JP2022120730A - Louver unit - Google Patents

Abstract

To enhance natural lighting, shading, ventilation, draft, crime prevention as well as fire prevention by installing a louver unit at a window of a building.SOLUTION: A louver unit U comprises an attachment frame 1, a plurality of louvers 2, a linkage member 3, an operation part 4 and an operation member 5. The louver unit also comprises a temperature fuse 6 melted when a surrounding temperature exceeds a prescribed value at a part of the operation member 5 in the form of opening/closing each louver 2 by the operation of the operation part 5, and a coil spring 7 moving and energizing each louver 2 rotatably to a closed position P1 with the linkage member 3 in a normal state, wherein each louver 2 is automatically closed when the surrounding temperature of the plurality of louvers 2 increases and exceeds the prescribed value.SELECTED DRAWING: Figure 4

Description

TECHNICAL FIELD The present invention relates to a louver unit installed in windows of buildings such as buildings and condominiums.

Generally, louver units are installed on the windows of buildings such as buildings and condominiums, and are used for daylighting or shading, ventilation, ventilation, crime prevention, and the like. A louver unit of this type is, for example, disclosed in Patent Document 1, a mounting frame having at least a pair of left and right support frames facing each other, and arranged vertically in parallel between the support frames. a plurality of louvers rotatably supported by each support frame via a rotating shaft at both ends; an interlocking member that is linked to and drives each louver to rotate between an open position that opens the surfaces between the support frames and a closed position that closes the surfaces between the support frames; An operating section is provided, and each louver is opened and closed by operating the operating section.

JP-A-9-96174

As mentioned above, this type of louver unit is installed on the windows of buildings such as buildings and condominiums, and is used for lighting or shading, ventilation, ventilation, crime prevention, etc. It would be even more desirable if it could be used like a fire door to shut out a fire in the building.

The present invention solves such problems, and in this type of louver unit, it is installed on the windows of buildings such as buildings and condominiums, and in addition to daylighting or shading, ventilation, ventilation, crime prevention, fire prevention. The purpose is to make it possible to use

In order to achieve the above object, the present invention
a mounting frame having at least a pair of supporting frames facing each other; and a plurality of louvers arranged in parallel between the pair of supporting frames and having both ends rotatably supported by the respective supporting frames via rotary shafts. , an open position disposed adjacent to each louver so as to be linearly movable in the direction in which each of the support frames extends, and linked to each louver to open the surfaces between each of the support frames; An interlocking member that is rotationally driven between a closed position and an operating portion that is connected to the interlocking member via an operating member and drives the interlocking member, and the louvers are opened and closed by operating the operating portion. A louver unit,
A thermal fuse is provided in a part of the operating member and is fused when the ambient temperature exceeds a predetermined value, and a spring member is provided for rotatably moving and biasing the louvers to the closed position while the interlocking member is in a normal state. prepared,
When the temperature around the plurality of louvers rises and exceeds the predetermined value, each of the louvers is automatically closed.
This is the gist of it.

Also, this louver unit is preferably embodied as follows.
(1) The pair of support frames is composed of an upper support frame and a lower support frame extending horizontally. A plurality of louvers are arranged in parallel in the left-right direction, and both upper and lower ends are connected to the upper support frame via a rotation shaft. , is rotatably supported by the lower support frame and configured as a vertical louver.
In this case, the interlocking member includes an interlocking member main body having an elongated flat plate shape that can be arranged above or below each louver and in parallel with the upper support frame or the lower support frame, and is pivotally supported by the interlocking member main body, and a plurality of link members operatively connected to each louver.
In this case, the operation part is made up of a lever member, and is pivotally supported by the upper support frame or the lower support frame so as to be rotatable in parallel. An actuating member is attached which consists of an actuating member body and a thermal fuse.
(2) Each part except the thermal fuse is made of refractory metal material including stainless steel.

The louver unit of the present invention has the above configuration and is installed in windows of buildings such as buildings and condominiums. Since it can be closed to the outside, it can be used not only for daylighting or light blocking, ventilation, ventilation, and crime prevention, but also for fire prevention.

1 is a diagram showing the overall configuration of a louver unit according to an embodiment of the present invention; FIG. Diagram showing the configuration of the main parts of the same louver unit Diagram showing an example of normal use of the same louver unit Diagram showing an example of emergency use of the same louver unit

Next, a mode for carrying out the present invention will be described with reference to the drawings. FIG. 1 shows the overall configuration of the louver unit, and FIG. 2 shows the configuration of the main parts of the louver unit.

As shown in the figure, this louver unit U comprises a mounting frame 1 , a plurality of louvers 2 , an interlocking member 3 , an operating portion 4 and an operating member 5 .

The mounting frame 1 has at least a pair of supporting frames 11 and 12 facing each other, as shown in FIGS. In this case, the louver unit U is configured as a vertical louver, and the pair of support frames 11 and 12 consists of an upper support frame 11 and a lower support frame 12 extending horizontally vertically.

In this case, the mounting frame 1 is made entirely of a fire-resistant metal material, here stainless steel, and is formed into a rectangular frame shape when viewed from the front, and is arranged vertically and horizontally in parallel with a predetermined interval. and a left side frame 13 and a right side frame 14 which are connected to the left ends and the right ends of the support frames 11 and 12 and arranged in parallel in the vertical direction. An opening surface 10 is formed between upper and lower support frames 11 and 12 . The upper support frame 11 is formed by assembling in parallel a groove-shaped front frame 11F with an open bottom surface and a square-tube-shaped rear frame 11R. The front frame 11F has a slightly larger cross-sectional shape than the rear frame 11R, so that the drive system can be arranged inside. An operation lever insertion portion 110 having a predetermined length is formed in the front frame 11F near the upper portion of the longitudinally intermediate portion of the front surface so that the operation portion 4, which will be described later, passes through and can be rotated in the horizontal direction. A plurality of shaft holes 111 are formed in the lower surface of the rear frame 11R at predetermined intervals in the longitudinal direction, and the lower surface serves as a mounting surface for the plurality of louvers 2. As shown in FIG. The lower support frame 12 consists of a rectangular tubular frame, and a plurality of shaft holes 121 are formed on the rear side of the upper surface so as to face the respective shaft holes 111 of the upper support frame 11 at predetermined intervals. This is the mounting surface for the louver 2. Each of the left and right side frames 13 and 14 is made of a rectangular tubular frame.

A plurality of louvers 2 are arranged in parallel between a pair of support frames 11 and 12 as shown in FIGS. supported by In this case, since the louver unit U is configured as a vertical louver, the plurality of louvers 2 are arranged in parallel in the left-right direction, and both upper and lower ends are attached to the upper support frame 11 and the lower support frame 12 via the rotating shaft 21. It is rotatably supported.

Also, in this case, each of the plurality of louvers 2 is made of a fire-resistant metal material, here stainless steel, and has a width that is the same as the length between the shaft holes 111 and 121 of the upper and lower support frames 11 and 12, but only slightly. The left side 2L is bent into an L-shaped cross section, and its upper end Bearings 20 are fixed to the upper and lower ends, respectively. A rotating shaft 21 is attached to each of these bearings 20 , and each rotating shaft 21 protrudes vertically upward and downward from left end portions of the upper and lower portions of each louver 2 . These louvers 2 are arranged in parallel between the upper and lower support frames 11 and 12 of the mounting frame 1 with their longitudinal directions directed vertically, and each of the upper and lower rotating shafts 21 is connected to the upper support frame. 11 and the lower support frame 12 are inserted through respective shaft holes 111 and 121 and attached so as to be rotatable around the rotation shaft 21 . Each louver 2 rotates around the left side 2L and rotates the right side 2R as a rotation end. The opening position P1 that opens the opening surface 10 between the upper and lower support frames 11 and 12 and the left and right side portions 2L and 2R are directed to the upper and lower support frames 11 and 12 (extending direction) The side portion on the rotating side, that is, the right side portion 2R, abuts against the side portion on the pivot side, that is, the left side portion 2L of each adjacent louver 2, so that the upper and lower portions of the louver 2 are aligned. It is incorporated in the mounting frame 1 so as to be rotatable between a closed position P2 (see FIG. 3) that closes the entire opening 10 between the support frames 11,12.

As shown in FIGS. 1 and 2, the interlocking member 3 is arranged adjacent to each louver 2 so as to be linearly movable in the extending direction of each support frame 11, 12, and is linked to each louver 2, Each louver 2 is rotationally driven between an open position P1 that opens the opening surface 10 between the support frames 11 and 12 and a closed position P2 that closes it. In this case, the interlocking member 3 is pivotally supported by the interlocking member main body 31, which has an elongated flat plate shape so that it can be arranged above each louver 2 and parallel to the upper support frame 11, and is pivotally supported by the interlocking member main body 31. It consists of a plurality of link members 32 which are operatively connected.

In this case, the interlocking member main body 31 is made of a fire-resistant metal material, here stainless steel, and formed as an elongated flat bar (hereinafter, the interlocking member main body 31 is referred to as the interlocking bar 31). Also, this interlocking bar 31 is located above each louver 2 in the upper support frame 11 from one end, here the left end, to the other end, here the right end, or On the contrary, it is formed in the shape of an elongated flat plate having a predetermined length shorter than the length of the upper support frame 11 so as to be movable. A connection plate 33 protruding upward from the upper surface of the interlocking bar 31 is rotatably supported near one end, in this case, the left end. In this case, the connecting plate 33 is made of a fire-resistant metal material, here stainless steel, and is formed to have an L-shaped cross section, and has a width substantially equal to the width of the interlocking bar 31 and a length slightly longer than the width of the interlocking bar 31 . It is composed of a rectangular mounting portion 331 oriented horizontally and a rectangular connecting portion 332 having a width substantially equal to that of the interlocking bar 31 but slightly longer than the width of the interlocking bar 31 and oriented vertically. A mounting portion 331 of the connecting plate 33 is attached to the upper surface of the interlocking bar 21 on the left end side so as to be able to rotate in the horizontal direction via a shaft, and a connecting portion 332 protrudes upward from the upper surface of the interlocking bar 31 .

Also, each link member 32 is similarly formed of stainless steel as a hook-shaped (in other words, laterally L-shaped) link having a predetermined length and substantially the same width as that of the interlocking bar 31, and is an elongated link. It consists of a portion 321 and a short louver mounting portion 322 extending vertically downward from the tip of the link portion 321 (hereinafter, the link member 32 will be referred to as the link 32). Each link 32 is arranged in a row on the lower surface of the interlocking bar 31 at a predetermined interval, and the base end of each link portion 321 is attached to the interlocking bar 31 via a pin so as to be horizontally rotatable.

In this manner, the interlocking bar 31 is arranged along the upper side of each louver 2 within the support frame 11 on the upper part of the mounting frame 1 , and the louver attachment portion 322 of each link 32 is attached to the upper right portion of the front surface of each louver 2 . The interlocking member 3 and each louver 2 are operably connected by being fixed by screws, welding, or the like. In this case, the interlocking bar 31 is arranged at a predetermined position where the left end portion of the interlocking bar 31 is brought closer to the left end portion within the upper support frame 11 , and each of the louvers 2 is positioned so that the left and right sides 2L and 2R of the upper support frame 11 and the lower support frame 11 respectively. , 12 and open the opening surface 10 between the upper and lower support frames 11 and 12, and the louver mounting portions 322 of the links 32 of the interlocking bar 31 are attached to the front surfaces of the louvers 2. , and the interlocking member 3 and each louver 2 are operatively connected. Thus, the interlocking member 3 is arranged so as to be linearly movable in the direction in which the upper and lower support frames 11 and 12 extend, and is linked to each louver 2 so that the interlocking member 3 is connected to the upper support frame 11 . Each louver 2 is configured to be rotatable from an open position P1 that opens the opening surface 10 between the upper and lower support frames 11 and 12 to a closed position P2 that closes, or vice versa, by moving linearly in the extending direction of the louver 2. be done.

As shown in FIGS. 1 and 2 , the operating portion 4 is connected to the interlocking member 3 via the operating member 5 to drive the interlocking member 3 . In this case, the operation portion 4 is made of a lever member, and is pivotally supported by the upper or lower support frame 11 or 12 so as to be rotatable in parallel. An actuating member 5 made of wire is attached.

Further, in this case, the operation part 4 is made of a fire-resistant metal material, here stainless steel, and has a hook shape (in other words, a lateral L-shape) having a width slightly larger than the width of the interlocking bar 31 and a predetermined length. ), and consists of an elongated flat plate-shaped lever portion 41 and a short knob portion 42 extending perpendicularly downward from the proximal end of the lever portion 41 (hereinafter, the operation portion 4 is referred to as the operation lever 4). A mounting plate 43 projecting downward from the lower surface of the tip side of the lever portion 41 is rotatably supported by the operating lever 4 . In this case, the mounting plate 43 is made of a refractory metal material, here stainless steel, and is formed into an L-shaped cross section, forming a rectangle having substantially the same width and length as the lever portion 41, and facing in the horizontal direction. and a connecting portion 432 which forms a quadrangle having substantially the same width and length as the lever portion 41 and is oriented in the vertical direction. A mounting portion 431 of the mounting plate 43 is attached to the lower surface of the tip side of the lever portion 41 via a shaft so as to be capable of rotating in the horizontal direction.

In this manner, the lever portion 41 of the operating lever 4 is passed through the operating lever insertion portion 110 formed near the upper portion of the longitudinally intermediate portion of the support frame 11 on the front surface of the support frame 11 on the upper portion of the mounting frame 1. The tip side of the lever portion 41 is arranged in the upper support frame 11 , and the intermediate portion slightly closer to the base end side than the tip end is moved toward the front portion of the upper surface of the support frame 11 in the longitudinal direction of the intermediate portion via the rotation shaft 40 . It is pivotally supported and mounted so as to be able to rotate parallel to the upper support frame 11 .

An operating member 5, which will be described later, is attached between the tip of the operating lever 4 and the interlocking member 3, and the operating lever 4 and the interlocking member 3 are operatively connected. In this case, as described above, the interlocking bar 31 is arranged at a predetermined position with the left end portion thereof moved toward the left end portion within the upper support frame 11, and each louver 2 has the left and right side portions 2L and 3R at the upper portion and the lower portion. , and open the opening surface 10 between the upper and lower support frames 11, 12, and then the louver mounting portion 322 of each link 32 is fixed to the upper right portion of the front surface of each louver 2, and the interlocking member 3 and each louver 2 are operatively connected. From this state, the operating lever 4 is extended obliquely forward to the right with respect to the interlocking bar 31 so that the tip of the operating lever 4 intersects with the interlocking bar 31. and the connecting portion 332 of the connecting plate 33 on the left end side of the interlocking bar 31 by screwing. Thus, the operation lever 4 is operatively connected to the interlocking bar 31, and is rotatable between the right end and the left end of the operation lever insertion portion 110 in the front intermediate portion of the upper support frame 11. By rotating the operating lever 4 from the right end to the left end of the operating lever insertion portion 110, the interlocking member 3 moves linearly from the left end to the right end within the upper support frame 11. , and each louver 2 is rotatable from the open position P1 that opens the opening surface 10 between the upper and lower support frames 11 and 12 to the closed position P2 that closes the opening surface 10, and the operation lever 4 is moved to the left end of the operation lever insertion portion 110. As the interlocking member 3 is moved linearly from the right end to the left end within the upper support frame 11, each louver 2 is moved to the upper and lower support frames 11, It is configured to be rotatable from a closed position P2 that closes the opening surface 10 between 12 to an open position P1 that opens it.

In this way, the louver unit U is installed on the exterior side of a building window such as an aluminum sash window along the (outer) corridor of an apartment building, and is manually operated to open and close each louver 2 by operating the operating lever 4 .

In this louver unit U, as shown in FIGS. 1 and 2, a thermal fuse 6 is provided in a part of the operating member 5 and is blown when the ambient temperature exceeds a predetermined value. is a normal state, a spring member 7 is provided for rotatably moving and urging each louver 2 to the closed position P2.

In this case the actuating member 5 consists of an actuating bar 51 and a thermal fuse 6 . The operating bar 51 is made of a metal material having fire resistance, here stainless steel, and is formed into an elongated flat plate shape having a predetermined length. The thermal fuse 6 is made of a fusible body made of an alloy that melts and splits when the ambient temperature exceeds a predetermined value. A circular mounting portion 61 is provided. One end of the operating bar 51, in this case the left end, is attached to the other end of the thermal fuse 6, in this case the mounting portion 61 at the right end, via a screw. connected to In this way, the other end of the operating bar 51, in this case the right end, is attached to the connecting portion 431 of the mounting plate 43 of the operating lever 4 as described above, and one end of the thermal fuse 6, in this case the left end mounting portion. 61 is attached to the connecting portion 332 of the connecting plate 33 of the interlocking bar 31 as described above.

In this case, a tension coil spring is used as the spring member 7 (hereinafter, the spring member 7 will be referred to as the coil spring 7). The coil spring 7 is interposed between the interlocking bar 31 and the right end of the front frame 11F in the upper support frame 11. As shown in FIG. In this case, a connecting plate 34 is attached to the interlocking bar 31 on the other end side, in this case, a connecting plate 34 that protrudes upward from the upper surface of a predetermined position in the intermediate portion near the right end by means of mounting screws. In this case, the connecting plate 34 is made of a fire-resistant metal material, here stainless steel, and is formed to have an L-shaped cross section, and has a width that is approximately the same as the width of the interlocking bar 31 and a length that is slightly longer than the width of the interlocking bar 31 . It is composed of a rectangular mounting portion 341 oriented horizontally and a connecting portion 342 oriented vertically and having a rectangular shape with substantially the same width and length as the interlocking bar 31 . A mounting portion 341 of the connecting plate 34 is attached to a predetermined position on the upper surface of the interlocking bar 31 on the right end side via a mounting screw, and a connecting portion 342 protrudes upward from the upper surface of the interlocking bar 31 . In addition, the connecting plate 15 is attached to a predetermined position facing the connecting portion 342 of the connecting plate 34 of the interlocking bar 31 at the right end of the rear surface of the front frame 11F by mounting screws. In this case, the connecting plate 15 is made of a fire-resistant metal material, here stainless steel, and is formed to have an L-shaped cross section and a rectangular shape having substantially the same size as the mounting portion 341 of the connecting plate 34 of the interlocking bar 31, The mounting portion 151 directed in the extending direction of the upper support frame 11 and the connection portion 342 of the connection plate 34 of the interlocking bar 31 form a rectangle having a width substantially equal to that of the connection portion 342 of the connection plate 34 and a length longer than the length of the connection portion 342. 11 and a connecting portion 152 oriented perpendicular to the horizontal direction. The connecting plate 15 has a mounting portion 151 mounted at a predetermined position on the right end of the rear surface of the front frame 11F via a mounting screw, and a connecting portion 152 facing forward from a predetermined position on the right end of the rear surface of the front frame 11F. protruding. Thus, one end, in this case the left end, of the coil spring 7 is fixed to the connecting portion 342 of the connecting plate 34 of the interlocking bar 31, and the other end, in this case the right end, is fixed to the connecting portion 152 of the connecting plate 15 of the front frame 11F. It is interposed between the interlocking bar 31 and the right end of the front frame 11F in the upper support frame 11. As shown in FIG. The interlocking bar 31 is arranged at a predetermined position near the left end within the upper support frame 11, and the left and right sides 2L and 2R of each louver 2 are perpendicular to the upper and lower support frames 11 and 12. The tension of the coil spring 7 is maximized in a state in which the opening surface 10 between the upper and lower support frames 11, 12 is opened.

Thus, in this louver unit U, each louver 2 is automatically closed when the temperature around the plurality of louvers 2 rises and exceeds a predetermined value.

FIG. 3 shows an example of normal use of this louver unit U. As shown in FIG. Although not shown in FIG. 3, the louver unit U is installed outside the windows along the (outside) corridor of the condominium, as described above.

FIG. 3(1) illustrates a state in which each louver 2 is fully opened. As shown in FIG. 3(1), when the louver 2 is fully opened, the operating lever 4 is arranged at the right end of the operating lever insertion portion 110 in the front intermediate portion of the upper support frame 11, and the interlocking member 3 is positioned at the upper portion. While being moved to the left end side within the support frame 11, each louver 2 takes the open position P1 by directing the left and right ends 2L and 2R in the direction perpendicular to the upper and lower support frames 11 and 12, The opening surface 10 between the upper and lower support frames 11, 12 is open. At this time, the tension of the coil spring 7 is maximized. Since the opening surface 10 in the mounting frame 1 is open, outside light can be taken into the room from the window through this opening surface 10 (lighting function), and if the window is open, the opening surface 10 of the mounting frame 1 , the room can be ventilated through the window (ventilation function).

If you want to block the outside light a little because the outside light coming through the window is strong, or if you want to open the window during the day or night to ventilate and hide the open part of the window, you can operate the operation lever 4 to open each louver 2. to an appropriate position intermediate between the fully open position and the fully closed position. In this case, as shown in FIGS. 3(1) and 3(2), the knob 42 of the operating lever 4 is held by hand, and the operating lever 4 is rotated from the right end portion of the operating lever insertion portion 110 toward the left end portion. do. When the operating lever 4 is rotated from the right end portion of the operating lever insertion portion 110 toward the left end portion, the operating bar 51 connected to the tip of the operating lever 4 is pulled and the tip of the operating lever 4 rotates in the rotating direction (rightward). direction) and is moved obliquely toward the rear from the left end side to the right end side within the upper support frame 11 . Interlocking with the movement of the operating bar 51, the interlocking bar 31 is moved from the left end side to the right end side within the upper support frame 11, and each link 32 of this interlocking bar 31 is connected to the right end portion 2R of each louver 2. is pushed to the right, and each louver 2 is rotated counterclockwise to the rear. As each louver 2 rotates, each link 32 rotates from the interlocking bar 31 toward the rear side of the mounting frame 1, and the interlocking bar 31 moves from the left end side to the right end side while escaping to the front side of the mounting frame 1. be moved. While observing the rotation angle of each louver 2, rotate the operation lever 4 to adjust the rotation angle of each louver 2, and as shown in FIG. 4 to stop each louver 2. At this time, the coil spring 7 is contracted by the amount of movement of the interlocking bar 31 toward the right end. As a result, each louver 2 can be directed to an appropriate intermediate position in the rotation direction to appropriately block outside light (lighting adjustment function), and the window can be opened for ventilation while the window opening is blindfolded. Yes (ventilation function, crime prevention function).

In order to return each louver 2 from the intermediate position to the fully open position, the operation lever 4 can be rotated from the intermediate portion of the operation lever insertion portion 110 to the right end portion. Each louver 2 is rotated to the fully open position by the opposite operation of the interlocking bar 31 and each link 32 and each louver 2 .

When each louver 2 is in the fully open position or in the middle position and it is desired to completely block outside light entering from the window or to lock the door at night, the operation lever 4 is operated to fully open the louver 2 from the fully open position or the middle position. Rotate to closed position. In this case, as shown in FIGS. 3(1), 3(2), and 3(3), the knob portion 42 of the operating lever 4 is held by hand, and the operating lever 4 is moved from the right end or intermediate portion of the operating lever insertion portion 110 to the left end. Rotate it toward the part. When the operating lever 4 is rotated from the right end portion or intermediate portion of the operating lever insertion portion 110 toward the left end portion, the operating bar 51 connected to the tip of the operating lever 4 is pulled and the tip of the operating lever 4 is rotated. It follows the direction (rotation in the right direction) and moves obliquely from the left end side to the right end side in the upper support frame 11 while being displaced from the rear side to the front side. In conjunction with the movement of the operating bar 51, the interlocking bar 31 is further moved from the left end side to the right end side within the upper support frame 11, and each link 32 of this interlocking bar 31 is connected to the right side of each louver 2. 2R is pushed further toward the rear of the mounting frame 1, and each louver 2 is rotated toward the rear of the mounting frame 1; As each louver 2 rotates, each link 32 further rotates from the interlocking bar 31 toward the rear side of the mounting frame 1, and the interlocking bar 31 moves from the left end side to the right end side while escaping to the rear side of the mounting frame 1. be moved. As shown in FIG. 3(3), when the operating lever 4 is rotated to the left end of the operating lever insertion portion 110, the operating lever 4 stops there, and the right side portions 2R of the louvers 2 are positioned adjacent to each other. 2, each louver 2 is rotated to the fully closed position at an angle nearly parallel to the upper support frame 11. As shown in FIG. At this time, the coil spring 7 is contracted by the amount that the interlocking bar 31 is further moved toward the right end. As a result, by closing the opening surface 10 in the mounting frame 1, it is possible to completely block external light entering through the window (light blocking function), and to lock the door at night to prevent crime (crime prevention). function).

In order to return each louver 2 from the fully closed position to the intermediate position or the fully open position, the operating lever 4 can be rotated to the right end of the operating lever insertion portion 110 . , the interlocking bar 31, each link 32, and each louver 2 are rotated to the fully open position by the operation opposite to the above.

FIG. 4 shows an example of use of this louver unit U in an emergency (fire). Also in this case, although not shown, the louver unit U is assumed to be installed outside the windows along the (outside) corridor of the condominium.

FIG. 4(1) illustrates a state in which each louver 2 is fully opened. As shown in FIG. 4(1), when the louver 2 is fully open, the operating lever 4 is arranged at the right end of the operating lever insertion portion 110 in the front intermediate portion of the upper support frame 11, and the interlocking member 3 is positioned at the upper portion. While being moved to the left end side within the support frame 11, each louver 2 takes the open position with the left and right sides 2L and 2R directed in the direction perpendicular to the upper and lower support frames 11, respectively. is open between the support frames 11, 12. At this time, the tension of the coil spring 7 is maximized.

When a fire breaks out inside the room, the room temperature rises, and this room temperature is transmitted to the louver unit U outside the window. When the room temperature rises and exceeds a predetermined value, as shown in FIG. 4(2), the temperature fuse 6 forming a part of the operating member 5 is broken and the operating member 5 is separated. As a result, the interlocking bar 31 is moved from the left end to the right end within the upper support frame 11 by the urging force (pulling force) of the coil spring 7 that normally acts on the interlocking bar 31 . Each link 32 pushes the right side 2R of each louver 2 toward the right of the mounting frame 1 and from the right toward the rear, and each louver 2 is rotated toward the rear of the mounting frame 1 . As each louver 2 rotates, each link 32 rotates from the interlocking bar 31 toward the rear side of the mounting frame 1, and the interlocking bar 31 escapes toward the front side of the mounting frame 1 from the front side to the rear side while moving toward the left end. is moved from the part to the right end. Then, as shown in FIG. 4(2), the right side 2R of each louver 2 abuts the left side 2L of each adjacent louver 2, and each louver 2 is nearly parallel to the support frame 11 above. is rotated to the fully closed position, and this state is maintained by the biasing force of the coil spring 7 . In this manner, each louver 2 is automatically closed to close the opening surface 10 in the mounting frame 1 . As a result, the windows are closed and the fire in the room can be blocked (fire prevention function).

As described above, the louver unit U includes a mounting frame 1 having at least a pair of upper and lower support frames 11 and 12 facing each other, and a pair of support frames 11 and 12 arranged in parallel. a plurality of louvers 2 rotatably supported by each support frame 11, 12 via a rotating shaft 21, and arranged adjacent to each louver 2 so as to be linearly movable in the direction in which each support frame 11, 12 extends. an interlocking member 3 linked to each louver 2 and rotationally driving each louver 2 between an open position P1 for opening the opening surface 10 between the support frames 11 and 12 and a closed position P2 for closing the opening surface 10; 3 through an operating member 5 to drive the interlocking member 3. By operating the operating lever 4, each louver 2 can be opened and closed. In this louver unit U, a thermal fuse 6 that is fused when the ambient temperature exceeds a predetermined value is provided in a part of the actuating member 5, and each louver 2 is placed at the closed position P2 with the interlocking member 3 in the normal state. A coil spring 7 is provided for rotatably moving and biasing, and each louver 2 is automatically closed when the temperature around the plurality of louvers 2 rises and exceeds a predetermined value. By installing the louver unit U on the windows of buildings such as buildings and condominiums in this way, it can be used for lighting or blocking, ventilation, ventilation, crime prevention, and fire prevention. That is, when a fire breaks out in a room of a building, the thermal fuse 6 is blown and each louver 2 is automatically fully closed by the urging force of the coil spring 7, thereby shutting off the fire in the room.

The louver unit U consists of an upper support frame 11 and a lower support frame 12 in which a pair of support frames 11 and 12 extend horizontally. are rotatably supported by an upper support frame 11 and a lower support frame 12 via a rotating shaft 21 to form a vertical louver. In this case, the interlocking member 3 includes an interlocking bar 31 having an elongated flat plate shape that can be arranged above each louver 1 and in parallel with the upper support frame 11 , and is pivotally supported by the interlocking bar 31 and is operatively connected to each louver 2 . and a plurality of links 32 connected to each other. In this case, the operation portion 4 is composed of the operation lever 4 and is pivotally supported by the upper support frame 11 or the lower support frame 12 so as to be rotatable in parallel. An operating member 5 consisting of an elongated flat plate-like operating bar 51 and a thermal fuse 6 is attached. A tension coil spring 7 is used as the spring member 7 . With such a configuration, the louver unit U as a whole can have a simple structure, the operation performance of each part can be maintained and improved, and the manufacturing cost can be kept low.
Furthermore, since stainless steel is used for each part except the thermal fuse 6, the louver unit U can maintain reliable operation performance in the event of a fire, and a reliable fire prevention function can be realized.

In this embodiment, the interlocking member 3 is pivotally supported by the interlocking bar 31, which has an elongated flat plate shape so that it can be arranged above each louver 2 and in parallel with the upper support frame 11, and by the interlocking bar 31. A plurality of links 32 operably connected to the louvers 2 are provided, and the interlocking members are elongate flat interlocking bars that can be arranged below each louver and in parallel with the lower frame, and a shaft on the interlocking bar. and a plurality of links supported and operatively connected to each louver.
Further, although the operating bar 51 of the operating member 5 is shaped like an elongated flat plate, it may be shaped like a wire.
Even in this way, it is possible to obtain the same effects as those of the above-described embodiment.

In this embodiment, the pair of support frames 11 and 12 are composed of an upper support frame 11 and a lower support frame 12 extending horizontally. are rotatably supported by the upper support frame 11 and the lower support frame 12 via the rotating shaft 21, and configured as a vertical louver. and a right side frame, and a plurality of louvers are arranged in parallel in the vertical direction, and both the left and right ends are rotatably supported by the left side frame and the right side frame via a rotating shaft, and can be configured as a horizontal louver. good. In this case, the interlocking member is an interlocking bar in the shape of an elongated flat plate that can be arranged on the left or right side of each louver and parallel to the left side frame or the right side frame, and is pivotally supported by the interlocking bar and operated by each louver. It is composed of a plurality of linked links. Further, the operation part is made up of a lever member and is pivotally supported in parallel with the left side frame or the right side frame so as to be rotatable in parallel. An actuating member consisting of a fuse is attached.
Even in this way, it is possible to obtain the same effects as those of the above-described embodiment.

Furthermore, in this embodiment, a coil spring is used as the spring member 7, but other spring means or spring mechanism may be used as long as it acts on the interlocking bar 31 in the same manner as described above.
Even in this way, it is possible to obtain the same effects as those of the above-described embodiment.

Furthermore, in this embodiment, each part except the thermal fuse 6 is made of stainless steel, but it can be changed in various ways as long as it is made of a metal material having fire resistance.

U Louver unit 1 Mounting frame 10 Opening surface 11 Supporting frame 11F Front frame 110 Operation lever insertion part 111 Shaft hole 11R Rear frame 12 Supporting frame 121 Shaft hole 13 Left side frame 14 Right side frame 15 Connecting plate 151 Mounting part 152 Connecting part 2 Louver 2L Left side 2R Right side 20 Bearing 21 Rotating shaft 3 Interlocking member 31 Interlocking member body (interlocking bar)
32 link member (link)
321 link portion 322 louver attachment portion 33 connection plate 331 attachment portion 332 connection portion 34 connection plate 341 attachment portion 342 connection portion 4 operation portion (operation lever)
40 Rotating shaft 41 Lever part 42 Knob part 43 Mounting plate 431 Mounting part 432 Connecting part 5 Operating member 51 Operating bar 6 Thermal fuse 61 Mounting part 7 Spring member (coil spring)
P1 open position P2 closed position

In order to achieve the above object, the present invention
a mounting frame having at least a pair of upper and lower support frames extending in the horizontal direction and facing each other; a plurality of louvers configured as vertical louvers rotatably supported by the louvers; an interlocking member that rotates and drives each louver between an open position that opens the surfaces between the support frames and a closed position that closes the surfaces between the support frames; a louver unit that opens and closes each of the louvers by operating the operation unit,
The operation part is composed of a lever member, and is rotatably supported in parallel with the upper support frame or the lower support frame . a thermal fuse that is fused when a predetermined value is exceeded , and is attached between the tip of the operating portion and the interlocking member, and the interlocking member is set to a normal state by a spring member, and the louvers are rotated to the closed position. Biased to allow movement,
When the temperature around the plurality of louvers rises and exceeds the predetermined value, each of the louvers is automatically closed.
This is the gist of it.

Also, this louver unit is preferably embodied as follows.
(1 ) The interlocking member has an elongated flat plate-like interlocking member main body that can be arranged above or below each louver and parallel to the upper support frame or the lower support frame, and is pivotally supported by the interlocking member main body, and a plurality of link members operatively connected to each of the louvers .
( 2) Each part except the thermal fuse is made of refractory metallic materials including stainless steel.

Claims (5)

a mounting frame having at least a pair of supporting frames facing each other; and a plurality of louvers arranged in parallel between the pair of supporting frames and having both ends rotatably supported by the respective supporting frames via rotary shafts. , an open position disposed adjacent to each louver so as to be linearly movable in the direction in which each of the support frames extends, and linked to each louver to open the surfaces between each of the support frames; An interlocking member that is rotationally driven between a closed position and an operating portion that is connected to the interlocking member via an operating member and drives the interlocking member, and the louvers are opened and closed by operating the operating portion. A louver unit,
A thermal fuse is provided in a part of the operating member and is fused when the ambient temperature exceeds a predetermined value, and a spring member is provided for rotatably moving and biasing the louvers to the closed position while the interlocking member is in a normal state. prepared,
When the temperature around the plurality of louvers rises and exceeds the predetermined value, each of the louvers is automatically closed.
A louver unit characterized by: The pair of support frames consists of an upper support frame and a lower support frame that extend horizontally. 2. The louver unit according to claim 1, wherein the louver unit is configured as a vertical louver by being rotatably supported by the support frame. The interlocking member has an elongated flat plate-like interlocking member main body that can be arranged above or below each louver and in parallel with the upper support frame or the lower support frame; 3. The louver unit according to claim 2, comprising a plurality of link members that are operatively connected. The operation part consists of a lever member, and is pivotally supported by an upper support frame or a lower support frame so as to be rotatable in parallel. 4. A louver unit according to claim 2 or 3, wherein an actuating member consisting of a fuse and a thermal fuse is attached. 5. The louver unit according to any one of claims 1 to 4, wherein each part except the thermal fuse is made of a metal material having fire resistance including stainless steel.

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