JP7197133B2 - Swing door locking/unlocking mechanism - Google Patents

Description

The present invention relates to a locking/unlocking mechanism for a hinged door in a wall constructed by arranging a plurality of panels in a row.

In recent building constructions, a plurality of metal panels are arranged in rows to construct an interior wall that is flat on one side so as not to produce protrusions. For this reason, even at installation locations of hinged doors that open and close inspection doors for various equipment such as switchboards and pipe units, there is no protrusion such as a door handle for locking and unlocking operations protruding from the surface of the door. It is required to have an appearance that looks like Therefore, the applicant has invented a locking/unlocking mechanism for a hinged door that can be easily locked/unlocked from the outside while providing an aesthetic appearance without a protrusion such as a locking/unlocking handle on the outside of the hinged door in the closed state.

That is, at the edge of the hinged door that opens and closes the opening formed in the wall, the lock is installed on the hinged door with the keyhole facing the outside of the wall, and locks and unlocks the hinged door. and an opening/closing guide device for movably guiding the hinged door between a locking/unlocking operation position, which is an opening angle facing the keyhole from the outside of the wall, and a closed door position, in which the hinged door is stored. , wherein the opening/closing guide device includes locking means having a switching mechanism between a locked state at the closed position of the swing door and release of the locked state; and sliding means using a push latch for moving between a position and a closed position, wherein the sliding means is integrally provided with a braking member for suppressing movement of the opening door (Patent Reference 1).

JP 2018-87467 A

According to the locking/unlocking mechanism for the hinged door, even if a handle or the like for locking/unlocking operation is not used, the hinged door can be easily opened without any trouble, and the hinged door is in a half-open state (hereinafter referred to as , "half-opened state"), the vertical stile on the door side and the vertical stile on the door side of the sleeve panel are in a locked state in close contact with each other, so that the locking and unlocking operation can be performed safely.

However, in the conventional locking/unlocking mechanism for the hinged door, when the hinged door is unintentionally touched, such as by leaning against the hinged door, the push latch operates due to the accidental pressing force, resulting in a half-open state. There was a case where it was lost. In the case of a hinged door equipped with a sensor for detecting the open/closed state, the sensor is unnecessarily activated when the door is in the half-opened state, which complicates the countermeasures. In addition, if the lock is left half-open, the position of the lock can be seen from the outside, and there is a risk that the lock will be unlocked. rice field.

SUMMARY OF THE INVENTION It is an object of the present invention to provide a locking/unlocking mechanism for a hinged door that prevents the half-open state by accident even when an unintended force acts on the door. It is an object.

In order to achieve the above object, a locking/unlocking mechanism for a hinged door of the present invention (hereinafter sometimes referred to as "this locking/unlocking mechanism") is provided by a hinged door end side edge of a hinged door for opening and closing an opening formed in a wall. a locking device installed in the hinged door with a keyhole facing the outside of the wall and inserting an unlocking key into the keyhole to lock and unlock the hinged door; a sliding device for movably guiding the hinged door between a locking/unlocking operation position, which is an opening angle facing the keyhole from the outside, and a closed door position, in which the hinged door is stored, and closing the hinged door. a pushing device that moves from a position to the locking/unlocking operation position, wherein the pushing device includes a pressing member that is pushed toward a contact surface with the swinging door; and a push-out means for inserting the tip of the key to operate the push-out means of the push-out member, so that the push-out member can be pushed out by operating the push-out means of the push-out member. and the push-out device is located at an upper or lower position with an appropriate distance from the lock device, and is attached at a position where the tip of the key can be inserted from the outside. and

Here, in the extrusion device, the extruded pressing member is pressed against a contact surface with the wall (hereinafter referred to as "wall contact surface") on the back side of the front end side end portion of the hinged door. It needs to be provided in a predetermined position with proper abutment. In addition, any configuration may be used as long as the extrusion member can be pushed out so as to be movable, and various known configurations can be used.

Further, the mounting position of the pushing device can be provided at an appropriate position as long as it does not interfere with the operation of the lock device. In particular, from the viewpoint of crime prevention and design, it is preferable to install it in an inconspicuous position, and it is preferable to attach it to the wall so that the push-out means of the pressing member can be operated from the joint between the wall and the hinged door.

This locking/unlocking mechanism includes a pushing device for moving the hinged door from the closed position to the locking/unlocking operation position, and is configured such that the pushing member can be pushed out by operating the pushing means of the pushing member. Therefore, when unlocking, the pushing means of the pressing member is operated to press the pressing member against the wall abutment surface of the opening door, so that the opening door can be unlocked via the sliding means. It can be slid to the operating position. Therefore, when the door is closed, the door is not in a half-open state or the like, so various problems associated with the half-open state can be resolved.

Further, in the present locking/unlocking mechanism, the hinged door may be made of a ferromagnetic material, and the pushing device may be provided with a magnet member.

According to this locking/unlocking mechanism, the hinged door is made of a ferromagnetic material, and the extrusion device is provided with a magnet member. can be made Further, by using a ferromagnetic material for the operation means of the push-out means of the pressing member, it is possible to easily guide the push-out means of the push member to the operating position and assist the positioning operation.

In this locking/unlocking mechanism, a crank connected to the base end portion of the lock device and having a rotation restricting portion between the base end portion and the tip end portion thereof, and a crank rotatably pivotally attached to the crank, and the slide a lever member having a hook portion for locking and unlocking the hinged door by engaging and disengaging it with a receiving device of the means, and a link having a detent portion; The receiver is provided on the side of the wall at a height position where the hook portion of the lever member abuts when the lever member is guided upward, and the lever member is always rotated in a direction in which the hook portion is engaged with the receiver. While being dynamically biased, the detent portion protrudes from the rotation restricting portion of the crank, the hook portion is positioned and held at the locking posture position, and the opening door is closed so that the hook portion engages the receiving member. By configuring the hook portion to engage with the receiving member when the hook portion protrudes from the opening, the hinged door can be automatically locked.

Further, in the present locking/unlocking mechanism, the lever member rotates the link in the unlocking direction to hold the link in the unlocked position in the upright state when the lock is unlocked, and the link has a flexible detent. A member may be mounted so that the link can be held in the unlocked position in the upright state in a rotation restrained state in which the detent member abuts the rotation restricting portion of the crank. .

Furthermore, it is possible to detachably attach means for engaging the hinged door and the wall at a portion corresponding to the wall contact surface of the hinged door and the wall. This engaging means can use various components such as an engaging tool having an uneven portion, a push latch, a magnet member, and the like.

According to the present invention, it is possible to provide a locking/unlocking mechanism for a hinged door that prevents an accidental half-open state even when an unintended force acts on the door.

1 is a perspective view of a wall to which a hinge door locking/unlocking mechanism of the present invention is applied; FIG. FIG. 3 is a top view of a wall to which the swing door locking/unlocking mechanism of the present invention is applied; FIG. 3 is a perspective view showing a slide device used in the locking/unlocking mechanism for the hinged door of the present invention; FIG. 2 is a perspective view showing a pushing device used in the locking/unlocking mechanism for the hinged door of the present invention (the cover is omitted). 1 is an exploded perspective view showing a lock device used in a locking/unlocking mechanism for a hinged door according to the present invention; FIG. Fig. 10 is a side view (when unlockable) showing the locking/unlocking mechanism for the hinged door of the present invention; (a) is a front view showing a part of the hinged door and the left sleeve panel using the hinged door locking/unlocking mechanism of the present invention, and (b) is an enlarged view of the X section. It is a figure which shows the locking/unlocking mechanism of the hinged door of this invention (when a door is closed), (a) is a perspective view, (b) is a top view. It is a figure which shows the locking/unlocking mechanism of the hinged door of this invention (at the time of preparation for unlocking), (a) is a perspective view, (b) is a top view. It is a figure which shows the locking/unlocking mechanism of the swing door of this invention (when unlockable), (a) is a perspective view, (b) is a top view. FIG. 11 is a side view showing another embodiment of a pushing device used in the locking/unlocking mechanism for the hinged door of the present invention (the cover is omitted).

An embodiment of this locking/unlocking mechanism will be described in detail below with reference to the drawings. In the description of the drawings, the same elements are denoted by the same reference numerals, and overlapping descriptions are omitted.

[First embodiment]
(1) Wall Body and Opening Door The locking/unlocking mechanism M of the first embodiment is composed of a slide device S, a pushing device P, and a lock device A. As shown in FIG. First, the wall W to which the locking/unlocking mechanism M is applied will be described.

The wall body W has a constant thickness (for example, 40 mm to 45 mm) so that there is no level difference between the adjacent panels W1, W2, and W3 and is in a flat state (flush), and is ferromagnetic. It is formed by erecting a plurality of steel panels W1, W2, and W3, which are bodies.

FIG. 1 is a schematic perspective view of the wall W as viewed from the inside of the room. For example, an intermediate panel W2 (including a connection portion 15 described later) is arranged to serve as an opening door D for opening and closing an inspection opening T of the indoor equipment with respect to the right and left sleeve panels W1 and W3. Each panel W1, W2, W3 has vertical joints J1, J2 with a gap of about 5 mm at the joints between adjacent vertical frames so that the indoor side cannot be seen from the outdoor side ( See also FIG. 2 below).

The right sleeve panel W1 is formed by folding a steel plate into a crank shape so as to have a substantially inverted L-shaped closed cross-section when viewed from above, and the stepped portion is arranged so as to face the intermediate panel W2. there is

In the hinged door D described below, the right end of the intermediate panel W2 is folded back at a substantially right angle so that the right end of the middle panel W2 roughly corresponds to the depth of the narrow portion of the right sleeve panel W1. is formed. In the hanger-side vertical frame 5, the bent portion W11 of the right sleeve panel W1 and the side end portion W21 of the intermediate panel W2 are rotatably attached by hinges 18. As shown in FIG.

On the other hand, the left sleeve panel W3 is formed by folding a steel plate into a crank shape so as to have a substantially L-shaped closed cross-section when viewed from above, and the stepped portion is disposed so as to face the intermediate panel W2. there is

The outdoor side surface of the stepped portion of the left sleeve panel W3 constitutes the doorstop portion 11a (hereinafter referred to as the "left doorstop portion"), and the end surface of the intermediate panel W2 side connected to the left doorstop portion 11a. constitutes a mounting portion 11b (hereinafter referred to as a “mounting portion”) of the slide device S described below. In addition, the other connection end face 11c connected to the left door contact portion 11a faces a butt end portion 15b (door end side end face portion) of the connection portion 15 of the intermediate panel W2 described later. The vertical frame 6 is formed by the mounting portion 11b and the connection end surface 11c.

In addition, at the left end of the intermediate panel W2, a connecting portion 15 having a saucepan-shaped cross section (side view) is provided so as to correspond to the depth of the stepped portion of the left sleeve panel W3. A frame 7 is formed.

The connection portions 15 constituting the door leading edge side vertical stile 7 each have a horizontal portion facing the left door contact portion 11a of the left sleeve panel W3 as an "intermediate door contact portion 15a" on the indoor side, and a groove shape on the outdoor side. A portion is a "blindfold portion 15c", and a portion perpendicular to the intermediate door stop portion 15a and the blindfold portion 15c is a "end portion 15b".

A keyhole 71a (FIGS. 9 and 10) of a cylinder lock 70 in a lock device A described below is installed at a predetermined height position of the end portion 15b so as to be positioned on the outside of the room, and the door D is rotated by a predetermined angle. In this state, the hinged door D can be locked and unlocked using the key K.

Further, on the connection end surface 11c of the left sleeve panel W3, a pushing device P, which will be described later, is attached at an upper position with a predetermined space therebetween so as not to hinder the operation of the lock device A. As shown in FIG.
Button-shaped rubber door stopper members (impact buffers) (not shown) are provided at the upper and lower ends of the left door stopper portion 11a of the left sleeve panel W3.

(2) Slide Device The slide device S is provided on the mounting frame 20 .
The mounting frame 20 is formed of a rectangular plate 21, a home base-shaped pentagonal plate 22, and an isosceles trapezoidal trapezoidal plate 23 connecting the two plates, which are provided to face each other. top view) (FIG. 3).

Slide holes 21a and 22a are formed in the rectangular plate 21 and the pentagonal plate 22 over substantially the entire lengthwise direction. Long holes 22b for attaching screws 26 to the attachment portion 11b of the left sleeve panel W3 are formed in the upper and lower portions of the pentagonal plate 22 so that the major axis thereof coincides with the height direction.
At the ends of the rectangular plate 21 and the pentagonal plate 22, a stopper shaft 24 is laid across the width direction of the openings of both plates.

The slide device S includes a slider 30 and a support 40, and each element is integrally formed.

The slider 30 includes a slider body 31 formed in a substantially rectangular parallelepiped shape, and a slide guide 32 extending over the entire length in the longitudinal direction at the mid-height of the opposing side surface. The slide guide 32 is inserted through the slide holes 21a and 22a of the mounting frame 20, and is slidable in the horizontal direction while being guided along the slide holes 21a and 22a.

It should be noted that the predetermined stroke of sliding movement of the slider 30 needs to be determined appropriately according to the angle of rotation of the opening door D upon unlocking or locking.

The support 40 is formed of two side plate portions 41 that are formed in an inverted, substantially L-shape, and a rectangular bottom plate portion 42 that connects the side plate portions 41 . A locking shaft 43 for locking a hook portion 83a of a locking lever 80 in a locking device A described below is horizontally laid at approximately the middle height of the . Two elongated holes 42a are formed in two places of the bottom plate portion 42 so that the mounting position can be easily adjusted. The long holes 42a are provided in the front and rear at predetermined intervals so that the long axis coincides with the longitudinal direction, and are attached to the upper surface of the slider body 31 by screws 46 inserted through the long holes 42a. .

(3) Extrusion Device The extrusion device P includes a pressing plate 55 (pressing member), a pressing force transmission body 56 (extrusting means for the pressing member) that imparts a pressing force to the pressing plate 55, an auxiliary spring 57, and a magnet 58. (magnet member) is housed inside the body case 50 (FIG. 4).

The body case 50 has a flat rectangular parallelepiped shape, and a cover 53 (FIG. 6) is provided on the back surface. In addition, right-angled trapezoid plate-shaped mounting portions 52 are provided on both side surfaces.
One end face (right side in FIG. 4) of the main body case 50 is provided with a key insertion hole 50a and a pressing plate retraction hole 50b that communicate with the internal space 51 described later. The key insertion hole 50a is formed at a location where a pressing force transmission body 56, which will be described later, can be pressed. can be inserted to operate a push-out force transmission body 56, which will be described later.

Inside the main body case 50, there are provided an inner space 51 having a substantially inverted boot shape (in the following description, unless otherwise specified, viewed from the side) for arranging each component, and a magnet mounting portion 50c. is provided. The magnet mounting portion 50c has a shape (in this embodiment, a , rectangular).

The inner space 51 is formed by an upper dome-shaped portion 51a and a lower L-shaped portion 51b. The dome-shaped portion 51a is formed in an arc shape so as to guide the fan-shaped portion 56b of the pushing force transmission body 56, which will be described later, and communicates with the key insertion hole 50a for inserting the tip of the key K. there is The L-shaped portion 51b has a vertical height and a horizontal length for receiving and retracting the pressing plate 55, and communicates with the pressing plate retracting hole 50b.

The pushing force transmission body 56 has a substantially bucket shape (side view), and includes a triangular portion 56a, a substantially fan-shaped fan-shaped portion 56b, and a protruding portion 56c protruding from the fan-shaped portion 56b. ing. Further, the front surface of the fan-shaped portion 56b and the projecting portion 56c form a supporting stepped portion that holds the corner portion of the pressing plate 55 when the pressing plate 55 is housed. The pushing force transmission body 56 is arranged in a state in which the central portion (the portion corresponding to the pivot of the fan shape) is pivotally supported so as to be rotatable along the dome-shaped portion 51a in the inner space portion 51. there is

However, the movement of the pushing force transmission body 56 is restricted within the range of the inner space 51, and when the tip of the triangular portion 56a abuts the tip of the dome-shaped portion 51a (hereinafter referred to as "forward movement ), the fan-shaped portion 56b abuts against the vertical surface of the L-shaped portion 51b to restrict its forward movement. Further, when the triangular portion 56a contacts the vertical surface of the L-shaped portion 51b (hereinafter referred to as "during backward movement"), the fan-shaped portion 56b moves to the horizontal portion of the L-shaped portion 51b. As a result, their movement is restricted.

The pressing plate 55 is a rectangular plate with an elongated hole 55b formed in the center, and L-shaped spring locking pieces 55a that are inverted on the short side are provided at respective rear corners. The pressing plate 55 is provided in the inner space portion 51 so that the end face on the side where the spring locking piece 55a is attached is in contact with the projecting portion 56c of the pushing force transmission body 56. It is arranged so that it can be freely projected and retracted from the hole 50b.
That is, the pressing plate 55 is accommodated in the inner space 51 when the pushing force transmission body 56 moves forward, and is pushed out from the pressing plate retracting hole 50b when moving backward.

An auxiliary spring 57 is interposed between the spring locking piece 55 a and the wall surface of the internal space 51 of the main body case 50 . The auxiliary spring 57 contracts when the pressing plate 55 protrudes from the pressing plate retracting hole 50b, and exerts a biasing force in the direction to accommodate the pressing plate 55 inside the main body case 50. As shown in FIG.

Also, the magnet 58 is attached to the magnet attachment portion 50c so that when the key K for operating the pushing force transmission body 56 is a ferromagnetic material, it can be attracted.

In the push-out device P, the key insertion hole 50a faces the vertical joint J2 and is located at a position where the tip of the key K can be inserted from the outside. The other connection end surface 11c of the left sleeve panel W3 is screwed into the elongated hole 52a of the mounting portion 52 of the main body case 50 so as to abut on the left sleeve panel W3 (reference numeral 59 in FIG. 6 indicates a screw). ).

(4) Lock Device The lock device A consists of a cylinder lock 70 having a locking/ unlocking mechanism, a key K that is inserted into a keyhole 71a of the cylinder lock 70 and rotated, and a locking lever for opening and closing the door D. 80 (lever member) is provided (FIGS. 5 and 10).

The cylinder lock 70 rotates a plug (inner cylinder) by moving a plurality of pin tumblers in a cylinder 71 (outer cylinder) using a key K, and rotates a joint rotatably inserted coaxially with the plug. (unmarked elements not shown). A connecting projection 71b having a rectangular shape is projected from the central tip of the bottom surface of the cylinder 71, and a guide projection 71c is provided on the peripheral edge.

The locking lever 80 is divided into two parts: a crank 81 formed by bending a long metal plate into a stepped shape, and a sickle-shaped link 83 connected to a tip portion 81a of the crank 81 . The lock lever 80 controls reciprocating rotation for switching between the locked state and the unlocked state of the door D, and is provided with a positioning tool 85 for positioning and holding.

In the base end portion 81c of the crank 81, a rotation restriction hole 82a having a rectangular shape that fits with the connecting protrusion 71b of the cylinder 71 and a rotation range interlocking with the cylinder 71 are formed along the periphery of the rotation restriction hole 82a. There is provided a guide hole 82b that is approximately a quarter of an arc defining the . A shaft hole 82d for inserting a pivot shaft 88, which will be described later, is provided in the tip portion 81a of the crank 81. As shown in FIG.

The proximal end portion 81c of the crank 81 is rotated within an angular range of approximately 90 degrees in conjunction with the rotation of the key K in a state in which the connecting protrusion 71b is inserted and the retaining ring 74 is interposed. It is pivoted by a screw 79 so that it is possible.

The link 83 is formed of a sickle-shaped (crescent-shaped) tip hook portion 83a and a plate cam-shaped detent portion 83b. is formed. A circular arc cam surface y (upper end edge of the rotation-stopping portion 83b) and a rotation-stopping surface z (rear edge of the rotation-stopping portion 83b) are continuously formed on the periphery of the rotation-stopping portion 83b of the link 83. .

Further, an insertion hole 83d for inserting a pivot 88 is provided in a substantially central portion of the detent portion 83b of the link 83, and detent members 87, which will be described later, are engaged on both sides of the insertion hole 83d. Two engagement holes 83e are formed to engage with the protrusions 87d. Further, a groove portion 83f is formed on the lower surface of the detent portion 83b of the link 83. As shown in FIG.

The positioning tool 85 is mainly composed of an urging spring 86 and a detent member 87 . The biasing spring 86 has a coil portion 86a and an L-shaped locking portion 86b formed at the tip. The detent member 87 includes a plate-like body 87a having a pair of opposing claw-like portions on the upper portion, two engaging projections 87d attached to the middle height of the plate-like body 87a, and a lower edge. It has a projecting edge portion 87b protruding from the edge. A central hole 87c is formed at a position sandwiched between two engaging projections 87d in the center of the plate-like portion.

The rear end of the urging spring 86 is engaged with the crank 81 , and the engaging portion 86 b at the tip thereof is engaged with the upper surface edge of the hook portion 83 a of the link 83 . The engaging protrusion 87d of the detent member 87 is fitted into the engaging hole 83e of the link 83, and the projecting edge 87b is engaged with the groove 83f. A pivot shaft 88 is inserted through the hollow portion of the coil portion 86a of the biasing spring 86, the center hole 87c of the detent member 87, the through hole 83d of the link 83, and the shaft hole 82d of the crank 81, respectively.

A link 83 of the locking lever 80 is rotatably attached to a distal end portion 81a of a crank 81 about a pivot 88, and a notch engaging portion 83c engages the receiving member 40 of the slider 30. It can be biased to rotate in a direction (counterclockwise direction in FIG. 6) to engage with the stop shaft 43 .

In addition, the anti-rotation surface z abuts on a predetermined position of the crank 81, so that the notch engaging portion 83c of the hook portion 83a is positioned and held at the locking posture position where the engaging shaft 43 of the receiver 40 is engaged. can be done. Therefore, the locking lever 80 can hold the link 83 at the locking position in such a manner that the link 83 overlaps the distal end portion 81a of the crank 81 in a posture enabling automatic locking.
The automatically locked cylinder lock 70 can be unlocked with the key K.

The cylinder lock 70 of the lock device A is inserted into a mounting hole (not shown) of the end portion 15b of the vertical frame 7 of the hinged door D from the rear side opposite to the keyhole 71a. An annular washer 72 is provided on the outer periphery of the front portion of the cylinder 71, and the end portion 15b is fastened with an outer lock cap 73, and the keyhole 71a (Fig. 9) faces outward, and the end portion 15b is fitted inside. Assembled.

Further, when the slider 30 of the slide device S is moved to the position of the stopper shaft 24, the notch locking portion 83c of the link 83 of the locking lever 80 and the locking shaft 43 of the receiving tool 40 can be engaged. are in a relationship.

[Operation of this locking/unlocking mechanism M]
Next, the operation of this locking/unlocking mechanism M for unlocking the hinged door D from the state in which the hinged door D is closed will be described.

The tip of the steel key K is inserted through the vertical joint J2 into the key insertion hole 50a of the pushing device P (FIGS. 8 and 9). At this time, the tip of the triangular portion 56a of the pushing force transmission body 56 is in contact with the tip of the dome-shaped portion 51a of the inner space 51 of the main body case 50. It is pushed rearward by the tip portion and is rotated to a position where it abuts on the vertical surface of the L-shaped portion 51b.

By this operation, the pressing plate 55 is pushed out from the pressing plate retracting hole 50b, contacts the blind portion 15c of the hinged door D, and applies pressing force. Then, the opening door D slides to the locking/unlocking operation position, and the keyhole 71a of the cylinder lock 70 in the lock device A is exposed to the outside. Therefore, the operator grasps the end of the hinged door D, rotates it forward until a predetermined distance is reached, inserts the key K into the keyhole 71a, and unlocks (Fig. 10). .

When closing the open door D, the cylinder lock 70 is automatically locked by the operation of the lock lever 80 of the lock device A by pressing the open door D toward the room after locking. It will be locked in the closed position. At this time, the pressing plate 55 of the pushing device P is smoothly accommodated in the inner space 51 of the main body case 50 by the biasing force of the auxiliary spring 57 .

[Effect of this locking/unlocking mechanism]
According to this locking/unlocking mechanism M, the pusher P is provided for moving the opening door D from the closed position to the locking/unlocking operation position. there is Therefore, at the time of unlocking, the pressing force transmission body 56 is operated to press the pressing plate 55 against the blind portion 15c, which is the contact surface of the opening door D. can be slid from the door closing position to the locking/unlocking position. Therefore, when the door is closed, the hinged door D does not enter a half-open state, etc., and various problems associated with the half-open state can be resolved.

Further, according to this locking/unlocking mechanism M, the hinged door D is made of steel, which is a ferromagnetic material, and the pusher P is provided with the magnet 58. Therefore, when the door is closed, the hinged door D can be It can be firmly held by the left sleeve panel W3. Further, since the key K for operating the pushing device P is made of ferromagnetic steel, even if the key insertion hole 50a of the pushing device P is provided at a position that is difficult to see, it can be easily guided. It is possible to perform the alignment easily.
It is preferable that the key K is formed so that it can also be used as the key for the hinged door D, so that there is no need to use a plurality of keys.

[Second embodiment]
Next, the locking/unlocking mechanism M' of the second embodiment will be described.
The locking/unlocking mechanism M' of the second embodiment differs in the shape of the pressing plate 55' and the pushing force transmission body 56' of the pushing device P' and the shape of the inner space 51' of the main body case 50' ( Figure 11).

An inner space 51' of the main body case 50', including a key K inserting portion, is formed in a substantially recessed shape. The pressing plate 55' has an elongated right-angled trapezoidal shape. , and the auxiliary spring 57 is engaged with that portion.

The pushing force transmitter 56' has a modified hexagonal shape with a chevron shape. The lower slope 56a' is formed to have the same angle of inclination as the rear slope 55a' of the pressing plate 55', so that both surfaces can be slidably contacted. In addition, the front part and the rear part are formed in parallel, and the movement of the front part in the front-rear direction is regulated by the central protrusion 50c' of the main body case 50', and the front part moves up and down while sliding on the central protrusion 50c'. It can move freely in any direction.

Also in this locking/unlocking mechanism M', by inserting the tip of the key K into a key insertion hole (not shown) of the pushing device P' and pressing the pushing force transmitting body 56', the pushing force transmitting body 56' is pushed. is pressed downwards. Along with this, the lower slope 56a' of the pushing force transmission body 56' and the rear slope 55a' of the pressing plate 55' come into contact with each other, so that the pressing plate 55' moves forward and the pressing plate retracting hole 50b' opens. pushed out from Then, by contacting the blindfold portion 15c of the hinged door D and applying a pressing force, the hinged door D is slid to the locking/unlocking operation position.

Therefore, at the time of unlocking, by operating the pushing force transmission body 56' to press the pressing plate 55' against the blind portion 15c, which is the wall contact surface of the opening door D, through the sliding device S, The opening door D can be slid from the closing position to the locking/unlocking position.

As described above, according to the locking/unlocking mechanism M' of the second embodiment, as with the locking/unlocking mechanism M of the first embodiment, when the door is closed, the opening door D does not enter the half-open state. It is possible to solve various problems in

Although an example of a preferred embodiment of the present invention has been described above, the present invention is not limited to this embodiment, and design changes can be made as appropriate without departing from the gist of the present invention.

For example, there are no restrictions on the wall or hinged door to which this locking/unlocking mechanism is applied. It can be determined appropriately according to the situation of the door, etc. Also, regarding the specifications, materials, dimensions, shapes, mounting positions, etc. of each element constituting the present invention, various structures can be used as long as the basic structure is provided.

In particular, the mounting position of the pushing device can be provided at any suitable position as long as it does not interfere with the operation of the lock device. is preferred. Also, considering the fit of the member, it can be provided in the gap between the lower end or the upper end and the floor surface or ceiling surface.

Further, the pushing device includes a pressing member that is pushed out toward the contact surface with the opening door, a biasing means as pushing means for the pressing member, a movement restricting means for the pushing means, and a release of the movement restricting means. It can also be composed of means (which may be operable from the outside) and the like.

M, M' Locking/unlocking mechanism W for hinged door Wall body W1 Right sleeve panel W2 Intermediate panel W3 Left sleeve panel J1, J2 Vertical joint D Swing door S Slide device P, P' Extrusion device A Lock device K Key 20 Mounting frame 30 Slider 40 Receiver 43 Locking shafts 50, 50' Main case 50a Key insertion holes 50b, 50b' Pressing plate retraction holes 51, 51' Internal space 51a Dome-shaped portion 51b L-shaped portions 55, 55' Pressing plate (pressing plate) Element)
55a, 55b ' spring locking pieces 56, 56' pushing force transmission body (pushing means for pushing member)
56a triangular portion 56b fan-shaped portion 58 magnet (magnet member)
70 cylinder lock 71 cylinder 80 locking lever (lever member)
81 crank 83 link 83a hook portion 83c notch locking portion 85 positioning tool

Claims (2)

A door end side end portion of a swing door for opening and closing an opening formed in a wall is installed in the swing door with a keyhole facing the outside of the wall, and an unlocking key is inserted into the keyhole to open the opening. a locking device for locking and unlocking the door;
a slide device that guides the hinged door so that it can be pushed out between a locking/unlocking operation position, which is an opening angle facing the keyhole from the outside of the wall, and a closed door position, in which the hinged door is stored;
a pushing device for moving the hinged door from the closed door position to the locking/unlocking position;
In a hinged door locking and unlocking mechanism comprising
The pushing device has a pressing member that is pushed out toward a contact surface with the hinged door, and means for pushing the pressing member,
The tip of the key can be inserted to operate the push-out means of the push-out member, and the push-out member is movable by operating the push-out means of the push-out member ,
A locking/unlocking of a hinged door, characterized in that said pushing device is mounted at an upper or lower position with an appropriate distance from said locking device and at a position where said tip of said key can be inserted from the outside. mechanism. The hinged door is made of a ferromagnetic material,
2. A locking/unlocking mechanism for a hinged door according to claim 1, wherein said pushing device is provided with a magnet member.

Images