JP4279419B2 - Guard arm lock for sliding door - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a sliding door guard arm lock that can be opened and closed at a limited interval up to a certain width with respect to the sliding door.
[0002]
[Prior art]
In general, an opening / closing body provided at the entrance of a building such as a house is provided with a so-called door provided on one side via a hinge.
This door is provided with a door chain which is a structure that makes it impossible to open the door more than a predetermined width, and is used for crime prevention such as confirmation of visitors.
[0003]
This door chain has a structure in which the door frame and the end of the door are connected by a chain, and the door can be opened up to the length of the chain. That is, the length of the chain allows the door to be opened up to a predetermined width, and further opening is restricted.
[0004]
Moreover, it is set as the structure which enables cancellation | release of a connection state in the state which closed the door, and operation is impossible from the exterior of a door.
[0005]
[Problems to be solved by the invention]
However, in a building such as a house, the opening / closing body that closes the entrance / exit is not necessarily configured by the door as described above, but may be configured by a sliding door. It has been desired to provide a structure that restricts the opening to a predetermined width.
[0006]
Accordingly, in order to solve the above problems, the present invention enables the opening / closing body constituted by the sliding door to be opened up to a predetermined width, and in order to confirm a visitor, the open state is set up to a predetermined width. An object of the present invention is to provide a sliding door guard arm lock which can be regulated.
[0007]
[Means for Solving the Problems]
Next, means for solving the above problems will be described with reference to the drawings corresponding to the embodiments.
The guard door lock 1 for a sliding door according to the present invention includes a locking means 4 disposed on the sliding door 2 side and an arm mechanism 5 provided on the door frame 3 side.
The locking means 4 includes a thumb turn 11 that is rotatably attached to a lock box 7 disposed at an end of the sliding door 2 facing the door frame 3;
It is linked to the thumb turn 11 and is rotatably supported in the lock box 7 and comprises a lock 10 that moves forward and backward from the front end surface 2a of the lock box 7 and the end,
The thumb turn 11 and the hook 10 are provided on a support shaft 9,
The thumb turn 11 is provided with the support shaft 9 at the back end portion 11 a and is formed in a substantially L shape with the support shaft 9, and the support shaft 9 is located on the front end surface 2 a side of the sliding door 2. The thumb turn 11 extends with respect to the support shaft 9 along the surface of the sliding door 2,
The hook 10 is formed in the middle portion of the support shaft 9 in the shape of a part of a flange-shaped disk extending in a direction orthogonal to the axial direction of the support shaft 9, and the peripheral edge is in relation to the plate surface The engagement pieces 10a that are orthogonal to each other are bent and formed to have a substantially L-shaped cross section, and the central axis that forms the periphery of the hook 10 and the axis of the support shaft 9 are eccentric,
The arm mechanism 5 includes a long elongated hole 22 that is drilled straight in the vertical direction along the longitudinal direction of the door frame 3;
A guide shaft 27 pivotally attached to the long hole 22 and slidable along the long hole 22 is provided at one end, and a locking portion 28 protruding in a direction substantially perpendicular to the moving direction of the sliding door 2 is provided at the other end. An arm 26 made of a projecting strip plate material;
One end of the arm 26 is connected to the door frame 3, the arm 26 is brought close to the door frame 3, the arm 26 is placed along the door frame 3, and one end of the arm 26 is connected to the elongated hole 22. A tension coil spring 25 having an urging force that always pulls upward at the upper end,
In the closed state of the sliding door 2, the engagement piece 10 a of the comma 10 that is rotated by the operation of the thumb turn 11 advances from the lock box 7, and engages with a locking portion 28 at the other end of the arm 26, The locking portion 28 is pulled toward the lock box 7 by the rotation of the hook 10 and is engaged with the other end of the arm 26 by the engaging piece 10a of the hook 10.
When the sliding door 2 is opened in the engaged state, the other end of the arm 26 is pulled by the sliding door 2, the guide shaft 27 at one end of the arm 26 extends along the elongated hole 22, and the tension coil spring 25 While sliding downward against the traction force, the arm 26 advances from the door frame 3 side, and the guide shaft 27 moves to the lower end of the elongated hole 22 to restrict the opening of the sliding door 2. And
[0009]
A retaining plate 12 is formed to extend along the front end surface 7d of the lock box 7 at a position facing the engagement piece 10a of the hook 10 when the thumb turn 11 is advanced from the lock box 7 by the operation of the thumb turn 11. The retaining plate 12 and the hook are arranged so that the other end of the arm 26 is sandwiched from the front and back directions of the sliding door 2 in a state where the hook 10 and the arm 26 are engaged by the operation of the thumb turn 11. 10, the retaining plate 12 and the hook 10 hold the other end of the arm 26 so as to sandwich the sliding door in the front and back direction, and the engaging piece 10 a and the locking portion 28 are engaged. It is good as well.
[0010]
According to the guard arm lock 1 for sliding doors, since the guide shaft 27 at one end of the arm 26 is pivotally attached to the door frame 3 side, the hook 10 and the locking portion 28 at the other end of the arm 26 are engaged. When the sliding door 2 is opened in the engaged state, it is possible to restrict the opening of the sliding door 2 that is larger than the width over which the arm 26 can be bridged. Is possible.
[0011]
Further, by providing a tension coil spring 25 as an urging means at one end of the arm 26, the arm 26 is always pulled upward by the tension coil spring 25 when the arm 26 and the hook 10 are not engaged. The arm 26 is energized so as to be accommodated on the frame 3 side, and the arm 26 does not protrude and become an obstacle.
Furthermore, the central axis that forms the periphery of the kama 10 and the axis of the support shaft 9 are eccentric, and the center axis of the kama 10 extends with respect to the axis of the support shaft 9 in the extending direction of the thumb turn 11 with respect to the support shaft 9. Since the sliding door 2 is closed, the engagement piece 10a of the hook 10 that is rotated by the operation of the thumb turn 11 is formed from the lock box 7 because the sliding door 2 is closed. The door is moved forward and is engaged with the locking portion 28 at the other end of the arm 26 accommodated in the door frame 3, and the rotation of the hook 10 pulls the locking portion 28 from the door frame 3 toward the lock box 7. The engaging piece 10a is engaged with the engaging portion 28 at the other end of the arm 26.
[0012]
Further, by providing the retaining plate 12 on the front end surface 7d of the lock box 7 so as to face the hook 10, the retaining plate 12 is positioned so as to face the kama 10 that has advanced from the sliding door 2 side, and therefore engages with each other. Since the hook 10 and the other end of the arm 26 by the engaging piece 10a and the locking portion 28 are held so as to be sandwiched also from the front and back direction of the sliding door 2, the arm 26 is securely held by the hook 10 and the retaining plate 12. The engaged state can be maintained, and an effect that it is not easily released is obtained.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of a sliding door guard arm lock 1 according to the present invention will be described in detail with reference to the drawings.
[0014]
FIG. 1 is a front view showing an embodiment of a sliding door guard arm lock 1 according to the present invention, and FIG. 2 is a left side view of the locking means 4 of FIG.
[0015]
First, the guard arm lock 1 for a sliding door according to the present invention includes a locking means 4 fixed to the sliding door 2 side and an arm mechanism 5 fixed to the door frame 3 side.
[0016]
As shown in FIGS. 1 and 2, the locking means 4 is schematically configured by a lock box unit 6, a thumb turn 11, a support shaft 9, a hook 10, and a retaining plate 12.
[0017]
The lock box unit 6 is embedded in the front end surface 2 a of the sliding door facing the door frame, and is composed of a lock box 7 and an outer frame 8.
[0018]
The lock box 7 is formed in a substantially square box shape, and a rectangular opening 7a is formed on the left side in FIG. Further, as shown in FIG. 2, the opening 7a of the lock box 7 is provided with a shielding piece 7c for concealing the inside of the lock box 7 such as a support shaft 9 of the thumb turn 11 described later.
The outer frame 8 is provided on the lock box front surface 7b, has a concave portion 8a with a predetermined depth in the center, and is formed in a substantially rectangular tray shape with a flange 8c formed along the edge of the opening surface 8b. The surface 8b is provided outside.
And the support shaft 9 mentioned later is rotatably provided so that the center recessed part bottom face 8a of this outer frame 8 and the lock box front surface 7b may be penetrated in the horizontal direction which is an axis which penetrates the front and back surfaces of the sliding door 2. .
[0019]
In this lock box unit 6, the opening 7a on the left side of the lock box 7 in FIG. 1 is exposed to the sliding door front end surface 2a, and the flange portion 8c is exposed to the indoor surface of the sliding door 2, so that the sliding door front end surface 2a Buried.
[0020]
The thumb turn 11 is formed in a substantially square block shape, and a support shaft 9 is provided on the back surface end portion 11a. The thumb turn 11 is formed in a substantially L shape with the support shaft 9. The thumb turn 11 is provided in the outer frame central recess 8a. The support shaft 9 penetrates the outer frame 8 and the lock box front surface 7b and is supported and attached in the lock box 7, so that the thumb turn 11 is attached to the back end 11a in the outer frame central recess 8a. It can be turned around the fulcrum.
The thickness of the thumb turn 11 is preferably shorter than the depth of the outer frame central recess 8a.
[0021]
In addition, a restriction means (not shown) is provided in the lock box 7, and the rotation of the thumb turn 11 is restricted within a predetermined angle, for example, 100 ° by the restriction means.
[0022]
The hook 10 is formed on the support shaft 9 by, for example, integral molding, and has a flange-like disk shape extending in a direction perpendicular to the axial direction of the support shaft 9 in the middle portion of the support shaft 9. At the same time, the peripheral edge is orthogonal to the plate surface, and the engagement piece 10a is bent and formed in a substantially L-shaped cross section.
Note that the central axis of the disc 10 and the axis of the support shaft 9 are eccentric, and the center axis of the cam 10 is the thumb turn 11 with respect to the support shaft 9 relative to the axis of the support shaft 9. It is set and configured so as to be shifted in a direction opposite to the extending direction.
[0023]
The retaining plate 12 is a member in which a long plate-like attachment portion 12a and a holding portion 12b are formed in a substantially L shape perpendicular to each other.
The attachment portion 12a is fixed to the side surface 7d of the lock box so that a rectangular cutout is formed in the middle in the longitudinal direction, and the cutout is positioned at the opening 7a of the lockbox 7.
Moreover, the holding | maintenance part 12b opposes the comma 10 which advanced (refer FIG. 7b).
[0024]
Next, the arm mechanism 5 will be described.
3 is a right side view of the arm mechanism 5 in FIG. 1, FIG. 4 is a view as seen from the arrow A in FIG. 1, and FIG. 5 is a sectional view as seen from the arrow B in FIG.
[0025]
As shown in FIGS. 1, 3, and 4, the arm mechanism 5 includes a guide member 20, an arm 26, a tension coil spring 25 as an urging means, and a guide support plate 30.
[0026]
The guide member 20 includes a guide plate 21 and a fixed plate 23.
The guide plate 21 is a plate member formed in a long strip shape. A long hole 22 is formed in the center in the longitudinal direction, an attachment piece 21a is formed at the upper end, and one end of the tension coil spring 25 is attached. It has been.
The fixed plate 23 is a plate member formed on the front surface of the guide plate 21 so as to be orthogonal to the guide plate 21 and formed in a substantially U shape so as to avoid the long hole 22. It is located on the front side of the guide plate 21 at the center.
As shown in FIG. 4, the fixed plate 23 is fixed by sandwiching the door frame 3 together with the support plate 24.
[0027]
The arm 26 is a long strip-shaped plate material, a guide shaft 27 is provided at the upper end portion, and a locking portion 28 is provided at the lower end portion.
The guide shaft 27 has an axial direction perpendicular to the plate surface of the arm 26 and is provided on one plate surface side. The guide shaft 27 is pivotally attached to the elongated hole 22 of the guide plate 21, and can slide along the elongated hole 22. The guide shaft 27 is connected to the other end of the tension coil spring 25 on the back surface of the arm 26, that is, connected to the upper end of the guide plate 21 via the tension coil spring 25.
The locking portion 28 is provided on one plate surface side so that the axial direction is perpendicular to the plate surface of the arm 26. The locking portion 28 is a substantially cylindrical shaft-shaped member. And this latching | locking part is engaged with the above-mentioned comma 10 by operation of the thumb turn 11 at the time of the sliding door 2 closed state.
The arm 26 extends in the longitudinal direction at the center in the width direction and is continuously processed in a substantially bowl shape in the thickness direction to enhance rigidity.
As shown in FIG. 1, the arm 26 is suspended by a tension coil spring 25, and the guide shaft 27 is normally pulled to the upper end of the long hole 22 by the urging force of the tension coil spring 25.
[0028]
As shown in FIGS. 1 and 5, the guide support plate 30 is a member that can bend the plate material, and is folded in a direction orthogonal to the fixed portion 31 fixed to the door frame 3 and the fixed portion 31. It is composed of a substantially U-shaped guide portion 32 that is bent, and has a substantially square shape. The guide support plate 30 has a fixed portion 31 fixed to the door frame 3 below the guide member 20. The guide part 32 is located in the door frame 3.
[0029]
Next, the operation of the sliding door guard arm lock 1 configured as described above will be described with reference to FIGS.
[0030]
First, in the normal state, that is, when the sliding door 2 is opened and closed, the arm 26 of the arm mechanism 5 is pulled upward by the tension coil spring 25 as shown in FIG. Located at the upper end, the lower side of the arm 26 is supported by the guide support plate 30 and is in a substantially vertical state along the door frame 3. Further, the thumb turn 11 of the sliding door 2 is set to the position indicated by the solid line in FIG. 1, and as shown in FIG. 1 and FIG. It is in the state which does not protrude from 2a.
[0031]
First, in this state, the sliding door 2 is closed, and the front end surface 2a of the sliding door 2 is brought into contact with the door frame 3.
Next, the operator rotates the thumb turn 11 on the indoor side. In this embodiment, it is rotated counterclockwise in FIG.
[0032]
When the thumb turn 11 rotates, as shown in FIG. 6A, the kama 10 rotates through the support shaft 9 and advances from the lock box 7, and also advances from the front end face 2 a of the sliding door 2.
When the thumb turn 11 is further rotated, as shown in FIG. 6 (b), the swinging end of the hook 10 is engaged with the locking portion 28 of the arm 26, and the hook 10 is eccentrically provided on the support shaft 9. Therefore, the locking portion 28 is pulled toward the lock box 7 side. At this time, the arm 26 is slightly inclined with respect to the end face of the door frame 3.
[0033]
When the thumb turn 11 is turned to the restricted position, the hook 10 and the engaging portion 28 are engaged with each other and locked.
In this locked state, as shown in FIG. 7B, the lower end of the arm 26 is positioned between the hook 10 and the retaining plate 12 from the front and back directions of the sliding door 2, and the hook 10 engagement piece 10a, the engaged state of the lower end of the arm 26 is maintained, and the engaged state between the engaging piece 10a of the hook 10 and the locking portion 28 of the arm 26 is not easily released. .
[0034]
In this locked state, for example, when a visitor comes from outside the sliding door 2 and the operator on the indoor side confirms the visitor, the sliding door 2 is opened.
[0035]
When the sliding door 2 is opened, as described above, the arm 26 is in a locked state in which the arm 26 is engaged with the hook 10, so that the arm 26 is centered on the guide shaft 27 as the sliding door 2 is opened. The arm 26 is pulled by the sliding door 2 and slides downward along the elongated hole 22 of the guide member 20.
[0036]
At this time, the tension coil spring 25 connected to the upper end of the arm 26 is extended by its pulling, that is, the guide shaft 27 at the upper end of the arm 26 moves downward against the tensile force lifting the arm 26 upward. Will be.
[0037]
Then, as the sliding door 2 opens, the arm 26 is supported at the upper end by the slot 22 on the door frame 3 side and the lower end is engaged with the hook 10 on the sliding door 2 side. As shown in FIG. 8, when the guide shaft 27 at the lower end of the arm 26 reaches the lower end of the long hole 22, the opening of the sliding door 2 is restricted at a predetermined width, that is, the length of the arm 26.
The predetermined width by the arm 26 is such that only a human hand passes.
[0038]
Further, when the sliding door 2 is closed, the arm that is engaged with the paddle 10 by moving the sliding door 2 in the closing direction in the above-described locked state and the sliding door 2 opened in a predetermined width. The locking portion 28 of 26 is pushed by the locking means 4, and the lower end of the arm 26 moves in the direction of the door frame 3. The guide shaft 27 at the upper end of the arm 26 slides upward along the elongated hole 22 and is guided by the traction force of the tension coil spring 25. The arm 26 rotates around the guide shaft 27 in the direction of the door frame 3, that is, obliquely. It operates from the state of the vertical to the state of vertical.
[0039]
Thereafter, when the guide shaft 28 of the arm 26 reaches the upper end of the elongated hole 22, the sliding door 2 is closed as shown in FIG. 6B, and the thumb turn 11 is moved in the direction opposite to the locked state, that is, FIG. 6B. By turning in the clockwise direction, the hook 10 is retracted into the lock box 7 and the locked state is released.
Further, the lower end side of the opened arm 26 is supported by the guide support plate 30 by the traction force of the tension coil spring 25 and the like, and returns to the initial state which is a substantially vertical state.
[0040]
Therefore, in the guard arm lock 1 for sliding doors configured as described above, the guide shaft 27 at the upper end of the arm 26 is pivotally attached to the door frame side 3 via the guide member 20. Even when the sliding door 2 is opened in the locked state in which the locking portion 28 is engaged, the sliding door 2 is opened up to the width set by the length of the arm 26, that is, the opening width of the sliding door 2 is increased. It will be regulated.
[0041]
Further, since the tension coil spring 25 is stretched between the upper end of the guide member 20 and the upper end of the arm 26, the upper end of the arm 26 is pulled up to the tension coil spring 25 when the closing operation is performed from the opened state of the sliding door 2 in the locked state. Thus, the arm 26 can be smoothly returned to the initial state of being vertical, that is, the state of being accommodated in the door frame 3.
[0042]
Furthermore, by attaching the retaining plate 12 to the side of the hook 10 so as to face the hook 10, it becomes possible to prevent the hook 10 from being easily released from the engagement portion 28 in the locked state. .
Also, in the locked state, simply open the sliding door 2 by hand, you can set the open space where people can not pass while holding the locked state, so functions such as ventilation and wind sampling while solving the problem of crime prevention Can be added to the sliding door 2 portion.
[0043]
In the present embodiment described above, the thickness of the thumb turn 11 is shorter than the depth of the central recess 8a of the outer frame 8, so that it is safe without being caught by the user and passers-by, and By adopting a structure in which the concave and convex process is formed in the longitudinal direction of the arm 26, the rigidity of the long arm 26 is increased, and the crime prevention performance can be further enhanced.
[0044]
In the above-described embodiment, the locking portion 28 at the lower end of the arm 26 is provided on one plate surface side of the arm 26, and the hook 10 formed in a substantially L-shaped cross section is engaged with the locking portion 28. And although the example of the locking means made into the structure hold | maintained so that this arm 10 and the retaining plate 12 may be pinched | interposed has been described, this locking means is not limited to this.
For example, the latching portion 28 at the lower end of the arm 26 is configured to protrude on both surfaces at the lower end of the arm, and includes a pair of hooks that engage with both the latching portions and a hook that is formed in a substantially fork shape. Also good. That is, a pair of hooks linked to the thumb turn 11 is advanced and retracted by the rotation operation of the thumb turn 11, and the pair of hooks advanced by the operation of the thumb turn 11 is engaged with both locking portions, and A structure in which the arm 26 is sandwiched between the gaps between the arms is also possible.
According to this, the pair of hooks engages with the engaging portions to be in a locked state, and the release of the locked state in the front and back direction of the sliding door can be prevented by the arm 26 positioned between the two hooks.
[0045]
Furthermore, in the above-described embodiment, the engagement between the locking portion 28 and the hook has been described with respect to the example in which the hooks rotate relative to the locking portion 28 and are simply engaged with each other. ), The hook 50 is provided with an engagement piece 50a as in the above-described embodiment, and the protrusion protruding in the axial direction (the direction of the support shaft 9) is provided at the tip of the engagement piece 50a. As shown in FIG. 9B, when the hook 50 is engaged with the locking portion 28 and when the hook 50 is detached from the locking portion 28 and the engagement is released, the locking portion is provided. 28, the projecting piece 50b abuts against the projecting piece 50b, and is constructed so as to get over the projecting piece 50b, so that a slight resistance is provided in the operation of engaging and releasing the hook 50 and the engaging portion 28. It is good.
When the protrusion 50b is provided, the operator who rotates the thumb turn 11 has a feeling of operation when engaging the hook 50 with the engaging portion 28 or releasing the engagement state. In addition, since the projecting piece 50b functions as a stopper in the engagement between the locking portion 28 and the hook 50, the engaged state is not easily released.
[0046]
In the above-described embodiment, the structure of the sliding door is not particularly described. However, the sliding door here is not particularly limited to a sash or a single plate, for example, in the case of a sash. The locking means 4 is provided on the sash frame.
[0047]
【The invention's effect】
As described above, in the guard arm lock for sliding doors according to the first aspect of the present invention, since the guide shaft at one end of the arm is pivotally attached to the door frame side, the engagement state between the hook and the locking portion at the other end of the arm When the sliding door opening operation is performed, it is possible to restrict the opening of the sliding door that is larger than the width over which the arm is bridged.
[0048]
In addition, according to this configuration, in the engaged state between the hook and the engaging portion at the other end of the arm, by opening the sliding door, an open space with a predetermined width that cannot be passed by a person is engaged. Since it can be set while maintaining the password, it is possible to confirm the visitor while solving the problem of crime prevention.
Furthermore, functions such as ventilation and wind sampling can be added to the sliding door 2 portion.
[0049]
Further, by providing a tension coil spring as an urging means at one end of the arm, the arm is always pulled upward by the tension coil spring and accommodated on the door frame side when the arm and the hook are not engaged. So that the arm does not protrude and get in the way.
Furthermore, the center axis forming the periphery of the hook is eccentric from the axis of the support shaft, and the center axis of the hook is opposite to the extending direction of the thumb turn relative to the support shaft. Since the sliding door is closed and the sliding door is closed, the hook engaging piece that rotates by the thumb-turn operation advances from the lock box and the arm in the housed state is placed in the door frame. The locking portion on the other end is engaged, and the locking portion is pulled from the door frame to the lock box side by the rotation of the hook, and the hook is engaged with the locking portion on the other end of the arm by the engagement piece. .
[0050]
Furthermore, in the guard arm lock for sliding doors according to claim 2, since the retaining plate is provided opposite to the hook, the retaining plate is positioned so as to face the hook that has advanced from the sliding door side. Thus, the engaging portion of the arm can be held so as to be sandwiched from the front and back directions, and the engaged state can be maintained, and an effect that it is not easily released by the retaining plate and the engagement piece of the hook is obtained.
[Brief description of the drawings]
FIG. 1 is a front view of a guard arm lock for sliding doors according to the present invention. FIG. 2 is a left side view of locking means in the guard arm lock for sliding doors. 4 is a view as viewed from an arrow A in FIG. 1. FIG. 5 is a view as viewed from an arrow B in FIG. 1. FIG. 6 (a) is a front view showing an engagement operation between the locking means and the arm mechanism. FIG. 7A is a view as viewed from an arrow C in FIG. 1. FIG. 8B is a view as viewed from an arrow D in FIG. 6B. FIG. 8 is a view showing a state in which a sliding door is opened in a locked state. FIG. 9A is an enlarged front view showing an engaging operation according to another embodiment. FIG. 9B is an enlarged front view showing an engaging operation according to another embodiment.
DESCRIPTION OF SYMBOLS 1 ... Sliding door guard arm 2 ... Sliding door 3 ... Door frame 4 ... Locking means 5 ... Arm mechanism 7 ... Lock box 7d ... Lock box front end surface (lock box side surface)
DESCRIPTION OF SYMBOLS 10 ... Cama 11 ... Thumb turn 12 ... Stop plate 22 ... Long hole 25 ... Biasing means (tensile coil spring)
26 ... Arm 27 ... Guide shaft 28 ... Locking part

Claims (2)

A locking means disposed on the sliding door side, and an arm mechanism provided on the door frame side,
The locking means is a thumb turn that is rotatably attached to a lock box disposed at an end facing the door frame of the sliding door;
It is linked to the thumb turn, is rotatably supported in the lock box, and consists of a hook that advances and retreats from the front end surface of the lock box and the end part,
The thumb turn and the hook are provided on a support shaft,
The thumb turn is provided with the support shaft at the back end, and is formed in an approximately L shape with the support shaft. The support shaft is positioned on the front end face side of the sliding door, and the thumb turn is a surface of the sliding door. Extending to the support shaft along
The hook has a shape of a part of a flange-like disk extending in a direction perpendicular to the axial direction of the support shaft in the middle portion of the support shaft, and the periphery is orthogonal to the plate surface. The engagement piece is bent and formed in a substantially L-shaped cross section, and the central axis forming the peripheral edge of the hook and the axis of the support shaft are eccentric,
The arm mechanism has an elongated slot that is straightly drilled in the vertical direction along the longitudinal direction of the door frame;
A strip which is pivotally attached to the elongated hole and has a guide shaft which is slidable along the elongated hole at one end, and a locking portion protruding in a direction substantially perpendicular to the moving direction of the sliding door is projected at the other end. An arm made of plate material,
It is connected across one end of the arm and the door frame, the arm is brought close to the door frame, the arm is placed along the door frame, and one end of the arm is always pulled upward to the upper end of the slot. A tension coil spring having a force,
In the closed state of the sliding door, the hook engaging piece rotated by the operation of the thumb turn advances from the lock box, and engages with a locking portion at the other end of the arm. Pull the locking part to the lock box side, and engage with the other end of the arm by the hook engaging piece,
When the sliding door is opened in the engaged state, the other end of the arm is pulled by the sliding door, and the guide shaft of the one end of the arm is along the long hole and moves downward against the pulling force of the tension coil spring. A sliding door guard arm lock that slides, the arm advances from the door frame side, and the guide shaft moves to the lower end of the elongated hole to restrict the opening of the sliding door.   A stopper plate is provided to extend along the front end surface of the lock box at a position facing the hook engaging piece when the thumb turn is advanced from the lock box, and the thumb turn is operated. With the hook and the arm engaged, the retaining plate and the hook are arranged so that the other end of the arm is sandwiched from the front and back direction of the sliding door. 2. The sliding door guard arm lock according to claim 1, wherein the end is held so as to be sandwiched between the sliding door front and back directions, and the engaging piece and the locking portion are engaged.

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