JP7274358B2 - Fittings - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to fittings provided with a shoji opening/closing device for opening and closing a shoji.

2. Description of the Related Art Conventionally, fittings having a shoji opening/closing device having an operator handle for opening and closing a window (shoji) are known (see, for example, Patent Literature 1). In fittings described in Patent Literature 1, a shoji door opening/closing device having an operator handle is described. The shoji opening/closing device is attached to the lower frame or the vertical frame of the frame of the fittings.

JP-A-10-280798

The opening of the shoji is maintained at a so-called half-opened state in order to allow air into the room while ensuring privacy or to prevent the shoji from colliding with an outdoor obstacle. In the shoji opening and closing device of the above-mentioned conventional fittings, the shoji is opened by rotating the operator handle from the fully closed state so that the shoji can be opened to a predetermined half-opened state. A regulating member is provided for regulating the shoji so that it stops at the opening degree of the half-open state and the operator handle cannot be rotated further. A switching member is provided for switching between the case where the regulation is performed by the regulation member and the case where the shoji can be fully opened without regulation.

The regulating member engages with the rotating member that rotates integrally with the rocking arm so as to restrict the rocking of the rocking arm that is driven and rotated by the rotation of the operator handle. This engagement is performed by moving the regulating member from the radially outer side to the radially inner side of the rotating member and engaging with the engaged portion of the rotating member.

However, when the regulating member is not regulated, it is necessary to move the regulating member radially outward of the rotating member so that it does not engage with the rotating member. It was necessary to secure a clearance for the restricting member in the radially outer portion, and it was difficult to reduce the size of the housing (case) of the shoji restricting member.

An object of the present invention is to provide fittings in which the housing of a shoji door opening/closing device is reduced in size.

The present invention comprises a frame, a shoji that is attached to the frame so that it can be opened and closed and has a frame, and a shoji opening and closing device that is attached to the frame and is capable of opening and closing the shoji. comprises an operated part that is connected to the shoji and rotates around the operated part rotation axis, an operating part that is connected to the operated part and drives the operated part, and a half-opened state in which the shoji does not reach a fully open state. a regulating member that regulates the rotation of the operated portion so that the shoji cannot be further opened in a state where the regulating member is positioned at a rotation regulating position where rotation of the operated portion can be regulated; The present invention relates to fittings that are movable between a rotation restricted position, which is a radially inner position of the operated part rotating shaft than the restricted position and does not restrict the rotation of the operated part.

It is the front view which looked at the fittings which concern on one Embodiment of this invention from the indoor side. FIG. 4 is an enlarged front view of the fitting according to the embodiment of the present invention as seen from the indoor side, showing a state in which the operator handle is arranged at the operation position; 3 is an enlarged perspective view showing a state in which an operator handle is moved to a non-operating position from the state shown in FIG. 2; FIG. FIG. 4 is a cross-sectional view showing a state in which an operator handle of fittings according to one embodiment of the present invention is in an operating position; FIG. 4 is a cross-sectional view showing a state in which an operator handle of fittings according to one embodiment of the present invention is in a non-operating position; 1 is a front perspective view showing a housing of a sliding door opening/closing device for fittings according to an embodiment of the present invention; FIG. It is a perspective view which shows a mode that the housing was removed from the sliding door opening/closing apparatus of the fittings which concerns on one Embodiment of this invention. It is a side perspective view which shows the housing of the sliding door opening/closing apparatus of the fittings which concerns on one Embodiment of this invention. It is a downward perspective view which shows a mode that the housing was removed from the sliding door opening/closing apparatus of the fittings which concerns on one Embodiment of this invention. It is sectional drawing which shows the lower part of the housing of the sliding door opening/closing apparatus of the fittings which concerns on one Embodiment of this invention. 1 is an exploded perspective view showing the structure of a base of a swing arm of a sliding door opening/closing device for fittings according to an embodiment of the present invention; FIG. 1 is a perspective view showing a state where a stopper of a sliding door opening/closing device for fittings according to an embodiment of the present invention is in a rotation restricting position; FIG. FIG. 4 is a perspective view showing a state where the stopper of the sliding door opening/closing device for fittings according to one embodiment of the present invention is in a rotation restricting position and restricts the rotation of the base of the swing arm. 1 is a perspective view showing a state where a stopper of a sliding door opening/closing device for fittings according to an embodiment of the present invention is in a rotation non-restricting position; FIG. It is a front view which shows the sliding door opening/closing apparatus of the fittings based on the modification of one Embodiment of this invention.

Preferred embodiments of the present invention are described below with reference to the drawings.
FIG. 1 is a front view of the fitting 1 as seen from the indoor side. FIG. 2 is an enlarged front view of the fitting 1 viewed from the indoor side, showing a state in which the operator handle 80 is placed at the operating position. FIG. 3 is an enlarged perspective view showing a state in which the operator handle 80 has been moved from the state shown in FIG. 2 to the non-operating position. FIG. 4 is a cross-sectional view showing a state in which the operator handle 80 of the fitting 1 is at the operating position. FIG. 5 is a cross-sectional view showing a state in which the operator handle 80 of the fitting 1 is in the non-operating position. FIG. 6 is a front perspective view showing the housing 60 of the sliding door opening/closing device 50 of the fitting 1. FIG. FIG. 7 is a perspective view showing a state in which the housing 60 is removed from the shoji opening/closing device 50 of the fitting 1. As shown in FIG. FIG. 8 is a side perspective view showing the housing 60 of the sliding door opening/closing device 50 of the fitting 1. FIG. FIG. 9 is a bottom perspective view showing a state in which the housing 60 is removed from the shoji opening/closing device 50 of the fitting 1. FIG. FIG. 10 is a cross-sectional view showing the lower part of the housing 60 of the sliding door opening/closing device 50 of the fitting 1. As shown in FIG.

In the present specification, the "viewing direction" means the in-plane direction of the shoji 20 housed in the frame 10 of the fitting housed in the opening formed in the building, and the "viewing direction" , means the indoor-outdoor direction (ie, the depth direction).

As shown in FIG. 1, fittings 1 include a frame 10 fixed to an opening of a building, an outward-opening shoji 20 attached to the frame 10 via a hinge (not shown) so that it can be opened and closed, and an operator It is an opening and closing window that protrudes sideways and has a shoji opening and closing device 50 having a handle 80 (an operation portion). The shoji 20 is attached in the frame 10 so that it can be opened and closed. In this embodiment, the operator handle 80 is attached to the indoor side viewing surface 12a (described later) of the lower frame 12 (described later) of the frame 10, as shown in FIGS. In the fitting 1 of this embodiment, the operator handle 80 can be operated between an operating position (see FIG. 2) and a non-operating position (see FIG. 3). The shoji 20 can be opened to the outside by rotating the operator handle 80 at the operating position about the operating rotation axis J2 (see FIG. 4).

As shown in FIG. 1, the frame body 10 is configured by forming an upper frame 11, a lower frame 12, a suspension-side vertical frame 13, and a door-end-side vertical frame 14 into a rectangular frame. An outward-opening shoji 20 is attached to the frame 10 so as to be openable and closable.

As shown in FIG. 1, the lower frame 12 includes a hollow lower frame main body 121, an indoor side portion 122 connected to the upper portion of the indoor side end of the lower frame main body 121, and an upper portion of the indoor side portion 122. and an indoor side handle placement portion 123 to be placed. The indoor side portion 122 and the indoor side handle placement portion 123 are formed in a hollow shape and arranged side by side in the vertical direction.

The indoor-side handle arrangement portion 123 is arranged on the indoor side of the glass arrangement portion 321 (described later) of the lower door frame 32 . In the space on the outdoor side of the lower frame 12, which is composed of the upper surface 121a of the lower frame main body 121, the outdoor side of the indoor side portion 122, and the outdoor side of the indoor side handle placement portion 123, At the closing position of the shoji 20, the door leading side lower frame 32 of the shoji 20 is arranged.

The shoji 20 is attached in the frame 10 so that it can be opened and closed. The shoji 20 is arranged on the outdoor side of the frame 10, as shown in FIG. The shoji 20 includes glass 25 (face material) and a frame 30 configured to surround the glass 25 . The glass 25 is arranged inside the frame 30 . The glass 25 is composed of, for example, multi-layered glass. As shown in FIG. 1, the frame body 30 is configured by forming a frame of a suspension-side upper frame 31, a door-end-side lower frame 32, a vertical frame 33, and a vertical frame 34 into a rectangular shape. The shoji 20 is opened and closed by rotating about a rotating shaft 31a extending in the left-right direction along the hanging-side upper frame 31. As shown in FIG.

As shown in FIG. 1, the lower door frame 32 has a glass arrangement portion 321 arranged on the upper side on the outdoor side of the door end side lower frame 32 and a rectangular portion arranged below the glass arrangement portion 321. 322 and an open portion 323 located below the square portion 322 . The glass placement portion 321 , the square portion 322 and the open portion 323 are arranged side by side in this order from the top to the bottom from the edge of the glass 25 . The end portion of the glass 25 is accommodated in the glass placement portion 321 .

The shoji 20 is rotated around the rotation shaft 31a (see FIG. 1) arranged on the upper frame 31 on the hanger side of the frame body 30 by performing a rotating operation with the operator handle 80 positioned at the operating position. Opens and closes by moving.

Next, the shoji opening/closing device 50 will be described. The shoji opening/closing device 50 includes a housing 60, an operator handle 80, and a swing arm 91, as shown in FIG. The housing 60 has a metal body 651 (see FIG. 6, etc.) having a monocoque structure made of hollow extruded aluminum, and the entire metal body 651 is covered with a resin cover 652 .

Inside the housing 60, there are a drive-side gear 642 formed on a gear shaft member 64 connected to a rotary shaft member 621 connected to the operator handle 80, and a base portion as a rotating portion that rotates integrally with the swing arm 91. A driven side gear 913 formed in 911 is screwed together. When the operator handle 80 is rotated, the rotation shaft member 621 rotates, and the gear shaft member 64 and the drive side gear 642 rotate. The swing arm 91 is configured to swing by rotating around a central shaft 912 as a rotating shaft. The gear shaft member 64, the drive side gear 642, the swing arm 91 (the base portion 911), and the driven side gear 913 constitute a drive unit.

The base portion 911 of the swing arm 91 has an upper plate portion 9112 and a lower plate portion 9116, as shown in FIG. The upper plate portion 9112 is formed in a disc shape integrally formed with the arm extension portion 9111 and the engaging convex portion 914 . A square upper plate through-hole 9113 is formed in the central portion of the upper plate portion 9112 . The lower plate portion 9116 is formed in a disk shape. Teeth 9131 forming the driven side gear 913 are formed on part of the peripheral edge of the lower plate portion 9116 . A square lower plate through-hole 9117 having the same shape as the upper plate through-hole 9113 is formed in the central portion of the lower plate portion 9116 .

The center shaft 912 includes a lower end cylindrical portion 9121 forming the lower end portion, a central cylindrical portion 9122 connected to the upper portion of the lower end cylindrical portion 9121, a square column portion 9123 connected to the upper portion of the central cylindrical portion 9122, and an upper columnar portion 9124 connected to the upper portion of the square columnar portion 9123 . The lower end columnar portion 9121, the middle columnar portion 9122, and the square columnar portion 9123 pass through the upper plate through-hole 9113 and the lower plate through-hole 9117, and the square columnar portion 9123 passes through the upper plate through-hole 9113 and the lower plate through-hole 9117. The center shaft 912 is attached to the base portion 911 in a state of penetrating through the base portion 911 . Since the square pole portion 9123 penetrates the upper plate through-hole 9113 and the lower plate through-hole 9117, the upper plate portion 9112 and the lower plate portion 9116 are configured to rotate integrally.

A rotating shaft member 621 connected to the operator handle 80 in the housing 60 is formed so as to extend obliquely from the glass 25 toward the indoor side from the lower side to the upper side of the lower frame 12 . Therefore, the operator handle 80 is arranged to be inclined with respect to the glass 25 so as to separate from the glass 25 as it goes from the lower side to the upper side.

The operator handle 80 has a handle body 81 and a knob portion 83, as shown in FIGS. The handle body 81 is formed in a substantially quadrangular prism shape. A distal end portion 812 of the handle body 81 is bent toward the outside when the operator handle 80 is in the non-operating position as shown in FIG. The end of the bent tip 812 is provided with a further protruding protrusion 813 (see FIG. 4). A substantially spherical knob 83 is provided that fits over the protrusion 813 so that it cannot be removed from the housing.

The operator handle 80 has an operating position in which the shoji 20 can be opened and closed, and a non-operating position arranged along the outer surface of the housing 60 of the shoji opening/closing operation portion when the shoji 20 is not operated to open/close. is rotatable around the rotation axis J1.

In the non-operating position of the operator handle 80, as shown in FIGS. 3 and 5, the portion of the base 811 with respect to the bent tip 812 of the operator handle 80 is the outer surface of the housing 60 of the shoji opening/closing operation portion, more specifically, is arranged along the outer surface 612 of the penetrating portion 611 through which the rotating shaft member 621 penetrates the housing 60 . The outer surface 612 of the through portion 611 is formed by an inclined surface forming a predetermined angle with respect to the upper surface of the housing 60 and the viewing surface of the housing 60 on the indoor side so as to connect them, It extends longitudinally of the housing 60 . In the non-operating position, the operator handle 80 is arranged such that the base portion 811 of the operator handle 80 extends along the extending direction of the outer surface of the through portion 611 . In addition, when the operator handle 80 is in the non-operating position, the portion of the outer surface 612 of the housing 60 facing the operator handle 80 has a half-open state in which the shoji 20 does not reach the fully open state. A changeover switch 614 (see FIG. 2) is provided as a switching operation unit for switching whether or not to restrict the rotation (rotation) of the swing arm 91 so that the door cannot be opened further.

The operating position of the operator handle 80 is a position protruding indoors from the outer surface 612 of the through portion 611, as shown in FIGS. The operator handle 80 protrudes toward the indoor side from the portion of the housing 60 closest to the indoor side in the operating position.

The shoji door opening/closing device 50 has a rotation prevention mechanism for preventing the operator handle 80 from rotating around the rotation axis J1 when the operator handle 80 as an operation unit is in the operating position. . It also has a button 818 as a release member for releasing the rotation prevention of the operating portion by the rotation prevention mechanism.

Specifically, as shown in FIG. A driven portion 817 that is movable integrally with the engaging shaft portion 816, and an engaging shaft portion 819 that is movable integrally with the driven portion 817 and has a positional relationship in which the axial center of the engaging shaft portion 816 coincides with that of the driven portion 819. ,have.

The engaging shaft portion 816 is formed in a cylindrical shape and is biased by a compression spring 815 so as to move in the direction of the rotating shaft member 621 . The driven portion 817 is fixed to a middle portion of the rotating shaft member 621 . The driven portion 817 has a driven slope 8171 that is inclined with respect to the moving direction of the engaging shaft portion 816 . As shown in FIG. 4 and the like, the driven slope 8171 is inclined so that its width increases with distance from the rotation shaft member 621 in the direction orthogonal to the engagement shaft portion 816 .

The engaging shaft portion 819 has one end connected to the driven portion 817 and the other end having an inclined portion 8191 inclined with respect to the axis of the driven portion 817 . The other end of the engaging shaft portion 819 having the inclined portion 8191 can advance and retreat integrally with the driven portion 817 and the engaging shaft portion 816 with respect to the circumferential recess 601 .

The button 818 is provided through a through hole formed in the portion of the handle body 81 facing the outer surface 612 of the through portion 611 of the housing 60 when the operator handle 80 is in the non-operating position. is movable in the penetrating direction of Therefore, as shown in FIG. 3, when the operator handle 80 is in the non-operating position, the button 818 is hidden by the handle body 81 when the shoji door opening/closing device 50 is viewed from the indoor side on which the operator handle 80 is operated. It is in an invisible state. Further, when the operator handle 80 is in the non-operating position, the changeover switch 614 (see FIG. 2) on the outer surface 612 of the housing 60 as a switching operation section is hidden by the operator handle 80 as shown in FIG. and is invisible. As shown in FIG. 2, when the operator handle 80 is in the operating position, the button 818 is visible when the shoji door opening/closing device 50 is viewed from the indoor side where the operator handle 80 is operated. At this time, the changeover switch 614 is also visible.

The portion of the button 818 that is exposed to the outside of the handle body 81 and that is closer to the rotating shaft member 621 is formed into a rectangular shape as shown in FIG. The end of 818 is formed in a semi-circular shape, and the longitudinal direction of handle body 81 is parallel to the longitudinal direction of handle body 81 .

In the cross section shown in FIG. 4 and the like, the button 818 has a rectangular upper portion and a button inclined surface 8181 at the lower portion. The button inclined surface 8181 is parallel to the driven inclined surface 8171, and the button inclined surface 8181 and the driven inclined surface 8171 are always in contact with each other. When the button 818 is pushed from the outside of the handle body 81 , the driven slope 8171 slides against the button slope 8181 and is pushed away from the rotating shaft member 621 to engage with the circumferential recess 601 . The engaging shaft portion 819 that was engaged is removed from the circumferential recess 601 .

Thereby, the handle main body 81 is configured to be rotatable with respect to the rotating shaft member 621 . As shown in FIG. 4 and the like, two circumferential recesses 601 are formed in a circular portion at the tip of the rotating shaft member 621 with a positional relationship of about 120° around the rotating shaft J1 in the circumferential direction. . By engaging the engaging shaft portion 819 with one of the circumferential recesses 601, the operator handle 80 is maintained at the non-operating position, and by engaging the engaging shaft portion 819 with the other circumferential recessed portion 601, the operator can Handle 80 is maintained in the operating position.

When the operator handle 80 is in the non-operating position, the depth of the circumferential recess 601 with which the engaging shaft 819 engages is shallow. Therefore, even if the button 818 is not pushed, the engaging shaft portion 819 can be pulled out of the circumferential concave portion 601 along the inclined portion 8191 and the operator handle 80 can be moved to the operating position. . The depth of the circumferential recess 601 with which the engaging shaft portion 819 engages when the operator handle 80 is in the operating position is the depth of the portion of the other end of the engaging shaft portion 819 where the inclined portion 8191 is provided. Deeper than long. Therefore, unless the button 818 is pressed, the engaging shaft portion 819 cannot be pulled out of the circumferential recess 601 and the operator handle 80 cannot be moved to the non-operating position.

A rotary shaft member 621 connected to the operator handle 80 is connected to an end portion 641 of a gear shaft member 64 as an operating portion rotary shaft housed in the housing 60 of the shoji door opening/closing device 50 so as to be integrally rotatable. A drive-side gear 642 is threaded in the middle of the gear shaft member 64 as shown in FIG. 7 and the like. Further, the housing 60 accommodates a base portion 911 of the swing arm 91 as an operated portion so as to be integrally rotatable with the swing arm 91 . The base 911 is formed in a substantially disk shape. A driven side gear 913 is threaded around the base portion 911 , and the driven side gear 913 is connected to the driving side gear 642 by being screwed together. Therefore, by rotating the operator handle 80 with the operator handle 80 at the operating position, the gear shaft member 64 rotates, thereby rotating the base 911 and causing the swing arm 91 to swing. A through hole 919 formed at the tip of the swing arm 91 is connected to the shoji 20 via a metal fitting (not shown).

An upper surface of the base portion 911 of the swing arm 91 is provided with an engaging convex portion 914 as a restricting member engaging portion. The engagement protrusion 914 extends along the periphery of the base portion 911 with a predetermined width from the periphery to a predetermined position radially inward of the base portion 911 and along the periphery of the base portion 911 at the central angle of the base portion 911 . is provided in a range of about 80 degrees, protrudes upward from the upper surface of the base portion 911, and is formed in a fan shape in plan view.

The engaging convex portion 914 has a restricting member movement restricting portion 9141 . The restricting member movement restricting portion 9141 is an end portion of the engaging convex portion 914 in the circumferential direction of the base portion 911, and protrudes from the radial inner end portion of the base portion 911 along the circumferential direction of the base portion 911, It is integrally formed with the base portion 911 . In addition, the engaging convex portion 914 has a position maintaining portion 9142 . The position maintaining portion 9142 is configured by the inner peripheral surface of the fan-shaped engagement convex portion 914 .

In addition, the housing 60 of the shoji opening/closing device 50 has a stopper 92 as a restricting member that restricts the rotation (rotation) of the swing arm so that the shoji cannot be further opened in a half-open state where the shoji is not fully opened. is accommodated. The stopper 92 is supported by the housing 60 so as to be rotatable about the rotation shaft 93 .

The stopper 92 has a stopper body portion 921 which is made of a plate-shaped metal member and is connected to the rotating shaft 93 , a stopper tip portion 922 , and the other end portion 924 . One end of the stopper main body 921 extends from the rotating shaft 93 toward the central axis 912, and along the way the swing arm 91 swings in the direction in which the shoji 20 opens (clockwise about the central axis 912 in FIG. 7). direction).

The tip of one end of the stopper 92 is bent parallel to the central axis 912 so as to approach the base 911 and has a stopper tip 922 as a regulating member tip reaching a predetermined position away from the base 911 . This predetermined position is below the upper surface of the engaging protrusion 914 in the axial direction of the center shaft 912 (the far side in the direction from the front side to the rear side in FIG. 7). On the other hand, the lower surface of the stopper main body portion 921 facing the base portion 911 is located above the upper surface of the engaging protrusion 914 in the axial direction of the central shaft 912 (the front side in the direction from the back side to the front side in FIG. 7). ).

The other end portion 924 of the stopper is formed in a plate-like shape perpendicular to the stopper body portion 921 and extends away from the central axis 912 . The other end portion 924 is arranged between two parallel plate-like portions 951 of the slide switch 95 located inside the housing 60 of the shoji door opening/closing device 50 . By moving the slide switch 95 in its longitudinal direction (horizontal direction in FIG. 7), the stopper 92 swings about the rotating shaft 93, and moves between a rotation restricted position and a rotation non-restricted position, which will be described later. configured to move.

As shown in FIGS. 6 and 8, the housing 60 has one end opening 615, the other end opening 616, a through hole 6311 through which one end side of the gear shaft member 64 penetrates, and the other end side of the gear shaft member 64. A through hole 6312 inserted and supported, a through hole 6321 in which one end of the central shaft 912 is supported, a through hole 6322 in which the other end of the central shaft 912 is supported, and one end of the rotating shaft 93 are supported. a through hole 6331 through which the other end of the rotating shaft 93 is supported, and a through hole 6341 through which the slide switch 95 can slide.

Since the metal body 651 that constitutes the housing 60 is made of extruded aluminum as described above, as shown in FIGS. Both ends of 60 are open.

A cap 645 is attached to one end of the gear shaft member 64 (see FIG. 7, etc.). A flange-shaped portion formed parallel to the peripheral surface of the cap 645 is fitted into the through-hole 6311 (see FIG. 8) and rotated to fix the cap 645 to the housing 60, whereby the gear is rotated through the cap 645. A portion of the shaft member 64 on the one end side is supported by the upper inclined wall portion 6515 of the metal main body 651 of the housing 60 . The other end of the gear shaft member 64 is inserted into the through hole 6312 and rotatably supported by the lower inclined wall portion 6516 of the housing 60 .

One end of the central shaft 912 (see FIG. 7 etc.) is inserted into the through-hole 6321 (see FIG. 8) and attached with a cap 915 (see FIG. 7 etc.). A flange-shaped portion formed parallel to the peripheral surface of the cap 915 is fitted into the through hole 6321 and rotated to fix the cap 915 to the housing 60 , thereby fixing one end of the central shaft 912 through the cap 915 . The side portions are supported on the top wall 6511 of the metal body 651 of the housing 60 . The other end of the central shaft 912 is inserted into the through hole 6322 and fixed to the lower wall 6512 of the metal main body 651 of the housing 60 .

One end of the rotating shaft 93 (see FIG. 7 etc.) is inserted into a through hole 6331 extending to the other end opening 616 (see FIG. 8) and a cap 935 (see FIG. 7 etc.) is attached. By fixing the cap 935 to the housing 60 so that a flange-shaped portion formed parallel to the peripheral surface of the cap 935 closes the through hole 6331, the portion on the one end side of the rotating shaft 93 via the cap 935 is fixed. is supported on the top wall 6511 of the metal body 651 of the housing 60 . The other end of the rotating shaft 93 is inserted into the through hole 6332 and fixed to the lower wall 6512 of the metal main body 651 of the housing 60 .

Two parallel plate-like portions 951 (see FIG. 7, etc.) of the slide switch 95 are inserted into through-holes 6341 (see FIG. 8) configured by rectangular elongated holes. A rectangular plate-like body portion 952 of the slide switch 95 to which the plate-like portion 951 is integrally molded and fixed is positioned outside the housing 60 . The two parallel plate-like portions 951 of the slide switch 95 are movable along the longitudinal direction of the housing 60 (horizontal direction in FIG. 6) in a through hole 6341 formed by an elongated hole.

Next, regulation of rotation of the swing arm 91 by the stopper 92 (regulation of rotation of the base portion 911) will be described. FIG. 12 is a perspective view showing a state where the stopper 92 of the sliding door opening/closing device 50 of the fitting 1 is in the rotation restricting position. FIG. 13 is a perspective view showing that the stopper 92 of the shoji door opening/closing device 50 of the fitting 1 is in the rotation restricting position and restricts the rotation of the base portion 911 of the swing arm 91 . FIG. 14 is a perspective view showing a state where the stopper 92 of the sliding door opening/closing device 50 of the fitting 1 is in the rotation non-regulating position.

By moving the slide switch 95 to the position where the slide switch 95 is closest to the gear shaft member 64 (the left position in FIG. 12, etc.), the stopper tip 922 of the stopper 92 moves toward the center shaft 912 as shown in FIGS. is positioned at the outermost position in the radial direction. At this time, the stopper 92 is in the rotation restricting position where the rotation of the base portion 911 of the swing arm 91 can be restricted. When the operator handle 80 is rotated and the base 911 is rotated when the stopper 92 is in the rotation restricting position shown in FIG. 12 (the shoji 20 is fully closed), as shown in FIG. The end edge of the engaging protrusion 914 in the circumferential direction of the center shaft 912 contacts the stopper tip 922 . As a result, the rotation of the base portion 911 is restricted, the swinging motion of the swinging arm 91 is restricted, and the shoji 20 does not open any further and is maintained in a half-open state.

At this time, try to move the slide switch 95 to the farthest position from the gear shaft member 64 (the right position in FIG. 13), and rotate the stopper tip portion 922 inward in the radial direction of the center shaft 912. Even so, since the stopper tip portion 922 abuts on the restricting member movement restricting portion 9141 , it cannot be rotated inward in the radial direction of the center shaft 912 . That is, the restricting member movement restricting portion 9141 restricts the movement of the stopper 92 to the rotation non-restricting position until the swing arm 91 is operated to the position where the shoji 20 is fully closed.

As shown in FIG. 13, in order to move the shoji 20 from the half-open state to the fully open state, the operator handle 80 must first be rotated in the previously rotated direction. By rotating in the opposite direction, the shoji 20 is brought into a fully closed state as shown in FIG. When the slide switch 95 is moved to the position farthest from the gear shaft member 64 (the left position in FIG. 12), the stopper tip 922 of the stopper 92 moves toward the center shaft 912 as shown in FIG. It is positioned at the innermost position in the radial direction. At this time, the stopper 92 is in a rotation non-regulating position where the rotation of the base portion 911 of the swing arm 91 is not restricted, which is a position swung inward in the radial direction of the central shaft 912 from the rotation restricting position.

FIG. 14 shows a state in which the shoji 20 is fully opened by further rotating the operator handle 80 after the stopper 92 is in the non-rotating position. to the rotation restricting position, the stopper tip 922 comes into contact with the position maintaining portion 9142 of the engagement projection 914, and the stopper 92 cannot be moved to the rotation restricting position. . That is, the position maintaining part 9142 maintains the stopper 92 at the rotation non-regulating position when the swing arm 91 is operated to the position where the shoji 20 is opened rather than the half-open state.

According to this embodiment, the following effects are obtained.
In this embodiment, the housing 60 as the switchgear body has a metal body 651 made of a hollow metal material. As a result, the gear shaft member 64, the driving side gear 642, the swing arm 91 (base portion 911), and the driven side gear 913, which constitute the drive unit, are assembled from the outside of the metal main body 651 (hollow). It becomes possible to Therefore, the housing 60 can be made thin and strong, and the fitting 1 in which the size of the housing of the shoji door opening/closing device 50 can be reduced. In addition, it is no longer necessary to construct the upper case and the lower case so that they can be separated, and screws for fixing them to each other are no longer necessary, and a slim design in which the screws do not appear outside the housing 60 can be realized. Therefore, the man-hours for assembling the shoji door opening/closing device 50 can be reduced.

Moreover, in this embodiment, the metal main body 651 is made of an extruded material. Therefore, the longitudinal direction of the housing 60 as a main body of the opening/closing device is open while maintaining the strength of the hollow material, so that the parts to be housed inside the housing 60 can be easily inserted. Moreover, since there is no need to cover the opening with a reinforcing material, the longitudinal dimension of the housing 60 can be minimized.

In addition, in this embodiment, the portion on the one end side of the central shaft 912 of the swing arm 91 is rotatably supported by the upper wall 6511 of the metal main body 651 , and the portion on the other end side of the central shaft 912 is the metal main body 651 . It is rotatably supported by the lower wall 6512 facing the upper wall 6511 of the. One end portion of the gear shaft member 64 is supported by the upper inclined wall portion 6515 of the metal main body 651 , and the other end portion of the gear shaft member 64 is supported by the lower inclined wall portion 6516 of the metal main body 651 . supported by The driving side gear 642 of the gear shaft member 64 and the driven side gear 913 of the base portion 911 that rotates about the central axis 912 are screwed together.

Since the driving side gear 642 and the driven side gear 913 are screwed together in this way, the housing 60 is required to have the strength to receive the thrust. Since the housing 60 is supported, the thickness of the housing 60 can be reduced while the structure can withstand the thrust applied to the housing 60, and the size of the housing 60 can be reduced.

In addition, in this embodiment, the housing 60 has a cover 652 as a resin cover that covers the metal body 651 . Since the strength element of the housing 60 is secured by the metal material of the metal main body 651, the thickness of the resin material cover 652 as a decorative cover can be reduced, and the structure functions as an external design material. It is possible to

Further, in the present embodiment, the stopper 92 as the restricting member has a rotation restricting position at which the rotation of the base portion 911 of the swing arm 91 as the operated portion can be restricted, and a position in the radial direction of the central shaft 912 from the rotation restricting position. It is movable between a rotation unrestricted position which is an inner position and does not restrict the rotation of the base portion 911 of the swing arm 91 .

As a result, when the stopper 92 is at the rotation non-restricted position, the stopper 92 is positioned radially inward of the central axis 912 relative to the rotation restricted position. It can be prevented from being opened, and intrusion from the outdoors can be prevented. In addition, it is not necessary to secure a relief margin for the stopper 92 that allows the stopper 92 to move to a radially outer position of the central shaft 912 from the position of the stopper 92 when the stopper 92 is in the rotation restricting position. As a result, it is possible to reduce the size of the housing 60 of the shoji door opening/closing device 50, and to achieve a compact configuration.

Further, in this embodiment, the restricting member engaging portion 914 moves the stopper 92 to the rotation non-restricting position until the base portion 911 of the swing arm 91 is operated to the position where the shoji 20 is closed. It has a restricting member movement restricting portion 9141 that restricts movement. As a result, since the stopper 92 cannot be moved to the rotation non-restriction position unless the shoji 20 is fully closed, it is possible to prevent the stopper 92 from being moved to the rotation non-restriction position from outside. Become. As a result, it becomes possible to prevent intrusion from the outdoors, and it becomes possible to enhance crime prevention.

Further, in this embodiment, the restricting member engaging portion 914 rotates the stopper 92 when the base portion 911 of the swing arm 91 is operated to the position where the shoji 20 is opened rather than the half-open state. A position maintaining portion 9142 is provided to maintain the restricted position. As a result, when the base portion 911 of the swing arm 91 is operated to the position where the shoji 20 is opened rather than the half-open state, the stopper 92 moves to the rotation restriction position, and the stopper 92 is prevented from rotating. It is possible to avoid problems such as failure to return to the regulated position, failure to close the shoji 20, interference of the stopper 92 with the regulating member engaging portion 914, and the like.

In addition, the base portion 911 has a lower plate portion 9116 as a first rotated portion, and an upper plate portion 9112 as a second rotated portion that can rotate integrally with the lower plate portion 9116. The lower plate portion 9116 is , a lower plate through-hole 9117 as a first engaged through-hole, and an upper plate portion 9112 includes a restricting member engaging portion 914, a restricting member movement restricting portion 9141, and a second engaged through-hole. The central shaft 912 has a square pole portion 9123 as an engagement pole portion penetrating and connecting the upper plate through hole 9113 and the lower plate through hole 9117 .

If the lower plate portion 9116 that constitutes the driven side gear 913 is produced integrally with the upper plate portion 9112, the press work becomes complicated, and if it is composed of separate members, spot welding must be performed. Although there was a problem, in the above embodiment, the lower plate portion 9116 and the upper plate portion 9112 are connected by the square pole portion 9123 so that they can rotate integrally. can.

Further, in this embodiment, the operator handle 80 as the operating portion is positioned at an operation position where the shoji 20 can be opened and closed, and when the shoji 20 is not operated to open and close, the outer surface 612 of the housing 60 as the main body of the shoji opening and closing device 50. and a non-operating position arranged along J1. The shoji opening/closing device 50 includes a rotation prevention mechanism (circumferential concave portion 601, engaging A shaft portion 816, a driven portion 817, an engaging shaft portion 819), and a button 818 as a release member for releasing the rotation prevention of the operating portion by the rotation prevention mechanism. It is provided in the portion of the handle body 81 of the operator handle 80 that faces the outer surface 612 of the housing 60 as the switchgear body when the operator handle 80 is in the non-operating position.

As a result, when the operator handle 80 is in the non-operating position, the button 818 and the changeover switch 614 are hidden by the handle body 81 when the shoji door opening/closing device 50 is viewed from the indoor side on which the operator handle 80 is operated. state and can be invisible. For this reason, design noise caused by the button 818 and the changeover switch 614 can be eliminated when the shoji door opening/closing device 50 is viewed from the indoor side, and design can be improved.

It should be noted that the present invention is not limited to the above-described embodiments, and includes modifications, improvements, etc. within the scope of achieving the object of the present invention.

For example, in the above-described embodiment, the fittings 1 are composed of opening and closing windows that protrude sideways, but are not limited to this configuration. For example, fittings may be composed of vertically extending opening and closing windows, continuous windows, high-altitude windows, skylights, louver windows, jalousies, smoke exhaust windows, and the like.

In addition, the configuration of the frame, the shoji, the rotation prevention mechanism of the shoji opening and closing device, the release member, etc. is the circumferential recess 601 of the frame 10, the shoji 20, and the shoji opening and closing device 50 according to the present embodiment, the engaging shaft portion 816, The configuration is not limited to the driven portion 817, the button 818, and the like. For example, the shoji opening/closing device may be attached to a portion of the frame body other than the lower frame, for example, the vertical frame.
In addition, the structure of the opening/closing device main body, the drive unit, etc. of the shoji opening/closing device includes the housing 60, the gear shaft member 64, the drive side gear 642, the swing arm 91, the base portion 911, the driven side of the shoji opening/closing device 50 according to the present embodiment. It is not limited to the configuration of gear 913 .
The structures of the operated portion, the operating portion, the restricting member, the restricting member engaging portion, the restricting member movement restricting portion, the position maintaining portion, etc. are the same as those of the swing arm 91, the base portion 911, the operator handle 80, and the stopper 92 according to the present embodiment. , the restricting member engaging portion 914 , the restricting member movement restricting portion 9141 , and the position maintaining portion 9142 .
Alternatively, an electric motor may be provided instead of the operator handle 80, and the swing arm may be swung by the rotation of the motor.
That is, for example, a motor may be accommodated inside the housing, and the operation rotary shaft J2 (see FIG. 4) in the above embodiment may drive the swing arm by the output shaft of the motor. , the motor 80A is housed inside the housing 60A of the sash door opening/closing device 50A, and the gear formed by threading the output shaft 81A of the motor 80A is the driven side gear of the base 911A of the swing arm 91A. 913 (see FIG. 7, etc.), the swing arm 91A may be driven around the central shaft 912A.
As a result, the shoji opening/closing device can easily open and close the window without operating the operator handle, and the housing can be made smaller, and the number of assembly man-hours can be reduced. Become.
Further, the configurations of the first rotated portion, the second rotated portion, the engagement column portion, etc. are not limited to the configurations of the lower plate portion 9116, the upper plate portion 9112, the square column portion 9123, etc. in the present embodiment. For example, the shape of the upper plate through-hole and the lower plate through-hole may be hexagonal. Further, the shape of the upper plate through-hole and the lower plate through-hole is not limited to a polygonal shape. Any shape other than a circle may be used as long as the engagement column does not rotate with respect to the rotated portion.

Reference Signs List 1 fitting 10 frame 20 shoji 50 shoji opening/closing device 60 housing (main body of opening/closing device)
63A Handle accommodating portion (operating portion engaged portion)
64 gear shaft member (driving unit)
80 operator handle (operation unit)
91 swing arm (driving unit)
92 stopper (restriction member)
601 Circumferential recess (anti-rotation mechanism)
605A button housing recess (releasing member engaged portion)
612 outer surface 642 drive side gear (driving unit)
651 metal main body 652 cover (resin cover part)
816 engagement shaft (rotation prevention mechanism)
817 driven part (rotation prevention mechanism)
818 button (release member)
819 engagement shaft (rotation prevention mechanism)
911 base (driving unit)
912 central axis (operated part)
913 driven side gear (driving unit)
914 regulating member engaging portion 922 stopper tip portion 6511 upper wall (one wall portion)
6512 lower wall (other wall)
6515 upper inclined wall (one wall)
6516 lower inclined wall (other wall)
9112 upper plate portion (second rotated portion)
9113 upper plate through-hole (second engaged through-hole)
9116 Lower plate (first rotated part)
9117 lower plate through-hole (first engaged through-hole)
9123 Square pole part (engagement pole part)
9141 regulating member movement regulating portion 9142 position maintaining portion J1 rotation shaft

Claims (4)

a frame;
a shoji having a frame mounted openable and closable in the frame;
A shoji opening and closing device attached to the frame and capable of opening and closing the shoji,
The shoji opening and closing device is
An operated part that is connected to the shoji and rotates around the operated part rotation axis;
an operating unit connected to the operated unit and driving the operated unit;
a restricting member that restricts the rotation of the operated part so that the shoji cannot be further opened in a half-open state in which the shoji is not fully opened;
The regulating member has a rotation regulating position at which rotation of the operated portion can be regulated, and a position radially inward of the rotation shaft of the operated portion relative to the rotation regulating position, at which the rotation of the operated portion is regulated. A fitting that is movable by rotating about the rotating shaft without moving in the axial direction of the rotating shaft between a rotation non-restricted position where the fitting is not rotated. The operated portion has a restricting member engaging portion that rotates integrally with the operated portion rotating shaft and can be engaged with the restricting member located at the rotation restricting position,
The restricting member engaging portion restricts movement of the restricting member to the rotation non-restricting position until the operated portion is operated to a position in which the shoji is closed. The fitting according to claim 1, having a portion. The regulating member engaging portion maintains the regulating member at the rotation non-regulating position when the operated portion is operated to a position where the shoji is more open than the half-open state. 3. The fitting according to claim 2, comprising a portion. The operated portion has a first rotated portion and a second rotated portion that can rotate integrally with the first rotated portion,
The first rotated portion has a first engaged through-hole,
The second rotated portion has the restricting member movement restricting portion, the position maintaining portion, and a second engaged through-hole,
4. The fitting according to claim 3, wherein the operated portion rotating shaft has an engaging pillar portion that penetrates and connects the first engaged through-hole and the second engaged through-hole.

Images