated when the closed state is changed to the open state, the cam body 4 interlocked with the lever handle has the ridge 4b that resists the urging force of the main spring 7, and the sliding plate. 6 is moved in the direction of the arrow in the figure, the yoke 8 receives a pressing force from the claw portions 6a ₁ and 6a _{2 of the} plate 6 and rotates around the shaft 20, and the pair of arms 8b ₁ and 8b ₂ , the latch body 9 is moved into the case body 30 against the attracting force of the magnet body 19. When the rotation operation of the lever handle is released, the state shown in FIG. 5B returns to the state shown in FIG. 5A, that is, the door 2a is opened.

In the door lock 1, the thumb turn can be used when the door 2a is closed. The operation at this time will be described with reference to FIG. In this door lock 1, the door 2a can be locked by rotating the thumb turn, that is, the lock cam 4 interlocking with the thumb turn in either the clockwise direction or the counterclockwise direction. In FIG. A state diagram when operated by rotating in the turning direction is shown.
Just before Sumter down is operated, for example, a latch member 9 have the state as described above FIG. 4 (B), is attracted to the magnet 19 of the latch receptacle 16 (not shown), the case body 30 It protrudes from the inside. In such a case, when the thumb turn is rotated, the lock body 15 moves in the anti-gravity direction along with the rotation of the lock cam 4 interlocked with the thumb turn, and the lock cam 4 rotates approximately 90 ° in the clockwise direction. Incidentally, the lock member 15 reaches the uppermost point of the long hole 30e, the latch body 9 in this regard, the rear end surface of the leg portion 9b of the latch body 9 becomes in contact state on the left side wall 15a ₁ of the lock member 15 The state of protruding from the inside of the case body 30 remains. On the other hand, in the lever handle, even if the lever handle is to be rotated, the cylindrical portion 4d of the cam body 4 is in contact with the protrusion 15b ₂₁ of the lock body 15, and the protrusion 4b of the cam body 4 is blocked. Rotating operation is not possible due to contact with 5. Of course, no erroneous locking occurs in this case.

Next, the position adjustment of the magnet body 19 with respect to the latch body 9 will be described with reference to FIG.
Before explaining the adjustment, a brief description will be given of how to attach the latch receiver 16 on which the magnet body 19 is disposed to the frame 2b. The case body 17 on which the magnet body 19 is disposed is referred to as the case body. The 17 ridges 17 a ₅ are engaged with the ridges 18 a ₄ of the case plate 18 and are pushed into the case plate 18 to be mounted. In fact, a state of FIG. 3 is pushed in the process of inserting the projection 18a ₄ cases the plate 18 into the slit 17a ₆ of the case body 17 so as to overcome the protrusion 17a ₅ of the case body 17 (B). Such a latch receptacle 16 which the case body 17 is mounted on the case plate 18 in the front 18a ₁ of the case plate 18 to a predetermined recess of the frame 2b is attached so as to face outward. At this time, it goes without saying that a required gap is formed between the case body 17 and the predetermined recess in the sliding direction of the case body 17.
Position adjustment with respect to the latch body 9 is performed so that the magnet body 19 in the latch receiver 16 attached in this way can attract the latch body 9 in the case body 3 with an appropriate magnetic force. That is, in order to make the latch body 9 face the magnet body 19, for example, directly in front, the small protrusion 17 a ₈ of the case body 17 is pushed from the notch groove 18 a ₆ of the case plate 18 with a driver, for example. It is only necessary to move the main body 17 by an appropriate amount. 6A and 6B show that the position of the magnet body 19 is adjusted with respect to the latch body 9 by moving the case body 17 with respect to the case plate 18 in the direction of the arrows in FIG. Yes. Thereby, the adjustment to the thickness direction of a door is attained, and the attraction | suction with the magnet body 19 and the magnetic member 10 can be ensured. Then, after such positional adjustment, the case plate 18, is fixed by screwed and screw into the through hole where having ridges 18a _5. In this case, when the magnetic force of the magnet body 19 that attracts the latch body 9 is slightly weak, it is also possible to arrange a small magnet body in the portion 17b ₃ of the case body 17.

  The door lock of the present invention not only prevents erroneous locking of the door but also prevents erroneous operation of the door lock, especially when the door is opened, the thumb turn operation for locking the door cannot be performed. In this respect, it can be said that it is widely used as a device used for various doors.

It is a disassembled perspective view by the side of the case body of the door lock which concerns on embodiment of this invention. It is a disassembled perspective view by the side of a latch holder of the door lock which concerns on embodiment of this invention. It is sectional drawing of the latch receptacle of FIG. It is operation | movement explanatory drawing at the time of unused of the thumb turn of this door lock. It is operation | movement explanatory drawing at the time of use of a thumb turn of this door lock. It is explanatory drawing of the position adjustment in this door lock. It is operation | movement explanatory drawing at the time of unused of the thumb turn of the conventional door lock. It is operation | movement explanatory drawing at the time of use of the thumb turn of the conventional door lock.

DESCRIPTION OF SYMBOLS 1 Door lock 2a Door 2b Frame 3 Case body 9 Latch body 13 Latch body spring (elastic body)
14 Lock cam (movable piece)
16 Latch holder 19 Magnet body 30 Case body

Claims (2)

A case body is disposed at a predetermined position of the door, and a handle of the case body is locked by rotating or moving a movable piece disposed in the case body of the case body. A door lock with a structure that prevents the latch body engaged in the latch holder from immersing into the case body, and the linear movement of the latch body held between the tip claws of the yoke is used for the rotation operation of the handle. conjunction with Te smell a structure to be amplified I than a slight rotating operation of the handle to be made through the yoke to pivot about an axis which is fitted to the case body,
The latch body is an elastic body interposed between the case body and the yoke at an appropriate position from the through hole portion through which the shaft is inserted to the tip claw portion when the door is opened . By receiving an urging force through the yoke, the magnet body is immersed and stopped in the case body to prevent the movable piece from rotating or moving . , Tobirajo characterized by Rukoto is engaged into been sucked said latch receptacle by a magnetic force against the biasing force of the elastic body. The door lock according to claim 1, wherein the magnet body is adjusted in position with respect to the latch body to attract the latch body with an appropriate magnetic force.

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