JP2017197982A - Installation structure for reinforcing center post of door device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide, for a door device comprising a plurality of reinforcing center posts, an installation structure that enables the respective reinforcing center posts to be positioned when installed.SOLUTION: A hanger rail 90 is provided with a first rail-side abutting part 912A that a center post-side abutting part 911A of a center post 9A abuts on when the center post 9A moves to a first installation position, and a rail-side abutting part 912B that a center post 9B abuts on when a center post-side abutting part 911B of the center post 9B moves to a second installation position, and the center post 9A is movable to the first installation position without the center post-side abutting part 911A abutting on the rail-side abutting part 912B.SELECTED DRAWING: Figure 31

Description

The present invention relates to an installation structure of reinforcing middle pillars in a door device, and more particularly to positioning during installation of a plurality of middle pillars. In the embodiment described later, the door device is a waterproof door.

In recent years, guerrilla heavy rain due to abnormal weather has frequently occurred, and rainwater inundation accidents have occurred in subway premises and building basements in urban areas. There are cases where it is desired to prevent external water from entering the building by installing it at the entrance of a building in an emergency. In addition, not only during guerrilla heavy rain, there are cases where it is desired to prevent the inundation by closing the building opening in a water-stopped state.

The present applicant has proposed a waterproof door that can maintain a water stop function even when a large water pressure acts on a door body in a water stop state (Patent Document 1). Patent Document 1 has a first surface portion on the first side (outdoor side) and a second surface portion on the second side (indoor side), and the building opening is closed and partitioned into the first side and the second side. A door in a fully closed state, comprising: a door body; and a horizontal compression means that contacts the first surface portion of the door body in a fully closed state and presses the door body in a horizontal direction from the first side to the second side. On the second side of the body, a waterproof door is disclosed in which a reinforcing middle pillar is installed in close proximity to or in contact with the second surface portion of the door body. When water pressure acts on the first surface portion of the door body in a water-stopped state, the second surface portion of the door body is abutted and supported by the middle pillar, preventing excessive deformation of the door body in the water-stopped state. Water condition is maintained.

Japanese Patent Application Laid-Open No. H10-228667 discloses a single pillar with one specification and a two pillars with two specifications. In the case of installing one reinforcing middle column from the storage position to the installation position, the middle column is brought into contact with a stopper provided at the center in the width direction of the building opening so as to be positioned. When installing two reinforced middle pillars from the storage position to the installation position, one central pillar is stored on each side of the building opening, and the width direction of the building opening is divided into three. The middle pillar is brought into contact with each stopper provided at the position for positioning.

The number of reinforcing middle columns installed can be determined as appropriate according to the opening width dimension or the like, but there are cases where three or more reinforcing middle columns are provided to cope with a larger assumed water pressure. However, when a plurality of (for example, two) middle pillars are housed on the same side of the opening end and move in the same direction to different installation positions, the first first middle pillar is the rear one. Since the movement is restricted by coming into contact with the stopper at the predetermined installation position of the two middle pillars, it is impossible to move a plurality of middle pillars in the same direction and install them at different positions. The problem is how to perform positioning when a plurality of middle pillars are housed on the same side and moved in the same direction to reach their respective installation positions.
JP2015-175155

It is an object of the present invention to provide an installation structure that enables positioning of each reinforcing middle column during installation in a door device including a plurality of reinforcing middle columns.

The technical means adopted by the present invention are:
At least two rollers that are suspended by a hanger rail extending in the width direction of the building opening by the roller assembly provided at the upper end and are movable between the storage position and the installation position by running on the hanger rail. The installation structure of the middle pillar of
A first storage position and a second storage position are arranged on the same side of the side of the building opening,
The first center pillar moves between a first storage position on the side far from the building opening and a first installation position,
The second center pillar moves between the second storage position on the side close to the building opening and the second installation position,
The second installation position is farther from the same side of the building opening than the first installation position,
The hanger rail includes a first rail-side abutting portion with which a first middle column-side abutting portion of the first middle column abuts when the first middle column moves to a first installation position; A second rail-side abutting portion against which the second middle column abuts when the second middle column-side abutting portion of the middle pillar moves to the second installation position;
The second middle pillar (any portion including the second middle pillar side abutting portion) is movable to the second installation position without abutting on the first rail side abutting portion. ,
It is the installation structure of the reinforcement middle pillar in a door apparatus.

In one mode, it consists of the 1st set which consists of the 1st middle pillar side contact part and the 1st rail side contact part, and consists of the 2nd middle pillar side contact part and the 2nd rail side contact part. At least one of the second sets is a first type set including a middle column side contact portion provided in the roller assembly and a rail side contact portion provided inside the hanger rail.
In one aspect, the first type set is:
A set of type 1a consisting of a middle column side contact portion provided at the first portion of the roller assembly and a rail side contact portion provided at the first portion inside the hanger rail,
1b type set consisting of a middle pillar side contact portion provided in the second part of the roller assembly and a rail side contact part provided in the second part inside the hanger rail,
Including
One of the first set and the second set is a set of the 1a type, and the other is a set of the 1b type.
In one aspect, in the group of type 1a, the rail-side abutting portion provided inside the hanger rail is the lower surface of the upper side of the hanger rail (the first part, the lower surface of the upper side 9000 in the embodiment described later). (That is, the rail-side contact portion is a rail-side contact portion 912 in an embodiment described later), and the middle-column-side contact portion is located inside the hanger rail and is the base (first portion) of the roller assembly. In addition, a convex portion protruding from a base 910 ′ described later (that is, the middle column side contact portion 911 is a middle column side contact portion 911 in an embodiment described later).
In one aspect, in the group of type 1b, the rail-side contact portion provided inside the hanger rail is an upper surface (second portion of the hanger rail) (rail portion in the embodiment described later). The middle column side contact portion is located inside the hanger rail, and is the end portion (second portion) of the base of the roller assembly in the running direction (when installed), It is formed in the edge part of base 910 'in embodiment mentioned later (namely, the middle pillar side contact part is the middle pillar side contact part 915 in embodiment mentioned later). An end portion forming the middle column side contact portion protrudes from the hanger roller.

  In one aspect, the rail side contact part provided in the said hanger rail is detachable. In the specific example, the rail-side contact portion (rail-side contact portion 912) is fixed to the upper side of the hanger rail by a screw, and the jig is inserted from the gap below the hanger rail through which the central shaft suspension shaft passes. Thus, the rail-side contact portion may be detachable by loosening or tightening the screw. Moreover, the rail side contact portion (rail side contact portion 916) is fixed to the lower side of the hanger rail using screws and nuts, and the nut exposed on the lower surface of the lower side of the hanger rail is tightened or loosened. The rail side contact portion may be removable.

In one mode, it consists of the 1st set which consists of the 1st middle pillar side contact part and the 1st rail side contact part, and consists of the 2nd middle pillar side contact part and the 2nd rail side contact part. At least one of the second sets is a second type set including a middle column side contact portion provided on the upper end surface of the middle column and a rail side contact portion provided outside the hanger rail.
In one aspect, the rail side contact part (rail side contact part 914) provided outside the hanger rail is provided on the lower surface of the lower side (rail side) of the hanger rail, and the middle column side contact part (middle column) The side contact portion 913) is provided on the upper end surface of the middle column so as to pass through the suspension shaft of the middle column.
In the embodiment described later, a support bracket is fitted on the hanger rail, and the rail-side contact portion (rail-side contact portion 914) is provided on the lower surface of the lower side of the support bracket.
The rail side contact portion provided outside the hanger rail may be detachable from the hanger rail.

In one aspect, the first set and the second set are different types of sets, and one of the first set and the second set is the first type set. , One of the other is the set of the second type.
In one aspect, the first type set further includes a 1a type set and a 1b type set, and any one of the first set and the second set has three types (first type). 1a type set, 1b type set, 2nd type set), any one type set, any one of the three types excluding the selected one type One type of set. That is, the first set and the second set are different types of 2 selected from three types (a set of type 1a, a set of type 1b, or a set of second type). It consists of two pairs.
In one aspect, both the first set and the second set are of the same type (set of type 1a, set of type 1b, or set of second type). May be.
When the three central pillars stored on the same side of the building opening are moved in the same direction and positioned at the first installation position, the second installation position, and the third installation position,
The first center pillar moves between a first storage position on the side far from the building opening and a first installation position,
The second center pillar moves between the second storage position on the side close to the building opening and the second installation position,
The third middle pillar moves between the third storage position closer to the building opening than the second storage position and the third installation position,
The second installation position is farther from the same side of the building opening than the first installation position, and the third installation position is more than the second installation position. Spaced apart from the same side of the opening,
The hanger rail includes a first rail-side abutting portion with which a first middle column-side abutting portion of the first middle column abuts when the first middle column moves to a first installation position; A second rail-side abutting portion with which the second middle column abuts when the second middle column-side abutting portion of the middle column moves to the second installation position; A third rail-side contact portion is provided on which the third middle pillar-side contact portion of the third middle pillar contacts when moved to a position;
The third middle pillar (any part including the third middle pillar side abutting portion) does not abut on the second rail side abutting portion and the first rail side abutting portion, It can move to the installation position,
The second middle pillar (any portion including the second middle pillar side abutting portion) is movable to the second installation position without abutting on the first rail side abutting portion. .
The four central pillars housed on the same side of the building opening are moved in the same direction to be positioned at the first installation position, the second installation position, the third installation position, and the fourth installation position. in case of,
The first center pillar moves between a first storage position on the side far from the building opening and a first installation position,
The second center pillar moves between the second storage position on the side close to the building opening and the second installation position,
The third middle pillar moves between the third storage position closer to the building opening than the second storage position and the third installation position,
The fourth middle pillar moves between the fourth storage position closer to the building opening than the third storage position and the fourth installation position,
The second installation position is farther from the same side of the building opening than the first installation position, and the third installation position is more than the second installation position. Spaced apart from the same side of the opening, the fourth installation position is spaced from the same side of the building opening than the third installation position,
The hanger rail includes a first rail-side abutting portion with which a first middle column-side abutting portion of the first middle column abuts when the first middle column moves to a first installation position; A second rail-side abutting portion with which the second middle column abuts when the second middle column-side abutting portion of the middle column moves to the second installation position; A third rail-side abutting portion with which the third middle column side abutting portion of the third middle column abuts when moved to the position, and a fourth rail when the fourth middle column moves to the fourth installation position. A fourth rail-side abutting portion with which the fourth middle column-side abutting portion of the middle pillar abuts is provided,
The fourth middle pillar (any portion including the fourth middle pillar side abutting portion) is connected to the third rail side abutting portion, the second rail side abutting portion, and the first rail side abutting portion. It can move to the fourth installation position without abutting,
The third middle pillar (any part including the third middle pillar side abutting portion) does not abut on the second rail side abutting portion and the first rail side abutting portion, It can move to the installation position,
The second middle pillar (any portion including the second middle pillar side abutting portion) is movable to the second installation position without abutting on the first rail side abutting portion. .

The door device provided with the reinforcing middle pillar is typically a waterproof door,
A door body having a first surface portion on the first side (outside) and a second surface portion on the second side (indoor side), closing the building opening and partitioning the first side and the second side;
A horizontal compression means for contacting the first surface portion of the door body in the fully closed state and pressing the door body in the horizontal direction from the first side to the second side;
On the second side of the door body in the fully closed state, a reinforcing middle column is installed in close proximity to or in contact with the second surface portion of the door body.
In one aspect, in the non-horizontal compression state of the door in the fully closed state, the second surface portion of the door and the middle pillar are separated from each other.
In one aspect, the 2nd surface part of the said door body and the said center pillar are spaced apart in the horizontal compression state of the door body in a fully closed state.
In one aspect, the waterproof door includes vertical compression means for compressing the door body in the fully closed state in the vertical direction, and the horizontal compression means moves the door body in the vertical compression state from the first side to the second side. Press horizontally.
In one aspect, the door body is a shutter curtain composed of a plurality of panels extending over the entire width of the opening. In the embodiment described later, the waterproof door is composed of a panel shutter, but the waterproof door according to the present invention is not limited to the panel shutter as long as it can form a water-stopped state. A door, for example, a slat shutter may be used.

  In the present invention, the first rail-side abutting portion with which the first middle column abutting portion abuts on the hanger rail when the first middle column moves to the first installation position. And a second rail-side abutting portion with which the second middle column abuts when the second middle column-side abutting portion of the second middle column moves to the second installation position. The middle pillar can be moved to the first installation position without the first middle pillar side abutting portion coming into contact with the second rail side abutting portion. ) Is housed on the same side of the opening end, and positioning can be performed when moving to different installation positions in the same direction.

It is the front view which looked at the waterproof door provided with the reinforcement middle pillar (three) from the indoor side. It is the front view which looked at the waterproof door provided with the reinforcement middle pillar (two pieces) from the indoor side. It is the front view which looked at the waterproof door provided with the reinforcement middle pillar (one) from the room inner side. It is a longitudinal cross-sectional view of the waterproof door which concerns on this embodiment. The upper view is a partial cross-sectional view in the storage space above the opening of the waterproof door according to the present embodiment, and the lower view is a partial cross-sectional view at an intermediate portion of the opening height of the waterproof door according to the present embodiment. It is a side view of a shutter curtain formed by connecting a plurality of panels in the vertical direction. (A) is a vertically compressed state, (B) is a fully closed state, (C) is a lowered state (the lowermost panel is worn) Just before the floor). It is the elements on larger scale of Drawing 6 (C), and shows the positional relationship of the panel which adjoins up and down. It is a figure corresponding to FIG. 7, Comprising: It is a longitudinal cross-sectional view of the width direction edge part of the panel located in a guide body. It is a figure similar to FIG. 8, Comprising: It is a figure corresponding to FIG. 6 (B). It is a figure similar to FIG. 8, FIG. 9, Comprising: It is a figure corresponding to FIG. 6 (A). It is a front view of the width direction edge part of the panel located in a guide body, Comprising: From the top, it respond | corresponds to FIG. 8 (down state), FIG. 9 (fully closed state), and FIG. 10 (vertical compression state). The 1st compression mechanism is shown, the upper figure is a top view and the lower figure is a front view. It is a side view of the 1st compression mechanism, and the power cylinder of the 1st compression mechanism exists in the time of non-operation (non-compression posture). It is a side view of the 1st compression mechanism, and the power cylinder of the 1st compression mechanism exists in the time of operation (compression posture). It is a side view of a 1st compression mechanism, and shows the movement locus | trajectory of a press part (link mechanism). It is a partial front view which mainly shows the power cylinder of a 2nd compression mechanism. It is a side view of the 2nd compression mechanism, and the power cylinder of the 2nd compression mechanism exists in the time of non-operation (non-compression posture). It is a side view of the 2nd compression mechanism, and the power cylinder of the 2nd compression mechanism exists in the time of operation (compression posture). It is a figure which shows the horizontal direction press member which comprises the 2nd compression mechanism of the waterproof door which concerns on this embodiment. (A) is a partially omitted enlarged view of the horizontal direction pressing member, (B) is an overall view of the horizontal direction pressing member, the left figure is a compression posture, the center figure is a non-compression posture, and the right figure is a view seen from the side. It is. It is the left figure of FIG.19 (B), the enlarged view of the lower part of a center figure, and the cross-sectional view of the guide body corresponding to each. It is an enlarged plan view of a horizontal direction pressing member. It is a figure which shows a middle pillar, and an upper side locking rod and a lower side locking rod are in a protrusion attitude | position. The upper figure is a plan view showing the central pillar in the installation posture, the lower left figure is a front view of the central pillar in the installation attitude when viewed from the indoor side, and the lower right figure shows the receiving member unit embedded in the floor surface. It is a top view. It is a figure which shows the detail of the receiving member unit embed | buried under the floor surface. It is a side view of the waterproof door in the state where the middle pillar is installed. It is a side view of a waterproof door in the state where a middle pillar was stored. It is the elements on larger scale of the upper end part of the middle pillar in FIG. It is an exploded perspective view of a hanger rail assembly (intermediate hanger rail is omitted). It is a perspective view which shows attachment of an intermediate hanger rail. It is a figure which shows the other form of the connection structure of an intermediate | middle hanger rail, the upper figure is sectional drawing, the middle figure is a front view in the state in which the intermediate hanger rail was connected, and the lower figure is an exploded view of the middle figure. It is the front view which looked at the waterproof door provided with the three middle pillars from the room inner side, and is a figure which shows 1st Embodiment of the positioning means of the installation position of each middle pillar. It is a figure which expands and shows the principal part of FIG. It is the front view which looked at the waterproof door provided with three middle pillars from the room inner side, and is a figure which shows 2nd Embodiment of the positioning means of the installation position of each middle pillar. It is a figure which expands and shows the principal part of FIG. It is a figure which shows the middle pillar side contact part of the positioning means which concerns on 2nd Embodiment. It is a figure which shows the rail side contact part of the positioning means which concerns on 2nd Embodiment. It is the front view which looked at the waterproof door provided with one middle pillar from the room inner side, and is a figure showing the 1st embodiment about the relation between the movement range of a middle pillar, and the position of an intermediate hanger rail. It is the front view which looked at the waterproof door provided with the two middle pillars from the room inner side, and is a figure which shows 2nd Embodiment about the relationship between the movement range of a middle pillar, and the position of an intermediate hanger rail. It is the front view which looked at the waterproof door provided with the two middle pillars from the room inner side, and is a figure which shows 3rd Embodiment regarding the relationship between the movement range of a middle pillar, and the position of an intermediate hanger rail. It is the front view which looked at the waterproof door provided with three middle pillars from the room inner side, and is a figure which shows 4th Embodiment about the relationship between the movement range of a middle pillar, and the position of an intermediate hanger rail. It is the front view which looked at the waterproof door provided with three middle pillars from the room inner side, and is a figure which shows 5th Embodiment about the relationship between the movement range of a middle pillar, and the position of an intermediate hanger rail. It is the elements on larger scale which show the positioning means of the center pillar in 5th Embodiment. It is the elements on larger scale which show the intermediate hanger rail in 5th Embodiment. It is a figure explaining accommodation of the two middle pillars in the case shown in FIG. 38 and FIG. 40 (Note that in FIG. 38 and FIG. 40, the middle pillar is housed on the right side of the opening, whereas In FIG. 43, the middle pillar is housed on the left side of the opening, and the side on which the middle pillar is housed is different on the left and right, but the substantial configuration is the same). It is the front view which looked at the two middle pillars in a storage position (right side part of an opening part) from the room inner side. It is a top view of the two middle pillars in the storage position (the right side of the opening). A plan view showing the positional relationship between the receiving member unit at the storage position (left side of the opening) and the guide rail, and the receiving member unit at the storage position (left side of the opening) embedded in the floor surface FIG. It is a figure which shows the receiving member unit of the accommodation position (left side part of an opening part). The upper figure is a front view and a longitudinal sectional view of the switch box, and the lower figure is a front view of an operation panel on which various operation switches are mounted. It is a block diagram which shows the compression operation | movement of a waterproof door, and compression release operation | movement. It is a flowchart from the compression switch input which concerns on this embodiment to a compression release switch invalidation, and a flowchart of cancellation of a compression release switch invalidation state.

[A] Basic structure of panel shutter constituting waterproof door The basic structure of the waterproof door according to the present embodiment includes a panel shutter. As shown in FIGS. 1 to 4, the panel shutter is provided with a shutter curtain composed of a plurality of panels 1 and both ends of the building opening in the width direction. And left and right guide bodies 2 for guiding. In FIG. 4, the left side of the panel 1, that is, the shutter curtain is the outdoor side, and the right side is the indoor side. In FIG. 5, the upper side of the panel 1 is the outdoor side, and the lower side is the indoor side.

The panel 1 is a horizontal rectangular element having a predetermined thickness and extending in the opening width direction. When the opening is fully closed, one surface portion faces the outdoor side (outdoor side surface portion 100) and the other surface portion is the chamber. Facing inside (inner side surface portion 101). As shown in FIGS. 5 and 11 (one end portion in the width direction of the panel 1 is shown, and the other end portion has the same configuration), guide rollers 11 are provided at both end portions in the width direction of each panel 1. The provided support shaft 10 is projected, and each panel 1 is connected to the chain 3 (see FIG. 11) via the support shaft 10 and suspended to form a shutter curtain. Although the chain is omitted in FIG. 4 and the like, it should be noted that in the panel shutter, a configuration in which each panel is suspended by the chain is well known to those skilled in the art.

The upper end of the guide part 2 extends into the storage space above the opening, and includes an upper extension part 2 ′ (see FIG. 4) that guides the guide rollers 11 at both ends in the width direction of the panel 1. The upper extending portion 2 ′ is configured to be able to contact the guide roller 11 from both the outdoor side and the indoor side. In the storage space above the opening, there is provided a sprocket 4 that is positioned substantially at the upper end of the upper extension 2 ′ and for winding the chain 3, and the sprocket 4 is rotated by the opening / closing machine M to By lifting or feeding, the panel 1 is raised or lowered to open and close the building opening.

The storage space of the panel 1 above the opening extends from the upper portion of the opening toward the indoor side. The storage space extends in a gently downwardly inclined manner from the front to the rear (from the shutter core C to the indoor side). A storage rail 5 is provided. The panel 1 that has moved into the storage space due to the lifting of the chain 3 is relayed to the storage rail 5 via the sprocket 4, and the panel 1 is sequentially sent to the rear of the storage space while the guide roller 11 is guided by the storage rail 5. And held and housed in a state where they hang down in parallel with each other.

In the panel shutter configured in this manner, when the sprocket 4 is rotationally driven in the chain lifting direction by the opening / closing machine M in the fully closed state of the opening, each panel 1 in the fully closed vertical position causes the chain 3 to rise. Accordingly, the both ends in the width direction rise while being guided by the vertical guide body 2, and are sequentially received from the upper panel 1 by the storage rail 5 extending in the lateral direction from the upper extending portion 2 'of the guide body 2. Passed and stored in parallel in the storage space, the opening is opened.

When the sprocket 4 is rotationally driven in the chain feed-out direction by the opening / closing machine M in the fully open state of the opening, the panels 1 stored in parallel are sequentially stored in space while the guide rollers 11 at both ends in the width direction are guided by the storage rails 5. When pulled out from the rear side to the front sprocket 4 side and passes through the sprocket 4, it descends while being vertically guided to each other in the height direction while being guided by the guide body 2, and the opening is closed.

When the shutter curtain is lowered, the upper end of the lower panel and the lower end of the upper panel are separated from each other in any two adjacent panels 1 (FIG. 6C, FIG. 7, FIG. 8, etc.). reference). When the shutter curtain descends, the lower end of the lowermost panel 1 is landed, and then the shutter curtain continues to descend for a predetermined distance, so that the upper end of the lower panel in any two adjacent panels 1 above and below And the lower end of the upper panel come into contact with each other to be fully closed (see FIGS. 6B and 9). Furthermore, as will be described in detail later, the shutter curtain in the fully closed state is compressed in the vertical direction to be in a vertically compressed state (see FIGS. 6A and 10).

A photoelectric sensor 6 illustrated as an obstacle detection unit is provided below the opening at a predetermined height from the floor surface. In the illustrated embodiment, four photoelectric sensors 6 are provided on the outdoor side and the indoor side, respectively, with a height position of 150 mm and a height position of 500 mm from the floor surface. In the present embodiment, when an obstacle is detected while the shutter curtain is being lowered, the shutter curtain that is being lowered is raised for 1.5 seconds after being stopped for 1 second. The specific configuration of the obstacle detection means and the operation procedure after the obstacle detection are not limited to these.

Although the basic configuration of the panel shutter has been described with reference to the drawings, the basic configuration of the panel shutter is known to those skilled in the art, and further detailed description is omitted. Further, regarding the panel shutter, several modifications and improvements are known to those skilled in the art, and the configuration of the panel shutter that can be applied to the waterproof door according to the present invention is not limited to the illustrated embodiment. Please note that.

[B] Water-stopping structure of waterproof door [B-1] Water-stopping structure of panel With reference to FIGS. 7 to 11, the water-stopping structure between adjacent panels will be described. As shown in FIGS. 7 and 8, the panel 1 is integrally formed from an extruded aluminum material, and includes an outdoor side surface portion 100, an indoor side surface portion 101, an upper end surface 102, and a lower end surface 103. The lower end surface 103 of the panel 1 includes an upward curved concave surface 1030, an outdoor horizontal surface 1031 and an indoor horizontal surface 1032 respectively located on the outdoor side and indoor side of the concave surface 1030 in a side view. The upper end surface 102 of the panel 1 includes a convex surface 1020 that is curved upward, and an outdoor fitting groove 1021 and an indoor fitting groove 1022 that are located on the outdoor side and indoor side of the convex surface 1020, respectively.

A watertight rubber 12 (see FIGS. 6 to 10) is provided on the upper end surface 102 of each panel 1 except the uppermost panel 1 over the entire width direction. As shown in FIGS. 7 and 8, the watertight rubber 12 includes, as viewed from the side, an upward curved portion 120, an outdoor horizontal portion 121 and an indoor horizontal portion 122 positioned on the outdoor side and indoor side of the upward curved portion 120, respectively. And the fitting protrusions 123 and 124 integrally formed on the lower surface 122 of the outdoor side horizontal portion 121 and the indoor side horizontal portion 122, respectively. The watertight rubber 12 is fixed to the upper end surface 102 of the panel 1 by fitting the fitting protrusions 123 and 124 into the outdoor fitting groove 1021 and the indoor fitting groove 1022 of the upper end surface 102 of the panel 1, respectively. The

When the shutter curtain is in the vertical compression state, the outdoor horizontal surface 1031 and the indoor horizontal surface 1032 of the lower end 103 of the panel 1 are pressed against the outdoor horizontal portion 121 and the indoor horizontal portion 122 of the watertight rubber 12 of the panel 1, respectively. 10 (see FIG. 10), the outdoor horizontal portion 121 of the watertight rubber 12 of the panel 1 and the upper portion of the indoor horizontal portion 122 (the portions indicated by hatching in FIGS. The degree of adhesion at the time of pressure contact is increased by reducing the hardness of the rubber at the slightly swelled portion). A plurality of protrusions 1200 are formed on the upward curved portion 120 of the watertight rubber 12 over the entire length. In the fully closed state (non-vertical compression state), the protrusion 1200 is slightly separated from the upward curved concave surface 1030 of the lower end surface 103 of the upper panel 1 (see FIG. 9). In the vertically compressed state, the upward curved concave surface 1030 of the lower end surface 103 of the upper panel 1 and the upward curved portion 120 of the watertight rubber 12 fixed to the upper end surface 102 of the lower panel 1 are interposed via the protrusion 1200. Since it contacts linearly (refer FIG. 10), the water stop effect improves compared with the case where surfaces contact. In the illustrated embodiment, two parallel projections 1200 are shown, but the number of projections 1200 is not limited.

When the opening is fully closed, the water stop structure between the upper and lower adjacent panels is formed by pressing the lower end of the upper panel 1 of the two adjacent panels 1 and the upper end of the lower panel 1 through the watertight rubber 12. Can be obtained. A watertight rubber 13 (see FIGS. 1 to 4 and 6) is provided at the lower end of the lowermost panel 1 over the entire width direction. When the opening is fully closed, the watertight rubber 13 is pressed against the floor surface. As a result, a water stop structure at the lower end of the shutter curtain is obtained. In other words, by pressing the shutter curtain in the fully closed state vertically from the upper end toward the floor surface, a water-stopped state can be obtained between the panels 1 adjacent to each other in the vertical direction and between the lowest panel 1 and the floor surface.

The watertight rubber forming the water-stopping structure between the two adjacent panels 1 is not limited to the one provided at the upper end of the panel 1, and the entire width direction is provided at the lower end or / and the upper end of the panel 1. A watertight rubber is provided over the upper and lower sides of the upper panel 1 of the two adjacent panels 1 and the upper end of the lower panel 1 by pressing the watertight rubber through the watertight rubber when the opening is fully closed. The water stop structure between adjacent panels should just be obtained.

Next, the finger pinching prevention structure of the panel 1 and the accompanying water stop structure will be described mainly with reference to FIGS. 5 and 7 to 11. As described above, when the shutter curtain of the panel shutter is lowered, the upper end surface 102 (watertight rubber 12) of the lower panel 1 of the two adjacent panels 1 and the lower end surface 103 of the upper panel 1 are separated from each other. (See FIGS. 6C, 7, and 8). Therefore, a finger pinching prevention structure is provided on the panel 1 so that a gap is not formed on the outdoor side and the indoor side of the descending shutter curtain. This will be specifically described below.

As shown in FIGS. 7 and 8, on the upper end side of the outdoor side surface portion 100 of the lower panel 1, a rising piece (outdoor vertical) extending vertically from the outdoor side surface portion 100 beyond the upper end surface 102 of the panel 1. Piece 1000) is formed, and on the lower end side of the outdoor side surface portion 100 of the upper panel 1, an outdoor side step portion 1001 is formed by denting the outdoor side surface portion 100. 1000 overlaps the vertical surface 1002 of the outdoor step 1001 of the panel 1. The thickness of the outdoor vertical piece 1000 and the step size (depth) of the outdoor step 1001 are substantially the same. As is clear from FIGS. 7 to 10, the outdoor vertical piece 1000 and the vertical surface 1002 of the outdoor stepped portion 1001 overlap each other in the case of descent, fully closed state, and vertical compression state. There is no gap on the outdoor side between the panels 1 adjacent to each other. The outdoor vertical piece 1000 and the outdoor step 1001 are formed across the entire width of the panel 1.

On the lower end side of the indoor side surface portion 101 of the upper panel 1, a hanging piece (indoor vertical piece 1010) extending downward from the indoor side surface portion 101 beyond the lower end surface 103 of the panel 1 is formed. An indoor side step portion 1011 is formed by denting the indoor side surface portion 101 at the upper end side of the indoor side surface portion 101, and the indoor side vertical piece 1010 of the upper panel 1 is formed in the indoor side step portion 1011 of the lower panel 1. It overlaps with the vertical plane 1012. The thickness of the indoor vertical piece 1010 and the step size (depth) of the indoor step 1011 are substantially the same. As apparent from FIGS. 7 to 10, the indoor vertical piece 1010 and the vertical surface 1012 of the indoor side stepped portion 1011 overlap each other in descending, fully closed state, and vertically compressed state. A gap does not occur on the indoor side between the panels 1 adjacent to each other.

The indoor side stepped portion 1011 is formed over the entire width of the panel 1, whereas both ends in the width direction of the indoor vertical piece 1010 are cut away (see the upper diagram in FIG. 11). Both end portions in the width direction of the panel 1 are received in the guide portion 2, and the cutout portion of the indoor vertical piece 1010 is formed in the guide portion 2. Watertight rubbers 17 are provided at both ends in the width direction of the indoor side stepped portion 1011 (sites located in the guide portion) corresponding to the notches of the indoor vertical piece 1010 (see FIGS. 8 to 11).

The water-tight rubber 17 has a shape (corresponding to a horizontally long square in the illustrated embodiment) and area substantially corresponding to the notch, and a thickness (as shown in FIGS. 8 to 10) slightly larger than the step size of the indoor step portion 1011. The panel has a thickness slightly protruding from the indoor side surface portion 101 of the panel), and is attached so as to cover both ends of the indoor side stepped portion 1011 in the width direction. The upper end portion of the watertight rubber 17 is in contact with or integrated with the indoor horizontal portion 122 of the watertight rubber 12 (in the case where the watertight rubber 12 and the watertight rubber 17 are formed separately). M) ensuring watertightness. As shown in FIG. 10, in the vertical compression state, the indoor horizontal surface 1032 of the lower end surface 103 of the upper panel 1 is in pressure contact with the indoor horizontal portion 122 of the watertight rubber 12 and the upper end of the watertight rubber 17.

In the illustrated embodiment, the storage space of the panel 1 above the opening is formed from the upper part of the opening toward the indoor side, and the panel 1 that has moved into the storage space is guided by the storage rail 5 while the guide roller 11 is guided. The room-side vertical piece 1010 of the upper panel 1 is sequentially sent to the rear of the storage space so as to be separated from the room-side stepped portion 1011 of the lower panel 1. In addition, in two adjacent panels, the outdoor vertical piece, the panel on which the outdoor step portion is formed, the indoor vertical piece, and the panel on which the indoor step portion is formed are limited to the illustrated embodiments. Instead, for example, when the storage space is formed from the upper part of the opening toward the outdoor side, the indoor side stepped part 1011 is formed on the upper panel 1, and the indoor side vertical piece 1010 is formed on the lower panel 1. The formed standing pieces and the water-tight rubber 17 are provided at both ends in the width direction of the indoor side step portion of the upper panel. Alternatively, the outdoor vertical piece and the indoor vertical piece may be formed on the same side panel (for example, the upper panel), and the outdoor stepped portion and the indoor stepped portion may be formed on the same side panel (for example, the lower panel). It will be understood by those skilled in the art that in these cases, the mode in which the watertight rubber 17 is provided can be changed as appropriate.

As shown in FIG. 5, the guide portion 2 is a long member formed in a U shape in a sectional view from the outdoor side 20, the indoor side 21, and the base 22 that are opposed to each other. Further, bent pieces 200 and 210 are formed on the front side of the indoor side 21 so as to face each other, and an end portion in the width direction of the panel 1 is received in an opening groove between the ends of the bent pieces 200 and 210. Yes. More specifically, the inner surface on the distal end side of the outdoor side 20 has a rectangular shape in cross section, and is a horizontal pressing member 23 (an upper end of the horizontal pressing member 23 is a storage space) that is a long member extending in the height direction. The watertight rubber member 24, which is a long member extending in the height direction, is provided on the inner surface on the front end side of the indoor side 21 and the bottom 22 extends in the height direction. A guide member 25 that is a long member and that contacts and guides the outer peripheral surface of the guide roller 11 is provided. The horizontal pressing member 23 extends in the indoor / outdoor direction along the bent piece 200 in a plan view, and the distal end surface (the portion that contacts the outdoor side surface portion 100 of the panel 1 at the time of compression) is always (at the time of compression and When not compressed), it protrudes beyond the tip of the bent piece 200. It should be noted that the tip surface of the horizontal pressing member 23 is positioned inside the bent piece 200 when not compressed (does not exceed the tip), and the tip surface of the horizontal pressing member 23 exceeds the tip of the bent piece 200 when pressed. You may make it protrude. On the outer sides of the bent pieces 200 and 210 on the distal end side of the outdoor side 20 and the indoor side 21, fins 26 made of long elastic rubber respectively extending in the height direction are formed. Moreover, the guide part 2 is provided with upper side extension part 2 'extended to the storage space above an opening part.

As shown in FIG. 5, the width direction edge part of each panel 1 is received by the opening between the horizontal direction pressing member 23 on the outdoor side, and the watertight rubber member 24 on the indoor side. The outer peripheral surface of the guide roller 11 at the tip of the support shaft 10 protruding from the guide member 25 is in contact with or close to the guide member 25 provided on the bottom side of the guide body 2. By moving the chain 3 up and down, each panel 1 has an outdoor side surface portion and an indoor side surface portion in contact with the fins 26, while the outdoor peripheral surface of the guide roller 11 of the support shaft 10 at both ends in the width direction is the guide member 25. In addition, both ends in the width direction are guided by the water-tight rubber member 24 and move up and down in the vertical direction. When the outdoor peripheral surface of the guide roller 11 is in contact with the guide member 25, contact between the metal horizontal pressing member 23 and the width direction end of the panel 1 is restricted during normal opening and closing and in a normal fully closed state. Has been.

The horizontal direction pressing member 23 and the watertight rubber member 24 are opposed to each other with an end portion in the width direction of the panel 1 interposed therebetween, and the indoor peripheral surface of the guide roller 11 is free (not guided by the member). ), The guide roller 11 can also move indoors as the panel 1 moves indoors, and by pressing the end of the panel 1 indoors by the horizontal pressing member 23, The width direction end portion (including the watertight rubber 17) of the indoor side surface portion of the panel 1 is brought into pressure contact with the watertight rubber member 24, and a water stop structure is obtained across the height direction of both ends of the shutter curtain width direction. At this time, the watertight rubber 17 having a thickness slightly protruding from the indoor side surface portion 101 of the panel 1 is pressed against the watertight rubber member 24 and compressed in the thickness direction, so that the indoor side surface portion 101 and the watertight rubber 17 are It will be the same. In the lower diagram of FIG. 20, in the left diagram (water-stopped state), the horizontal direction pressing member 23 is in press contact with the outdoor side surface portion 100 of the panel 1, and the indoor side surface portion 101 of the panel 1 is in contact with the watertight rubber member 24. In the right figure (non-water-stop state), the horizontal direction pressing member 23 and the outdoor side surface portion 100 of the panel 1, and the indoor side surface portion 101 of the panel 1 and the watertight rubber member 24 are pressed in close proximity. Not in state. Thus, by providing the guide member 25 that can contact the guide roller 11 only from the outdoor side inside the guide body 2, the indoor side surface portion 101 (watertight rubber) of the panel 1 by the compression operation of the second compression mechanism 8 is provided. 17) and the watertight rubber member 24 are allowed to be pressed, while the guide roller 11 is in contact with the guide member 25, so that the horizontal pressing member 23 and the outdoor side surface portion 100 of the panel 1 are in contact with each other when the panel 1 is moved up and down. To be regulated.

In the state where the shutter curtain is vertically compressed, the watertight rubber 12 closes the upper and lower adjacent panels 1 in a watertight state, and the watertight rubber 13 closes in a watertight state between the lower end of the lowermost panel 1 and the floor surface. When the shutter curtain in the vertical compression state is further compressed in the horizontal direction and is in the horizontal compression state, the indoor side surface portion 101 and the watertight rubber 17 of the panel 1 are pressed against the watertight rubber member 24, and both ends in the opening width direction are watertight. Block to state. When the shutter curtain is in a compressed state (vertical compressed state and horizontal compressed state) in this way, the upper and lower panels are closed in a watertight manner, and the shutter device has three sides (the shutter curtains located in the left and right guide bodies 2). Water-tight rubbers 13 and 24 at both ends in the width direction and the lower end of the shutter curtain form a water stop line that prevents water from entering the indoor space.

[B-2] A waterproof door can be configured by providing a water stop structure to the panel shutter in the fully closed state of the compression mechanism. In this embodiment, the means for setting the panel shutter in the fully closed state to the water-stopped state is vertically driven by the first compression mechanism 7 that compresses each panel 1 in the fully closed state downward in the vertical direction and the first compression mechanism 7. It consists of the 2nd compression mechanism 8 which presses all the panels 1 pressed by the direction integrally in the horizontal direction toward the room inner side.

As shown in FIGS. 1 to 3, a plurality of first compression mechanisms 7 are provided in the storage space above the opening over the opening width direction. As shown in FIGS. 12 to 15, the first compression mechanism 7 is provided at the tip of a power cylinder 70 exemplified as an actuator disposed in the storage space above the opening and the piston rod 71 of the power cylinder 70, and is fully closed. A pressing portion (comprising a link mechanism) 72 that contacts and presses the upper end of the uppermost panel 1 in the state. In the fully closed state of the opening, the piston rod 71 is lowered, the pressing portion 72 is brought into contact with the upper end of the uppermost panel 1 and pressed downward, so that each panel in the fully closed state is directed downward. Squeeze vertically.

The first compression mechanism 7 is provided so as to be biased to the outdoor side with respect to the lifting path of the panel 1 so as not to hinder the lifting and lowering of the panel 1 in the storage space above the opening. Therefore, in order to press the upper end of the uppermost panel 1 in the fully closed state, the rod 71 of the power cylinder 70 protrudes obliquely downward, but the pressing portion 72 formed of a link mechanism causes the uppermost panel 1 to A pressing force acts in a direction perpendicular to the upper end.

As shown in FIGS. 13 to 15, the pressing portion 72 includes a horizontal base 720 fixed to the frame of the first compression mechanism 7, and a first link 721 having one end connected to the base end side of the base 720. The second link 722 having one end connected to the distal end side of the base 720, and the third link 723 connecting the other ends of the first link 721 and the second link 722 are provided. The tip of the piston rod 71 is connected to the third link 723, and the lower surface of the third link 723 comes into contact with and presses the upper end of the uppermost panel 1 in the fully closed state. As shown in FIG. 15, the piston rod 71 reciprocates in an inclined posture, but the lower surface of the third link 723 is always kept horizontal during reciprocation. The illustrated link mechanism is one embodiment, and a pressing portion having another configuration may be used. As is clear by comparing FIGS. 13 and 14, when the power cylinder 70 of the first compression mechanism 7 is in a non-operating state (non-compression posture), the power cylinder 70 is located away from the shutter core C, The normal raising / lowering operation of the shutter curtain is not hindered, and the power cylinder 70 is positioned on the shutter core C when the power cylinder 70 of the first compression mechanism 7 is in operation (compression posture). The upper end of the shutter curtain in the fully closed state can be pressed well.

As shown in FIGS. 12 to 14, the first compression mechanism 7 includes a first limit switch 73 and a second limit switch 74. As shown in FIG. 12, the first limit switch 73 and the second limit switch 74 are provided on the opposite side across the piston rod 71 in the front view. When the first compression mechanism 7 is not operating, the movable portion of the first compression mechanism 7 is in contact with the first limit switch 73, and the second limit switch 74 is in a non-contact state. When the first compression mechanism 7 is activated and the rod 71 protrudes to a predetermined compression position, the first limit switch 73 is brought into a non-contact state, and a portion of the movable part comes into contact with the second limit switch 74. In the present embodiment, the time when the first limit switch 73 is switched from OFF to ON is when the first compression mechanism 7 is released, and the time when the second limit switch 74 is switched from OFF to ON is the first compression mechanism 7. When the compression is complete. In this embodiment, the movable portion of the first compression mechanism 7 that contacts the first limit switch 73 and the second limit switch 74 is a pressing portion 72 that moves in conjunction with the rod 71 (in the illustrated embodiment, the second portion of the link mechanism). Although the link 722), the rod 71 may be in direct contact with the limit switch.

The first limit switch 73 and the second limit switch 74 constitute vertical compression state detection means. Specifically, when the first limit switch 73 is ON (the second limit switch 74 is OFF), it is a non-vertical compression state, and when the first limit switch 73 is OFF and the second limit switch 74 is OFF, it is vertical. If the second limit switch 74 is ON (the first limit switch 73 is OFF) during the compression operation or the vertical compression release operation, the vertical compression state is detected.

As shown in FIGS. 1 and 2, in the present embodiment, three first compression mechanisms 7 are provided at intervals in the opening width direction. More specifically, one first compression mechanism 7 is provided in the center in the opening width direction, and the first compression mechanism 7 is provided at a position close to the left and right guide bodies 2, respectively. 7 and the left first compression mechanism 7 and the distance between the central first compression mechanism 7 and the right first compression mechanism 7 are the same. The number of the first compression mechanisms 7 is not limited, and the number is appropriately selected according to the width dimension (opening width dimension) of the panel 1 or the like.

As shown in FIGS. 1 to 3, the second compression mechanism 8 is provided in the storage space above the opening portion, respectively, at the left and right ends in the opening width direction. Similar to the first compression mechanism 7, the second compression mechanism 8 is provided to be biased to the outdoor side with respect to the lifting path of the panel 1 so as not to hinder the lifting and lowering of the panel 1 in the storage space above the opening. . As shown in FIGS. 16 to 18, the second compression mechanism 8 includes a power cylinder 80 exemplified as an actuator disposed in the storage space in the upper direction of the opening, and a horizontal that interlocks with the vertical movement of the piston rod 81 of the power cylinder 80. A direction pressing member 23. The horizontal direction pressing member 23 is formed in a rectangular shape in a sectional view as a whole, and is provided on the inner surface on the distal end side of the outdoor side 20 of the guide body 2.

As shown in FIGS. 19 to 21, the horizontal pressing member 23 includes a first member (outdoor member) 230 that is U-shaped in a cross-sectional view and extends vertically along the guide body 2, and the guide body 2. And a long second member (interior side member) 231 that is U-shaped in a cross-sectional view and extends vertically. The first member 230 is connected to the outdoor side 20 of the guide body 2 with a screw (not shown). The first member 230 is a fixed element and the second member 231 is a movable element. The second member 231 includes a vertical pressing surface 2310, and when pressed, the pressing surface 2310 contacts the outdoor side surface 100 of the panel 1 and presses toward the indoor side. As shown in FIGS. 17 and 18, the upper end portion of the pressing surface 2310 is a tapered inclined surface 2311. By providing the inclined surface 2311, the panel 1 and the second member 231 (non-compressed state) are in contact with each other even if the panel 1 located at the upper part of the opening is shaken in the outdoor direction during normal raising / lowering of the shutter curtain. There is nothing to do. Further, since the inclined surface 2311 is provided, when the shutter curtain is lowered, the lower end of the descending panel 1 is smoothly lowered without being caught by the upper end of the second member 231. The second member 231 is configured to be separated and approached in the horizontal direction with respect to the first member 230 via a link mechanism and an actuation mechanism described below.

The link mechanism includes a first link 232 and a second link 233. By changing the angle of the first link 232 and the second link 233, the second member 231 is horizontally oriented with respect to the first member 230. Separated and approached. A first end of a first link 232 is rotatably connected to the first member 230 via a first shaft 2320 at a predetermined interval in the height direction, and the second member 231 is connected to the first member 230 in the height direction. The first end portion of the second link 233 is rotatably connected through a second shaft 2330 at a predetermined interval, and the second end portion of the first link 232 and the second end portion of the second link 233 are The three shafts 2340 are rotatably connected.

As shown in FIG. 21, the first link 232 and the second link 233 are both block links. A first shaft 2320 is provided at the first end of the first link 232 so as to penetrate the block, and a second shaft is provided at the first end of the second link 233 so as to penetrate the block. 2330 is provided. The second end of the first link 232 is composed of a pair of pieces that are spaced apart from each other, and the second end of the second link 233 is sandwiched between the pair of pieces in a rotatable state. The second end portion of the second link 233 is composed of a pair of pieces that are spaced apart from each other, and the operating rod 234 is sandwiched between the pair of pieces, and the second end portion of the second link 233 that faces the operating rod 234. Is allowed to rotate.

The actuating rod 234 is a long member extending vertically along the guide body 2, and in one aspect, is formed by connecting a plurality of long members in the vertical direction. A third shaft 2340 is connected to the operating rod 234 at a predetermined interval in the height direction, and the upper end side is connected to the tip of the piston rod 81 of the power cylinder 80. That is, the operating mechanism is constituted by the operating rod 234 and the power cylinder 80 that moves the operating rod 234 up and down. The power cylinder 80 is disposed with the piston rod 81 facing downward, and the piston rod 81 is coupled to the upper end of the operating rod 234 via a coupling mechanism. As shown in FIGS. 16 to 18, the coupling mechanism includes a link 82 and a base 820 that rotatably supports a midway portion in the longitudinal direction of the link 82 via a shaft 82 ′. The lower end is rotatably connected to the first end of the link 82, and the upper end of the operating rod 234 is rotatably connected to the second end of the link 82 via the rod head 2341 and the suspension rod 2342, The operating rod 234 is configured to be pulled up in conjunction with the downward projecting motion of the piston rod 81. The distance between the first end and the shaft 82 'is larger than the distance between the second end and the shaft 82', and the operating rod 234 is pulled up with a larger force by the lever principle.

The first member 230 is provided with a pair of guides 235 at predetermined intervals in the height direction so as to correspond to the link mechanism, and the second shaft 2330 and the third shaft are formed by guide grooves 236 formed in the guide 235. 2340 is guided. More specifically, as shown in the right side of FIG. 20, the guide groove 236 includes a horizontal groove 2360 that extends toward the indoor side, and an inclined groove 2361 that is formed outside the horizontal groove 2360, The inclined groove 2361 is inclined upward toward the indoor side. The second shaft 2330 is guided by the horizontal groove 2360, and the third shaft 2340 moves along the inclined groove 2361. The second shaft 2330 is provided with a guide roller 2331, and the second shaft 2330 reciprocates in the horizontal direction as the guide roller 2331 is guided by the horizontal groove 2360. That is, the second member 231 moves in the horizontal direction in conjunction with the upward movement of the operating rod 234, presses the outdoor side surface portion 100 of the panel 1 by the pressing surface 2310, and presses the indoor side surface portion 101 against the watertight rubber member 24. It is configured as follows.

In the present embodiment, by causing the piston rod 81 to protrude downward from the posture of FIG. 17 to the posture of FIG. 18, the operating rod 234 is pulled up vertically, and in conjunction with the upward movement of the operating rod 234, The second member 231 is pushed toward the panel 1 so as to be separated from the first member 230 and comes into contact with the outdoor side surface portion 100 at the end in the width direction of the panel 1, and the indoor side surface portion 101 of the panel 1 pushes the watertight rubber member 24. By compressing, all the panels 1 compressed in the vertical direction by the first compression mechanism 7 are integrally compressed toward the indoor side.

In the present embodiment, during the compression operation of the second compression mechanism 8, the power cylinder 80 pulls up the operation rod 234, so that the horizontal pressure member 23 (second member 231) causes the panel 1 to receive the tensile force. Is configured to press horizontally. As described above, when the shutter curtain is compressed in the horizontal direction, a tensile force acts on the actuating rod 234 that is one element of the actuating mechanism. Therefore, when the actuating rod is pressed in the vertical direction to apply a compressive force to the actuating rod. Compared to the above, it is not necessary to consider the buckling of the actuating rod 234, and the actuating rod 234 can be made of a lighter member having lower strength (smaller cross-sectional dimensions and more space saving) and lighter weight. Become.

As shown in FIGS. 16 to 18, the second compression mechanism 8 includes a first limit switch 83 and a second limit switch 84. When the second compression mechanism 8 is not in operation, the movable portion of the second compression mechanism 8 (the protrusion 821 protruding from the link 82) is in contact with the first limit switch 83, and the second limit switch 84 is in a non-contact state. When the second compression mechanism is activated and the rod 81 protrudes to a predetermined compression position, the first limit switch 83 is brought into a non-contact state, and the movable portion (the projection 821 protruding from the link 82) is the second limit. Contact the switch 84. In the present embodiment, the time when the first limit switch 83 is switched from OFF to ON is when the second compression mechanism 8 is released, and the time when the second limit switch 84 is switched from OFF to ON is the second compression mechanism 8. When the compression is complete. The protrusion 821 is provided on the link 82 as the movable portion of the second compression mechanism 8 that contacts the first limit switch 83 and the second limit switch 84. The movable portion includes the rod 81 and the link 82. As such, a connection mechanism between the link 82 and the operating rod 234 may be used.

The first limit switch 83 and the second limit switch 84 constitute a horizontal compression state detection means. Specifically, when the first limit switch 83 is ON (the second limit switch 84 is OFF), it is a non-horizontal compression state, and when the first limit switch 83 is OFF and the second limit switch 84 is OFF, it is horizontal. If the second limit switch 84 is ON (the first limit switch 83 is OFF) during the compression operation or the horizontal compression release operation, it is detected that the state is in the horizontal compression state.

[C] Reinforcement middle pillar [C-1] Outline of reinforcement middle pillar As shown in FIGS. 1 to 4, in this embodiment, the waterproof door includes a movable middle pillar 9. The middle column 9 is a reinforcing middle column that supports the shutter curtain in the water-stopped state from the indoor side, and is located on the indoor side of the panel 1 in the fully closed state, and is close to the indoor side surface portion 101 of the panel 1. Installed. In this embodiment, the waterproof door is provided with three middle pillars 9 (FIG. 1), provided with two middle pillars 9 (FIG. 2), and provided with one middle pillar 9 (FIG. 3). It discloses about. The number of the middle pillars 9 is not limited, and the number is appropriately selected according to the width dimension (opening width dimension) of the panel 1, the water pressure (water level height), and the like. When providing one middle pillar 9, the middle pillar 9 is installed at a position that bisects the width direction of the panel 1, and when providing two middle pillars 9, the width direction of the panel 1 is 3 Two middle pillars 9 are respectively installed at the divided positions, and when three middle pillars 9 are provided, the two middle pillars 9 are respectively arranged at positions obtained by dividing the width direction of the panel 1 into four. In this specification, the middle pillars are collectively indicated by “9”. However, when a plurality of middle pillars are provided, if it is necessary to identify each middle pillar, 9A, 9B, In the case of three, they are indicated by 9A, 9B, and 9C. Moreover, 9 ', 9A', 9B ', 9C' shows the middle pillar in a storage position.

The middle column 9 is movable between a storage position and an installation position along a hanger rail 90 that is located above the opening and extends in the opening width direction. The hanger rail 90 is a long member extending horizontally in the opening width direction and extending over the entire width of the opening, and the end in the length direction is at least the storage position of the middle column 9 (the opening of the opening). It extends to the position corresponding to the indoor side position of the guide body 2 at the end in the width direction (see FIG. 45). A suspension shaft 910 provided with a hanger roller 91 is provided at the upper end of the middle column 9, and the middle column 9 is moved to the storage posture (inner side of the guide body 2 by moving the hanger roller 91 along the hanger rail 90). And the installation posture (opposite the indoor side surface portion 101 of the panel 1 in the fully closed state).

In one aspect, the middle column 9 is installed by moving the middle column 9 from the storage position to the installation position after the shutter curtain in the fully closed posture is in a water stop state (vertical compression and horizontal compression), Install in close proximity to the interior side of the shutter curtain. In the present embodiment, a gap is formed between the middle column 9 in the installation position and the indoor side surface portion of the shutter curtain in the fully closed posture (non-horizontal compression state and horizontal compression state). Since the middle column 9 does not hinder the shutter curtain descending, the vertical compression operation and the horizontal compression operation of the shutter curtain in the fully closed posture, the installation timing of the middle column 9 is not particularly limited.

[C-2] Configuration of Reinforcing Middle Column As shown in FIG. 22, the upper locking rod 92 is provided on the middle column 9 so as to protrude upward from the upper end surface 97 of the middle column 9. The upper locking rod 92 is in a retracted posture (for example, a posture in which the upper end of the upper locking rod 92 does not protrude upward from the upper end surface 97 of the middle column 9, specifically, when the middle column 9 is stored and moved) The upper end of the locking rod 92 is at the same level as the upper end surface 97 of the middle column 9 or at a lower level than the upper end surface 97). At the time of installation, the upper locking rod 92 in the retracted posture is protruded upward to be in the protruding posture (locking posture), so that the upper locking rod 92 is locked into the locking receiving hole 920 of the receiving member 193 above the opening. (See FIG. 25).

Lower locking rods 93 and 94 are provided on the middle column 9 so as to protrude downward from the lower end surface 98 of the middle column 9. The lower locking rods 93 and 94 are retracted when the middle column 9 is stored and moved (for example, a posture in which the lower ends of the lower locking rods 93 and 94 do not protrude downward from the lower end surface 98 of the middle column 9; Specifically, the lower ends of the lower locking rods 93 and 94 are at the same level as the lower end surface 98 of the middle column 9 or higher than the lower end surface 98), and in the retracted position at the time of installation. The lower locking rods 93 and 94 are protruded downward to have a protruding posture (locking posture), so that the lower locking rods 93 and 94 are locked by the receiving member unit 99 embedded in the floor surface. The holes 930 and 940 are respectively locked.

In the installation posture of the middle pillar 9, the two lower locking rods 93, 94 are arranged in the indoor / outdoor direction (direction orthogonal to the opening width direction), and the lower locking rod 93 is a fully closed panel. The lower locking rod 94 is positioned on the side farther from the indoor side surface portion 101 of the panel 1 in the fully closed posture. In the installation posture of the middle column 9, the upper locking rod 92 and the lower locking rod 93 are located on the same vertical axis. In the installation posture of the middle column 9, the upper locking rod 92 in the locking posture is located on the side close to the indoor side surface portion 101 of the panel 1 with respect to the suspension shaft 910 of the hanger roller 91. In the installation posture of the middle column 9, the suspension shaft 910 and the lower locking rod 94 are located on the same vertical axis.

The middle pole 9 is provided with an operation lever 95, and the operation lever 95 is connected to one upper locking rod 92 and two lower locking rods 93, 94 via a link mechanism 96. . The operation lever 95 is in the first position (position rotated upward) during storage and movement, and the operation lever 95 is rotated in the second position (downward) in the middle column 9 moved to the installation position. , The upper locking rod 92 protrudes upward from the upper end surface 97 of the middle column 9 through the link mechanism 96 and locks into the locking receiving hole 920, and the lower locking rod. 93 and 94 protrude downward from the lower end surface 98 of the middle column 9 and are engaged with the engagement receiving holes 930 and 940, respectively. A link mechanism for projecting the rod upward and downward by a single lever turning operation is well known to those skilled in the art, and a detailed description thereof will be omitted.

In the present embodiment, the lower end of the lower locking rod 93 is positioned slightly below the lower end of the lower locking rod 94, and is lower than the lower end surface 98 of the middle column 9 in that positional relationship. Protrusively. Specifically, the upper ends of the lower locking rods 93 and 94 are at the same level, and the length of the lower locking rod 93 is slightly longer than the length of the lower locking rod 94 ( 22 and 25). When the upper locking rod 92 and the lower locking rods 93, 94 are locked to the locking receiving holes 920, 930, 940 by the turning operation of the operation lever 95, the lower locking rod 93 is locked. With the light receiving hole 930 lightly locked, the lower locking rod 94 can be aligned and locked with the locking receiving hole 940 while finely adjusting the position of the lower end portion of the middle column 9 and smoothly A locked state can be obtained.

The middle column 9 is a long member having a rectangular shape in cross section and having a height substantially corresponding to the opening height, and as shown in FIG. 22, an upper end surface 97, a lower end surface 98, and four side surfaces. (First surface 900, second surface 901, third surface 902, fourth surface 903). In plan view, the first surface 900 and the second surface 901 facing each other are short sides, and the third surface 902 and the fourth surface 903 facing each other are long sides. In this specification, a line connecting the first surface 900 and the second surface 901 is called a major axis, and a line connecting the third surface 902 and the fourth surface 903 is called a minor axis. The middle column 9 has a first width along the major axis and a second width (<first width) along the minor axis.

The suspension position of the middle column 9, that is, the suspension shaft 910 is closer to the second surface 901 than the middle point of the first width in the major axis direction of the middle column 9. The middle column 9 is rotatable around a suspension shaft 910. As is clear from a comparison between FIG. 25 showing the installation posture and FIG. 26 showing the storage posture, in the installation posture, the first surface 900 of the middle pillar 9 is close to the indoor side surface portion 101 of the panel 1 and the storage posture. Then, the middle column 9 is in a posture rotated 180 degrees around the suspension shaft 910, and the second surface 901 of the middle column 9 is opposed to the outdoor side.

When the middle column 9 is stored or moved, the second surface 901 of the middle column 9 is closer to the indoor side surface portion 101 of the panel 1, and the first surface 900 of the middle column 9 is farther from the indoor side surface portion 101 of the panel 1. By setting it as the side, a sufficient space is formed between the second surface 901 of the middle column 9 and the indoor side surface portion 101 of the panel 1, and the contact between the middle column 9 and the panel 1 is prevented. Can be moved easily.

In the installation posture of the middle column 9, the middle column 9 moved to the installation position is rotated around the axis about the suspension shaft 910, and the first surface 900 of the middle column 9 is moved to the indoor side surface portion 101 of the panel 1. By setting the second surface 901 of the middle column 9 on the near side and the side farther from the indoor side surface portion 101 of the panel 1, the first surface 900 of the middle column 9 is brought close to and opposed to the indoor side surface portion 101 of the panel 1. In this way, when the water pressure acts on the shutter curtain that is pressed in the vertical direction and the horizontal direction and is in a water-stopped state from the outdoor side, the indoor side surface portion (the indoor side surface portion 101 of the panel 1) of the shutter curtain is Abutting against the first surface 900 of the pillar 9, the middle pillar 9 cooperates with the panel 1 in the water-stopped state, and well counters the water pressure that will act on the panel 1 in the water-stopped state.

In the present embodiment, in the non-horizontal compression state of the panel 1 in the fully closed state, the first surface 900 of the middle pillar 9 and the indoor side surface portion 101 of the panel 1 are separated by a gap G1. Furthermore, even in the horizontal compression state of the panel 1 in the fully closed state and the vertical compression state, the first surface 900 of the middle column 9 and the indoor side surface portion 101 of the panel 1 are separated by a gap G2 (<G1). The gap G1 is shown in FIG. 25, but the gap G2 is not shown. In this embodiment, the moving distance of the panel 1 to the indoor side by horizontal compression is on the order of several millimeters.

Even when the panel 1 is in the horizontal compression state (fully closed state / vertical compression state), the gap G2 is provided between the indoor side surface portion 101 of the panel 1 and the first surface 900 of the middle column 9 in the installation posture. By forming the panel 1, it is possible to prevent the panel 1 from being wrinkled due to contact between the indoor side surface portion 101 of the panel 1 and the first surface 900 of the middle column 9 in a state where water pressure does not act on the panel 1. In the horizontal compression state of the panel 1 (fully closed state / vertical compression state), a gap is formed between the indoor side surface portion 101 of the panel 1 and the first surface 900 of the middle pillar 9, so that the horizontal compression is completed. However, it is possible to move the middle column 9 in the installation posture to the storage posture without releasing the horizontal compression. Even in the horizontal compression state, when the water pressure does not act on the outdoor side surface portion 100 of the panel 1, the middle column 9 is not pushed by the panel 1 and unnecessary force does not act on the middle column 9, and the horizontal compression state. When water pressure is applied to the outdoor side surface portion 100 of the panel 1 in the fully closed state (vertical compression state), the indoor side surface portion 101 of the panel 1 deformed to the indoor side comes into contact with the middle pillar 9, thereby stopping the water. The panel 1 and the middle pillar 9 in FIG.

Similarly, when the panel 1 is in a non-horizontal compression state, the gap G1 is formed between the indoor side surface portion 101 of the panel 1 and the first surface 900 of the middle pillar 9 in the installation posture. This prevents the indoor side surface portion 101 from contacting the first surface 900 of the middle pillar 9 and allows the shutter curtain to be opened and closed with the middle pillar 9 installed.

A receiving member unit 99 is embedded in the floor corresponding to the installation position of the middle pillar 9. The receiving member unit 99 has a receiving box 990 provided with locking receiving holes 930 and 940 formed at intervals in an indoor / outdoor direction (a direction orthogonal to the opening width direction). In plan view, the locking receiving hole 930 is located on the side close to the indoor side surface portion 101 of the panel 1 in the fully closed posture, and the locking receiving hole 940 is located on the side far from the indoor side surface portion 101 of the panel 1 in the fully closed posture. ing. The receiving member unit 99 includes a lid body 991 that closes the upper surface of the receiving box 990 and conceals the locking receiving holes 930 and 940. When the lid body 991 is in the closed position, the upper surface of the lid body 991 and the floor surface Are on the same plane.

A first locking piece 992 is formed on the distal end side (one side in the opening width direction) of the lid 991, and a second locking piece 993 is formed on the base end side (the other side in the opening width direction). In the closed posture of the lid 991, the first locking piece 992 is connected to the first locked portion 995 of the receiving box 990 and the second locking piece 993 is connected to the second locked portion 996 of the receiving box 990, respectively. Locked. The first locking piece 992 can be rotated by a key operation from a key hole 997 formed in the lid 991, and the first locking piece 992 is rotated to engage with the first locked portion 995. By releasing the stopped state and lifting the tip end side of the lid 991 obliquely upward, the locked state between the second locking piece 993 and the second locked portion 996 is also released, and the lid 991 can be removed. it can.

In the receiving box 990, a groove portion 994 is formed on the base end side of the lid 991. The groove portion 994 is formed on the opposite side to the storage position side of the middle column 9 with respect to the locking receiving holes 930 and 940, and extends in the indoor / outdoor direction (direction orthogonal to the opening width direction). When the removed lid 991 is in a vertical posture, the upper surface of the lid 991 is closer to the latch receiving holes 930 and 940, and the lower surface of the lid 991 on which the first locking piece 992 is formed is the latch receiving hole 930. , 940 is positioned on the side far from 940 and inserted into the groove 994, and this vertical posture is maintained. In the middle column 9 at the installation position, the lower end portion of the third surface 902 which is the vertical surface of the middle column 9 is brought into contact with the upper surface which is the vertical surface of the lid body 991 in the vertical posture, so , 940, the lower locking rods 93, 94 are positioned directly above.

In this way, by disposing the middle column 9 on the indoor side of the shutter curtain in the fully closed state (vertical compression state and horizontal compression state), the water pressure that can act on the shutter curtain in the water stop state is countered. I am doing so. When the shutter curtain is deformed in a bulging shape indoors due to the water pressure from the outdoor side, the indoor side surface portion (the indoor side surface portion 101 of the panel 1) of the shutter curtain is abutted and supported by the first surface 900 of the middle column 9. The panel 1 and the middle pillar 9 in the water stop state prevent excessive deformation of the shutter curtain in the water stop state, and thus the water stop state is maintained. The middle column 9 is a long member having a rectangular shape in cross section, and in this embodiment, the long axis direction of the middle column 9 in the installation posture is the indoor / outdoor direction, and the water pressure acting from the outdoor side to the indoor side Can be fully competed.

[C-3] Moving means for reinforcing middle pillar (hanger roller and hanger rail)
As shown in FIG. 23, a suspension shaft 910 that protrudes upward from the upper end surface 97 of the middle column 9 is provided with a base 910 ′, and four hanger rollers 91 are rotatably supported with respect to the base 910 ′. Has been. More specifically, a pair of hanger rollers 91 facing in the indoor / outdoor direction (direction orthogonal to the opening width direction) are arranged in two sets in the opening width direction with the suspension shaft 910 interposed therebetween, whereby the four hanger rollers 91 are arranged. The roller assembly is configured by the base 910 ′ and the four hanger rollers 91. The middle column 9 is rotatable around the suspension shaft 910, and is oriented 180 degrees different between the installation posture (FIG. 25) and the storage posture (FIG. 26).

As shown in FIGS. 27 and 28, the hanger rail 90 is held by a plurality of support brackets 18 arranged at intervals in the length direction, and the support brackets 18 are fixed to the rail base 19. The rail base 19 is fixed to a support member 192 located above the hanger rail 90 and extending in the opening width direction. The hanger rail 90, the support bracket 18, the rail base 19, and the support member 192 constitute a rail assembly.

The hanger rail 90 is a long member extending in the opening width direction. As shown in FIG. 27, the horizontal upper side 9000 and the width direction of the upper side 9000 (indoor / outdoor direction or a direction orthogonal to the length direction). Vertical first side 9001 and second side 9002 extending downward from each end, first rail side 9003 formed at the lower end of first side 9001, and second formed at the lower end of second side 9002. Rail side 9004. A gap extending in the opening width direction (length direction of the hanger rail 90) is formed between the first rail side 9003 and the second rail side 9004, and the suspension shaft 910 of the middle column 9 passes through the gap. To move. One (the right side in FIG. 27) of the pair of hanger rollers 91 facing the indoor / outdoor direction on the first rail side 9003, and the other (the left side in FIG. 27) hanger roller 91 on the second rail side 9004. Is going to run. Although omitted in FIG. 27, the lower surfaces of the first rail side 9003 and the second rail side 9004 of the hanger rail 90 are substantially the same height as the ceiling surface CL (see FIG. 4) (in this embodiment, the ceiling It is located slightly below the surface CL).

In the illustrated embodiment, the support bracket 18 is a short piece. The support bracket 18 has a horizontal upper side 180, vertical first sides 181, second sides 182 that extend downward from the width direction (inside / outside direction) ends of the upper side 180, and lower ends of the first sides 181. A horizontal first support side 183 formed and a horizontal second support side 184 formed at the lower end of the second side 182 are provided. The cross-sectional dimension of the internal space of the support bracket 18 is larger than the cross-sectional dimension of the outer shape of the hanger rail 90 and supports the hanger rail 90 so as to hold it. In the holding state, the inner surface of the first side 181 of the support bracket 18 is close to or in contact with the outer surface of the first side 9001 of the hanger rail 90, and the inner surface of the second side 182 of the support bracket 18 is the first side of the hanger rail 90. The first support side 183 of the support bracket 18 abuts on and supports the first rail side 9003 of the hanger rail 90 from below and is supported by the second support side 184 of the support bracket 18. Is in contact with and supported by the second rail side 9004 of the hanger rail 90 from below.

The rail base 19 has an L shape in sectional view from the horizontal portion 190 and the vertical portion 191, and is a short piece having substantially the same width as the support bracket 18. The rail base 19 has a horizontal portion 190 fixed to a support member 192 (welding, screwing, etc.), and a vertical portion 191 having a first side 181 of the support bracket 18 fixed (welding, screwing, etc.). Yes. A receiving member 193 formed with a locking receiving hole 920 is fixed (welded, screwed, etc.) to a predetermined portion in the length direction of the support member 192 (a portion corresponding to the installation position of the middle column 9).

The hanger rail 90 extends over the entire width of the opening width, but a part of the length direction is removable as an intermediate hanger rail 90 'so that the middle pillar 9 can be attached and removed during maintenance. (In FIG. 28, the intermediate hanger rail 90 'is omitted). As shown in FIG. 29, by providing an intermediate hanger rail 90 ', the hanger rail 90 can be used as an intermediate hanger rail 90' between the first part 90A, the second part 90B, and the first part and the second part. And is divided into The intermediate hanger rail 90 ′ only needs to have at least a length dimension such that the space when the intermediate hanger rail 90 ′ is removed is such that the middle pillar 9 can be removed, and may be relatively short. .

The intermediate hanger rail 90 'has the same cross-sectional shape and dimensions as the first portion 90A and the second portion 90B of the hanger rail 90 (the main hanger rail on which the middle column 9 travels), and the horizontal upper side 9000. And the vertical first side 9001 and second side 9002 extending downward from the end of the upper side 9000 in the width direction (inside and outside direction or in the direction orthogonal to the length direction), respectively, and the lower end of the first side 9001 The first rail side 9003 is formed, and the second rail side 9004 is formed at the lower end of the second side 9002.

The intermediate hanger rail 90 'causes the lengthwise edges thereof to be close to (a slight gap between) or contact the lengthwise edges of the first portion 90A and the second portion 90B, respectively. In this state, the joint 194 and the screw 195 are connected to the first portion 90A and the second portion 90B. The screw 195 can be tightened or loosened by inserting a screwdriver from the gap below the hanger rail (the gap between the first rail side 9003 and the second rail side 9004) through which the suspension shaft 910 of the middle column 9 passes. The screw 195 can be tightened or loosened using the gap. The joint 194 has a substantially U-shaped cross-sectional view from an upper side 1940 and drooping sides 1941, 1942. The upper side 1940 has a hanger rail 90 (first portion 90A, second portion 90B, intermediate hanger rail 90 '). The width dimension is slightly larger than the upper side 9000. One half of the length of the joint 194 is fixed to the end of the first portion 90A and the end of the second portion 90B with screws. The other half of the length of the joint 194 extends from the end of the first portion 90A and the end of the second portion 90B in a take-out shape. In one embodiment, the half of the upper side 1940 of the upper side 1940 of the joint 194 is brought into contact with the lengthwise end of the upper side 9000 of the first portion 90A and the lengthwise end of the upper side 9000 of the second portion 90B. However, the fixing means is not limited and welding may be used.

When the longitudinal edge of the intermediate hanger rail 90 'is brought into contact with the longitudinal edge of the first portion 90A and the longitudinal edge of the second portion 90B, respectively, the upper side of the intermediate hanger rail 90' Both end portions in the longitudinal direction of 9000 are in contact with the other half in the longitudinal direction of the upper side 1940 of the joint 194 from below, and in this contact state, the intermediate hanger rail 90 ′ is in contact with the screw 195 from below. The upper side 9000 and the upper side 1940 of the joint 194 are connected. At this time, since there is a gap between the first rail side 9003 and the second rail side 9004 of the intermediate hanger rail 90 ', the screw 195 can be inserted from this gap. Therefore, in a state where the waterproof door is installed in the opening, the intermediate hanger rail 90 'can be removed, and by removing the intermediate hanger rail 90', the middle pillar 9 can be removed for maintenance, replacement, etc. it can. Further, since the screw 195 is concealed in the intermediate hanger rail 90 ', it is not exposed to the outside and the appearance is good. The support bracket 18 is not provided on the intermediate hanger rail 90 'and does not hinder the attachment / detachment of the intermediate hanger rail 90'. Further, as will be described later, since the intermediate hanger rail 90 'is provided outside the movement range of the middle column 9, high strength is not necessarily required for the connection between the intermediate hanger rail 90' and the first portion 90A and the second portion 90B. .

In FIG. 29, a joint 194 that connects the intermediate hanger rail 90 ′ and the first portion 90 </ b> A and the second portion 90 </ b> B of the hanger rail 90 is provided outside the hanger rail 90 (upper surface of the upper side 9000). You may provide inside the hanger rail 90 (the lower surface of the upper side 9000). In the mode shown in FIG. 29A, one half 194A of the joint 194 is fixed (screwed or welded or the like) to the lower surface of the lengthwise end of the upper side 9000 of the intermediate hanger rail 90 ′. The other half 194B of the joint 194 protrudes from the longitudinal edge of the intermediate hanger rail 90 ', and the other half 194B of the joint 194 is connected to the upper side 9000 of the first part 90A and the second part 90B of the hanger rail 90. The screw 195 is fixed in contact with or close to the lower surface of the screw. The width dimension d1 of the joint 194 (at least the other half) is smaller than the width dimension d2 of the gap between the first rail side 9003 and the second rail side 9004 below the hanger rail 90, and the screw 195 is loosened. By releasing the connection state between the other half 194B of the joint 194 and the first portion 90A and the second portion 90B of the hanger rail 90, the intermediate hanger rail 90 'is connected to the first portion 90A and the second portion of the hanger rail 90. It can be removed from 90B. Further, by providing the joint 194 on the inner side of the hanger rail 90 (the lower surface of the upper side 9000), the joint 194 can function as a stopper. Specifically, by forming the other half 194 </ b> B of the joint 194 to a size and shape such that the roller assembly of the middle pillar 9 abuts (for example, increasing the plate thickness of the plate-like joint 194, Alternatively, the other half 194B of the joint 194 is formed in an L shape when viewed from the front, and a contact portion is integrally formed on the lower surface of the other half 194B.) When removing 9, the roller assembly of the middle post 9 contacts the other half 194 </ b> B of the joint 194 even if the middle post 9 is inadvertently moved to the middle hanger rail 90 ′ before removing the middle hanger rail 90 ′. Therefore, the movement of the middle pillar 9 can be regulated. In this way, by causing the joint 194 to function as a stopper, the intermediate hanger rail 90 '(particularly the connecting portion) may be damaged or fallen off due to damage as the middle column 9 travels in the intermediate hanger rail 90'. Can be prevented.

[C-4] The positioning hanger rail 90 at the position where the reinforcing middle column is installed is provided with a positioning stop means, that is, a so-called stopper, which contacts the middle column 9 when the middle column 9 moves to a predetermined installation position. . The positioning stop means includes a middle column side contact portion 915 provided on the middle column 9 side and a rail side contact portion 916 on the hanger rail 90 side. FIG. 23 shows one middle pillar 9. A hanger rail assembly 915 is provided on the hanger rail assembly of the middle column 9, and a rail side abutting portion 916 is provided at a predetermined position of the hanger rail 90. When one middle pillar 9 moves from one side of the opening width end portion to a predetermined position in the opening width direction, the middle pillar side abutting portion 915 abuts on the rail side abutting portion 916 and the middle pillar 9 is installed. Positioned to stop. In FIG. 36, one middle pillar 9 is in contact with the rail-side contact portion 916 at the central portion in the opening width direction. In FIG. 37, the two middle pillars 9A and 9B are in contact with the rail-side contact portion 916 at two positions when the opening width is divided into three from the right and left sides of the opening end, respectively. ing.

However, when the plurality of (for example, two) middle pillars 9 are housed on the same side of the opening end and move in the same direction to the respective installation positions, the middle pillars of the first first middle pillar 9 Since the side abutting portion 915 abuts on the rail side abutting portion 916 at a predetermined installation position of the second second middle pillar 9 and cannot move any more, it is possible to install a plurality of middle pillars 9 at different positions. Can not. Hereinafter, the positioning when a plurality of middle pillars 9 are housed on the same side and moved in the same direction to be the respective installation positions will be described.

In the embodiment shown in FIG. 30, the waterproof door is provided with three middle pillars 9A, 9B, and 9C, and the three middle pillars 9A, 9B, and 9C are provided at three places when the opening width is divided into four. It moves between the installed installation position and the storage position of the end in the opening width direction (left side in the illustrated embodiment). Of the three middle pillars 9A, 9B, 9C, the middle pillar 9A is located on the right side, the middle pillar 9B is located in the center, and the middle pillar 9C is located on the left side. The middle column 9A moves beyond the installation positions of the middle column 9B and the middle column 9C, and the middle column 9B moves beyond the installation position of the middle column 9C. When each middle pillar 9A, 9B, 9C moves to the corresponding installation position, it is stopped at the installation position by the positioning stop means.

The positioning stop means includes a middle column side contact portion 911 provided on the middle column side and a rail side contact portion 912 provided on the hanger rail 90 side. The fixing means for the rail side contact portion 912 is exemplified by screwing, and the rail side contact portion 912 can be removed. When the rail side contact portion 912 is fixed to the lower surface of the upper side 9000 of the hanger rail 90 with a screw, a gap exists between the first rail side 9003 and the second rail side 9004 of the hanger rail 90. The screw can be loosened or tightened from this gap. As shown in FIG. 31, in order to identify a plurality of contact portions, the middle column side contact portions 911A, 911B, 911C and the rail side contact portions 912A, 912B, 912C are used.

On the lower surface of the upper side 9000 of the hanger rail 90, the rail side abutting portion 912A is arranged at the installation position of the middle column 9B so that the middle column side abutting portion 911A of the middle column 9A abuts at the installation position of the middle column 9A. The rail side contact portion 912B is in contact with the middle column side contact portion 911B of 9B, and the rail side contact portion is in contact with the middle column side contact portion 911C of the middle column 9C at the installation position of the middle column 9C. 912C is fixed respectively. The height of the rail-side contact portion 912 (the hanging size from the upper side 9000) is, in descending order, the rail-side contact portion 912A, the rail-side contact portion 912B, and the rail-side contact portion 912C.

The middle column side contact portion 911 is provided in a rising shape on the upper side of the hanger roller assembly, and the middle column side contact portion 911 has a height dimension (rise size) in the descending order of the middle column side contact portion 911C, A middle column side contact portion 911B and a middle column side contact portion 911A are provided. That is, the middle column side contact portion 911C, the middle column side contact portion 911B, and the low profile middle column side contact portion 911A are provided.

As for the rising dimension of each middle column side abutting portion 911A, 911B, 911C and the hanging dimension of each rail side abutting portion 912A, 912B, 912C, the middle column side abutting portion 911A and the rail side abutting portion 912A abut, The middle column side contact portion 911B and the rail side contact portion 912B are in contact with each other, the middle column side contact portion 911C and the rail side contact portion 912C are in contact with each other, and the middle column side contact portion 911A. Are not dimensioned to contact the rail side contact portions 912C and 912B, and the middle column side contact portion 911B does not contact the rail side contact portion 912C. As described above, in the mode shown in FIGS. 30 and 31, the space between the hanger roller assembly and the lower surface of the upper side 9000 of the hanger rail 90 is used.

When the middle column 9A 'in the storage position moves to the installation position, the middle column side contact portion 911A of the middle column 9A does not contact the rail side contact portions 912C and 912B, and the middle column 9A The column 9B moves beyond the installation position of the middle column 9C, and the middle column side contact portion 911A contacts the rail side contact portion 912A to be positioned and stopped. When the middle column 9B ′ in the storage position moves to the installation position, the middle column side abutting portion 911B of the middle column 9B does not abut on the rail side abutting portion 912C, and the middle column 9B does not contact the middle column 9C. The center column side contact portion 911B contacts the rail side contact portion 912B and is positioned and stopped. When the middle column 9C ′ in the storage position moves to the installation position, the middle column side contact portion 911C is positioned and stopped by contacting the rail side contact portion 912C.

In the aspect shown in FIG. 32, the positioning stop means includes a middle column side contact portion 913 provided on the middle column side and a rail side contact portion 914 provided on the hanger rail 90 side. As shown in FIG. 34, the middle column side contact portion 913 is formed of a square block provided on the upper end surface 97 of the middle column 9. The rectangular block is fixed to the upper end surface 97 so that the suspension shaft 910 is inserted in the center. As shown in FIG. 35, the rail-side contact portion 914 is fixed to the lower surface of the support bracket 18, that is, the first support side 183 and the second support side 184. Examples of the fixing means include welding and screwing, but welding is desirable in view of strength, and screwing is desirable in consideration of removal. As shown in FIG. 33, in order to identify a plurality of abutting portions, middle column side abutting portions 913A, 913B, 913C and rail side abutting portions 914A, 914B, 914C are used.

The first support side 183 and the second support side 184 of the support bracket 18 attached so as to hold a predetermined part of the hanger rail 90 from the outside are located on the middle column side of the middle column 9A at the installation position of the middle column 9A. The rail-side contact portion 914A is in contact with the rail-side contact portion 914A so that the contact portion 913A is in contact with the rail-side contact portion 914B. The rail side contact portions 914C are respectively fixed so that the middle column side contact portion 913C of the middle column 9C contacts with the installation position of 9C. The height of the rail-side contact portion 914 (the hanging size from the bracket 18) is, in descending order, the rail-side contact portion 914A, the rail-side contact portion 914B, and the rail-side contact portion 914C.

The middle column side abutting portion 913 is provided on the upper end surface 97 of the middle column 9 in a rising shape, and the middle column side abutting portion 913 has a height dimension (rising size) in the descending order. 913C, the middle column side contact portion 913B, and the middle column side contact portion 913A. That is, the middle column side contact portion 913C, the middle column side contact portion 913B, and the middle column side contact portion 913A of low height are provided.

As for the rising dimension of each middle column side contact part 913A, 913B, 913C and the hanging dimension of each rail side contact part 914A, 914B, 914C, the middle column side contact part 913A and the rail side contact part 914A are in contact, The middle column side contact portion 913B and the rail side contact portion 914B are in contact with each other, the middle column side contact portion 913C and the rail side contact portion 914C are in contact with each other, and the middle column side contact portion 913A. Are not dimensioned to contact the rail side contact portions 914C and 914B, and the middle column side contact portion 913B does not contact the rail side contact portions 914C. As described above, in the mode shown in FIGS. 32 and 33, the space between the lower surface of the hanger rail 90 (specifically, the lower surface of the support bracket 18) and the upper end surface 97 of the middle column 9 is used.

When the middle column 9A ′ in the storage position moves to the installation position, the middle column side contact portion 913A of the middle column 9 does not contact the rail side contact portions 914C and 914B, and the middle column 9A is the middle column. 9B, moving beyond the installation position of the middle column 9C, the middle column side contact portion 913A contacts the rail side contact portion 914A and is positioned and stopped. When the middle column 9B ′ in the storage position moves to the installation position, the middle column side contact portion 913B of the middle column 9B does not contact the rail side contact portion 914C, and the middle column 9B is not in contact with the middle column 9C. The center column side contact portion 913B comes into contact with the rail side contact portion 914B to be positioned and stopped. When the middle column 9C ′ in the storage position moves to the installation position, the middle column side contact portion 913C is positioned and stopped by contacting the rail side contact portion 914C.

As described above, when each middle column 9 moves to a predetermined position, the middle column side contact portions 911 and 913 come into contact with the rail side contact portions 912 and 914 to be positioned and stopped. That is, positioning is performed by a set of the middle column side contact portion 911 and the rail side contact portion 912 that abut each other at a predetermined installation position of the middle column 9 and a set of the middle column side contact portion 913 and the rail side contact portion 914. Stop means are configured. In the above-described aspect, in order to stop the positioning of each of the middle pillars 9A, 9B, 9C at a predetermined position, three sets of positioning stop means of the same kind (the middle pillar side abutting portion 911 and the rail side abutting portion 912, The column-side contact portion 913 and the rail-side contact portion 914) are used, but positioning stop means comprising different sets for each middle column may be used. For example, in the mode shown in FIGS. 40 to 42, the positioning stop means for the middle column 9A includes a middle column side contact portion 911 and a rail side contact portion 912, and the positioning stop means for the middle columns 9B and 9C are It consists of a column side contact portion 915 and a rail side contact portion 916.

The rail side contact portion 916 is detachable from the hanger rail 90. The rail-side abutting portion 916 includes a main body 9160 having a U-shaped cross-sectional view from a hanging piece opposed to the upper piece, a mounting plate 9161, a screw 9162, and a nut 9163. The lower end of the hanging piece of the main body 9160 is The first rail side 9003 and the second rail side 9004 of the hanger rail 90 are brought into contact with the upper surfaces of the hanger rail 90, and the mounting plate is brought into contact with the lower surfaces of the first rail side 9003 and the second rail side 9004 of the hanger rail 90 from below. The nut 9163 on the screw 9162 connected between the upper piece of the main body 9160 and the mounting plate 9161 with the first rail side 9003 and the second rail side 9004 of the hanger rail 90 sandwiched from above and below by the 9160 and the mounting plate 9161. Is fixed to the hanger rail 90 by tightening from below. By loosening the nut 9163, the rail-side contact portion 916 can be moved in the length direction of the hanger rail 90 (see FIG. 42).

[C-5] Position of Intermediate Hanger Rail As described above, a removable intermediate hanger rail is provided on a part of the hanger rail 90 for maintenance, replacement, etc. of the middle pillar 9. In the present embodiment, the position where the intermediate hanger rail 90 ′ is provided is determined based on the movement range of the middle column 9 on the hanger rail 90 (determined by the storage position and installation position of the middle column 9). In the present embodiment, the middle pillar 9 does not move on the intermediate hanger rail 90 '. Since the load of the middle post 9 does not act on the intermediate hanger rail 90 ', there is no need to make the connecting portion of the intermediate hanger rail 90' strong (to the extent that the weight of the middle post 9 can be supported). Can simplify the structure of the connecting portion, and facilitate the attaching / detaching operation of the intermediate hanger rail 90 '. The rail side abutting portions 912 and 916 of the positioning stop means for positioning and stopping the middle column 9 during installation can be attached to and detached from the hanger rail 90, so that the rail side abutting portion can be used at the time of replacement or maintenance of the middle column 9. By moving 912, 916 in the length direction of the hanger rail 90, the middle pillar 9 can be moved beyond a predetermined installation position to a position where the intermediate hanger rail 90 'is provided.

In the embodiment shown in FIG. 36, the waterproof door includes one middle column 9, and the one middle column 9 includes an installation position of the central portion of the opening width and an end portion in the opening width direction (in the illustrated embodiment, It moves between the storage position on the right side). That is, the moving range of the middle column 9 is the right half of the opening in the width direction, and an intermediate hanger rail 90 'is provided above the left half of the opening in the width direction.

In the embodiment shown in FIG. 37, the waterproof door includes two middle pillars 9A and 9B, and the two middle pillars 9A and 9B are installed at two positions when the opening width is divided into three. And the storage position at the end in the opening width direction on the side closer to the installation position. That is, the movement ranges of the middle pillars 9A and 9B are the left side part and the right side part in the left side part, the central part, and the right side part obtained by dividing the width direction of the opening part into three, respectively, and above the central part of the opening part Located is an intermediate hanger rail 90 '.

In the aspect shown in FIG. 38, the waterproof door includes two middle pillars 9A and 9B, and the two middle pillars 9A and 9B are installed at two positions when the opening width is divided into three. And the storage position of the end portion in the opening width direction (right side in the illustrated embodiment). That is, the moving ranges of the middle pillars 9A and 9B are the right part, the central part, and the right part in the left part, the central part, and the right part obtained by dividing the width direction of the opening into three parts, respectively. An intermediate hanger rail 90 'is provided above the upper side.

In the embodiment shown in FIG. 39, the waterproof door is provided with three middle pillars 9A, 9B, and 9C, and the three middle pillars 9A, 9B, and 9C are provided at each of three places when the opening width is divided into four. It moves between the installed installation position and the storage position of the end in the opening width direction (right side in the illustrated embodiment). That is, the movement ranges of the middle pillars 9A, 9B, and 9C are the leftmost part, the middle left part, the middle right part, and the rightmost part obtained by dividing the width direction of the opening into four parts, respectively. An intermediate hanger rail 90 ′ is provided above the leftmost part of the opening, which is the part, the rightmost part, the middle left part, the middle right part, and the rightmost part.

In the embodiment shown in FIG. 40, the waterproof door is provided with three middle pillars 9A, 9B, and 9C, and the three middle pillars 9A, 9B, and 9C are provided at each of three places when the opening width is divided into four. Located in place. The storage position of the middle column 9B located in the center and the middle column 9A on one side (right side in the illustrated mode) is one side (right side in the illustrated mode) in the opening width direction. The storage position of the middle column 9C on the other side (left side in the illustrated mode) is on the other side (left side in the illustrated mode) in the opening width direction. In the leftmost part, the middle left part, the middle right part, and the rightmost part obtained by dividing the width direction of the opening into four parts, the movement range of the middle column 9A is the rightmost part, and the movement range of the middle column 9B is The middle right part, the rightmost part, and the movement range of the middle column 9C is the leftmost part. That is, the movement range of the three middle pillars 9A, 9B, 9C is the leftmost part, the middle right part, An intermediate hanger rail 90 'is provided on the right side and above the intermediate left side of the opening.

[C-6] Positioning Middle Column 9 of Reinforced Middle Pillar Storage Position is positioned and stored on the indoor side of the guide body 2 at the widthwise end of the opening. On the floor surface FL, a receiving member unit 27 is embedded corresponding to the storage position of the middle pillar 9, and a receiving member 28 is provided above (see FIG. 26). The receiving member unit 27 includes locking receiving holes 271 and 272 formed at intervals in an indoor / outdoor direction (a direction orthogonal to the opening width direction), and moves the middle column 9 to the storage position, By the turning operation of the handle 95, the lower locking rods 94 and 93 protrude downward from the lower end surface 98 of the middle column 9 and are locked in the locking receiving holes 271 and 272. At the same time, the upper locking rod 92 protrudes upward from the upper end surface 97 of the middle column 9 and is locked in the locking receiving hole 280 of the receiving member 28.

Positioning when the two middle pillars 9A and 9B are housed on the same side as in the modes shown in FIGS. 38 and 40 will be described. As shown in FIGS. 43 to 45, on the same side of the side of the building opening, it is located on the indoor side of the guide body 2, and the first storage position of the middle column 9A and the second of the middle column 9B. Are disposed in a continuous manner in the width direction of the opening. The middle column 9A is stored in the first storage position on the side far from the building opening, and the middle column 9B is stored in the second storage position on the side close to the building opening. On the floor surface FL, a first positioning contact portion (first contact portion 274) with which a lower portion of the middle column 9A abuts when the middle column 9A moves to the first storage position, and the middle column 9B are second. A second positioning contact portion (third contact portion 276) with which the lower part of the middle column 9B contacts when moved to the storage position is provided, and the second positioning contact portion (third contact portion 276) is provided. Is configured to take a first posture stored in the floor surface FL and a second posture protruding upward from the floor surface FL. When the middle column 9A in the installation position moves to the first storage position, the second positioning contact portion (third contact portion 276) is in the first posture, and the middle column 9A is in the first storage position. The second positioning contact portion (third contact portion 276) is changed from the first posture to the second posture, and when the middle column 9B at the installation position moves to the second storage position, The lower part of the middle column 9B comes into contact with the second positioning contact portion (third contact portion 276) in the second posture, and stops. The middle column 9A in the first storage position and the middle column 9B in the second storage position are separated from each other and are in a non-contact state.

Lower locking rods 93 and 94 are provided on the middle pillars 9A and 9B so as to be able to protrude downward from the lower end surface 98, and the lower surface of the middle pillar 9A in the first storage position is provided on the floor surface FL. Lock receiving holes 271A and 272A for locking the stop rods 93 and 94, and second lock receiving holes 271B and 272B for locking the lower locking rods 93 and 94 of the middle column 9B in the second storage position. Are provided. In the middle pillars 9A and 9B, an upper locking rod 92 is provided so as to be able to protrude upward from the upper end surface 97, and at the end in the length direction of the hanger rail 90, the middle pillar 9A in the first storage position is provided. A locking receiving hole 280A for locking the upper locking rod 92 and a locking receiving hole 280B for locking the upper locking rod 92 of the middle pillar 9B in the second storage position are provided.

In the present embodiment, the receiving member unit 27 used when the two middle pillars 9A and 9B are housed on the same side as in the modes shown in FIGS. 38 and 40 will be described. As shown in FIGS. 43, 44, and 46, a receiving member unit 27 is embedded in the floor surface FL in correspondence with the storage positions of the middle pillars 9A and 9B. As shown in FIG. 47, the receiving member unit 27 has a plate 270 having a rectangular shape in plan view that is substantially flush with the floor surface FL. The plate 270 includes a first side 2700, a second side 2701, and a third side. A side 2702 and a fourth side 2703 are provided. The first side 2700 and the third side 2702 extend in the indoor / outdoor direction (direction orthogonal to the opening width direction), and the second side 2701 and the fourth side 2703 extend in the opening width direction. The first side 2700 is located on the side far from the opening, and the third side 2702 is located on the side near the opening. The second side 2701 is located on the side close to the guide body 2, and the fourth side 2703 is located on the side far from the guide body 2.

The plate 270 has locking receiving holes 271A and 272A formed on the side closer to the first side 2700 and spaced in the indoor / outdoor direction (direction perpendicular to the opening width direction). Lock receiving holes 271 </ b> B and 272 </ b> B are formed on the side close to the side 2702 with a space in the indoor / outdoor direction (direction orthogonal to the opening width direction). The plate 270 is provided with a first receiving box 273A positioned below the locking receiving holes 271A and 272A, and is provided with a second receiving box 273B positioned below the locking receiving holes 271B and 272B. . The first receiving box 273A and the second receiving box 273B may be formed from a single receiving box.

The plate 270 is formed with a first contact portion 274 that rises vertically along the first side 2700 and a second contact portion 275 that rises vertically along the second side 2701. In the illustrated embodiment, the first contact portion 274 is a short side formed at a part of the length of the first side 2700, and the second contact portion 275 is formed over the entire length of the second side 2701. Long side. The second contact portion 275 is a member extending in the width direction of the building opening, and guides the second surface 901 of the middle pillars 9A and 9B when the middle pillars 9A and 9B are moved. , 9B approaches or abuts on the second surface 901 of 9B. With the third surface 902 of the middle post 9A in contact with the first contact portion 274, the storage position is determined by bringing the second surface 901 into contact with the second contact portion 275, and the lower locking The rods 94 and 93 and the locking receiving holes 271A and 272A are aligned. The first contact portion 274 and the second contact portion 275 are formed from one member having an L shape in plan view, but may be formed from separate members.

When the middle column 9A moves to the storage position, the lower end portion of the middle column 9A (the third surface 902) comes into contact with the first contact portion 274 to stop positioning. At the same time, the storage position of the center column 9A is determined by the lower end portion of the center column 9A (second surface 901) coming into contact with the second contact portion 275. At this time, the lower side in the storage posture of the center column 9A Lock receiving holes 271A and 272A are positioned directly below the lock rods 94 and 93, and lock receiving holes 280A are positioned directly above the upper lock rod 92 in the storage position. By the turning operation of the handle 95, the lower locking rods 94, 93 protrude downward from the lower end surface 98 of the middle column 9A to be locked in the locking receiving holes 271A, 272A, and the upper side from the upper end surface 97 of the middle column 9A. The locking rod 92 protrudes upward and is locked in the locking receiving hole 280A of the receiving member 28.

The plate 270 has a third abutting portion 276 on the first side 2700 side (side away from the third side 2702) with respect to the locking receiving holes 271B and 272B, with respect to the plate 270 (floor surface FL). Thus, it is provided to be movable between a posture protruding upward and a posture stored below the plate 270 (floor surface FL). In the illustrated embodiment, the third contact portion 276 is a so-called rotation stopper, and is rotatable between a protruding posture and a retracted posture. The third abutting portion 276 is a semicircular plate-like member, and is positioned below the plate 270 in the retracted posture and retracted into the second receiving box 273B. In the protruding posture, the third abutting portion 276 is raised. A vertical surface of the plate-like portion is a contact surface.

Except for the case where the middle column 9B is housed, the third contact portion 276 is in the retracted position, and the middle column 9A and the third contact portion 276 interfere when the middle column 9A moves from the installation position to the housed position. It does not interfere with the movement of the middle pillar 9A. When the third abutting portion 276 is in the projecting posture, when the middle column 9B moves to the storage position, the lower end portion of the middle column 9B abuts on the third abutting portion 276 in the projecting posture. At the same time, the storage position of the middle column 9B is determined by the lower end portion of the middle column 9B coming into contact with the second abutting portion 275. At this time, the lower locking rods 94 and 93 in the storage posture of the middle column 9B are determined. The latch receiving holes 271B and 272B are located immediately below the upper latch rod 92, and the latch receiving hole 280B is located immediately above the upper latch rod 92 in the storage position. By the turning operation of the handle 95, the lower locking rods 94, 93 project downward from the lower end surface 98 of the middle column 9B to be locked in the locking receiving holes 271B, 272B, and the upper side from the upper end surface 97 of the middle column 9B. The locking rod 92 protrudes upward and is locked in the locking receiving hole 280B of the receiving member 28.

In one aspect, the third contact portion 276 can be manually changed between the protruding posture and the retracted posture, but the posture may be automatically changed. For example, the third contact portion 276 may be automatically rotated from the retracted position to the protruding position by detecting that the middle column 9A has moved to the storage position. For example, the retracted posture is detected by detecting the contact between the lower end portion of the middle column 9A and the first abutting portion 274, or one or more of the upper locking rod 92 and the lower locking rods 94, 93 projecting. It is good also considering the 3rd contact part 276 in a protrusion attitude | position. Alternatively, the third contact portion 276 in the protruding posture may be changed to the retracted posture by detecting that the middle column 9B has moved from the storage position. For example, the release of the contact state between the lower end portion of the middle column 9B and the third contact portion 276 and the retraction of all of the upper locking rod 92 and the lower locking rods 94 and 93 from the protruding posture to the storage posture are detected. Thus, the third contact portion 276 in the protruding posture may be set in the retracted posture.

[D] Waterproof Door Operation Control Device The waterproof door according to the present embodiment includes a shutter curtain (comprising a plurality of panels 1) for closing a building opening and a shutter curtain including a plurality of panels 1. A first compression mechanism 7 that compresses the shutter curtain in the vertical direction, a second compression mechanism 8 that compresses the shutter curtain composed of the plurality of panels 1 in the horizontal direction, and that the shutter curtain is in a fully closed state. Fully closed state detection means for detecting (for example, a lower limit switch) and vertical compression state detection means for detecting that the shutter curtain is in the vertical compression state (first limit switch 73, second limit switch 74). ) And horizontal compression state detection means (first limit switch 83, second limit switch) for detecting that the shutter curtain is in the horizontal compression state. Is provided with a switch 84), the.

The compression operation of the first compression mechanism 7 operates on the condition that the fully closed state of the opening is detected by the fully closed state detection unit, and stops when the vertical compression state is detected by the vertical compression state detection unit. To do. The first compression mechanism 7 performs a compression operation based on a first input signal for causing the first compression mechanism 7 to perform a compression operation, and the first input signal is an opening portion fully closed state by the fully closed state detecting means. It is invalid at the time of non-detection or when the vertical compression state is detected by the vertical compression state detection means, and is effective at the time of detection of the fully closed state of the opening by the full-closed state detection means and when the vertical compression state is not detected by the vertical compression state detection means is there. That is, the motion control device compresses the first compression mechanism that invalidates the first input signal when the fully closed state detection unit does not detect the opening fully closed state or when the vertical compression state detection unit detects the vertical compression state. An operation invalidation means is provided.

The compression operation of the second compression mechanism 8 operates on the condition that the vertical compression state of the door body in the fully closed state is detected by the vertical compression state detection unit, and the horizontal compression state is detected by the horizontal compression state detection unit. Stop when is detected. The second compression mechanism 8 performs a compression operation based on a second input signal for causing the second compression mechanism 8 to perform a compression operation, and the second input signal is not detected by the vertical compression state detection unit. It is invalid when the horizontal compression state is detected by the horizontal compression state detection unit, or when the vertical compression state is detected by the vertical compression state detection unit and when the horizontal compression state is not detected by the horizontal compression state detection unit. That is, the motion control device invalidates the compression operation of the second compression mechanism that invalidates the second input signal when the vertical compression state is not detected by the vertical compression state detection unit or when the horizontal compression state is detected by the horizontal compression state detection unit. Means. In one aspect, as will be described later, the first input signal and the second input signal are generated based on one compression operation input from one switch (the compression button S4, the emergency close button S6). The one compression operation input functions as a first input signal from the detection of the fully closed state to the detection of the vertical compression state, and functions as the second input signal from the detection of the vertical compression state to the detection of the horizontal compression state. When the one compression operation input is performed in the vertical compression state, the one compression operation input functions as a second input signal.

The electric waterproof door according to the present embodiment is used as a so-called management panel shutter, and is also used for normal opening and closing of a building opening, and functions as a waterproof door in an emergency where heavy rain is expected. To do. As described below, the opening / closing control of the waterproof door is performed by an input from the operation switch.

As shown in FIG. 4, the prevention door according to the present embodiment includes a first outdoor switch box SB1, a second outdoor switch box SB2, and an indoor switch box SB3, that is, three operation switches. The first outdoor switch box SB1 and the indoor switch box SB3 are arranged at a height of 1500 mm from the floor so that they can be easily operated in a standing posture. The second outdoor switch box SB2 is disposed at a height exceeding 2000 mm (assumed maximum water level) from the floor surface.

The waterproof door is based on the premise that water collects in the outdoor part partitioned by the shutter curtain. When the assumed maximum water level is 2000 mm from the floor surface, the first outdoor switch box SB1 may be submerged or submerged when the water stops. In the present embodiment, the first outdoor switch box SB1 is the same as a normal switch box and is not specially waterproofed. In the present embodiment, since the first outdoor switch box SB1 and the outdoor photoelectric sensor 6 may be submerged or submerged, the power system of the first outdoor switch box SB1 and the indoor photoelectric sensor 6 is By separating from the power supply system of other elements (the second outdoor switch box SB2 and the indoor switch box SB3), the other electric systems are not affected. In a specific example, AC200V is supplied to the waterproof door as a main power source, and the motor of the switch operates using AC200V. The main power supply is converted to the first power supply system (DC24V) and the second power supply system (DC24V) through at least two regulators, and the first outdoor switch box SB1 and the indoor / outdoor photoelectric sensor 6 are operated by the first power supply system. The second outdoor switch box SB2 and the indoor switch box SB3 are operated by the second power supply system. Even if a malfunction occurs in the first power supply system due to submergence or the like, the second power supply system and the main power supply are not affected.

FIG. 48 shows the switch box. The switch box includes a box 14 having an opening on the front surface, a lid 15 that opens and closes the opening on the front of the box 14, and an operation panel 16 provided on the box 14. The operation switch is provided. In the present embodiment, the operation panel 16 is provided with an open button S1, a close button S2, a stop button S3, a compression button S4, a compression release button S5, and an emergency close button S6. The operation of the waterproof door is controlled based on inputs from these buttons. More specifically, according to an instruction by button input, the switch M (up and down operation of the panel 1), the first compression mechanism 7 (vertical compression operation of the panel 1 in the fully closed state, vertical compression release operation) via the control unit ), Operation control of the second compression mechanism 8 (horizontal compression operation and horizontal compression release operation of the panel 1 in the vertical compression state) is performed. Hereinafter, each button will be described.

[Open button S1 (open switch)]
When the shutter is in a pressure release state (vertical pressure release state and horizontal pressure release state) and not in the fully open position, pressing the release button raises the shutter curtain and stops in the fully open position. In this embodiment, when the release button S1 is pressed, the sprocket 4 is rotationally driven in the direction of lifting the chain by the opening / closing machine M, and the panel 1 is in a fully closed state (non-vertical compression state and non-horizontal compression state) or a half-open state. Rises. When the panel 1 is moved up to a predetermined upper limit position, an upper limit position signal is generated by the upper limit switch, and driving by the switch M is stopped. The operation control apparatus according to the present embodiment includes an opening operation invalidating unit, and when the shutter is in a compressed state (vertical compression state and / or horizontal compression state), even if the release button is pressed by the opening operation invalidating unit. The opening operation is not performed.

[Close button S2 (Close switch)]
When the shutter is not in the fully closed position, when the close button S2 is pressed, the shutter curtain descends and stops at the fully closed position. In this embodiment, when the closing button S2 is pressed, the sprocket 4 is rotationally driven in the direction in which the chain is extended by the opening / closing machine M, and the panel 1 in the fully open state or the half open state is lowered. When the panel 1 is lowered to a predetermined lower limit position, a lower limit position signal is generated by the lower limit switch, and driving by the switch M is stopped.

[Stop button S3 (Stop switch)]
When the stop button S3 is pressed during the operation of the shutter or during the compression operation and the compression release, the operated shutter curtain stops the operation at an arbitrary position. More specifically, when the stop button S3 is pushed while the panel 1 is raised, the raising is stopped, when the stop button S3 is pushed while the panel 1 is lowered, the descent is stopped, and the stop button S3 is pressed during the compression operation. When pressed, the compression operation stops, and when the stop button S3 is pressed during the pressure release, the pressure release operation stops.

[Pressing button S4 (pressing switch)]
When the shutter is in the fully closed position and is not in the compressed state (vertical compressed state and horizontal compressed state), pressing the compression button S4 starts a compression operation for obtaining a water stop structure. When the compression operation is completed, the compression button S4 is turned on. In the present embodiment, when the compression button S4 is pressed in the fully closed state (including the case where the stop button S3 is pressed during the compression operation), first, the first compression mechanism 7 is pressed to enter the fully closed posture. Each panel 1 is squeezed vertically downward. When the pressing operation of the first compression mechanism 7 is completed (a vertical compression state signal is generated when the second limit switch 74 of the first compression mechanism 7 is turned ON), the second compression mechanism 8 starts the pressing operation, and high All the panels 1 pressed in the vertical direction are integrally compressed toward the indoor side. When the pressing operation of the second compression mechanism 8 is completed (the second limit switch of the second compression mechanism 8 is turned ON and a horizontal compression state signal is generated), the compression button S4 is lit (for example, lit red).

[Pressure release button S5 (Pressure release switch)]
When the shutter is in the compressed state, or when the shutter is in the fully closed position and not in the compressed release state (when the compression release button is off), pressing the compression release button S5 starts the compression release operation. When the compression release operation is completed, the compression release button S5 is lit. In the present embodiment, when the compression release button S5 is pressed in the compression state (including the case where the stop button S3 is pressed during the compression release operation), the first compression mechanism 7 and the second compression mechanism 8 are released. The compressed state is released. As one procedure, when the compression release button S5 is pressed, first, the second compression mechanism 8 starts the release operation, and when the release operation of the second compression mechanism 8 is completed (when the first limit switch is turned ON, The compression state release signal is generated), and the first compression mechanism 7 starts the release operation. When the compression release operation of the first compression mechanism 7 is completed (a vertical compression state release signal is generated when the first limit switch 73 of the first compression mechanism 7 is turned on), the compression release button S5 is lit (for example, lit in green) )

[Emergency closing button S6]
When the shutter is not in the fully closed position, the shutter curtain can be lowered by the push-off operation by pressing the emergency close button S6. While descending, the input of the photoelectric sensor 6 and the emergency switch input are invalid. When descending to the fully closed position, the compression operation is automatically started, and after the compression operation is completed, the compression button S4 is lit. When the emergency close button S6 is pressed in the fully closed position, the same operation as the compression button S4 is performed. That is, the emergency closing button S6 has a function as a compression switch.

The operation switch (operation unit) is summarized as follows. The operation switch includes a first switch (pressure button, emergency closing button) for setting the door body in a water stop state, and a second switch (pressure release button) for releasing the water stop state. The plurality of buttons described above is one preferred embodiment of the operation switch. For example, the emergency closing button may be arbitrary. The first switch includes a switch for setting the door body in the fully closed state to a water stop state, and a switch for setting the door body in the fully open state or the half open state to a fully closed state and a water stop state. In the latter case, for example, when there is an input from the first switch, the door in the fully open state or the half open state is in a fully closed state (non-water stop state), and then automatically based on the detection of the fully closed state. It is conceivable that the water stops. That is, in the case of a waterproof door, the closing button and the compression button may be configured by a common button to serve as the first switch, and a series of closing / compression may be performed by an operation from the common button. In this embodiment, the fully closed state of the door body during normal use is a non-water-stopped state, but in a waterproof door, the fully closed state of the door body may be a water-stopped state. For example, when the close switch is pressed in the fully open state, the fully closed state (water stop state) is entered, and when the open switch is pressed in the fully closed state (water stop state), the fully open state (non-water stop state) is entered. In this case, the closing switch is the first switch and the opening switch is the second switch. The first switch and the second switch may be composed of one button. For example, it may function as a second switch when the button is pressed in a water-stopped state, and may function as a first switch when the button is pressed in a non-water-stopped state. Or you may make it identify a 1st switch and a 2nd switch by input operation (pressing time, frequency | count, these combinations, etc.).

In this embodiment, in addition to the operation input from the first outdoor switch box SB1, the second outdoor switch box SB2, and the indoor switch box SB3, remote operation input from the management room (confirm safety with a monitoring camera or the like) Operation is possible. A series of operation control of the shutter can be performed by a remote operation signal (DC24V voltage a contact), and a compression operation and a compression release operation can also be performed by remote operation.

In addition to the detection by the obstacle detection means, when the shutter detects an abnormality, the following operation control is performed.
When a guide rail abnormality is detected by a guide rail safety switch input, shutter operation (up / down / compression / compression release) is prohibited.
When chain looseness abnormality is detected by the chain looseness detection switch input, shutter operation (up / down / pressure / pressure release) is prohibited.
While the emergency switch is being input, the ascending operation is prohibited and the descending operation can be performed by a push-off operation. The pressing / releasing operation is possible if the condition (shutter fully closed position) is satisfied.
In the case of a thermal abnormality, both ascending and descending operations are prohibited. The pressing / releasing operation is possible if the condition (shutter fully closed position) is satisfied.
In the case of an overtime abnormality (ascending / descending), specifically, if the ascending / descending operation continues for a predetermined time (for example, 90 seconds or more), an overtime abnormality occurs and the ascending / descending operation is stopped. Ascent and descent operations are prohibited when the overtime is abnormal. The pressing / releasing operation is possible if the condition (shutter fully closed position) is satisfied.
In the case of an overtime abnormality (compression / compression release), specifically, if the compression operation / compression release operation continues for a predetermined time (for example, 20 seconds or more), an overtime abnormality occurs and the compression operation / compression release operation is stopped. Pressing and releasing operations when overtime is abnormal are prohibited. The overtime error can be canceled by pressing the stop button on the operation switch for 1 second or longer.
When the earth leakage detector is activated, abnormal output is performed, but each operation of ascending, descending, pressing, and releasing the compression is possible.

The relay contact output used for operation control of the waterproof door according to the present embodiment will be described. The transfer contact output is, for example, outputting an operation control signal for a waterproof door to a control device in a management room remote from the waterproof door. In the waterproof door, the following relay contact output (no-voltage c contact output) is performed according to the state of the shutter.
Upper limit position signal: Output when the shutter is fully open.
Lower limit position signal: Output when the shutter is fully closed.
Vertical compression release state signal: Output when vertical compression is released.
Vertical compression state signal: Output when the vertical compression is completed.
Horizontal compression release state signal: Output when horizontal compression is released.
Horizontal compression state signal: Output when horizontal compression is completed.
Abnormal signal: Output when the above shutter abnormality occurs.

A basic operation control flow of the waterproof door according to the present embodiment will be described with reference to FIG. When the closing button S2 of the operation unit (any one of the switch boxes SB1, SB2, SB3) is pressed in the fully opened state or half-opened state of the opening, the switch M is activated and the panel 1 starts to descend. The lower limit switch detects that the shutter curtain has been lowered to the fully closed position, a lower limit position signal is generated, the operation of the switch M is stopped, and the opening is fully closed.

When the compression button S4 is pressed, the first compression mechanism 7 is activated on the condition that a lower limit position signal is generated, and a vertical compression operation is started. The second limit switch 74 detects that the shutter curtain has been pressed down to the vertical compression state, generates a vertical compression state detection signal, and the operation of the first compression mechanism 7 stops. At the same time or shortly thereafter, the second compression mechanism 8 is activated based on the input of the vertical compression state detection signal to start the horizontal compression operation. The second limit switch 84 detects that the shutter curtain has been pressed indoors until the horizontal compression state, a horizontal compression state detection signal is generated, the operation of the second compression mechanism 8 is stopped, and the compression state is completed. When the shutter curtain is not fully closed (the lower limit position signal is not generated) or when the shutter curtain is in the vertical compression state (the vertical compression state detection signal is generated), the first compression mechanism The compression operation invalidating unit 7 invalidates the vertical compression operation by the compression operation input from the compression button S4. When the shutter curtain is not in the vertical compression state (the vertical compression state detection signal is not generated) or when the shutter curtain is in the horizontal compression state (the horizontal compression state detection signal is generated), the second By the compression operation invalidating means of the compression mechanism 8, the horizontal compression operation by the compression operation input from the compression button S4 is invalidated.

When the compression release button S5 is pressed, the second compression mechanism 8 is activated on the condition that the shutter curtain is in the compression state (the horizontal compression state detection signal is valid), and the release of the horizontal compression state is started. . The first limit switch 83 detects that the shutter curtain has been released from the horizontal compression state, a horizontal compression state release signal is generated, and the operation of the second compression mechanism 8 is stopped. At the same time or shortly thereafter, the first compression mechanism 7 is activated based on the input of the horizontal compression state release signal, and the release of the vertical compression state is started. The release of the vertical compression state of the shutter curtain is detected by the first limit switch 73, a vertical compression state release signal is generated, and the operation of the first compression mechanism 7 is stopped. When the shutter curtain is in the horizontal compression release state (the horizontal compression state release signal has been generated), the horizontal release by the compression release operation input from the compression release button S5 by the compression release operation invalid means of the second compression mechanism 8 is performed. The release operation of the compressed state becomes invalid. When the shutter curtain is in the non-horizontal compression release state (the horizontal compression state release signal has not been generated), or when the shutter curtain is not in the vertical compression state (the vertical compression state release signal has been generated), By the compression release operation invalid means of the first compression mechanism 7, the release operation of the vertical compression state by the input of the compression release operation from the compression release button S5 is invalidated.

When the emergency close button S6 is pressed in the fully open state or half open state of the opening, the compression operation is automatically started based on the input of the lower limit position signal (instead of pressing the compression button).

When the compression button S4 or the emergency closing button S6 is pressed, or when the waterproof door is in a compression state by remote operation, the operation from the buttons other than the compression release button S5 is invalid. That is, in principle, when the waterproof door is in the compressed state, only the compression release button S5 functions as an effective button that can be operated. Here, the waterproof door according to the present embodiment includes a disabling unit for the compression release button S5 of the first outdoor switch box SB1.

In the present embodiment, when the fully closed shutter curtain is completely compressed, the input from the compression release button S5 of the first outdoor switch box SB1 is invalidated. Specifically, when one of the compression buttons 4 of the first outdoor switch box SB1, the second outdoor switch box SB2, and the indoor switch box SB3 is pressed, the first compression mechanism 7 and the second compression mechanism 8 are When the compression operation is sequentially performed and the compression operation of the second compression mechanism 8 is completed, that is, when the second limit switch of the second compression mechanism 8 is turned on (when the horizontal compression state signal is output), The first outdoor switch box SB1 is in a disabled state or a locked state in which input from the compression release switch S5 cannot be performed. By doing in this way, the malfunction (incorrect input of the pressure release switch S5) when the 1st outdoor side switch box SB1 is submerged or flooded in the water stop state is prevented.

The flow from the input of the compression switch to the invalidation of the input of the compression release switch of the outdoor operation unit will be described with reference to FIG. First, in this embodiment, in order for a predetermined compression operation to be activated by an input of the compression switch, it is a condition that the door body is in a fully closed state and a non-compressed state. When this condition is satisfied, the first compression mechanism (vertical compression mechanism) is activated. Whether or not the door body is in the fully closed state can be determined by the presence or absence of the output of the lower limit position signal. Whether or not the door body is in the compressed state can be determined by the presence or absence of the output of the horizontal compressed state signal.

When the first compression mechanism is activated and the vertical compression state is completed, the second compression mechanism (horizontal compression mechanism) starts to operate. Whether or not the door body is in the vertical compression state is determined based on whether or not a vertical compression state signal is output. When the stop switch is input during the operation of the second compression mechanism and the compression switch is input after that, the vertical compression state has already been completed, so the second compression mechanism is operated again. .

When the door body is in the horizontal compression state, the operation of the second compression mechanism is finished. Whether or not the door body is in a horizontal compression state can be determined based on whether or not a horizontal compression state signal is output. When the door body is in a horizontal compression state, the door body is in a water stop state (compression completion state).

When the door body is in the compression completion state, the input from the compression release switch of the outdoor operation unit (first outdoor switch box SB1) is invalidated. Therefore, when the door body is in the compression completion state, the switch input becomes invalid even if the compression release switch input of the outdoor operation unit is performed. Here, several modes can be considered for disabling the compression release switch of the outdoor operation unit (first outdoor switch box SB1), or when disabling individual switches including at least the compression release switch, or The case where the whole outdoor operation part is invalidated is illustrated. Further, the invalidation of the switch can be exemplified when the predetermined signal itself is not generated by the switch operation or when the predetermined operation itself based on the generated predetermined signal is invalidated.

When the shutter curtain is in the vertical compression state and the horizontal compression state, that is, in the water stop state, the compression release button S5 of the second outdoor switch box SB2 and the indoor switch box SB3 is effective, and the second outdoor switch By pressing the compression release button S5 of either the box SB2 or the indoor switch box SB3, the compression state of the shutter curtain can be released.

The waterproof door according to the present embodiment includes an enabling means or a lock releasing means for the compression release button S5 of the disabled first outdoor switch box SB1. The unlocking operation of the first outdoor switch box SB1 will be described. As shown in FIG. 50, the invalidation state of the compression release switch is released by a preset switch combination operation. The release state of the pressure release switch is canceled for a certain period of time, and if there is an input from the pressure release switch within the fixed time, the input of the pressure release switch is valid and the input of the pressure release switch is within the fixed time. If there is no, the pressure release switch is disabled. In one embodiment, unlocking is performed by the following procedure.
(A) While pressing the stop button S3 of the first outdoor switch box SB1, the buttons other than the emergency close button S6 (open button S1, close button S2, pressure button S4, pressure release button S5) are simultaneously pressed for 5 seconds. .
The above operation is merely an example, and any other combination can be adopted.
(A) The emergency close button S6 and the compression button S4 blink alternately twice to notify the unlocking.
The means for informing the unlocking is not limited to this, and for example, a sound may be output for a predetermined time.
(C) The lock is released for 5 seconds after (a) starts alternately flashing. By pressing the compression release button S5 within 5 seconds, the compression release button S5 is effectively input, and the compression state is released. After the compressed state is released, the locked state is not entered unless the compression button S4 is pressed again. If the operation of the compression release button S5 is not performed within 5 seconds, the locked state is entered again.
In the above aspect, the compression release switch invalidation state of the first outdoor switch box SB1 is released only when a preset switch combination operation is performed on the first outdoor switch box SB1.
It should be noted that when an input operation is performed on a switch other than the first outdoor switch box SB1, that is, the compression release button S5 of either the second outdoor switch box SB2 or the indoor switch box SB3, the first outdoor switch The disabling state of the pressure release switch in the box SB1 may be released.

If the first outdoor switch box SB1 is not submerged or submerged after the waterproof door is in the compressed state, the lock release button S5 of the first outdoor switch box SB1 is locked by releasing the lock. By releasing the state and pressing the pressure release button S5, the pressure state of the waterproof door is released. Thereafter, the first outdoor switch box SB1 can be continuously used as effective. In addition, the reliability of the first outdoor switch box SB1 can be confirmed when the locked state is released. If the first outdoor switch box SB1 is submerged or the lock state cannot be released satisfactorily, it may be replaced with a new switch.

9 Middle pillar 9A Middle pillar 9B Middle pillar 90 Hanger rail 91 Hanger roller (roller assembly)
910 Suspension shaft 910 ′ base (roller assembly)
911 Middle column side contact portion 911A Middle column side contact portion 911B Middle column side contact portion 911C Middle column side contact portion 912 Rail side contact portion 912A Rail side contact portion 912B Rail side contact portion 912C Rail side contact Contact part 913 Middle column side contact part 913A Middle column side contact part 913B Middle column side contact part 913C Middle column side contact part 914 Rail side contact part 914A Rail side contact part 914B Rail side contact part 914C Rail Side contact portion 915 Middle column side contact portion 916 Rail side contact portion 97 Upper end surface

Claims (6)

At least two rollers that are suspended by a hanger rail extending in the width direction of the building opening by the roller assembly provided at the upper end and are movable between the storage position and the installation position by running on the hanger rail. The installation structure of the middle pillar of
A first storage position and a second storage position are arranged on the same side of the side of the building opening,
The first center pillar moves between a first storage position on the side far from the building opening and a first installation position,
The second center pillar moves between the second storage position on the side close to the building opening and the second installation position,
The second installation position is farther from the same side of the building opening than the first installation position,
The hanger rail includes a first rail-side abutting portion with which a first middle column-side abutting portion of the first middle column abuts when the first middle column moves to a first installation position; A second rail-side abutting portion against which the second middle column abuts when the second middle column-side abutting portion of the middle pillar moves to the second installation position;
The second middle pillar is movable to the second installation position without contacting the first rail side contact portion.
Installation structure of reinforced middle pillar in door device. A first set of the first middle column side contact portion and the first rail side contact portion, and a second set of the second middle column side contact portion and the second rail side contact portion. At least one of the sets is a first type set including a middle column side contact portion provided in the roller assembly and a rail side contact portion provided in the hanger rail.
The installation structure of the reinforcement middle pillar in the door apparatus of Claim 1. The first type set is:
A set of type 1a consisting of a middle column side contact portion provided at the first portion of the roller assembly and a rail side contact portion provided at the first portion inside the hanger rail,
1b type set consisting of a middle pillar side contact portion provided in the second part of the roller assembly and a rail side contact part provided in the second part inside the hanger rail,
Including
Either one of the first set and the second set is a set of the 1a type, and the other is a set of the 1b type,
The installation structure of the reinforcement middle pillar in the door apparatus of Claim 2. A first set of the first middle column side contact portion and the first rail side contact portion, and a second set of the second middle column side contact portion and the second rail side contact portion. At least one of the sets is a second type set consisting of a middle column side contact portion provided on the upper end surface of the middle column and a rail side contact portion provided outside the hanger rail.
The installation structure of the reinforcement middle pillar in the door apparatus of Claim 1. Either one of the first set and the second set is the first type set, and the other is the second type set.
The installation structure of the reinforcement middle pillar in the door apparatus of any one of Claim 2, 4.   The installation structure of the reinforcing middle pillar in the door device according to any one of claims 1 to 5, wherein the rail side contact portion provided on the hanger rail is detachable.