JP3726183B2 - Blind shutter device - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention belongs to the technical field of blind shutter devices installed in openings formed in houses and buildings.
[0002]
[Prior art]
In general, in this type of blind shutter device, a shutter curtain that opens and closes an opening is composed of a plurality of slats, and these slats are slidably connected using links so that each slat can be adjacent to each other. It changes into the lighting (ventilation) attitude | position in which the clearance gap which lets light pass between comrades is formed, and the obstruction | occlusion attitude | position which is a state without this clearance gap. By the way, in such a case, when it is desired to ensure indoor brightness while blocking sunlight, the shutter curtain is in a desired closed state, that is, a half-open state, and in this state, the slats are swung to a lighting posture Is required.
Therefore, conventionally, a working piece is pivotally connected to both sides of each slat, and the working piece is attached to a crossing portion of links linked in a pantograph shape so that each slat has a gap as the pantograph expands and contracts. It is configured to move up and down while maintaining the posture, and it is configured to be a closed posture that closes the gap between each slat with the ground contact of the lowermost slat so that the slat can be in the lighting posture even in the half-open state Things have been proposed.
[0003]
[Problems to be solved by the invention]
However, the conventional configuration requires a link for connecting the slats and moving the slats up and down, and an operating body for changing the slats from the daylighting posture to the closing posture. Is required to be incorporated in a pantograph shape, resulting in a problem that the number of parts increases and the structure becomes complicated. Moreover, since this is an open / close operation based on the expansion and contraction of the pantograph-like link, the shutter curtain cannot be retracted when the shutter curtain is opened, and the slats are stacked vertically above the opening. It is necessary to secure enough space in the vertical direction at the place of installation, and depending on the installation space, there is a problem that the opening becomes narrow or it can not be installed This also has a problem to be solved by the present invention.
[0004]
[Means for Solving the Problems]
The present invention has been made in order to solve these problems in view of the above-described circumstances, and includes a shutter curtain that opens and closes an opening portion, and includes both side portions of each slat. Are connected in a swingable manner via links so that the connecting positions of the adjacent slats in the opening / closing direction are displaced from each other, and the slats are connected to the adjacent slats in the process of opening / closing the shutter curtain. The lighting posture is such that a gap is formed at the top, and with the fully closed position, the slats are sequentially swung from the slat on the most advanced side to change into a closed posture that closes the gap.
And by doing in this way, it can be made various sunshine states of a slat, such as being able to make a slat a lighting posture in the state where the opening part was opened to the middle.
In this structure, the link for connecting the slats of the present invention can be connected at the upper end portion of each slat, and in this way, the slat can be swung from the lighting position to the closed position. It is possible to smoothly perform dynamic changes.
Furthermore, in this, between the slat of the present invention and the link connecting the slat to an adjacent slat, there is provided a locking means for locking the slat transformed into the closed position to the closed position. By doing so, it is possible to improve crime prevention and to prevent fluttering of the fully closed slats.
Further, in this, the locking means of the present invention is an engagement between the upper end side portion of the slat and the lower end side portion of the link for connecting the slat to the upper slat, and the engagement is performed by the lower slat. It can be made by the displacement accompanied by the further rocking | fluctuation of the said link rock | fluctuated by becoming a closed position, By doing in this way, a lock operation can be performed, performing an opening / closing operation | movement smoothly.
[0005]
DETAILED DESCRIPTION OF THE INVENTION
Next, a first embodiment of the present invention will be described based on the drawings shown in FIGS.
In the drawings, reference numeral 1 denotes a blind shutter device, and a shutter curtain 2 constituting the blind shutter device 1 connects both side portions of a plurality of slats 3 via first links 4 as will be described later. It consists of The upper end portion of the shutter curtain 2 is configured as a so-called winding type that is wound around a winding shaft 6 that is rotatably supported in a shutter case 5 disposed above the housing opening. An electric switch 7 is interlocked to the take-up shaft 6. On the other hand, guide rails 8 are erected on both sides of the housing opening, and the left and right sides of the shutter curtain 2 are movably fitted to the guide rails 8. The shutter curtain 2 is unwound from the take-up shaft 6 or taken up by the take-up shaft 6 on the basis of the forward / reverse drive of the opening / closing machine 7 turning the take-up shaft 6 forward or backward. Thus, the opening is opened and closed in a state where both side portions are moved and guided by the guide rail 8.
[0006]
The slat 3 includes a slat main body 9 that is long in the left-right direction, and a pair of left and right connecting members 10 that are assembled to the left and right side portions of the slat main body 9.
The slat body 9 is formed by integrally molding a resin material. An engagement piece 9a having a cross-sectional shape is formed on the back surface of the upper half (rear side and indoor side), and the lower half. Upper and lower rib pieces 9b and 9c projecting outward (indoor side) are respectively formed at the lower end of the back surface of the part. Incidentally, a sealing member such as mohair can be incorporated between the upper and lower rib pieces 9b, 9c as necessary. In addition, the lower half portion is formed with an inclined surface portion 9d so as to be displaced slightly forward with respect to the upper half portion, whereby the lower end of the slat body 9 of the upper slat 3 when the slat 3 is in a closed posture described later. The portions are set so as to overlap with each other positioned in front of the upper end of the slat body 9 of the lower slat 3.
[0007]
On the other hand, the connecting member 10 is integrally formed of a resin material, and the end piece portion 10a along the side end surface of the slat 3 and the upper end portion of the end piece portion 10a outward from the opening frontage direction (left and right direction). And a support piece 10b formed to project. Further, the outer end portion of the support piece portion 10b is provided with a projecting piece portion 10c that protrudes forward from the plate surface of the slat 3, so that the outer end portion of the connecting member 10 is linked with the first link 4 together. A second link piece 10d having a function to operate is integrally formed. On the outer end surface of the second link piece 10d, there are upper and lower pivoting portions 10e and 10f for pivoting the first link 4 for connecting to the slats 3 adjacent to each other in the vertical direction. Each is formed in a position shifted state. The upper and lower pivoting portions 10e and 10f are formed in a recessed hole shape by notching the front and rear portions of the outer end surface of the second link piece 10d in the closed posture of the slat 3. A protruding portion 10g protruding outward is formed between the upper and lower pivoting portions 10e and 10f, and the protruding amount of the protruding portion 10g is slightly larger than the plate thickness of the first link 4. It is set to be. Further, the vertical joints 10e and 10f are respectively formed with screw holes 10h and 10i facing inward. Here, the second link piece 10d and the first link are formed with respect to the hole shape of the concave holes (the notch shape and the hole edge shape formed by the protruding portion 10g) constituting the pivot portions 10e and 10f. 4 also serves as a rocking restricting member in the link operation with 4 and will be described in detail later.
[0008]
Further, the end piece 10 a of the connecting member 10 includes a first joint portion 11 that fits into an engagement piece 9 a formed in the upper half of the slat body 9, and an upper side formed in the lower half of the slat body 9. A second joint portion 12 that is supported by the support piece 9b and is arranged along the lower half slat surface portion so as to reinforce the slat surface portion is integrally protruded inwardly. The slat main body 9 and the pair of left and right connecting members 10 are assembled by fitting the first and second joint parts 11 and 12 to the left and right engaging piece parts 9a and the upper support piece 9b, respectively. At this time, in particular, the first joint portion 11 has a plurality of sawtooth ribs 11a formed on the surface portion facing the slat surface, and the first joint portion 11 is connected to the slat body. It is set so that the slat main body 9 and the connecting member 10 can be firmly assembled by forcibly fitting to the combined piece portion 9a. Incidentally, tapered portions 11b and 12a are formed at the tips (inner ends) of the first and second joint members 11 and 12, so that the slat main body 9 can be easily assembled into the connecting member 10. Reference numeral 13 denotes a closing body for closing the gap between the left and right edge portions of the slat main body 9 and the connecting member end piece 10a from the back surface side. The closing body 13 is also the first and second joint portions. Similarly to 11 and 12, the connecting member 10 is integrally projected.
[0009]
The slats 3 configured as described above are connected by a long plate-like first link 4, and upper and lower connecting holes 4 a and 4 b are opened at both longitudinal ends of the first link 4. In the reference slat 3, the first link 4 for connecting the slat 3 adjacent to the upper side of the reference slat 3 to the upper pivoting portion 10 e of the second link piece 10 d of the connecting member 10. The first link for connecting the slat 3 adjacent to the lower side of the reference slat 3 to the lower link portion 10f of the second link piece 10d. 4 upper connection hole 4a formation site is assigned. Then, a support plate 14 formed in the same shape as the second link piece 10d is applied from the outside of the assigned first link 4, and the screws 15 and 16 inserted from the outside of the support plate 14 are attached. The first link 4 and the second link piece 10d are slidably connected to each other by screwing the tip portion through the first link connecting holes 4a and 4b and screwing holes 10h and 10i. Thus, the first link 4 and the second link piece 10d are set to be swingably connected.
Reference numeral 17 denotes a seat plate connected at the lowermost end of the shutter curtain 2, and an obstacle detection piece 17a constituting an obstacle detection mechanism at the lower end of the seat plate 17 is movable in the vertical direction. It is set so that the obstacle detection accompanying the opening / closing operation | movement of the shutter curtain 2 is made. The seat plate 17 and the slat 3 positioned above the seat plate 17 are connected to the first link 4 pivoted to the lower pivot portion 10f of the coupling member second link piece 10d of the slat 3. The lower end portion of the seat plate 17 is pivoted to the upper end portion of the seat plate 17.
[0010]
The guide rail 8 includes a base frame 8a fixed to the housing, and indoor and outdoor (front and rear) guide pieces 8b and 8c arranged so as to be fixed to the base frame 8a. However, the guide groove 8d formed between the front and rear guide pieces 8b and 8c is configured to fit and guide the connecting member 10 portion constituting the slat 3. The front and rear guide pieces 8b, 8c have different lengths in the left-right direction, and a sealing portion 8f for fitting the base end portion of the sealing member 8e is integrally formed at the distal end portion thereof. Thereby, the groove width of the guide groove 8d is set by the facing width between the guide pieces 8b and 8c and the sealing portion 8f formed at the tip thereof, and the groove back side where the second connecting piece 10d is fitted. The groove width is set so that the second connecting piece 10d that changes the orientation (posture) so as to change the slat 3 to the closed posture as described later can be accommodated.
Further, the sealing portion 8f of the front guide piece 8b contacts the second link piece portion 10d of the slat 3 in the closed posture so that the shutter curtain 2 with the opening closed is pulled out from the guide groove 8d by wind pressure or the like. It is set so that it can also be used as a retaining function. On the other hand, when the shutter curtain 2 is opened / closed, the outer end surface of the end piece 10a of the connecting member 10 is in close proximity to the sealing portion 8f of the front guide piece 8b. Even if the shutter curtain 2 is displaced in the left-right direction during the opening / closing operation, it is set to be smaller than the distance between the outer end surface portion of the second link piece portion 10d and the groove bottom piece 8g of the guide rail 8. It is set so that the outer end surface portion of the slat 3 does not contact the guide rail groove bottom piece 8g when the piece portion 10a contacts the sealing portion 8f.
[0011]
The shutter curtain 2 has a link relationship in which the first link 4 and the second slat piece 10d are extended in the natural hanging (self-weight hanging) state in which the shutter curtain 2 is moved and guided by the guide rail 8. The second link piece 10d is forcibly oriented in the vertical direction in which the upper and lower pivoting portions 10e, 10f are adjacent to each other in the vertical direction, whereby each of the first and second adjacent slats 3 are connected to each other. The connection center with one link 4 is set to be positioned on a straight line. In this natural drooping state, the slat 3 follows the second link piece 10d facing up and down, the lower end of the slat body 9 projects forward, and a lighting posture is created with a gap between the adjacent slat bodies 9. It is set to become.
In the lighting posture of the slat 3, as shown in FIG. 8, the rear edge 10j of the lower link portion 10f hole edge formed on the second link piece 10d is the upper edge of the first link 4. 4c is formed so as to face and oppose the rear side edge portion, whereby the rear edge portion 10j serves as a stopper member that restricts the upper portion of the second link piece portion 10d from swinging further rearward. It is set to function. Incidentally, the first link 4 has a long link length, and is swing-controlled by the guide pieces 8b and 8c before and after the guide rail 8.
[0012]
On the other hand, when the natural suspension state of the first link 4 and the second link piece 10d is released and the support is pushed up from below, the links 4, 10d are contracted, that is, bent at the connecting portion. At this time, as described above, the swing of the first link 4 is restricted and the upper part of the second link piece 10d is restricted to swing backward. Therefore, the upper part of the second link piece 10d swings forward with respect to the lower pivoting part 10f. As a result, in each slat 3, each second link piece 10 d and the slat body 9 integrally swing, and the lower end of the slat body 9 is forcibly swung downward so that a gap between the slat bodies 9 is formed. It is set to change to a closed posture. Here, in the forward swing of the second link piece 10d, the lower end of the slat body 9 connected integrally with the connecting member 10 swings downward along with the forward swing. As a result of the action of the slat body 9 by its own weight, the slat body 9 acts as a swaying moment in the forward direction of the second link piece 10d, and moves forward in the upper part of the second link piece 10d. The swinging operation is smooth.
In the closed posture of the slat 3, the front edge portion 10k of the lower link portion 10f hole edge of the second link piece portion 10d is the front side of the upper end edge portion 4c of the first link 4 as shown in FIG. The front edge portion 10k is configured to function as a stopper that restricts further forward swinging of the second link piece portion 10d. Furthermore, the rear edge portion 10m, which is the hole edge of the upper link portion 10e formed on the second link piece portion 10d, is close to the rear edge portion of the lower end edge portion 4d of the first link 4 and is opposed to the rear edge portion 4d. Thus, the second link piece 10d is set to be restricted from swinging further in this portion.
[0013]
Next, the opening / closing operation of the shutter curtain 2 will be described.
The shutter curtain 2 is wound around the take-up shaft 6 in a state where the shutter curtain 2 hangs down under its own weight. For this reason, each slat 3 has a take-up shaft in a state where the lower end portion of the slat body 9 protrudes forward. 6 is wound up. When the shutter curtain 2 is closed from this state, the shutter curtain 2 moves down with the slat 3 maintaining the lighting posture as described above. Then, the obstacle detection piece 17a of the seat plate 17 located at the lowermost end of the shutter curtain 2 is grounded (in contact with the lower frame 18 as shown in FIG. 3, and in this case, obstacle detection is performed) Then, the seat plate 17 is grounded via the obstacle detection piece 17a so that the obstacle detection piece 17a moves relatively upward. In this state, when the shutter curtain 2 is further unrolled, the load on the seat plate 17 is received by the floor surface side, and the dead weight hanging state is released, and the upper end of the first link 4 connected to the seat plate 17 is released. The link operation is performed so that the portion and the second link piece portion 10d of the slat 3 on the upper side of the seat plate 17 contract. At this time, as described above, the swinging regulation of the first link 4 and the rearward swinging regulation of the second link piece 10d are performed, and furthermore, the swinging moment at which the lower edge of the slat body 9 swings downward is generated. By acting, the second link piece 10d swings forward, so that the slat 3 on the upper side of the seat plate 17 is set in a closed posture.
[0014]
When the unwinding operation of the shutter curtain 2 is further performed from the above state, the first link 4 and the second link piece 10d are sequentially linked from the lower slat 3, and as shown in FIG. Based on the fact that the lower end portion of the main body 9 swings downward sequentially from the lower one and the slat 3 changes to the closed posture, and thus the uppermost slat 3 of the shutter curtain 2 becomes the closed posture. The opening is closed by the shutter curtain 2, and the shutter curtain 2 is set to be fully closed with this. Here, in the process until the shutter curtain 2 closes the opening and each slat 3 changes from the lighting position to the closing position and is fully closed, the rotation of the winding shaft 6 is stopped at an appropriate place, The slat 3 in the lower part of the shutter curtain 2 may be in a closed posture and the slat 3 in the upper part may be in an open posture.
[0015]
On the other hand, in the opening operation of the shutter curtain 2, as the shutter curtain 2 is wound up, the natural suspension state is sequentially started from the uppermost slat 3 so that the first link 4 and the second link piece 10d are in a straight line. Link operation is performed so that the lower end of the slat body 9 of the upper slat 3 moves upward to the daylighting posture, and thus the lower end of the lower slat body 9 sequentially moves upward from the lower slat body 9. The lighting posture is set. Then, when the lowermost slat 3 is transformed into the lighting posture, the seat plate 17 is subsequently moved upward and the obstacle detection piece 17a is moved upward from the grounded state, the slat 3 is maintained in the lighting posture thereafter. It is set to move up in the state and open the opening.
[0016]
In the embodiment of the present invention configured as described above, the shutter curtain 2 is opened and closed by the rotation of the winding shaft 6 based on the driving of the opening and closing machine 7, but a plurality of slats constituting the shutter curtain 2 are used. 3 is pivotally connected to the second link piece 10d formed on the connecting member 10 constituting the slat 3 itself in a state where the first link 4 for connecting to the slat 3 adjacent vertically is displaced forward and backward. ing. For this reason, when the shutter curtain 2 is in a natural hanging state, the first link 4 and the second link piece 2d extend so as to be in a straight line, and the lower end of each slat body 9 swings upward and moves forward. The link operation is such that the first link 4 and the second link piece 2d are contracted when the natural hanging state is released when the lighting posture is formed such that a gap is formed between the slat main body 9 protruding and vertically adjacent to each other. Then, the lower end portion of the slat main body 9 moves down to the closed posture. Accordingly, when the shutter curtain 2 is closed, the closing operation is performed while maintaining the above-mentioned lighting posture, and the lower slat is moved by the unwinding operation of the winding shaft 6 in accordance with the grounding of the lowermost seat plate 17. It changes from 3 to a closed posture sequentially and becomes a fully closed state. On the other hand, when the shutter curtain 2 is opened, the lower one from the slat 3 positioned at the uppermost end of the shutter curtain 2 in the fully closed state as the shutter curtain 2 is wound is sequentially in the lighting posture. It is moved up and fully opened. As a result, the shutter curtain 2 is lowered halfway to the sunshade only for this part, the bottom is lowered to the bottom to make all the sunshade, and the all sunshade is blocked from the lower side sequentially. It is possible to achieve a desired posture from the lower occlusion-upper sunshade posture to the fully closed posture, thereby adjusting the indoor brightness and ventilation state by various shutter curtains 2, and comfortability Can be improved.
[0017]
As described above, in the embodiment in which the present invention is implemented, the shutter curtain 2 is unwound as the winding shaft 6 rotates, and a series of operations of winding is performed, so that the opening portion is opened in the slat 3 in the daylighting posture. Since the slat 3 in the closed position is changed to the daylighting position after the slat 3 is changed to the daylighting position, the opening is opened. It is not necessary to use both a pantograph-shaped link for opening and closing the curtain and an operating piece for the posture changing mechanism between the lighting posture and the closing posture of the slat, and the number of parts can be reduced. Simplification of the structure can be achieved.
In addition, since the shutter curtain 2 is wound around the take-up shaft 6 in this configuration, there is an advantage that the frontage height can be made compact.
[0018]
By the way, in the shutter curtain 2 of the first embodiment, when the shutter curtain 2 is in the fully closed state, the lower end portion of an arbitrary slat 3 at the intermediate position of the opening is gripped from the outside of the shutter curtain 2. When the slats 3 are lifted upward, the first link 4 and the second link piece 10d are in a state where the connection with the slat 3 located above the slat 3 is pushed up to the winding shaft 6 side (upper side). The link may be actuated (oscillated) to forcibly change from the closed position to the daylighting position.
Therefore, there is a case where such forced external slat deformation is disliked from the viewpoint of crime prevention and the like. For this reason, the configuration shown in FIGS. This will be described based on the second embodiment.
[0019]
The shutter curtain 20 of the second embodiment is configured by connecting both side portions of a plurality of slats 21 via a first link 22, and the upper end portion of the shutter curtain 20 is located above the housing opening. It has a so-called electric winding structure that is wound around a winding shaft in the arranged shutter case, and the left and right sides of the shutter curtain 20 are movably fitted to the guide rails 23 on both sides of the housing opening. The shutter curtain 20 is configured to open and close the opening in accordance with either forward or reverse rotation of the winding shaft, and the same configuration as in the first embodiment.
[0020]
The slat 21 of the present embodiment includes a slat main body 24 that is long in the left-right direction, and a pair of left and right connecting members 25 that are assembled to the left and right sides of the slat main body 24. The connecting member 25 is integrally connected by screwing with a screw 24a. Further, a pair of upper and lower rib pieces 24b and 24c are formed at the lower end portion of the slat main body 24, and a sealing member 24d such as mohair is incorporated between them. Further, the lower half portion is inclined so as to be slightly shifted to the outdoor side (front side) with respect to the upper half portion, and thereby, when the slat 3 is in a closed posture described later, it is located on the upper side. The lower end of the slat body 24 is set to overlap with the lower end of the slat body 24 positioned in front of the upper end of the slat body 24.
[0021]
The connecting member 25 is integrally formed of a resin material, and is fitted to the side end surface of the slat 21 and outward from the upper end of the end piece 25a in the opening front-to-back direction (left-right direction). And a support piece portion 25b formed to protrude. Furthermore, a projecting piece portion 25c is formed at the outer end portion of the support piece portion 25b so as to protrude forward from the upper plate surface of the slat main body 24. The outer end portion of the projecting piece portion 25c The second link piece 25d for functioning to link with the one link 22 is formed in the same manner as in the first embodiment, but the protruding amount of the protruding piece 25c to the front Is set smaller than that of the first embodiment, so that the inclination (upward swing angle) of the slats 21 when the slats 21 are in the daylighting posture is set to be small. Further, concave upper and lower pivoting portions 25e and 25f are formed on the outer end surface of the second link piece portion 25d so as to be displaced in the front-rear direction via the protruding portion 25g.
Reference numeral 25h denotes a screw hole for connection to the slat main body 24, and reference numeral 25i denotes a stepped portion formed by cutting out an indoor side portion of the end piece 25a in the lateral direction outward.
[0022]
On the other hand, the first link 22 is formed with connecting holes 22a and 22b for connection on the upper and lower sides, and a bent portion 22c is extended from the lower end portion of the first link 22 so as to protrude forward. ing. For this reason, the lower connecting hole 22b is formed in a long hole shape having a hole direction inclined forward toward the lower end portion, and a guide that is biased so that the hole direction is directed directly upward at the upper hole end portion. A portion 22d is formed. Further, an engagement piece 22e protruding outward in the left-right direction is integrally formed on the front end surface above the bent portion 22c of the first link 22, and the engagement piece 22e serves as the locking means of the present invention. It is composed.
Then, the connecting holes 22a and 22b of the upper and lower first links 22 are positioned on the connecting member upper side and lower side connecting portions 25e and 25f, respectively, and the support plate 26 is applied from the outside of the first links 22 Then, the screws 27 and 28 are screwed into the screw holes 25p of the connecting member 25 through the through holes 26b and 26c formed in the support plate 26, whereby the first link 22 and the second link piece portion 25d are connected. It is set so that it can be pivotably connected. In addition, although the engagement recessed part 26a which comprises the locking means of this invention is formed in the notch shape at the upper end surface of each support plate 26, engagement of the support plate 26 attached to the reference | standard slat 21 is carried out. As will be described later, the recess 26a has a first link 22 that connects the reference slat 21 to the upper side when the reference slat 21 is in the closed posture and the upper slat 21 adjacent thereto is in the closed posture. The engagement piece 22e is set so as to be engaged.
[0023]
Then, in the natural hanging state where the shutter curtain 20 is guided to move by the guide rail 23, as shown in FIG. 15, the first link 22 and the second link piece portion 25d extend to each other, The side connection hole 22b is in a state in which the lower hole end portion 22f of the guide portion 22d at the lower end is engaged and supported by the screw 27. In this state, the second link piece portion 25d of each connecting member 25 is in a posture in which the upper and lower side pivoting portions 25e and 25f are forced to face in the vertical direction, and each slat 21 has a lower end portion of the slat main body 24. The lighting posture projects forward. In this lighting posture, the first link engagement piece 22e and the engagement recess 26a of the support plate 26 are separated in the vertical direction and do not buffer each other.
Further, in the lighting posture, the rear (indoor side) hole edge 25j of the lower pivot part 25f of the second link piece part 25d is in close proximity to the upper rear edge part of the first link 22, thereby The second link piece portion 25d is set to be allowed to swing forward but is restricted to swing backward. Further, the hole edge 25k of the upper link part 25e of the second link piece part 25d is inclined so as to become lower toward the outdoor side, and the hole edge 25k moves and guides the lower end part of the first link 22 forward. Is set to
[0024]
The shutter curtain 20 is closed in a natural hanging state in which all the slats 21 are in the daylighting posture. When the lower end of the shutter curtain 20 is grounded and is supported to be pushed up from below, the seat plate 17 and the lowermost end are received. The first link 22 connecting the slat 21 and the second link piece 25d of the lowermost slat 21 try to operate in a contracting direction. At this time, the first link 22 is controlled to swing by the guide rail 23. As described above, the second link piece 25d is restricted to swing backward as described above. Further, the slat 21 in the lighting posture has a swinging moment in a direction in which the lower end swings downward. Therefore, the second link piece 25d of the lowermost slat 21 is set to swing forward so that the lowermost slat 21 is in a closed posture (see FIG. See 6). In this closed position, the front hole edge 25m of the lower link portion 25f of the second link piece 25d is in close proximity to the upper edge of the second link 22, so that the front hole edge 25m is The second link piece 25d is set to function as a stopper that restricts further forward swinging of the second link piece 25d.
When the closing operation is further performed from this state, the downward swing of the second link piece portion 25d is restricted. As a result, the lower link of the first link 22 connected to the upper side of the lowermost end slat 21 is connected. The hole 22b is displaced downward while swinging forward in a state along the screw 27. When the screw 27 is engaged with the upper hole end in the state guided by the guide portion 22d on the upper end side of the lower connection hole 22b, the first link 22 is set so that further downward movement is restricted. In this state, as shown in FIG. 17, the first link engagement piece 22e is engaged with the support plate engagement recess 26a, whereby the first link 22 and the second link piece 25d are illuminated. The link operation to the posture side is regulated so that the slat 21 is locked in the closed posture, and this corresponds to the locking means of the present invention.
At this time, the inclined hole edge 25k of the second link piece upper pivot portion 25e is set so as to be close to each other along the lower edge portion of the bent portion 22c of the first link 22. Furthermore, a protrusion 25n is formed on the outer end surface of the second link piece 25d at the upper front part, and the protrusion 25n is bent along the hole edge 25k. The second link 22 is set so as to be restricted from swinging in the front-rear direction. As a result, when the first link 22 is pulled from the upper side (when receiving the upward movement), the first link 22 does not swing, and the slide-like upward movement through the lower connection hole 22b does not occur. It is set to be given priority.
[0025]
Subsequently, when there is a further closing operation, the second link piece 25d of the slat 21 adjacent to the upper side of the lowermost slat 21 swings forward in the same manner as the second link piece of the lowermost slat 21. Then, as described above, the lower link hole 22b of the first link 22 connected to the upper side of the slat 21 moves along the screw 27, whereby the first link 22 is further swung forward. Accordingly, the first link engaging portion 22e is engaged with the support plate engaging recess 26a of the slat 21, and the slat 21 is locked in the closed position. The closing operation and the locking operation of the slat 21 and the first link 22 are repeatedly performed, and thus the uppermost end slat 21 is in the closing posture, so that the shutter curtain 20 It is set to fully closed so.
[0026]
On the other hand, in the opening operation of the shutter curtain 20, with the winding of the shutter curtain 20 (with the opening operation of the winding shaft 6), as described above, first, the lower connection hole 22b of the first link 22 is first opened. Although the slide movement is performed with respect to the screw 27, the first link engagement portion 22e and the support plate engagement recess 26a are disengaged with the slide movement, and the first link lower connection hole 22b. The lower hole end is engaged with the screw 27. In this state, the first link 22 and the second link piece portion 25d swing so that the slat 21 is in a natural hanging state due to the link operation. At this time, the lock is released. Therefore, the link operation is not impaired. As described above, by repeatedly performing the unlocking operation and the link operation in accordance with the opening operation of the winding shaft 6, each slat 21 sequentially takes the lighting posture from the upper side, and the pivot between the first link 22 and the second link piece portion 25d. The screws 27 and 28 as the support portions are set so as to be deformed so as to be positioned on a substantially straight line. Then, the upward movement of the shutter curtain 20 starts from the state in which all the slats 21 are in the lighting posture, and each slat 21 is set to move upward while maintaining the lighting posture to open the opening. Yes.
[0027]
Further, in this case, the following consideration is made between the guide rail 23 and the connecting member 25.
That is, the guide rail 23 is formed at the base frame 23a, the indoor and outdoor guide pieces 23b and 23c, the guide groove 23d, the guide pieces 23b and 23c, and the sealing member 23e is fitted in substantially the same manner as in the first embodiment. It is comprised by the sealing part 23f etc. which join. And the sealing part 23f of the front side guide piece 23b contacts the second link piece part 25d of the slat 21 in the closed position so that the function of preventing the shutter curtain 20 with the opening part closed is also used. Yes. Further, the end piece 25a of the connecting member 25 according to the second embodiment is formed with a stepped portion 25i that is formed by notching the indoor side portion outside in the left-right direction. Then, the step portion 25i is in close proximity to the sealing portion 23f formed in the guide piece 25b on the guide rail 23 indoor side, and the lower end portion of the end piece portion 25a is in close proximity to the sealing portion 23f on the outdoor side. The distance between the facing portions is set to be smaller than the facing distance between the outer end surface of the second connecting piece portion 25d and the guide rail groove bottom piece 23d. Accordingly, when the slat 21 is in the lighting posture or the lighting posture, the movement of the positional deviation of the shutter curtain 2 is restricted, and the outer end surface of the second link piece 25d and the guide rail groove bottom piece 23d may come into contact with each other. It is set not to.
[0028]
Even in this case, as in the first embodiment, when the shutter curtain 20 is closed, the closing operation is performed while maintaining the lighting posture, and the lowermost seat plate 17 is grounded. Further, when the winding shaft 6 performs the unwinding operation, the opening can be closed by changing the shape from the lower slat 21 to the closed posture sequentially, while the shutter curtain 20 is being opened. With the winding of 20, the lower part from the slat 21 located at the uppermost end in the fully closed state can be moved up to the fully open state after sequentially becoming the lighting posture. As a result, as in the first embodiment, the shutter curtain 20 can be in various sun shade states, the indoor brightness and ventilation state can be adjusted, and the comfortability can be improved.
[0029]
In addition, in this case, as the slat 21 is in the closed position, the first link 22 is displaced downward while further swinging through the elongated connecting hole 22b. The portion 22e engages with the support plate engaging recess 26a of the slat 21 positioned on the lower side, and the link operation of the first link 22 and the second link piece portion 25d toward the lighting posture side is locked. Accordingly, even if the shutter curtain 20 in the fully closed state is gripped by the slat 21 from the outside and forced to lift it, the lighting posture is not improved, and the crime prevention property is improved, and a strong wind is applied to the shutter curtain in the fully closed state. Functionality can be improved without the slats 21 flapping when sprayed. In addition, the locking operation can be performed sequentially in accordance with the posture change of each slat 21 accompanying the opening / closing operation of the shutter curtain 20, so that the opening / closing operation of the shutter curtain 20 can be performed smoothly without any loss. Can be done.
[Brief description of the drawings]
FIG. 1 is an overall front view showing an outline of a blind shutter device.
FIG. 2 is a side view illustrating a stored state of the shutter curtain.
FIG. 3 is a side view of the shutter curtain in a lighting posture of a slat.
FIG. 4 is a side view of the shutter curtain when the slat is closed.
FIGS. 5A and 5B are a partial cross-sectional plan view and a front view, respectively, illustrating a guide rail guide state of a slat in a closed posture.
FIG. 6 is a partial cross-sectional plan view illustrating a guide rail guide state of a slat in a lighting posture.
FIG. 7 is a perspective view for explaining an assembled state of the slats.
FIG. 8 is a side view illustrating a connection state of slats in a lighting posture.
FIG. 9 is a side view illustrating a connection state of slats in a closed posture.
FIGS. 10A and 10B are a plan view and a front view of a slat, respectively.
11A, 11B, 11C, and 11D are a plan view, a front view, a side view, and a cross-sectional view taken along line AA of FIG. 11C, respectively.
FIGS. 12A and 12B are a front view and a side view of a slat body, respectively.
FIG. 13 is a side view of the shutter curtain showing the lighting posture of the slats in the second embodiment.
FIGS. 14A and 14B are a partial cross-sectional plan view and a front view, respectively, illustrating a guide rail guide state of a slat in a closed posture in the second embodiment.
FIG. 15 is a side view for explaining an open / closed state in the second embodiment.
FIG. 16 is a side view for explaining an open / closed state in the second embodiment.
FIG. 17 is a side view for explaining an open / closed state in the second embodiment.
FIG. 18 is a side view for explaining an open / closed state in the second embodiment.
19A, 19B, and 19C are a plan view, a front view, and a side view, respectively, of a connecting member according to the second embodiment.
20A, 20B, and 20C are a plan view, a front view, a side view, and FIGS. 20D, 20E, and 20C, respectively, of the first link of the second embodiment. F) is a plan view, a front view, and a side view, respectively, of the support plate of the second embodiment.
[Explanation of symbols]
1 Blind shutter device
2 Shutter curtain
3 Slats
4 First link
6 Winding shaft
8 Guide rail
9 Slat body
10 Connecting members
10a End piece
10b Support piece
10d Second link piece
10e Upper joint
11 First joint
14 Support plate
17 Seat plate

Claims (4)

The shutter curtain that opens and closes the opening is composed of a plurality of slats, and both sides of each slat are connected to each other in a swingable manner via links so that the connecting positions of the adjacent slats in the opening and closing direction are displaced from each other. In the process of opening and closing the shutter curtain, each slat is in a lighting posture in which a gap is formed between adjacent slats. Blind shutter device configured to transform into a closed posture that closes the door. 2. The blind shutter device according to claim 1, wherein the link connecting the slats is connected at an upper end side portion of each slat. The blind type according to claim 1 or 2, wherein a locking means is provided between the slat and a link connecting the slat to an adjacent slat to lock the slat transformed into the closed position in the closed position. Shutter device. According to a third aspect of the present invention, the locking means is an engagement between the upper end side portion of the slat and the lower end side portion of the link for connecting the slat to the upper slat, and the engagement is such that the lower slat is in the closed posture. A blind-type shutter device which is made by a displacement accompanied by further swinging of the link swinging.

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