JP2014169622A - Ventilator and door - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a ventilator and a door capable of easily closing an open/close member for opening/closing a ventilation opening.SOLUTION: The ventilator has an open/close member 3 which is arranged to be rotatable between a close-position to close a ventilation opening 20 and an open-position to open the ventilation opening 20. The ventilator also includes an energizing member 95. The ventilator further includes an energizing force transmission means that converts an energizing force generated by the energizing member 95 in a direction including a component in rotation direction of the open/close member 3 and transmits the energizing force to the open/close member 3 which is closed up to a predetermined open angle to rotate the open/close member 3 to the close-position.

Description

  The present invention relates to a ventilator and a door provided with the ventilator.

  Patent Document 1 discloses a door ventilator. This door ventilator has a louver that opens and closes a ventilation opening formed in the door.

Japanese Patent Laying-Open No. 2005-336809

  The ventilator for doors disclosed in Patent Document 1 puts fingers into a ventilation port, and closes the ventilation port by operating the louver with this finger. By the way, in the door ventilator disclosed in Patent Document 1, in order to facilitate the operation of the louver, a concave groove for placing a finger on the outer surface of the louver is formed. However, it still takes time to close the louver and there is room for improvement.

  This invention is made | formed in view of the said situation, Comprising: It aims at providing the ventilation apparatus and door which can close easily the opening-closing body which opens and closes a ventilation opening part.

  In order to solve the above-described problems, a ventilator according to the present invention includes an opening / closing body provided to be rotatable between a closed position for closing a ventilation opening and an opening position for opening the ventilation opening, a biasing member, The urging force generated by the urging member is converted into a direction including a component in the rotation direction of the opening / closing body, and then transmitted to the opening / closing body closed to a predetermined opening angle to rotate the opening / closing body to the closed position. And an urging force transmission means.

  Moreover, it is preferable that the urging force of the urging member is generated in a direction along the opening edge of the ventilation opening.

  And a damper and a motion converting means, the damper having a piston movable in a direction parallel to a direction in which the biasing force of the biasing member is generated, and the motion converting means rotating the opening / closing body in the closing direction. The movement is converted into movement in the moving direction of the piston, and the damper applies a damping force to the piston moving in a direction parallel to the direction in which the urging force of the urging member is generated, thereby closing the opening / closing body. It is preferable to buffer the rotational movement in the direction.

  Moreover, it is preferable that the said opening-closing body is a lighting panel which is vertically long and has translucency.

  Further, the door of the present invention is a door provided with the ventilator, and includes a door main body, the door main body is provided with the ventilation opening penetrating in the thickness direction, and the opening and closing body is provided in the door main body. The urging member is provided on the door body, and the urging force of the urging member is generated in the width direction of the door body.

  In the present invention, when the opening / closing body is closed to a predetermined opening angle by the user, the opening / closing body automatically rotates to the closed position by the urging force of the urging member. Therefore, the user can easily close the opening / closing body.

It is a horizontal sectional view in the ventilation opening part in which the opening and closing body of the door of the embodiment of the present invention was provided, (a) shows the state which has arranged the opening and closing body in the closed position, and (b) shows the opening and closing body in the open position. The state of arrangement is shown. It is a front view of a door same as the above. It is a principal part perspective view of a door same as the above. It is a disassembled perspective view of a door same as the above. FIG. 5 is an enlarged view of FIG. 4. It is a perspective view of an upper bearing unit same as the above. It is a disassembled perspective view of a bearing unit same as the above. It is explanatory drawing which shows operation | movement of a bearing unit same as the above, (a) shows a state when an opening-closing body is arrange | positioned in a closed position, (b) is arrange | positioned between a closed position and an open position. (C) shows a state when the opening / closing body is arranged at the open position. It is a horizontal sectional view in the ventilation opening part of the door of other examples. Furthermore, it is a horizontal sectional view in the door vent opening of another example.

  Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. FIG. 2 is a front view of the door 1 of the present embodiment. The door 1 is an indoor door provided in the building, and is used as a fitting that partitions the interior of the building in order to open and close the entrance of the room. Specifically, the door 1 is a hinged door that is pivotally provided in a building opening constituted by a door frame (not shown). In the following, the thickness direction of the door 1 will be described as the front-rear direction and the width direction as the left-right direction.

  The door 1 is formed with a ventilation opening 20 whose opening direction is the front-rear direction. A ventilation device 4 is provided in the ventilation opening 20.

  Specifically, the door 1 includes a door body 2. On the door side of the door body 2, two vertically long ventilation openings 20 are formed side by side so as to extend over substantially the entire length of the door body 2 in the vertical direction. Each ventilation opening 20 is provided with a ventilation device 4.

  Each ventilation device 4 includes an opening / closing body 3 and a bearing unit 9 (see FIG. 4). The opening / closing body 3 of each ventilation device 4 is vertically long and is provided in the ventilation opening 20. Each open / close body 3 is provided so as to be rotatable with respect to the door body 2 so as to open and close the corresponding vent opening 20. By selectively opening one of the upper and lower opening / closing bodies 3, ventilation can be performed while ensuring privateness. In addition, the number of the opening / closing bodies 3 provided in the door body 2 is not limited to two. For example, one or three or more open / close bodies 3 may be provided so as to cover substantially the entire length of the door body 2 in the vertical direction.

  Each open / close body 3 is rotatable about the vertical axis of the door body 2 so as to be rotatable in a range from the closed position shown in FIG. 1A to the open position shown in FIG. 1B. It is attached. Here, “around the vertical axis” means that the rotation axis direction of the opening / closing body 3 is parallel to the vertical direction (vertical direction). In the following description, unless otherwise specified, as shown in FIG. 1A, the description will be made with reference to the direction when the opening / closing body 3 is disposed at the closed position where the ventilation opening 20 is closed. . That is, description will be made assuming that the thickness direction of the opening / closing body 3 is the front-back direction and the width direction of the opening / closing body 3 is the left-right direction.

  The vertical length of each opening / closing body 3 is substantially the same as the vertical length of the corresponding vent opening 20. The thickness of each opening / closing body 3 is smaller than the thickness of the door body 2. The width of each opening / closing body 3 is slightly smaller than the width of the corresponding ventilation opening 20.

  Each opening / closing body 3 of the present embodiment is constituted by a daylighting panel having translucency. As shown in FIG. 5, each open / close body 3 includes a light-transmitting vertically long plate-like light-transmitting plate 30 and a panel frame 5 that surrounds and holds the four circumferences of the light-transmitting plate 30.

  The translucent plate 30 of each opening / closing body 3 is a glass plate. Specifically, the translucent plate 30 of each opening / closing body 3 is a laminated glass in which two plate glasses are bonded via a synthetic resin film. Laminated glass has low chargeability. For this reason, it is difficult for the opening / closing body 3 to be covered with dust and dirt. The translucent plate 30 is not limited to laminated glass but may be a single plate glass. Further, the light transmitting plate 30 may be formed of other transparent materials such as acrylic resin.

  The translucent plate 30 of each opening / closing body 3 is formed in a vertically long rectangular shape. Further, as shown in FIG. 1, the translucent plate 30 of each opening / closing body 3 is formed in a horizontally-long rectangular shape.

  As shown in FIG. 5, the panel frame 5 of each opening / closing body 3 is composed of left and right vertical frame members 50 and upper and lower horizontal frame members 51. The left and right vertical frame members 50 and the upper and lower horizontal frame members 51 are framed in a vertically long rectangular shape.

  Each vertical frame member 50 constitutes a side edge portion of the opening / closing body 3. Each vertical frame member 50 is made of metal, for example, aluminum. The length of each vertically long vertical frame member 50 is substantially the same as the length of the translucent plate 30.

  The horizontal cross-sectional shape of each vertical frame member 50 is uniform over the vertical direction. As shown in FIG. 1A, each vertical frame member 50 is formed in a groove shape (substantially C-shaped) that opens to the light transmitting plate 30 side. Each of the vertical frame members 50 includes a main part 500 that forms the groove back part, and an edge part 501 that protrudes from the front and rear end parts of the main part 500 toward the translucent plate 30.

  On the inner side surface, which is the surface on the other vertical frame member 50 side, of each vertical frame member 50, a vertical groove portion 502 opened on the other vertical frame member 50 side is formed in the vertical direction. The vertical groove portion 502 of each vertical frame member 50 is configured such that the depth of the groove is the surface of the main portion 500 on the other vertical frame member 50 side, and the side surface of the groove is the opposite surface of both edge portions 501. Each vertical frame member 50 is fitted to the translucent plate 30 by fitting the side end portion of the translucent plate 30 into the vertical groove portion 502.

  The thickness (front-rear dimension) of the main portion 500 of each vertical frame member 50 decreases as the distance from the translucent plate 30 side increases. The front surface portion and the rear surface portion, which are the surface portions of the main portion 500, are inclined surface portions 503 that are inclined so as to approach each other as the distance from the translucent plate 30 side increases. The surface portions 504 of the front and rear edge portions 501 of each vertical frame member 50 are orthogonal to the groove width direction (front-rear direction) of the vertical groove portion 502.

  In a state where each vertical frame member 50 is fitted to the translucent plate 30, the surface portions 504 of the front and rear edges 501 of each vertical frame member 50 are parallel to both surfaces of the translucent plate 30. Each opening / closing body 3 is inclined with respect to the width direction of the door body 2 when arranged at the open position shown in FIG. At this time, the inclined surface portion 503 on the front side of the vertical frame member 50 on the door end side is parallel and flush with the front surface of the door body 2. In addition, the inclined surface portion 503 on the rear side of the vertical frame member 50 on the suspending side is parallel and flush with the rear surface of the door body 2.

  Screw screwed portions are formed at the upper and lower ends of each vertical frame member 50. In the present embodiment, a screw pocket 505 having a C-shaped horizontal cross section is formed in the vertical direction on the groove rear surface of the vertical groove portion 502. A screw threaded portion is constituted by the upper and lower end portions of the screw pocket 505.

  As shown in FIG. 5, the horizontally long horizontal frame member 51 is bridged between the upper end portions and the lower end portions of both vertical frame members 50. Screw holes (not shown) penetrating vertically are formed at both ends in the length direction of each horizontal frame member 51. Each horizontal frame member 51 is formed with a horizontal groove portion (not shown) that opens to the side of the light transmitting plate 30 in the left-right direction.

  Each horizontal frame member 51 is fitted to the translucent plate 30 by fitting an end portion in the longitudinal direction of the translucent plate 30 into the horizontal groove portion. Screws 52 are passed through the screw holes of the horizontal frame members 51 from the side opposite to the translucent plate 30 in the vertical direction. These screws 52 are screwed into the screw screwed portions of the corresponding vertical frame members 50. Thereby, each horizontal frame member 51 is attached to both vertical frame members 50. That is, the translucent plate 30 has both left and right end portions fitted into the vertical groove portion 502 of the panel frame 5, and upper and lower end portions are fitted into the horizontal groove portion of the panel frame 5. The translucent plate 30 is held by the panel frame 5 by being sandwiched between the left and right vertical frame members 50 and the upper and lower horizontal frame members 51.

  A shaft portion 510 is formed on the outer surface of the upper and lower horizontal frame members 51 on the opposite side to the translucent plate 30 in the longitudinal direction of the horizontal frame member 51 so as to protrude on the opposite side of the translucent plate 30. These shaft portions 510 constitute the rotation shaft of the opening / closing body 3 with the axial center thereof coinciding with the center line passing through the center of the translucent plate 30 in the horizontal section. That is, these shaft portions 510 function as supported portions that are supported so as to be rotatable about the vertical axis with respect to the door body 2.

  Each open / close body 3 is attached to the door body 2 so as to be rotatable about the vertical axis by vertically supporting the shaft portion 510 with bearings provided above and below the ventilation opening 20. It has been.

  The door main body 2 is composed of left and right door members 6 and a connecting member 7 that connects the door members 6 as shown in FIG.

  Both door members 6 are formed in a vertically long rectangular plate shape. The door-side door material 6 constitutes the door-side end of the door body 2. The door-side door material 6 is wider than the door-side door material 6 and constitutes a majority portion excluding the door-side portion of the door body 2.

  As shown in FIG. 2, the upper end portion, the lower end portion, and the intermediate portion of the door members 6 are connected by a connecting member 7 having a horizontally long bar shape. As a result, the door body 2 is formed with two vertically-long rectangular ventilation openings 20. Hereinafter, when particularly distinguishing, the upper connecting member 7, the lower connecting member 7, and the connecting member 7 therebetween are referred to as an upper connecting member 70, a lower connecting member 71, and an intermediate connecting member 72, respectively.

  The upper ventilation opening 20 is surrounded by the upper connecting member 70, the intermediate connecting member 72, and the upper portions of the left and right door members 6. The upper edge of the upper ventilation opening 20 is constituted by the upper connecting member 70, and the lower edge of the upper ventilation opening 20 is constituted by the intermediate connecting member 72. The left and right edges of the upper ventilation opening 20 are composed of left and right door members 6.

  The lower ventilation opening 20 is surrounded by the intermediate connecting member 72, the lower connecting member 71, and the lower portions of the left and right door members 6. An upper edge portion of the lower ventilation opening 20 is constituted by an intermediate connecting member 72, and a lower edge portion of the lower ventilation opening 20 is constituted by a lower connecting member 71. The left and right edges of the lower ventilation opening 20 are constituted by left and right door members 6.

  Both door members 6 are plate-like panel members having a so-called flash structure. That is, as shown in FIG. 1, both the door materials 6 are obtained by covering the surface of the core material 64 with the surface material 65. The core member 64 of each door member 6 is made of wood, and is constituted by a frame body having a rectangular shape in front view.

  The surface material 65 of each door material 6 includes a plate material 650 and a decorative sheet 651 laminated on the surface of the plate material 650. The decorative sheet 651 is made of synthetic resin and has a wood grain pattern on its surface. A bent groove is formed on the back surface of the plate member 650 of the surface member 65 of each door member 6. The surface member 65 of each door member 6 is provided along the outer peripheral surface of the core member 64 by being bent at the bending groove. The door member 6 may be a plate having a rectangular horizontal cross section as a core, or a solid material.

  As shown in FIG. 5, fitting groove portions 62 that open to the other door member 6 are formed on the upper and lower end surfaces of each door member 6. As shown in FIG. 3, the fitting groove 62 is a portion into which the upper connecting member 70 and the lower connecting member 71 are fitted.

  A vertically long groove 63 (see FIG. 1) is formed on the side surface of each door member 6 on the other door member 6 side. Each recessed groove part 63 is formed over the part except the upper and lower ends where the fitting groove part 62 of the door member 6 is formed. Each concave groove portion 63 is formed in an intermediate portion in the thickness direction of the door member 6.

  The intermediate connecting material 72 shown in FIG. 5 is formed of a solid material or a panel material similar to the door material 6. A plurality of dowels 720 are provided on both end surfaces of the intermediate connecting member 72. In the illustrated example, dowels 720 are provided above and below both side end surfaces of the intermediate coupling member 72.

  Both end portions of the intermediate connecting member 72 are fitted into a wide recess 630 formed in the intermediate portion of the concave groove portion 63 in the length direction. Each dowel 720 of the intermediate connecting member 72 is fitted into a dowel hole (not shown) formed in the back of the corresponding recess 630. Thereby, the intermediate portions in the vertical direction of both door members 6 are connected by the intermediate connecting member 72.

  As shown in FIG. 1A, the edge concealing material 8 is attached to both side surfaces of each ventilation opening 20. Each edge concealment member 8 extends over the entire length of the corresponding vent opening 20 in the vertical direction. Each edge masking material 8 is made of synthetic resin. A wood grain pattern is applied to the surface of each edge cover material 8. In addition, each edge concealment material 8 is not restricted to the product made from a synthetic resin, For example, wooden may be sufficient.

  The horizontal cross-sectional shape of each edge masking material 8 is uniform over the vertical direction. Each edge concealment member 8 is attached to the door member 6 by fitting one end portion in the width direction into the concave groove portion 63 and bonding them.

  The thickness of each edge concealment material 8 is substantially the same as the thickness of the opening / closing body 3 (panel frame 5) and smaller than the thickness of the door body 2 (door material 6). Each edge concealment member 8 is accommodated within the thickness range of the door body 2. By doing in this way, when the ventilation opening part 20 is opened, the edge concealment material 8 can be made small so that the ventilation is not obstructed. In addition, it is preferable that the thickness of each edge concealment material 8 is 1/2 or less of the thickness of the door main body 2 in order to ensure sufficient air flow.

  The edge concealment material 8 on both sides of each ventilation opening 20 is located at an intermediate portion in the thickness direction of the door body 2 and faces each other.

  A portion of each edge concealing member 8 opposite to the recessed groove portion 63 protrudes from the side surface of the ventilation opening 20 toward the inside in the width direction of the ventilation opening 20. Each edge concealment member 8 is formed with a protruding portion 80 that protrudes toward the opening / closing body 3.

  Of the edge concealment material 8 on both sides of each ventilation opening 20, the protrusion 80 of the door edge side concealment material 8 projects from the rear part of the edge concealment material 8 toward the opening / closing body 3. On the other hand, the protruding portion 80 of the hiding material 8 on the suspending side protrudes from the front portion of the hiding material 8 toward the opening / closing body 3.

  As shown in FIG. 1A, the opening / closing body 3 disposed in the closed position is parallel to the width direction of the door body 2 (the width direction of the door material 6). At this time, both the vertical frame members 50 overlap with the protruding end portions of the corresponding protruding portions 80 of the edge masking material 8 when viewed from the front-rear direction. Thereby, the clearance gap between the side surface by the side of the door tip of the ventilation opening part 20 and the opening-closing body 3 is block | closed by the edge concealment material 8 by the door tip side. Further, the gap between the side of the ventilation opening 20 on the hanging side and the opening / closing body 3 is closed by the edge hiding material 8 on the hanging side. Therefore, in this case, substantially the entire ventilation opening 20 is closed by the opening / closing body 3, and the ventilation of the room by the ventilation opening 20 is not performed. Further, when the opening / closing body 3 is closed as described above, it is difficult to see the opposite side of the door 1 through the ventilation opening 20 when the door 1 is viewed from the front-rear direction.

  Of the edge masking material 8 on both sides of each ventilation opening 20, the front surface of the protrusion 80 of the door masking material 8 is a sloped portion 81 that is inclined so as to be located rearward as it goes to the suspension side. ing. Further, the rear surface of the protrusion 80 of the hiding material 8 on the suspending side is an inclined surface 81 that is inclined so as to be positioned forward as it goes to the door end side.

  As shown in FIG. 1 (a), when each open / close body 3 is arranged at the closed position, the inclined surface portion 503 on the rear side of the vertical frame member 50 on the door-end side is the It is substantially parallel to the slope portion 81 and is in surface contact with the slope portion 81 so as to face it. Further, the inclined surface portion 503 on the front side of the vertical frame member 50 on the suspending side is substantially parallel to the inclined surface portion 81 of the edge concealing material 8 on the suspending side, and is in surface contact with the inclined surface portion 81 so as to face the inclined surface portion 81. Therefore, when each opening / closing body 3 is disposed at the closed position, it is possible to improve the adhesion between the opening / closing body 3 and the edge concealing material 8 and to reliably block the ventilation.

  As shown in FIG. 5, an insertion hole 721 is formed at the center of each of the upper surface and the lower surface of the intermediate connecting member 72. Of the upper and lower opening / closing bodies 3, the upper opening / closing body 3 is rotatably supported by inserting a lower shaft portion 510 into an insertion hole 721 formed in the upper surface of the intermediate coupling member 72. Although not shown, the lower opening / closing body 3 is inserted into an insertion hole formed in the lower surface of the intermediate connecting member 72 and is rotatably supported. That is, in the present embodiment, a bearing portion that receives the shaft portion 510 on the intermediate coupling member 72 side of the opening / closing body 3 is configured by the peripheral portions of the upper and lower insertion holes 721 of the intermediate coupling member 72.

  The upper connecting member 70 and the lower connecting member 71 are obtained by covering the outer surface of a frame member 73 that is long on the left and right with a decorative sheet member 74 (screen board).

  The frame members 73 of the upper connecting member 70 and the lower connecting member 71 are made of metal. Specifically, each frame member 73 of the upper connecting member 70 and the lower connecting member 71 is an extruded shape member made of aluminum. Thus, when the upper connecting material 70 and the lower connecting material 71 are provided with metal profiles, the upper connecting material 70 and the lower connecting material 71 can have high strength.

  Each of the frame members 73 of the upper connecting member 70 and the lower connecting member 71 is formed in a substantially rectangular frame shape in the vertical cross-sectional shape.

  Each decorative sheet material 74 of the upper connecting material 70 and the lower connecting material 71 is made of synthetic resin. The decorative sheet material 74 is attached to the front and rear surfaces of the upper connecting material 70 and the lower connecting material 71, respectively. The surface of each of the upper connecting member 70 and the lower connecting member 71 has a wood grain pattern. For this reason, the upper connecting member 70 and the lower connecting member 71 have a wood-tone appearance imitating the door member 6.

  As an additional unit for the door 1, a bearing unit 9 shown in FIG. 4 is housed in each frame member 73 of the upper connecting member 70 and the lower connecting member 71. That is, the bearing unit 9 is provided at the opening edge of each ventilation opening 20.

  The upper shaft portion 510 of the upper opening / closing body 3 is rotatably supported by the bearing unit 9 provided in the upper connecting member 70. The lower shaft portion 510 of the lower opening / closing body 3 is rotatably supported by the bearing unit 9 provided in the lower connecting member 71.

  Both bearing units 9 are vertically symmetrical. 6 and 7 show the bearing unit 9 provided on the upper connecting member 70. FIG.

  Each bearing unit 9 includes a casing 90, an arm 93, a damper 94, an urging member 95 (elastic body), a pressing body 96, and a movable body 97. The arm 93, the damper 94, the biasing member 95, the pressing body 96, and the movable body 97 are housed in the casing 90.

  The casing 90 is formed in a rectangular box shape that is long on the left and right. The casing 90 of the upper bearing unit 9 is housed in the upper connecting member 70 with its length direction parallel to the length direction of the upper connecting member 70. The casing 90 of the lower bearing unit 9 is housed in the lower connecting member 70 with its length direction parallel to the length direction of the lower connecting member 70. That is, each bearing unit 9 is provided along the opening edge of the ventilation opening 20.

  The casing 90 includes a plate-like base 91 that forms a surface portion on the opening / closing body 3 side, and a cover 92 that covers the base 91 in a box shape that opens to the opening / closing body 3 side.

  As shown in FIG. 7, a substantially fan-shaped (substantially triangular) recess 911 is formed on the inner surface of the base 91. A part of the inner peripheral surface of the recess 911 constitutes a rotation restricting surface 912 whose horizontal cross-sectional shape is substantially V-shaped opened to the door end side. An insertion hole 910 that penetrates the base 91 up and down is formed at the end of the bottom of the recess 911 on the suspension side (the end on the corner of the substantially V-shaped rotation restricting surface 912).

  Although not shown, the upper shaft portion 510 of the upper opening / closing body 3 is inserted into the insertion hole 910 of the bearing unit 9 in the upper connecting member 70 through the lower surface portion of the upper connecting member 70, and the concave portion of the bearing unit 9. 911 protrudes. Thus, the shaft portion 510 is rotatably supported by the upper bearing unit 9.

  The lower shaft portion 510 of the lower opening / closing body 3 is inserted into the insertion hole 910 of the bearing unit 9 through the upper surface portion of the lower connecting member 71 and protrudes into the recess 911 of the bearing unit 9. Thus, the shaft portion 510 is rotatably supported by the lower bearing unit 9. That is, in the present embodiment, the bearing portion that receives the shaft portion 510 on the opposite side of the intermediate coupling member 72 of the opening / closing body 3 is configured by the peripheral edge portion of the insertion hole 910 of each bearing unit 9.

  An arm 93 is disposed in the recess 911. A connecting hole 930 is formed at one end of the arm 93 in the length direction. A shaft portion 510 opposite to the intermediate connection member 72 of the opening / closing body 3 is inserted into the connection hole 930, and the shaft portion 510 is fixed to the arm 93. As a result, the arm 93 rotates together with the shaft portion 510 of the opening / closing body 3.

  The rotation range of the arm 93 is restricted by the rotation restriction surface 912 of the recess 911. That is, in this embodiment, the rotation restricting surface 912 of the bearing unit 9 constitutes a rotation restricting unit that restricts the rotation range of the opening / closing body 3. The rotation range of the arm 93 is restricted by the rotation restriction surface 912 so that the opening / closing body 3 is within the thickness range of the door body 2.

  When each opening / closing body 3 is disposed at the closed position, the corresponding arm 93 of the bearing unit 9 abuts on the rear surface of the rotation restricting surface 912 as shown in FIG. It becomes impossible to rotate. The opening / closing body 3 arranged at the closed position in this way is arranged at the center of the door body 2 in the thickness direction as shown in FIG.

  When each open / close body 3 is arranged at the open position, the corresponding arm 93 of the bearing unit 9 abuts on the front surface of the rotation restricting surface 912 as shown in FIG. It becomes impossible. As shown in FIG. 1 (b), the opening / closing body 3 arranged in the open position in this way is one inclined surface portion positioned on the front side among the inclined surface portions 503 positioned at both ends in the thickness direction of the door body 2. 503 is disposed at the same position in the front-rear direction as the front surface of the door body 2. The other inclined surface portion 503 located on the rear side is disposed at the same position in the front-rear direction as the rear surface of the door body 2. Further, the opening / closing body 3 disposed in the open position is accommodated within the thickness range of the door body 2.

  As shown in FIG. 7, an interlocking portion 931 is provided at the end of each bearing unit 9 opposite to the connection hole 930 of the arm 93 so as to protrude in the vertical direction opposite to the opening / closing body 3. The interlocking portion 931 of each bearing unit 9 is disposed at a position shifted from the rotation center of the opening / closing body 3 toward the door end side. The interlocking portion 931 of each bearing unit 9 is formed in a cylindrical shape, and has an outer peripheral surface with a horizontal cross section.

  The interlocking portion 931 of each bearing unit 9 rotates about the vertical axis together with the arm 93 around the shaft portion 510 when the corresponding opening / closing body 3 rotates about the vertical axis. Specifically, the interlocking portion 931 of each bearing unit 9 moves to the front side when the opening / closing body 3 rotates in the opening direction, and moves to the rear side when the opening / closing body 3 rotates in the closing direction.

  The biasing member 95 of each bearing unit 9 is disposed on the door end side of the interlocking portion 931 as shown in FIG. The biasing member 95 of each bearing unit 9 is constituted by a coil spring that is long in the left-right direction (that is, the direction along the opening edge of the ventilation opening 20) and whose expansion / contraction direction is parallel to the left-right direction.

  A pressing body 96 is attached to the suspension side end of the urging member 95 of each bearing unit 9. The pressing body 96 of each bearing unit 9 is arranged side by side with the interlocking portion 931 in the left-right direction. The pressing body 96 of each bearing unit 9 is provided so as to be movable in the left-right direction. The biasing member 95 of each bearing unit 9 is supported by a cover 92 on the door end side. The urging member 95 of each bearing unit 9 constantly urges the pressing body 96 toward the suspending side (the interlocking portion 931 side) (gives elastic force).

  The surface of each bearing unit 9 facing the suspension base of the pressing body 96 constitutes a pressing surface 960 that presses the interlocking portion 931. The pressing surface 960 includes a first surface portion 961 and a second surface portion 962 positioned in front of the first surface portion 961. The first surface portion 961 is inclined so as to be positioned closer to the door tip side. The second surface portion 962 is inclined so as to be positioned closer to the door front side.

  The pressing surface 960 of each bearing unit 9 further includes an intermediate surface portion 963. The intermediate surface portion 963 is formed in an arc shape in which the horizontal cross-sectional shape is convex toward the hanging base side. The intermediate surface portion 963 has the first surface portion 961 and the second surface portion 962 continuous. The first surface portion 961 is longer in the front-rear direction than the second surface portion 962. The intermediate surface portion 963 is formed at a position closer to the front on the pressing surface 960 configured by the first surface portion 961, the second surface portion 962, and the intermediate surface portion 963.

  In a state where each open / close body 3 is disposed at the closed position, as shown in FIG. 8A, the interlocking portion 931 of the arm 93 of the corresponding bearing unit 9 abuts on the rear end portion of the first surface portion 961. . The interlocking portion 931 is pressed rearward by the first surface portion 961 of the pressing body 96 biased by the biasing member 95. For this reason, the arm 93 is pressed against the rear surface of the rotation restricting surface 912, and the opening / closing body 3 is held in the closed position.

  When the user rotates the opening / closing body 3 disposed at the closed position in the opening direction (counterclockwise in the plan view), the arm 93 rotates forward about the shaft portion 510. Along with this, the interlocking portion 931 moves forward while pushing the pressing body 96 against the biasing force of the biasing member 95 toward the door end, and gets over the intermediate surface portion 963 of the pressing body 96. Then, when the opening / closing body 3 is disposed at the open position, the interlocking portion 931 contacts the second surface portion 962 as shown in FIG. Thus, in a state where the opening / closing body 3 is disposed at the open position, the interlocking portion 931 is pressed forward by the second surface portion 962 of the pressing body 96 urged toward the suspension side by the urging member 95. For this reason, the arm 93 is pressed against the front surface of the rotation restricting surface 912, and the opening / closing body 3 is held in the open position.

  When the user rotates the opening / closing body 3 arranged at the open position in the closing direction (clockwise in plan view), the arm 93 rotates rearward about the shaft portion 510. Accordingly, the interlocking portion 931 moves to the rear side while pushing the pressing body 96 against the urging force of the urging member 95 toward the door end side, and gets over the intermediate surface portion 963 of the pressing body 96. When the opening / closing body 3 is closed to a predetermined opening angle, the interlocking portion 931 reaches a position where it contacts the front end portion of the first surface portion 961. When the interlocking portion 931 comes into contact with the front end portion of the first surface portion 961 in this way, the interlocking portion 931 is moved rearward by the first surface portion 961 of the pressing body 96 biased toward the suspension side by the biasing member 95. Pushed and moved, the arm 93 rotates rearward about the shaft portion 510. The rotation of the arm 93 by the biasing member 95 is performed until the interlocking portion 931 reaches the rear end portion of the first surface portion 961 and the arm 93 contacts the rear surface of the rotation restricting surface 912, that is, the opening / closing body. This is done until 3 is placed in the closed position. That is, the opening / closing body 3 closed to a predetermined opening angle automatically rotates to the closed position by the urging force of the urging member 95.

  Here, the pressing body 96 and the arm 93 provided with the interlocking portion 931 are arranged so that the direction of the urging force parallel to the width direction of the door body 2 of the urging member 95 includes the rotation direction component of the opening / closing body 3. Then, an urging force transmitting means for transmitting the urging force of the urging member 95 to the opening / closing body 3 is configured. Therefore, when a coil spring or the like that is long in the width direction of the door body 2 is used as the urging member 95 as in this embodiment, the urging member 95 is within the range of the thickness of the door body 2 (connecting material 7). There is an advantage that it is easy to pay.

  The damper 94 of each bearing unit 9 is disposed on the suspension side of the interlocking portion 931. The damper 94 of each bearing unit 9 is a telescopic cylinder damper. Specifically, the damper 94 of each bearing unit 9 applies a damping force when the piston 940 moves in the direction in which the piston 940 is pushed into the cylinder 941, and automatically returns to the origin where the piston 940 is extended. There is a one-way oil damper equipped with.

  The damper 94 of each bearing unit 9 is disposed with the piston 940 facing the door end side. A movable body 97 is attached to the tip of the piston 940 of each bearing unit 9. The movable body 97 of each bearing unit 9 is arranged side by side with the interlocking portion 931 in the left-right direction. The surface on the door end side of the movable body 97 of each bearing unit 9 is a contact surface 970 with which the interlocking portion 931 contacts. The contact surface 970 is inclined so as to be positioned closer to the suspender side toward the front.

  In a state where the opening / closing body 3 is disposed at the open position, the damper 94 extends and the interlocking portion 931 is disposed on the front side of the contact surface 970 of the movable body 97 as shown in FIG. When the user rotates the opening / closing body 3 disposed at the open position to the closed position, the interlocking portion 931 pushes the movable body 97 toward the suspension base side with the rotation of the arm 93, and the contact surface 970. Move to the back. At this time, a damping force acts on the piston 940 that moves to the suspension side together with the movable body 97. Thereby, the closing operation of the opening / closing body 3 is buffered by the damper 94. Therefore, it is possible to prevent the opening / closing body 3 from being closed vigorously and generating a loud sound, and the opening / closing body 3 and the member receiving it to be deformed or damaged. Further, when the opening / closing body 3 is closed, it is possible to prevent a finger or the like from being strongly sandwiched between the opening / closing body 3 and the side surface of the vent opening 20.

  When the user rotates the opening / closing body 3 to the open position, the interlocking portion 931 moves forward as the arm 93 rotates. At this time, the movable body 97 is moved to the interlocking portion by the return force of the damper 94. Following 931, it moves to the door end side, and it will be in the state shown in Drawing 8 (c).

  Here, the arm 93 provided with the interlocking portion 931 and the movable body 97 constitute an operation conversion means for converting the rotation operation of the opening / closing body 3 into an operation parallel to the width direction of the door body 2 of the piston 940. Yes. For this reason, there is an advantage that it is easy to fit the damper 94 within the range of the thickness of the door body 2 (connecting material 7) by using a cylinder damper long in the width direction of the door body 2 as the damper 94 as in the present embodiment. is there.

  As shown in FIG. 3, the left and right ends of the upper connecting member 70 and the lower connecting member 71 of the door body 2 are fitted into the fitting groove portions 62 of the corresponding door member 6 and screwed. The surface of the upper connecting member 70 opposite to the opening / closing body 3 is substantially flush with the upper surfaces of the door members 6 on both sides. The surface of the lower connecting member 71 opposite to the opening / closing body 3 is substantially flush with the lower surfaces of the door members 6 on both sides.

  As shown in FIG. 2, a lever handle 10 (lever type door knob) is attached to both front and rear surfaces of the door material 6 on the door tip side as a handle. Each lever handle 10 is disposed at the same position as the intermediate coupling member 72 that becomes the boundary between the two ventilation openings 20 in the vertical direction of the door body 2.

  Each lever handle 10 includes a lever portion 100. The lever portion 100 of each lever handle 10 is rotatable in a range from a non-rotating position (non-use position) to a rotating position. Each lever handle 10 is configured to operate a latch (not shown) provided in the door body 2 when the door 1 is opened by rotating the lever portion 100 to the rotation position. Moreover, the lever part 100 of each lever handle 10 is automatically returned from a rotation position to a non-rotation position by an urging member constituted by, for example, a spring or the like.

  When the lever portion 100 of each lever handle 10 is disposed at the non-rotating position, the lever portion 100 protrudes toward the suspension side and is parallel (horizontal) to the width direction of the door 1. At this time, the tip portion of the lever portion 100 opposite to the rotation shaft is disposed at a position overlapping the intermediate connecting member 72 in the front-rear direction. For this reason, when the door 1 is viewed from the front, the intermediate coupling member 72 is located on the rear side of the front portion of the lever portion 100. Therefore, the opening / closing body 3 is not easily hidden by the lever portion 100 of the lever handle 10, and a sufficient amount of light can be taken from the opening / closing body 3.

  The door 1 of this embodiment described above includes a door body 2 and an opening / closing body 3. The door body 2 is provided with a ventilation opening 20 penetrating in the thickness direction. The opening / closing body 3 is provided in the ventilation opening 20 so as to be rotatable between a closed position for closing the ventilation opening 20 and an opening position for opening the ventilation opening 20. The door body 2 is provided with an urging member 95 that applies an urging force to the opening / closing body 3 that is closed to a predetermined opening angle and rotates it to the closed position. The door 1 can ventilate the room through the ventilation opening 20 by arranging the opening / closing body 3 in the open position, and can block the ventilation opening 20 by arranging the opening / closing body 3 in the closed position. Further, when the user closes the opening / closing body 3 to a predetermined opening angle, the opening / closing body 3 is automatically rotated to the closed position by the urging force of the urging member 95. Therefore, the user can easily close the opening / closing body 3.

  The opening / closing body 3 is preferably provided so as to be rotatable about the vertical axis with respect to the door body 2 as in the present embodiment. This is because dust and dirt are less likely to be attached to the opening / closing body 3 as compared with a case where the opening / closing body 3 is rotatable around the horizontal axis.

  Moreover, it is preferable that the door main body 2 is provided with a damper 94 that cushions the closing movement of the opening and closing body 3 as in the present embodiment. By doing so, when the opening / closing body 3 is closed, the damping force of the damper 94 acts on the opening / closing body 3, and the opening / closing body 3 slowly rotates to the closed position. For this reason, it is possible to prevent the opening / closing body 3 from being closed vigorously and generating a loud sound, or the opening / closing body 3 and the member receiving it to be deformed or damaged.

  Moreover, it is preferable that the opening / closing body 3 is a lighting panel that is vertically long and has translucency, as in the present embodiment. If it does in this way, light can be taken in into a room using the opening-and-closing body 3 which opens and closes the ventilation opening part 20, and it can be set as the door 1 which has both a ventilation function and a lighting function. Further, when the opening / closing body 3 is made to be rotatable about the vertical axis as in the present embodiment, when light is taken into the room through the opening / closing body 3, dust or dirt accumulated on the opening / closing body 3 is shaded. It can be difficult to see. In addition, by making the opening / closing body 3 rotatable about the vertical axis vertically long, a ventilation space formed between the opening / closing body 3 disposed at the open position and both sides of the ventilation opening 20 is enlarged. It is also possible to ensure a sufficient amount of ventilation.

  Moreover, it is preferable that the door 1 comprises the following structures. The opening / closing body 3 is provided so as to be rotatable about the vertical axis with respect to the door body 2. The opening / closing body 3 is disposed at a position deviated from the center of rotation of the opening / closing body 3 and moves to the front side when the opening / closing body 3 rotates in the opening direction, and rearward when the opening / closing body 3 rotates in the closing direction. An interlocking unit 931 is provided to move to. The door body 2 is provided with a pressing body 96 that is movable in the width direction of the door body 2 and arranged side by side with the interlocking portion 931 in the width direction of the door body 2. The urging member 95 generates the urging force in the width direction of the door body 2 to urge the pressing body 96 toward the interlocking portion 931. The pressing body 96 has a pressing surface 960 that faces the interlocking portion 931 side. The pressing surface 960 is inclined so as to be located on the opposite side of the backward interlocking portion 931, and is positioned on the front side of the first surface portion 961 and on the opposite side of the forward interlocking portion 931. And a second surface portion 962 inclined to each other, and an intermediate surface portion 963 that connects the first surface portion 961 and the second surface portion 962 to each other. When the opening / closing body 3 is disposed at the open position, the interlocking portion 931 is pressed forward by the second surface portion 962. When the opening / closing body 3 is closed to a predetermined opening angle, the interlocking portion 931 gets over the intermediate surface portion 963 to reach the first surface portion 961 and is pushed backward by the first surface portion 961 to close the opening / closing body 3. Rotate to position. By doing in this way, the opening-closing body 3 closed to the predetermined opening angle can be rotated to a closed position by a simple mechanism. Further, as described above, when a coil spring or the like that is long in the width direction of the door body 2 is used as the urging member 95, the urging member 95 can be easily accommodated within the thickness range of the door body 2. In addition, in this embodiment, although the interlocking | linkage part 931 was arrange | positioned on the door-end side rather than the rotation center of the opening / closing body 3, you may arrange | position on the suspension base side. That is, in this case, each bearing unit 9 is symmetrical with that of the present embodiment.

  In addition, it is preferable that the intermediate surface portion 963 is formed at a front position on the pressing surface 960. By doing in this way, the opening-closing body 3 can be rotated to a closing position only by slightly rotating the opening-closing body 3 arrange | positioned in an open position to a close direction.

  In the ventilation device 4 of the present embodiment, the opening / closing body 3 is provided in the ventilation opening 20 so as to be rotatable between a closed position where the ventilation opening 20 is closed and an open position where the ventilation opening 20 is opened. The opening / closing body 3 is arranged at a position deviated from the rotation center of the opening / closing body 3 and moves to the front side when the opening / closing body 3 rotates in the opening direction, and rearward when the opening / closing body 3 rotates in the closing direction. An interlocking portion 931 that moves to the side is provided. The opening edge of the ventilation opening 20 is provided with a pressing body 96 that can move in a direction along the opening edge and is arranged side by side with the interlocking portion 931 in the direction along the opening edge. Further, a biasing member 95 that biases the pressing body 960 toward the interlocking portion 931 is provided. The pressing body 960 has a pressing surface 960 that faces the interlocking portion 931 side. The pressing surface 960 is inclined so as to be located on the opposite side to the interlocking portion 931 on the rear side, and located on the front side of the first surface portion 961 and on the opposite side to the interlocking portion 931 on the front side. The second surface portion 962 that is inclined in the direction and the intermediate surface portion 963 that makes the first surface portion 961 and the second surface portion 962 continuous. When the opening / closing body 3 is disposed at the open position, the interlocking portion 931 is pressed forward by the second surface portion 962. Further, when the opening / closing body 3 is closed, the interlocking portion 931 resists the urging force of the urging member 95, gets over the intermediate surface portion 963, reaches the first surface portion 961, and is pressed rearward by the first surface portion 961. The opening / closing body 3 is disposed at the closed position. The ventilator 4 can rotate the opening / closing body 3 to the closed position by a simple mechanism.

  Moreover, it is preferable that the opening / closing body 3 of the ventilation device 4 is provided so as to be rotatable around the vertical axis as in the present embodiment. This is because dust and dirt are less likely to be attached to the opening / closing body 3 as compared with a case where the opening / closing body 3 is rotatable around the horizontal axis.

  Moreover, it is preferable that the ventilation apparatus 4 is provided with the damper 94 which is provided in the opening edge part of the ventilation opening part 20, and buffers the opening / closing body 3 like this embodiment.

  Further, as in this embodiment, the ventilating device 4 applies an urging force to the opening / closing body 3 in which the urging member 95 is closed to a predetermined opening angle to rotate it to the closed position. It is preferable that 963 is formed at a front position on the pressing surface 960. By doing in this way, the opening-closing body 3 can be rotated to a closing position only by slightly rotating the opening-closing body 3 arrange | positioned in an open position to a close direction.

  In the present embodiment, the opening / closing body 3 includes the light transmitting plate 30 and the panel frame 5. However, as shown in FIGS. 9 and 10, the panel frame 5 is omitted and the opening / closing body 3 is replaced with the light transmitting plate. You may comprise 30. That is, in this case, the shaft portions 510 are provided at both upper and lower end portions of the translucent plate 30. 9 and 10, the horizontal cross-sectional shape of the translucent plate 30 is a parallelogram, and when the opening / closing body 3 is disposed at the open position, the end surface on the door end side of the translucent plate 30 is the door body 2. The end surface on the suspension side is parallel and flush with the rear face of the door body 2. In the example of FIG. 10, the thickness of the edge masking material 8 is larger than that of the example of FIG. 9, and exceeds 1/2 of the thickness of the door body 2.

  Moreover, in this embodiment, although the opening / closing body 3 was comprised by the lighting panel which has translucency, the opening / closing body 3 may be a member which does not have translucency, for example. Further, in the present embodiment, the opening / closing body 3 is provided on the door end side of the door main body 2, but it may be provided on the hanging base side or in the center in the width direction of the door main body 2. Further, a part of the opening / closing body 3 may be located outside the door body 2 in the thickness direction. Further, the urging member 95 may be an elastic body other than the coil spring. Further, the damper 94 is not limited to the oil damper or the cylinder damper, and other conventionally known dampers such as a rotary damper may be used.

  Moreover, although this embodiment demonstrated the example which applied this invention to the hinged door, it is applicable also to doors other than a hinged door. Examples of the other doors include sliding doors (including those used as partitions), storage fittings provided in front of storage such as closets and closets. Moreover, this invention is not restricted to a door, It can apply also to other building materials, such as a wall.

  Moreover, you may provide the ventilation apparatus 4 in the other building materials provided with the ventilation opening part. Here, as other building materials, in addition to other doors such as sliding doors (including those used as partitions), doors and walls provided on the front surface of storage such as closets and close-ins are exemplified.

  In addition, the present invention is not limited to the above-described embodiment, and can be appropriately changed in design without departing from the spirit of the present invention.

DESCRIPTION OF SYMBOLS 1 Door 2 Door main body 20 Ventilation opening part 3 Opening and closing body 4 Ventilation apparatus 931 Interlocking part 94 Damper 95 Energizing member 96 Pressing body 960 Pressing surface 961 1st surface part 962 2nd surface part 963 Middle surface part

Claims (5)

An opening / closing body provided to be rotatable between a closed position for closing the ventilation opening and an opening position for opening the ventilation opening;
A biasing member;
The urging force generated by the urging member is converted into a direction that includes a component in the rotational direction of the opening / closing body, and then transmitted to the opening / closing body that is closed to a predetermined opening angle to rotate the opening / closing body to the closed position. A ventilating device comprising: a biasing force transmitting means that moves. The ventilation device according to claim 1, wherein the urging force of the urging member is generated in a direction along an opening edge of the ventilation opening. Equipped with damper and motion conversion means,
The damper includes a piston movable in a direction parallel to a direction in which the biasing force of the biasing member is generated,
The operation conversion means converts the rotation operation of the opening / closing body in the closing direction into an operation in the movement direction of the piston,
The damper is characterized in that a damping force is applied to a piston that moves in a direction parallel to a direction in which the urging force of the urging member is generated, thereby buffering the rotation of the opening / closing body in the closing direction. The ventilation apparatus of Claim 1 or Claim 2. The ventilation apparatus according to any one of claims 1 to 3, wherein the opening and closing body is a daylighting panel that is vertically long and has translucency. A door comprising the ventilation device according to any one of claims 1 to 4,
With a door body,
The door body is provided with the vent opening penetrating in the thickness direction, the opening / closing body is provided on the door body so as to be rotatable about a vertical axis, the urging member is provided on the door body, The door characterized in that the biasing force of the biasing member is generated in the width direction of the door body.

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