JP6440935B2 - Door and daylighting unit - Google Patents

Description

  The present invention relates to a door and a daylighting unit. More specifically, a door installed at the entrance that communicates the interior and exterior of a residential building with a daylighting function for taking light into the room, and the door, panel, wall, etc. are attached for daylighting. The daylighting unit to be

  A door such as an entrance is provided to close an opening that communicates between the outside and the room, and a function of separating the outside and the room is required. For example, a function for hiding the room from the outside (blindfolding function), a function for restricting access to the room from the outside (security function), and the like are required. For this reason, the door is made of a material that does not transmit light and is not easily broken, for example, a metal plate such as iron or stainless steel.

  However, light does not enter from the outside when the door satisfies the blindfold function among the functions described above. For this reason, since the entrance etc. which provided the door become dark, the brightness is supplemented with artificial lights, such as illumination provided with the human sensor.

  If the light can be taken into the entrance through the door, it can be kept bright enough for people to work during the day without turning on the lights. For example, if a window (lighting part) formed of a member such as glass that transmits light is formed on the door, light can be taken into the entrance or the like through the lighting part.

  On the other hand, in the case where the daylighting unit is provided, if the daylighting unit is formed of general glass, light can be taken in, but the room can be seen from the daylighting unit, resulting in a problem that privacy cannot be protected. Although it is possible to prevent the room from being clearly seen by using frosted glass or the like, it is possible to grasp whether there is a person in the room and the movement of the person in the room.

  As a countermeasure against such a problem, Patent Document 1 discloses a technique related to a panel that shields an indoor space while allowing daylighting.

This document describes a panel having a plurality of shielding layers each having a light-transmitting part and a shielding part in an indoor / outdoor direction, and each shielding layer is arranged when facing one surface side of the panel by the arrangement of the shielding parts of each shielding layer. The thing in which the shielding layer was arrange | positioned so that the continuous shielding surface which consists of a part might be formed is disclosed.
In Patent Document 1, the above structure allows the indoor space to be shielded (that is, the interior cannot be seen by the shielding surface), and the indoor space can be daylighted. There is a statement that both can be achieved.

JP 2009-197521 A

  However, in the panel of Patent Document 1, a plurality of shielding layers each having a light-transmitting part and a shielding part are simply arranged, and light can be transmitted from the room to the room in the same manner as the light can be taken from the room to the room. To do. Then, at night or the like, contrary to the daytime, indoor light leaks to the outside (light leakage). For this reason, when the panel of Patent Document 1 is adopted as an entrance door for a residence, the room cannot be seen directly from the outside, but at night the light leaks out whether there is a person in the room from the outside. It will be in a state where it can be recognized. Then, since it is possible to grasp the absence home from the presence or absence of light leakage, it is not preferable in terms of crime prevention, and conversely, it may not be preferable to grasp that the user is at home.

  However, since the panel of Patent Document 1 does not have a function of preventing light leakage, it is necessary to provide light shielding by providing a separate curtain or the like in order to prevent light leakage or prevent light leakage.

  Moreover, in the panel of patent document 1, since each shielding layer forms the shielding part by techniques, such as printing, on transparent plates, such as glass, a shielding layer can be broken easily. If the shielding layer is broken, the room and the outside can be easily communicated with each other, so that a hand or the like can be put in the room. That is, since the door can be unlocked, when the panel of Patent Document 1 is used for an entrance door or the like, the security performance of the door is deteriorated.

  In view of the above circumstances, an object of the present invention is to provide a door and a daylighting unit capable of maintaining crime prevention while having a selectable daylighting light blocking function.

(Lighting unit)
The daylighting unit according to the first aspect of the invention has a daylighting member that has a wall in which a through-hole is formed and can transmit light through the through-hole, and is disposed at a position separated from the wall in the daylighting member in which the through-hole is formed. A light transmissive member that transmits light, and a shielding unit that closes the through hole of the daylighting member, the shielding unit being between a shielding position that closes the through hole and a daylighting position that opens the through hole. A shielding member provided movably, and a shielding member moving mechanism for moving the shielding member between the shielding position and the daylighting position, the shielding member moving mechanism including the shielding member, The lighting member is moved along the surface of the wall in which the through hole is formed, and is moved between the shielding position and the lighting position, and the lighting member is formed in a box shape having an opening. That is facing the opening A through hole is formed a wall is provided, wherein the light-transmitting member is disposed in the opening of the blood collection optical member.
The lighting unit according to a second aspect of the present invention is the lighting unit according to the first aspect, wherein a plurality of slits are formed in the wall of the daylighting member in which the through hole is formed, and the shielding member is provided with the plurality of slits of the daylighting member. A corresponding slit is provided.
The lighting unit of the third invention is characterized in that, in the first or second invention, the shielding member moving mechanism has a function of moving the shielding member toward the shielding position when a fire is detected.
According to a fourth aspect of the present invention, there is provided the lighting unit according to the third aspect, wherein the shielding member moving mechanism includes a holding member that holds the shielding member at the lighting position, and the holding member is located at the lighting position. When arranged, a holding function for holding the shielding member at the lighting position in a state where a force for moving the shielding member from the lighting position to the shielding position is applied, and when the fire is detected, the shielding member is moved. And a release function for releasing.
According to a fifth aspect of the present invention, there is provided the daylighting unit according to the fourth aspect, wherein the holding member is entirely or partly formed of a member having a thermal fuse function.
(door)
The door of the sixth invention is characterized in that a communication hole penetrating the front and back is formed, and the daylighting unit of any one of the first to fifth inventions is provided in the communication hole .

(Lighting unit)
According to the first invention, if the shielding member is moved by the shielding member moving mechanism and the shielding member is arranged at the daylighting position, the daylight can be taken from the through hole through the daylighting member. Conversely, if the shielding member is moved by the shielding member moving mechanism and the shielding member is arranged at the shielding position, it is possible to prevent light from passing through the through hole. Moreover, since the through hole can be physically blocked by the shielding member, if the shielding member is disposed at the shielding position, it is possible to prevent a human hand or the like from passing through the through hole. Therefore, if it employ | adopts as a daylighting part of a door, even if it provides a daylighting part in a door, a light leak and the fall of crime prevention performance can be prevented. In addition, since the shielding member is moved along the surface of the daylighting member, it is possible to improve the light shielding property and the crime prevention property in a state where the shielding member is disposed at the shielding position. Moreover, if it employ | adopts as a lighting part of a door, even if it provides a lighting part in a door, the fall of a light leak, crime prevention performance, and fire prevention performance can be prevented.
According to the 2nd invention, it becomes easy to maintain high light-shielding property and crime prevention property in the state where the shielding member was arranged in the shielding position.
According to the third aspect of the invention, when a fire occurs, the shielding member is moved to the shielding position. Therefore, even if the shielding member is disposed at the daylighting position, the through hole can be blocked by the shielding member when a fire occurs.
According to the fourth invention, in a state where the shielding member is disposed at the daylighting position, the shielding member is held by the holding member in a state where a force for moving to the shielding position is applied. The holding member has a release function for releasing the shielding member when a fire is detected. For this reason, when a fire occurs, the shielding member is released from the holding member, and the shielding member is moved to the shielding position. Therefore, even when the shielding member is disposed at the daylighting position, the through hole can be blocked by the shielding member in the event of a fire.
According to the fifth invention, when the temperature of the holding member becomes equal to or higher than a predetermined temperature due to a fire or the like, the holding member is deformed or melted, so that the shielding member is released from the holding member. Therefore, even in the state of being arranged at the daylighting position, when a fire occurs, the through hole can be automatically closed by the shielding member. Since all or part of the holding member only needs to be formed of a member having a thermal fuse function, it is possible to prevent the structure of the holding member from becoming complicated.
(door)
According to the sixth aspect of the present invention, it is possible to switch between daylighting and shading when the door is closed, and to improve crime prevention and fire prevention.

It is a schematic explanatory drawing of the door unit DU provided with the door 1 of this embodiment, Comprising: (A) is a figure of the state seen from the outdoor side, (B) is a figure of the state seen from the indoor side. It is a schematic explanatory drawing of the entrance which provided the door unit DU provided with the door 1 of this embodiment, (A) is a figure of the state seen from the outdoor side, (B) is a figure of the state seen from the indoor side It is. In the door 1 of this embodiment, it is a schematic expanded explanatory view of the part which provided the lighting unit 10, (A) is the sectional view on the AA line of (B), (B) is the state seen from the indoor side FIG. 1 is a schematic exploded view of a daylighting unit 10. FIG. It is the single-piece front view of the lighting member 23 and the shielding means 30 in the lighting unit 10, (A) is the state which has arrange | positioned the shielding member 31 in the lighting position, (B) is the state which has arrange | positioned the shielding member 31 in the shielding position. is there. (A) is the sectional view on the AA line of FIG. 5, (B) is the sectional view on the BB line of FIG. It is a single-piece | unit perspective view of the lighting unit 10 except the light transmissive member 12 provided in the plate 11b and the plate 11b, (A) is the state which has arrange | positioned the shielding member 31 in the lighting position, (B) is a shielding member. It is the state which has arrange | positioned 31 in the shielding position. It is a single-piece | unit perspective view of the lighting unit 10 except the light transmissive member 12 provided in the plate 11b and the plate 11b, and is a schematic explanatory drawing of the state which the temperature fuse function act | operated. It is a schematic explanatory drawing of the door 1 of other embodiment, (A) is explanatory drawing of the state which has arrange | positioned the shielding member 51 in the lighting position, (B) is a schematic sectional drawing of (A), (C () Is explanatory drawing of the state which has arrange | positioned the shielding member 51 in the shielding position, (D) is a schematic sectional drawing of (C). It is a schematic explanatory drawing of the door 1 of other embodiment, (A) is explanatory drawing of the state which has arrange | positioned the shielding member 51 in the lighting position, (B) is description of the state which has arrange | positioned the shielding member 51 in the shielding position. It is a figure, (C) is a schematic sectional drawing of (A), (D) is a schematic sectional drawing of (B).

Next, an embodiment of the present invention will be described with reference to the drawings.
The door of the present invention is a door that is attached to an entrance that allows communication between the interior and exterior of a residential building. Even if a daylighting section that introduces external light into the interior of the room is provided, light leakage and reduction in crime prevention performance are suppressed. It has a feature that it can be done.

  The residential building in which the door of the present invention is installed is not particularly limited, but is suitable for a door that separates the outside (outdoor) and the interior, such as the entrance of each dwelling unit in an apartment house such as an apartment. Of course, it can also be used as a door that separates the rooms of each apartment in the apartment and the room and the hallway.

  Below, the case where it uses for the entrance door of the dwelling unit of an apartment is demonstrated as a representative.

(Door unit DU)
First, before explaining the door 1 of this embodiment, the door unit DU which employ | adopted the door 1 of this embodiment is demonstrated easily.

  In FIG. 2, the code | symbol EW has shown the entrance side wall which has an opening part for attaching the door unit of the entrance / exit of a dwelling unit, and the code | symbol F has shown the common hallway.

  As shown in FIG. 2, the door unit DU is attached to an opening formed in the entrance side wall EW, and includes a door 1 and a door frame DF to which the door 1 is attached.

  As shown in FIG. 1, the door frame DF includes a pair of eaves frames Da and Db, and a lower frame Dc and an upper frame Dd provided so as to connect the lower ends and upper ends of the eaves frames Da and Db. It is configured. The door frame DF has an opening that is substantially rectangular in a front view and is surrounded by a pair of eaves frames Da, Db, a lower frame Dc, and an upper frame Dd.

  As shown in FIGS. 1 and 2, a door 1 is attached to the door frame DF. The door 1 is substantially similar to the opening of the door frame DF, and is formed in a size that can close the opening of the door frame DF when the door 1 is closed.

  The door 1 is swingably connected to the door frame DF by connecting means. Specifically, the door 1 is configured such that the door tip (the left end in FIG. 1A) can swing horizontally with its door butt (the right end in FIG. 1A) as a fulcrum. The connection means is connected to the door frame DF.

  Since the door unit DU has the above-described configuration, the door 1 can open and close the opening of the door unit DU when the door 1 is swung around the door bottom.

(Door 1)
Next, the door 1 of the present embodiment will be described.
In addition, the structure of the door 1 of this embodiment is not restricted to the structure demonstrated below, A various structure is employable.

  As shown in FIG. 3, the door 1 of this embodiment has a pair of surface plates 1a and 1b, and an internal member 1c such as a heat insulating material or a sound insulating material is sandwiched between the pair of surface plates 1a and 1b. It is formed with. For this reason, the door 1 itself has a certain degree of heat insulation and sound insulation.

  On the other hand, the door 1 of this embodiment is formed with a communication hole 1h penetrating the front and back, and a lighting unit 10 is attached to the communication hole 1h (see FIG. 3). The daylighting unit 10 has a function of supplying external light (for example, light from the shared corridor F side in FIG. 2) to the inside of the entrance even when the door 1 is closed. That is, since the door 1 of the present embodiment is provided with the daylighting unit 10, the inside of the entrance can be brightened during the day without using illumination with the door 1 closed.

(Lighting unit 10)
As described above, the daylighting unit 10 attached to the door 1 of the present embodiment is disposed in the communication hole 1 h provided in the door 1, and enables daylighting through the door 1. .

As shown in FIGS. 4 and 5, the daylighting unit 10 includes a surface cover 11, a daylighting member 23, and a shielding unit 30, and a state (lighting state) in which light is transmitted by the shielding unit 30. It is possible to switch between a state of shielding light (a shielding state).
Hereinafter, the daylighting unit 10 will be described in detail.

  In addition, in the following description, when the lighting unit 10 is attached to the door 1, the case where the plate 11a is located on the indoor side among a pair of plates 11a and 11b of the surface cover 11 described later will be described. However, depending on the place where the door 1 is provided, the daylighting unit 10 may be attached to the door 1 so that the plate 11b is located on the indoor side.

(Surface cover 11)
3 and 4, reference numeral 11 denotes a surface cover of the daylighting unit 10. The surface cover 11 includes a pair of plates 11a and 11b and a connecting member 11c that connects the pair of plates 11a and 11b.

The pair of plates 11a and 11b are disposed in openings of communication holes 1h formed in the pair of surface plates 1a and 1b of the door 1.
As shown in FIGS. 3 and 4, the pair of plates 11a and 11b is formed with an opening 11h penetrating the front and back at the center. Each opening 11h is provided at a position facing each other when the pair of plates 11a and 11b are connected by the connecting member 11c. For example, when the openings 11h of the pair of plates 11a and 11b are formed in the same shape, the openings 11h substantially coincide with each other when the surface cover 11 is viewed from the normal direction of the pair of plates 11a and 11b. The opening 11h is formed so as to overlap. That is, when the surface cover 11 is viewed from the normal direction of the pair of plates 11a and 11b, the surface cover 11 has a through hole (virtual through hole) that penetrates between the pair of plates 11a and 11b. The opening 11h is formed so that it looks like this.

  As shown in FIGS. 3 and 4, the pair of plates 11 a and 11 b of the surface cover 11 is provided with a light transmission member 12 so as to cover each opening 11 h. The light transmitting member 12 is substantially similar to the opening 11h and slightly larger than the opening 11h. The light transmitting member 12 is attached to the inside of each of the plates 11a and 11b so that the two are kept airtight and / or watertight with the packing 12p interposed therebetween.

  The light transmitting member 12 may be any member as long as it has a function of transmitting light, and various members can be used. For example, plate glass, plate-like resin, punching plate, paper such as shoji paper, and veneer can be used. Further, the light transmission member 12 may not be provided in the opening 11h of the plate 11a. However, when the plate 11b faces the outside (outdoor) (for example, when the door is a front door), in order to maintain airtightness and / or watertightness between the outside (outdoor) and the room, It is desirable to use the light transmitting member 12 made of a material such as plate glass or plate-like resin.

(Daylighting member 23)
In FIG. 3 and FIG. 4, the code | symbol 23 has shown the lighting member. The daylighting member 23 is a box-shaped member having an opening 23h on one side (the right side in FIGS. 3A and 4), and is located between the pair of plates 11a and 11b of the surface cover 11. Thus, it is attached to the opening of the communication hole 1h. The daylighting member 23 is provided with a flange 23f around the opening 23h. And the lighting member 23 is attached so that the opening of the communicating hole 1h may be covered by fixing the flange 23f to the surface plate 1a with a screw, a screw, or the like.
The front cover 11 is attached to the front plate 1a so that the light transmitting member 12 provided on the plate 11a is positioned in the opening 23h (see FIG. 6).

  A plurality of slits 23 s are formed in the bottom wall 23 b of the daylighting member 23. The plurality of slits 23 s are provided so as to be aligned along the longitudinal direction of the daylighting member 23, that is, the longitudinal direction of the opening 23 h (the vertical direction in FIGS. 3 to 5, hereinafter referred to as the vertical direction). The plurality of slits 23s are provided at positions facing the openings 11h of the pair of plates 11a and 11b on the bottom wall 23b. For this reason, even if the daylighting member 23 is provided, the light transmitted through the plate 11b can be supplied into the room through the plurality of slits 23s of the daylighting member 23 and the plate 11a.

  The daylighting member 23 only needs to have a structure that covers and covers the communication hole 1h of the door 1, and is not limited to the shape described above. For example, a plate material provided with a plurality of slits 23 s may be used as the daylighting member 23.

  The plurality of slits 23 s formed in the bottom wall 23 b of the daylighting member 23 correspond to the through holes in the claims.

(Shielding means 30)
As shown in FIGS. 5 to 7, a shielding member 31 of the shielding means 30 is provided inside the daylighting member 23. The shielding member 31 is a plate-like member, and is disposed so that the surface thereof is in surface contact with the inner surface of the bottom wall 23 b of the daylighting member 23.
The shielding member 31 is formed so that its width is substantially the same as the width of the bottom wall 23b of the daylighting member 23 and its length is shorter than the length of the bottom wall 23b of the daylighting member 23 (see FIG. 5). . For this reason, the shielding member 31 can move in the longitudinal direction along the bottom wall 23 b inside the daylighting member 23.

  In addition, the shielding member 31 may have a flat plate shape as a whole, or may have a portion (see FIG. 6) having a substantially U-shaped cross section. That is, you may have the guide piece 31r standingly arranged by the side edge of the shielding member 31. FIG. When the guide member 31r is provided, the guide member 31r moves along the inner surfaces of the side walls 23c and 23d of the daylighting member 23 when the shielding member 31 is moved in the longitudinal direction. That is, since the guide piece 31r can function as a member that guides the movement of the daylighting member 23, the shielding member 31 can be prevented from being inclined in the width direction during the movement.

The shielding member 31 is provided with a plurality of slits 31s. The plurality of slits 31s of the shielding member 31 are provided so as to be aligned along the longitudinal direction of the shielding member 31, that is, the vertical direction of the opening 23h.
Each slit 31 s is formed to have approximately the same size as the plurality of slits 23 s formed in the bottom wall 23 b of the daylighting member 23. Specifically, each slit 31 s is formed to have a width that is substantially the same as the plurality of slits 23 s in the bottom wall 23 b of the daylighting member 23 but slightly wider.
The plurality of slits 31 s are formed so that the pitch thereof is substantially the same as the plurality of slits 23 s in the bottom wall 23 b of the daylighting member 23.

Therefore, if the shielding member 31 is moved in the vertical direction, specifically, if the shielding member 31 is moved upward, the plurality of slits 31s can be arranged so as to overlap with the plurality of slits 23s, respectively. (See FIGS. 5A, 6A, and 7A). Then, the inside and outside of the daylighting member 23 (that is, the inside of the communication hole 1h of the door 1) can be communicated with each other through the plurality of slits 31s of the shielding member 31 and the plurality of slits 23s of the daylighting member 23. The position where the shielding member 31 is arranged so as to be in this state corresponds to the daylighting position referred to in the claims.
On the other hand, when the shielding member 31 is moved in the vertical direction, specifically, downward from the daylighting position, the portion (shielding portion 31b) between the plurality of slits 31s in the shielding member 31 is arranged so as to overlap the plurality of slits 31s. (See FIG. 5B, FIG. 6B, and FIG. 7B). Then, the inside and the outside of the daylighting member 23 can be blocked by the shielding member 31. In other words, the above-described virtual through hole can be blocked by the shielding member 31. The position where the shielding member 31 is arranged so as to be in this state corresponds to the shielding position referred to in the claims.

(Shielding member moving mechanism)
As shown in FIGS. 5 and 7, a protruding piece 31 p is provided at the side end of the shielding member 31. The protruding piece 31 p is inserted into a notch 23 g provided on the side wall 23 c of the daylighting member 23, and its tip protrudes from the side wall 23 c of the daylighting member 23. The notch 23g is a long hole extending along the vertical direction of the daylighting member 23.

  The protruding piece 31p is connected to the moving knob 37 via the connecting member 40. The movement knob 37 is inserted into a guide groove 11g provided in the plate 11a (see FIG. 3B). The guide groove 11g is also a long hole extending along the vertical direction of the daylighting member 23. At one end (the upper end in FIG. 3B), an engagement groove 11k that intersects the vertical direction of the daylighting member 23 is formed. It is formed (see FIG. 3B). The engaging groove 11k is formed at a position (height) at which the movement knob 37 is arranged when the shielding member 31 is arranged at the daylighting position in the vertical direction of the daylighting member 23.

  For this reason, if the movement knob 37 is moved along the guide groove 11g, the shielding member 31 can be moved along the vertical direction of the daylighting member 23 via the connecting member 40 and the protruding piece 31p.

Then, if the shielding member 31 is arranged at the daylighting position, the light from the outside can be introduced into the room, so that the outdoor light can be taken.
Moreover, if the movement knob 37 is engaged with the engagement groove 11k, the movement knob 37 can be held at the position of the engagement groove 11k. In other words, since the shielding member 31 can be held in a state where it is arranged at the daylighting position, it is possible to keep the daylighting state in the daytime or the like.

  On the contrary, if the shielding member 31 is arranged at the shielding position, it is possible to prevent light from being transmitted between the outside and the inside of the room, so that the inside of the room can be darkened even if the outside is bright. It is possible to prevent light from leaking. If the daylighting member 23 and the shielding member 31 are formed of a material such as metal that cannot be easily broken, even if the light transmitting member 12 is broken, the daylighting member 23 and the shielding member 31 can be manually moved from the outside to the room. Etc. can be prevented. Therefore, even if the lighting unit 10 is provided, the security performance of the door 1 can be maintained.

In order to improve the crime prevention performance, it is desirable to provide a function (lock function) for fixing the movement of the shielding member 31 even when the shielding member 31 is disposed at the shielding position.
In addition, if the shielding member 31 is placed in a stable position at the daylighting position, it is desirable to provide a recess in the engagement groove 11k so that the movement knob 37 is caught (see FIG. 3B). For example, if such a recess is provided in the engaging groove 11k, the shielding member 31 falls from the lighting position even if vibration is applied to the lighting unit 10 as in the case where the door 1 is opened and closed in the lighting state. Can be prevented.

  The connecting member 40 and the moving knob 37 described above correspond to the holding member in the claims, and the connecting member 40 and the moving knob 37, the protruding piece 31p, the guide groove 11g, the engaging groove 11k, and the notch 23g are patented. This corresponds to the shielding member moving mechanism referred to in the claims.

  Needless to say, the bottom wall 23b of the daylighting member 23 may be formed with a through hole having a larger opening area than the slit 23s as described above. Even in this case, if the shielding member 31 moves along the inner surface or the outer surface of the bottom wall 23b of the daylighting member 23, the opening is closed in a state where the shielding member 31 and the bottom wall 23b of the daylighting member 23 are in surface contact. Therefore, the light shielding property and the crime prevention property in a state where the shielding member 31 is disposed at the shielding position can be enhanced.

However, as described above, when a plurality of slits 23 s are provided in the bottom wall 23 b of the daylighting member 23 and a plurality of slits 31 s are provided in the shielding member 31, the opening area of the bottom wall 23 b of the daylighting member 23 is reduced. Compared with providing a large through-hole, there is an advantage that it is easy to maintain high light shielding and crime prevention in a state where the shielding member 31 is disposed at the shielding position.
Further, the shape of the plurality of slits 23 s provided in the bottom wall 23 b of the daylighting member 23 and the shape of the plurality of slits 31 s provided in the shielding member 31 are not particularly limited. If the shielding member 31 is disposed at the daylighting position, the shape may be any shape as long as the light can be collected through the slits 23s and 31s, and if the shielding member 31 is disposed at the shielding position, the shielding member 31 can block light. For example, the shapes of the slits 23s and 31s may be squares, rhombuses, triangles, or circles, and it is sufficient that the slits 23s can be blocked and shielded by placing the shielding member 31 at the shielding position.

(Fire prevention function)
In the case of the door 1 provided with the daylighting unit 10 having the above-described structure, when the shielding member 31 is arranged at the daylighting position, the daylighting member 23 passes through the plurality of slits 31s of the shielding member 31 and the plurality of slits 23s of the daylighting member 23. Can communicate with the outside (that is, inside the communication hole 1h of the door 1). For this reason, if the shielding member 31 is disposed at the daylighting position in the event of a fire or the like, when the light transmitting member 12 is broken or dropped, the indoor and outdoor areas are in communication with each other, so May invade.

  Therefore, in the daylighting unit 10, if the temperature fuse function is added to the connecting member 40 that connects the protruding piece 31 p and the moving knob 37, the fire resistance of the daylighting unit 10 can be improved.

  First, in a state where the shielding member 31 is disposed at the daylighting position, the shielding member 31 is moved upward from the shielding position. For this reason, when the shielding member 31 is disposed at the daylighting position, the shielding member 31 is held in a state where a force that causes the shielding member 31 to move downward due to gravity, in other words, a force that moves from the daylighting position toward the shielding position is applied. Is done.

  Then, if the connecting member 40 that connects the protruding piece 31p and the moving knob 37 has a temperature fuse function, the connection between the protruding piece 31p and the moving knob 37 is released when the temperature rises above a predetermined temperature.

For this reason, when the connecting member 40 reaches a predetermined temperature or more due to a fire or the like, the connection between the protruding piece 31p and the moving knob 37 is released, and the shielding member 31 can move independently of the moving knob 37.
Then, when the movable knob 37 is engaged with the engaging groove 11k, that is, when the shielding member 31 is in the daylighting position, the shield is provided if the connection between the protruding piece 31p and the movable knob 37 is released. The member 31 falls due to gravity and moves toward the shielding position.
If the shielding member 31 is disposed at the shielding position, the plurality of slits 23s can be closed in a state where the shielding member 31 and the bottom wall 23b of the daylighting member 23 are in surface contact. That is, the pair of surface plates 1a and 1b of the door 1 can be closed in a state where the daylighting member 23 and the shielding member 31 are in close contact with each other, and the fire resistance of the door 1 can be improved.

(Structure of connecting member 40)
Next, the structure of the connecting member 40 will be described in detail.
As shown in FIGS. 7 and 8, the connecting member 40 includes a thermal fuse member 41, a guide member 42, and a link member 43.

First, the thermal fuse member 41 is composed of a pair of plates 41a and 41b and a connecting material for connecting both the plates 41a and 41b. Of the pair of plates 41a and 41b, the plate 41a is connected to the protruding piece 31p, and the plate 41b is connected to the guide member.
The pair of plates 41a and 41b are connected by a connecting material having a thermal fuse function. The material of the connecting material is not particularly limited as long as it is a material having a temperature fuse function at a relatively low temperature (for example, about 70 ° C.). For example, a low-temperature solder, a shape memory alloy, a low melting point alloy, or the like can be used as a material for the connection material.

As shown in FIGS. 7 and 8, the plate 41b is connected to one end of the guide member 42 (the lower end in FIGS. 7 and 8). A link member 43 is connected to the guide member 42.
The guide member 42 is movably connected to the side wall 23c of the daylighting member 23. Specifically, the guide member 42 is connected to the side wall 23c of the daylighting member 23 so as to be movable along the vertical direction of the daylighting member 23 along the side wall 23c of the daylighting member 23. For example, a long hole is formed in the guide member 42, and the long hole is arranged so that the axial direction of the long hole faces the up and down direction of the daylighting member 23. And the guide member 42 is connected with the side wall 23c of the lighting member 23 in the state in which the pin formed in the side wall 23c of the lighting member 23 was inserted in the elongate hole. Then, the guide member 42 can be moved along the vertical direction of the daylighting member 23 along the side wall 23c of the daylighting member 23.

  As shown in FIGS. 7 and 8, the guide member 42 is provided with a pair of brackets 43 a and 43 b of the link member 43 so as to be spaced apart from each other along the longitudinal direction of the daylighting member 23. Yes. Between the pair of brackets 43a and 43b, the rotary shaft 43c is provided so that it cannot rotate in the axial direction but can rotate around its central axis. And the base end of the movement knob 37 is attached to the side surface of this rotating shaft 43c.

  Since the structure is as described above, if the movement knob 37 is moved to the position of the engagement groove 11k and the movement knob 37 is moved toward the engagement groove 11k, the rotation shaft 43c rotates and moves. The knob 37 swings with its base end (center axis of the rotating shaft 43c) as a fulcrum. Then, the tip of the movement knob 37 can be inserted into the engagement groove 11k from the guide groove 11g, the movement knob 37 can be engaged with the engagement groove 11k, and the shielding member 31 is disposed at the daylighting position. Can hold.

  Since the pair of plates 41a and 41b are connected by a connecting material having a thermal fuse function, when the temperature exceeds a predetermined temperature, that is, the temperature at which the connecting material is melted, the connecting material is dissolved and the pair of plates 41a and 41b The connection of 41b is released (see FIG. 8). In other words, since the connection between the movement knob 37 and the protruding piece 31p is released, the shielding member 31 can move independently of the movement knob 37. Then, if the shielding member 31 is disposed at the daylighting position, the daylighting position is above the shielding position, and therefore the shielding member 31 is moved from the daylighting position to the shielding position by gravity. Therefore, when the temperature exceeds a predetermined temperature, the shielding member 31 can be moved from the daylighting position to the shielding position.

  Even if the movement knob 37 itself is formed of a member having a temperature fuse function, the same effect as described above can be obtained.

(Fixing method of light transmission member 12)
The method for attaching the light transmitting member 12 to the inside of each plate 11a, 11b is not particularly limited. For example, as shown in FIGS. 4 and 6, a fixing member 12b that can be fixed to each plate 11a, 11b with a screw or the like is provided, and the light transmitting member 12 is provided between the fixing member 12b and each plate 11a, 11b. Pinch. If the fixing member 12b is fixed to the plates 11a and 11b in this state, the light transmitting member 12 can be fixed to the plate 11a. Further, the light transmitting member 12 may be directly fixed to the plate 11a with an adhesive or the like.

(Method for fixing the pair of plates 11a and 11b)
The method for fixing the pair of plates 11a and 11b to the opening of the communication hole 1h is not particularly limited. For example, a method of fixing the pair of plates 11a and 11b to the pair of surface plates 1a and 1b by screws or the like is employed. can do. Moreover, as shown in FIG. 3, the plate 11a may be fixed to the surface plate 1a, and the plate 11b may be fixed to the plate 11a with screws or the like.

(About connection structure)
Furthermore, in FIG. 3 and FIG. 4, the case where a pair of plate 11a, 11b was connected with the some shaft-shaped connection member 11c (for example, screw etc.) was demonstrated. When the pair of plates 11a and 11b are connected by such a plurality of shaft-shaped connecting members 11c, it is easy to ensure the surface accuracy of the daylighting unit 10 and to improve the adhesion between the daylighting unit 10 and the door 1. This is preferable because it is possible.

  However, the structure for connecting the pair of plates 11a and 11b is not limited to the above-described shaft-like connecting member 11c. For example, the pair of plates 11a and 11b may be connected by a block-like or plate-like connecting member. When the pair of plates 11a and 11b are connected by a block-like or plate-like connecting member, a space (through hole) surrounded by the pair of plates 11a and 11b and the connecting member can be formed.

(Sealability)
The pair of plates 11a and 11b may be provided so as to be in direct contact with the pair of surface plates 1a and 1b, but are attached with a seal member such as packing sandwiched between the pair of surface plates 1a and 1b. Also good. If a seal member is provided between the two, it is possible to seal so that there is no gap between the inside and the outside of the door 1. Then, the heat insulation and the airtightness fall resulting from having provided the lighting unit 10 can be suppressed.
In particular, between the surface plate 1b and the plate 11b, that is, between the surface plate 1b and the plate 11b located on the outdoor (outdoor) side, as a sealing member, not only heat insulation and air tightness but also water tightness is improved. It is desirable to use one that can. Then, even if the lighting unit 10 is provided, rain or the like can be prevented from entering the door.

(About the opening 11h)
Note that the size of the opening 11h of the pair of plates 11a and 11b is not necessarily the same. For example, the opening 11h of the plate 11a disposed on the indoor side may be larger than the opening 11h of the plate 11b. In this case, there is an advantage that the area irradiated with light can be widened while reducing the external opening. Of course, you may make the opening 11h of the plate 11b arrange | positioned outside larger than the opening 11h of the plate 11a.

(About the material of the plate 11, the lighting member 23, and the shielding member 31)
The material of the pair of plates 11a and 11b is not particularly limited. In order to improve fire resistance, it is preferable to form the pair of plates 11a and 11b with a material such as iron or stainless steel.
Further, the daylighting member 23 and the shielding member 31 are made of a material such as iron or stainless steel in order to maintain the light shielding property and the crime prevention property and improve the fire prevention property. However, it is possible to use any material that has a light shielding property, strength, fireproofing property, etc. comparable to that of iron or stainless steel.

(Method of moving the shielding member 31)
In the above example, the case where the daylighting position is located above the shielding position in the state where the daylighting unit 10 is attached to the door 1 has been described. If it is in this state, the force which moves to the shielding position by gravity will always be added to the shielding member 31 arrange | positioned in the lighting position. That is, gravity corresponds to the “force for moving the shielding member from the lighting position toward the shielding position” in the claims.

  The method for generating the force is not particularly limited. For example, a member that generates a restoring force by contraction or deformation (for example, a spring or the like, hereinafter referred to as a restoring force generating member) is provided. Then, the restoring force generating member is arranged so that when the shielding member 31 is moved from the shielding position toward the daylighting position, a force causing contraction or deformation is applied to the restoring force generating member. Then, if the shielding member 31 is arranged at the daylighting position, a force (that is, a force resulting from the restoring force of the member) for moving from the daylighting position to the shielding position can be applied to the shielding member 31.

  Further, when the restoring force generating member is arranged as described above, the restoring force of the member is applied to the shielding member 31 when the shielding member 31 is moved from the shielding position to the daylighting position. That is, the restoring force of the restoring force generating member becomes a resistance for moving the shielding member 31. Therefore, the holding member may be configured so that the restoring force is not applied to the shielding member 31 from the restoring force generating member until a predetermined temperature is reached. Then, the movement of the shielding member 31 can be performed smoothly, and in the event of a fire or the like, the shielding member 31 can be moved from the lighting position to the shielding position to block the through hole. For example, when the restoring force generating member is a spring, the holding member is provided with a function of compressing and holding the spring in a state where the axial direction of the spring matches the moving direction of the shielding member 31. And if the member which compresses and hold | maintains a spring with the material which has a temperature fuse function is formed, the shielding member 31 can be moved from a lighting position to a shielding position with the restoring force of a spring at the time of a fire.

(Fire detection)
In the above example, a case has been described in which a fire is detected by a member having a temperature fuse function and the shielding member 31 is automatically moved from the lighting position to the shielding position. That is, the case where a fire is detected using a material whose shape changes with a temperature change has been described.
However, a sensor for detecting a fire based on temperature or the like may be provided separately, and when the sensor detects a fire, the connection between the movement knob 37 and the shielding member 31 may be released. For example, an electromagnet or the like is provided between the moving knob 37 and the shielding member 31, and both are connected by the electromagnet. In this case, when the sensor detects a fire, if the connection between the two by the electromagnet is released, the shielding member 31 can be moved from the lighting position to the shielding position in the event of a fire.
The method for detecting a fire that triggers the movement of the shielding member 31 from the daylighting position to the shielding position is not particularly limited. For example, a sensor for detecting smoke or the like may be provided separately to detect a fire based on the presence / absence, amount, or component of smoke.

(For vertical slit)
In the above example, the case where the horizontal slits 23 s and 31 s are formed in the daylighting member 23 and the shielding member 31 has been described. However, the slits 23s and 31s formed in the daylighting member 23 and the shielding member 31 may be slits (vertical slits) extending in the vertical direction. In other words, the slits 23 s and 31 s may be formed so that the axial direction thereof is parallel to the vertical direction of the door 1 and aligned in the width direction of the door 1.
Further, the shapes of the slits 23 s and 31 s formed in the daylighting member 23 and the shielding member 31 are not particularly limited. If the shielding member 31 is disposed at the daylighting position, the shape may be any shape as long as the light can be collected through the slits 23s and 31s, and if the shielding member 31 is disposed at the shielding position, the shielding member 31 can block light. For example, the shapes of the slits 23s and 31s may be squares, rhombuses, triangles, or circles, and it is sufficient that the slits 23s can be blocked and shielded by placing the shielding member 31 at the shielding position.

In this case, if the lighting position is obliquely above the shielding position, even if the slits 23s and 31s are vertical slits, in the event of a fire, the shielding member 31 is moved from the lighting position to the shielding position by gravity. It can be moved.
Of course, the side of the shielding position may be the daylighting position. Even in this case, if the restoring force generating member as described above is provided, the shielding member 31 can be moved from the lighting position to the shielding position by the restoring force of the restoring force generating member in the event of a fire.

(Lighting unit 10B)
In the above example, the case where the surface cover 11 is formed by the pair of plates 11a and 11b has been described. However, the light transmission unit 12 provided on the plate 11b and the plate 11b of the surface cover 11 from the above-described lighting unit 10. (This lighting unit is referred to as a lighting unit 10B (see FIG. 7)).
Even in this case, if the daylighting unit 10B is provided in the opening of the surface plate 1a of the door 1 and a light transmitting member such as glass is attached to the opening in the surface plate 1b of the door 1 in an airtight and / or watertight manner, the daylighting unit 10 described above. Can be imparted to the door 1.

  In the above example, the case where the daylighting unit 10 is provided on a door such as a front door has been described. However, the place where the daylighting unit 10 is provided is not particularly limited. For example, it may be provided on a wall of a residence or a panel such as a sleeve panel for daylighting.

(When installed directly on the door 1)
In the above example, the case where the light transmitting member 12 is provided in the door 1 by installing the surface cover 11 to which the light transmitting member 12 is attached in the communication hole 1 h of the door 1 has been described. You may attach directly to.

  For example, the light transmitting member 12 is attached to the opening of the communication hole 1h of the door 1, that is, the opening 1d of the pair of surface plates 1a and 1b, and the light transmitting member 12 is covered on the inner surface of the indoor surface plate 1a. The daylighting member 23 including the shielding member 31 is provided. And the guide groove which has the structure similar to the guide groove 11g mentioned above is formed in the surface board 1a, and the movement knob 37 connected with the shielding member 31 via the connection member 40 is arrange | positioned in this guide groove. Then, if the movement knob 37 is operated, the shielding member 31 can be moved between the daylighting position and the shielding position, and even if the movement knob 37 is engaged with the engagement groove of the guide groove, a fire can be caused. For example, the shielding member 31 can be moved from the daylighting position to the shielding position to exhibit a fire prevention function.

  Further, even if the door 1 itself is provided with the following structure, the same effect as that obtained when the daylighting unit 10 is provided in the communication hole 1 h of the door 1 can be obtained.

(Moving up and down)
For example, as shown in FIG. 9, a support wall 1w is provided on the inner surface of the surface plate 1a so as to surround the opening 1d of the communication hole 1h. The light transmission member 12 is attached to the support wall 1w so as to close the inner surface opening. Then, a daylighting space La surrounded by the support wall 1w and the light transmitting member 12 and communicated with the indoor space by the opening 1d of the communication hole 1h is formed inside the surface plate 1a.

  In the case of this structure, both the support wall 1w and the light transmitting member 12 or the support wall 1w alone corresponds to the daylighting member in the claims. When the support wall 1w and / or the light transmitting member 12 is provided, the portion of the door 1 where the communication hole 1h is formed and the support wall 1w and / or the light transmitting member 12 are used as the daylighting unit in the claims. Equivalent to. And when not providing both the support wall 1w and the light transmissive member 12, the part which forms the communicating hole 1h in the door 1 becomes a lighting part in a claim.

  Further, the opening 1d of the communication hole 1h of the surface plate 1b may be provided with the same structure as the surface plate 1a, and the light transmitting member 12 may be attached so as to close the opening 1d of the communication hole 1h of the surface plate 1b. However, in the surface plate 1b, the light transmitting member 12 may be provided directly in the opening 1d of the communication hole 1h so as to close the opening 1d.

  As shown in FIG. 9, an accommodation space 1s is formed above the upper wall of the support wall 1w. The accommodation space 1s communicates with the daylighting space La through the upper opening sh.

  A shielding member 51 is disposed in the housing space 1s so as to be movable between the daylighting space La through the upper opening sh. The shielding member 51 is a substantially plate-like member, and is provided so as to be movable in a state where the surface thereof is in surface contact with the inner surface of the surface plate 1a. That is, the shielding member 51 is provided so as to be movable in the vertical direction parallel to the surface of the surface plate 1 a, in other words, the surface of the door 1.

  The shielding member 51 includes a pair of movement restricting members 51a and 51b at the upper and lower ends. The pair of movement restricting members 51a and 51b are erected inward of the shielding member 51, and are formed to be higher than the upper opening sh. Of the pair of movement restriction members 51a and 51b, the upper movement restriction member 51a (movement restriction member 51a on the accommodation space 1s side, hereinafter referred to as the closing limit movement restriction member 51a) is relative to the upper wall of the support wall 1w. It is provided so as to be located on the accommodation space 1s side (that is, above the upper wall). The lower movement restricting member 51b (hereinafter referred to as an open limit movement restricting member 51b) is provided so as to be in surface contact with the lower wall when the closing limit movement restricting member 51a moves until it comes into contact with the upper wall. In addition, the pair of movement restricting members 51a and 51b are formed to have a size that can block the upper opening sh when both come into contact with the upper wall.

  Further, the moving knob 57 is connected to the shielding member 51 via a connecting member having a temperature fuse mechanism (a member having a mechanism similar to the connecting member 40 described above). The moving knob 57 is inserted into a guide groove 1g provided on the surface plate 1a. The guide groove 1g is provided so as to extend in the vertical direction, and an engagement groove 1k is formed at the upper end thereof. The engagement groove 1k is provided so as to intersect with the guide groove 1g, and in the axial direction of the guide groove 1g, a position at which the movement knob 57 is disposed when the open limit movement restriction member 51b contacts the upper wall. (See FIG. 9A).

  If it is set as the above structure, if the movement knob 57 is moved up and down along the guide groove 1g, the shielding member 51 can be moved between the accommodation space 1s and the daylighting space La. When the shielding member 51 is moved to the daylighting space La and the movement knob 57 is engaged with the engaging groove 1k, the shielding member 51 can be maintained in the accommodation space 1s. In this state, light can be supplied from the outside into the room through the light transmitting member 12 provided in the opening 1d of the communication hole 1h of the surface plate 1b and the light transmitting member 12 provided in the opening of the support wall 1w. .

  On the other hand, in a state where the shielding member 51 is accommodated in the daylighting space La, a force for moving the shielding member 51 to the daylighting space La is generated by the weight of the shielding member 51. If a fire or the like occurs in this state, the shielding member 51 is released from the moving knob 57 by the temperature fuse function of the connecting member. Then, the shielding member 51 moves toward the daylighting space La by its own weight until the closing limit movement restricting member 51a comes into contact with the upper wall of the support wall 1w. Then, the opening 1d of the communication hole 1h is blocked by the shielding member 51, and the upper opening sh is blocked by the closing limit movement restricting member 51a. Therefore, even if the communication hole 1h for lighting is provided in the door 1, Fire resistance can be improved.

  In addition, since the shielding member 51 moves along the inner surface of the surface plate 1a, the shielding member 51 and the inner surface of the surface plate 1a are in surface contact in a state where the opening 1d of the communication hole 1h is blocked by the shielding member 51. State. Then, since the communication hole 1h can be shut off in a state where the opening 1d of the communication hole 1h is blocked by the shielding member 51, the fire resistance of the door 1 can be improved.

  And in the case of the said structure, although the state in which the shielding member 51 was accommodated in the accommodation space 1s becomes a lighting position, the shielding member 51 is accommodated in the inside of the door 1 in the state. Then, in the state where the shielding member 51 is arranged at the daylighting position, the shielding member 51 can be made invisible from the outside. Therefore, even if the shielding member 51 is provided, the appearance of the door can be prevented from being deteriorated.

(Side movement)
In the above example, the case where the accommodation space 1s is provided above the daylighting space La has been described. However, the position where the accommodation space 1s is provided is not limited to the upper side of the daylighting space La, and may be provided on the side of the daylighting space La. For example, as shown in FIG. 10, the accommodation space 1s is formed on the side of one side wall (the right side wall in FIG. 10) of the support wall 1w. And the shielding member 51 is arrange | positioned so that it can move between this accommodation space 1s and the daylighting space La through the side opening sh. Also in this case, the shielding member 51 is movably provided in a state where the surface thereof is in surface contact with the inner surface of the surface plate 1a.

  And unlike the shielding member 51 which moves to an up-down direction, a pair of movement control member 51a, 51b is provided in the both ends of the width direction of the shielding member 51. As shown in FIG. Specifically, of the pair of movement restriction members 51a and 51b, one movement restriction member 51a (movement restriction member 51a on the accommodation space 1s side (right side in FIG. 10), hereinafter referred to as a closing limit movement restriction member 51a). The support wall 1w is provided on the housing space 1s side with respect to one side wall. Further, when the other movement restricting member 51b (hereinafter referred to as an open limit movement restricting member 51b) moves until the closing limit movement restricting member 51a comes into contact with one side wall, the side wall (opposite side wall) facing the one side wall in the support wall 1w ( 10 is provided so as to be in surface contact with the left side wall in FIG. 10 (see FIG. 10D).

  Furthermore, the front plate 1a is provided with a guide groove 1g extending in a direction parallel to the moving direction of the shielding member 51, and an engagement groove 1k is formed at one end thereof. The engaging groove 1k is provided at a position where the movement knob 57 is disposed when the open limit movement restricting member 51b comes into contact with one side wall in the axial direction of the guide groove 1g.

  Furthermore, a termination wall 1t is provided in the accommodation space 1s so as to face one side wall of the support wall 1w. A spring 53 for biasing the closing limit movement restricting member 51a, that is, the shielding member 51 toward the daylighting space La is provided between the end wall 1t and the closing limit movement restricting member 51a.

  If it is set as the above structure, if the movement knob 57 is moved along the guide groove 1g, the shielding member 51 can be moved between the accommodation space 1s and the daylighting space La. When the shielding member 51 is moved to the daylighting space La and the movement knob 57 is engaged with the engaging groove 1k, the shielding member 51 can be maintained in the accommodation space 1s. In this state, light can be supplied from the outside into the room through the light transmitting member 12 provided in the opening 1d of the communication hole 1h of the surface plate 1b and the light transmitting member 12 provided in the opening 1d of the support wall 1w. it can.

  On the other hand, when the shielding member 51 is moved to the daylighting space La, the spring 53 contracts, and a force for moving the shielding member 51 from the spring 53 to the daylighting space La is applied to the shielding member 51. If a fire or the like occurs in this state, the shielding member 51 is released from the moving knob 57 by the temperature fuse function of the connecting member. Then, the urging force of the spring 53 causes the shielding member 51 to move toward the daylighting space La until the closing limit movement restricting member 51a comes into contact with one side wall of the support wall 1w. Then, the opening 1d of the communication hole 1h is closed by the shielding member 51, and the side opening sh is closed by the closing limit movement restricting member 51a, so that fire resistance can be improved.

  If the urging force of the spring 53 is constantly applied to the shielding member 51, the urging force of the spring 53 becomes a resistance to movement of the shielding member 51 when the shielding member 51 is moved from the daylighting space La to the accommodation space 1s. . Therefore, a holding wall may be provided on the inner surface of the surface plate 1a, and in a normal case, the spring 53 may be held in a compressed state between the holding wall and the terminal wall 1t. In this case, the holding wall is installed so as to maintain a certain distance in a state where the spring 53 is compressed between the holding wall and the terminal wall 1t by a method of connecting to the inner surface of the surface plate 1a with a material having a thermal fuse function. In such a configuration, in a normal case (when it is not a fire), since the biasing force of the spring 53 is not applied to the shielding member 51, the shielding member 51 can be moved lightly, and the shielding member 51 can be moved at a desired position. Since it can be stopped, the amount of light extraction can be adjusted. On the other hand, when the temperature exceeds a predetermined temperature due to a fire or the like, the connection of the holding wall is released and the holding wall is moved from the accommodation space 1s toward the daylighting space La. The shielding member 51 can be moved to the daylighting space La. In this case, the urging force of the spring 53 can be freely adjusted. Therefore, if the spring 53 is used so that a certain amount of urging force is applied to the shielding member 51 in a state where the shielding member 51 is disposed at the shielding position. In the event of a fire, the opening 1d of the communication hole 1h can be tightly closed by the shielding member 51.

(Means for generating urging force)
In the above example, the case where the spring 53 is employed as the means for generating the urging force has been described. However, the means for generating the urging force is changed from the state in which the shielding member 51 is arranged in the daylighting space La to the daylighting space La. There is no particular limitation as long as it can generate a force that urges it toward the surface. For example, the one using the restoring force of the shape memory alloy can be used.

(Other usage methods)
In the above example, the case has been described in which the door 1 itself is provided with the above-described structure so that lighting and light shielding can be switched. However, the above-described structure can be adopted in addition to the door 1. For example, it can be provided on a panel such as a sleeve panel for lighting, or can be provided on a wall of a residence for lighting.

  The door of the present invention is suitable for a door installed at the entrance of a residential building such as a condominium or a hotel that requires high functionality.

DESCRIPTION OF SYMBOLS 1 Door 1d Opening 1g Guide groove 1k Engagement groove 1h Communication hole 10 Daylighting unit 11 Surface cover 11h Opening 11a Plate 11b Plate 12 Light transmitting member 21 Daylighting part 23 Daylighting member 23s Slit 30 Shielding means 31 Shielding member 31s Slit 40 Connection member 51 Shielding member

Claims (6)

A daylighting member having a wall in which a through hole is formed and capable of transmitting light through the through hole;
A light transmissive member that transmits light disposed at a position away from the wall in which the through hole is formed in the daylighting member;
Shielding means for closing the through hole of the daylighting member,
The shielding means is
A shielding member movably provided between a shielding position for closing the through hole and a daylighting position for opening the through hole;
A shielding member moving mechanism for moving the shielding member between the shielding position and the daylighting position;
The shielding member moving mechanism is
The shielding member is moved along the surface of the wall where the through hole in the daylighting member is formed, and is moved between the shielding position and the daylighting position.
The daylighting member is
It is a member formed in a box shape having an opening, and a wall in which a through hole is formed at a position facing the opening is provided,
A daylighting unit, wherein the light transmissive member is disposed in an opening of the daylighting member. In the wall where the through hole in the daylighting member is formed,
A plurality of slits are formed,
In the shielding member,
The daylighting unit according to claim 1, wherein slits corresponding to the plurality of slits of the daylighting member are provided. The shielding member moving mechanism is
The daylighting unit according to claim 1, further comprising a function of moving the shielding member toward the shielding position when a fire is detected. The shielding member moving mechanism is
A holding member for holding the shielding member at the daylighting position;
The holding member is
When the shielding member is arranged at the daylighting position, a holding function for holding the shielding member at the daylighting position in a state where a force is applied to the shielding member to move from the daylighting position to the shielding position;
The daylighting unit according to claim 3, further comprising a release function that releases the shielding member when a fire is detected. The holding member is
5. The daylighting unit according to claim 4, wherein all or part thereof is formed of a member having a thermal fuse function. A communication hole penetrating the front and back is formed,
A door characterized in that the daylighting unit according to any one of claims 1 to 5 is provided in the communication hole .

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