JP7394727B2 - fittings - Google Patents

Description

The present invention relates to fittings.

BACKGROUND ART Fireproof sashes, for example, have been known as fittings, and such fireproof sashes are used to prevent the spread of fire in the event of a fire.

Recently, there has been a desire for the development of a fireproof sash that has higher fireproofing performance and has an enhanced ability to prevent the spread of fire in the event of a fire.

In order to solve the above-mentioned problems, a fitting according to claim 1 includes a crescent receiving member and a heated foam material, the crescent receiving member is fixed to a panel mounting groove of a meeting frame, and the heated foam material is fixed to a panel mounting groove of a stile. It is characterized in that it is provided on the crescent receiving member within the mounting groove, facing the panel or the inner wall of the panel mounting groove.

With the above-described configuration, the present invention can provide fittings that have higher fire prevention performance and enhanced fire spread prevention function in the event of a fire.

FIG. 1 is a front view of fittings according to an embodiment of the present invention. 2 is a sectional view taken along the line (2)-(2) in FIG. 1. FIG. 2 is a sectional view taken along the line (3)-(3) in FIG. 1. FIG. The mounting structure of the middle crosspiece of the first embodiment is shown, (a) is an enlarged view of the main part seen from the indoor side of FIG. 1, (b) is a sectional view taken along the line (b)-(b) of (a), (c) is a cross-sectional view taken along line (c)-(c) of (a), and (d) is a cross-sectional view taken along line (d)-(d) of (a). It is an exploded view of FIG. 4(a). FIG. 3 is a perspective view showing a resin piece used in the mounting structure of the inner crosspiece of the first embodiment. FIG. 6 is an operational view of the mounting structure of the middle crosspiece of the first embodiment. The installation configuration of the middle crosspiece of the second embodiment is shown, (a) is an enlarged view of the main parts seen from the indoor side, (b) is a sectional view taken along the line (b)-(b) of (a), (c) is a sectional view taken along line (c)-(c) of (a). It is an exploded view of FIG. 8(a). It is a perspective view which shows the resin piece used in the attachment structure of the inner crosspiece of 2nd Embodiment. 4 is an enlarged view of the main part of FIG. 3. FIG. 12 is a sectional view taken along the line (12)-(12) in FIG. 11. FIG. This is a diagram of the outer shoji stile seen from the indoor side. It is an explanatory view of the effect of the heating foaming material in a crescent part. FIG. 2 is an enlarged view of the main part of FIG. 1. FIG. It is a sectional view taken along the line (16)-(16) in FIG. 15. 17 is a sectional view taken along the line (17)-(17) in FIG. 16. FIG. It is an explanatory view of the action and effect of the heated foam material in the lower stile portion and the combined stile portion. It is an explanatory view of the action and effect of the heated foam material in the lower stile portion and the combined stile portion. It is an explanatory view of the action and effect of the heated foam material in the lower stile portion.

Hereinafter, a fitting A according to an embodiment of the present invention will be described with reference to the drawings. In the following description, the same reference numerals in different figures indicate parts with the same function, and redundant explanation in each figure will be omitted as appropriate.

[Composition of fittings]
The fitting A shown in this embodiment is a fireproof sash provided in an opening B1 of a frame B as shown in FIGS. It has an outer shoji C and an inner shoji D that are supported so as to be openable and closable in the frontage direction (hereinafter referred to as left and right).
Each of the outer shoji C and the inner shoji D includes a matching frame (vertical member) c1, d1, a vertical stile c2, d2, an upper stile c3, d3, a lower stile c4, d4, and a matching stile (vertical member). ) Supported by a middle frame (horizontal member) 1 that spans c1, d1 and vertical frames c2, d2, combined frames c1, d1, vertical frames c2, d2, upper and lower frames c3, d3, c4, d4, middle frame 1. It is equipped with glass panels c5 and d5.
As shown in FIGS. 1, 4(c), (d), and 5, the middle crosspiece 1 has a hollow shape, has a built-in reinforcing material 2, and is arranged in the connecting frames c1 and d1. It is supported via a resin piece 3.
As shown in FIGS. 2 and 3, heating foaming materials e1 and e2 are arranged on the matching stile c1 of the outer shoji C, and heating foaming material e4 is arranged on the lower stile c4 of the outer shoji C. ing.

Hereinafter, the mounting structure of the middle crosspiece 1 will be specifically explained.
Regarding the mounting structure of the middle crosspiece 1, the first embodiment and the second embodiment will be illustrated as follows.

[First embodiment of mounting configuration of middle crosspiece]
First, a first embodiment of the mounting configuration of the middle crosspiece 1 will be described with reference to FIGS. 4 and 5. FIG.
As for the middle rungs 1, the middle rungs 1 of the outer shoji C and the middle rungs 1 of the inner shoji D have the same configuration, so below, we will explain the structure of the middle rungs 1 on the inner shoji D side, and The description of the middle crosspiece 1 will be omitted by assigning the same reference numeral.

[Middle beam composition]
The middle crosspiece 1 is made of aluminum, and as shown in FIGS. 4(a) and 4(b), one end 10 in the longitudinal direction of the middle crosspiece 1 is located at the inner peripheral side of the reinforcing material swallowing groove d10 of the joining stile d1. It is fixed to the surface with screws 100, and the other end 11 is fixed with screws 101 to the facing surface of the reinforcing material swallowing groove d20 on the inner peripheral side of the vertical stile d2.
A resin piece 3 is disposed in the reinforcing material swallowing groove d10, and one end 10 of the middle crosspiece 1 is fixed in contact with the resin piece 3, so that the one end 10 is slightly inserted into the reinforcing material swallowing groove d10. It's being swallowed up.
The other end 11 of the middle crosspiece 1 is fixed in a state where it is in contact with and swallowed by the prospective surface of a reinforcing material swallowing groove d20 formed in the vertical stile d2.
The reinforcing material swallowing grooves d10, d20 (c10, c20) also serve as panel mounting grooves into which the left and right ends of the glass panel d5 are fitted.
As shown in FIGS. 4(c) and 4(d), the middle crosspiece 1 has panel mounting grooves 1a and 1b on the upper and lower sides into which the vertical ends of the glass panel d5 are fitted, and the panel mounting grooves 1a, A hollow portion 1c into which the reinforcing material 2 is inserted is provided between 1b.

[Composition of reinforcement material]
The reinforcing material 2 suppresses the deformation of the middle crosspiece 1 when the middle crosspiece 1 is heated, and prevents the glass panel d5, which is deformed by heat, from falling.The reinforcing material 2 has little elongation or deformation due to heat. It is made of metal such as steel or stainless steel, and has a U-shaped cross section as shown in FIG.
Further, as shown in FIG. 5, the length of the reinforcing material 2 along the longitudinal direction of the middle crosspiece 1 is longer than the middle crosspiece 1, and the end 20 of the reinforcing material 2 on the side of the joining frame d1 is the middle crosspiece 1. It is arranged so as to protrude from one end 10 on the side of the connecting frame d1.
The end 21 of the reinforcing material 2 on the vertical stile d2 side does not protrude from the other end 11 of the middle crosspiece 1.

As shown in FIGS. 4(a) and 4(b), such a reinforcing material 2 has an end 20 on the side of the joining frame d1 being swallowed by the reinforcing material swallowing groove d10, and a portion inside the reinforcing material swallowing groove d10. It is in contact with the prospective surface.
In addition, the end portion 21 on the side of the vertical stile d2 is swallowed by the reinforcing material swallowing groove d20, and is in contact with the prospective surface of the reinforcing material swallowing groove d20. It is fixed by a screw 102 screwed so as to penetrate into the hollow part 1c.

[Composition of resin piece]
The resin piece 3 is made of resin and is destroyed by heat caused by a fire, and as shown in FIG. It is integrally formed with an insertion protrusion 31 that is inserted into the inside of the reinforcing member 2.
As shown in FIGS. 4 to 6, the middle crosspiece contact plate portion 30 has a vertical length that is approximately the same as the vertical length of the middle crosspiece 1, and a width that is slightly shorter than the groove depth of the reinforcing material swallowing groove d10. It is formed as a width.
Such a middle crosspiece abutting plate part 30 is arranged such that the one end 10 of the middle crosspiece 1 is slightly swallowed by the reinforcing material swallowing groove d10, and the facing part 30a of the middle crosspiece abutting plate part 30 on the side of the middle crosspiece 1 It is made to come into contact with.
The insertion protrusion 31 extends along the longitudinal direction of the reinforcing material 2, and a portion protruding from the reinforcing material swallowing groove d10 is inserted into the middle crosspiece 1 and inside the reinforcing material 2.

As shown in FIGS. 4(c) and 6, a fitting groove 32 is formed between the middle crosspiece abutting plate part 30 and the insertion protrusion part 31, into which the top end part 2a of the reinforcing material 2 is fitted. When the insertion protrusion 31 is inserted inside the reinforcing member 2, the top end portion 2a of the reinforcing member 2 fits into the fitting groove 32.

[Effect of middle crosspiece]
Next, the function of the middle crosspiece 1 attached in the configuration of the first embodiment will be explained with reference to FIG. 7.
When the fittings A are heated by the heat generated during a fire, as shown in FIGS. 7(a) to (c), the middle crosspiece 1 undergoes thermal elongation in the longitudinal direction and thermal deformation due to thermal elongation.
At this time, as shown in FIGS. 7(a) and 7(b), the resin piece 3 is burnt down by the heat generated during the fire, and a space is created in the reinforcing material swallowing groove d10 where the resin piece 3 was placed. This is secured as the thermal elongation absorption allowance L of the middle crosspiece 1.

That is, the thermal elongation of the inner crosspiece 1 can be absorbed within the range of the thermal elongation absorption allowance L secured in the reinforcing material swallowing groove d10, and the amount of deformation of the inner crosspiece 1 due to this thermal elongation can be suppressed.
In addition, since the thermal elongation of the middle frame 1 is absorbed by the thermal expansion absorption allowance L, the thermally stretched middle frame 1 weakens the pressing force against the connecting frame d1 and vertical frame d2, and Deformation can be suppressed.
Since the resin piece 3 of this embodiment has a small amount of the inner crosspiece 1 swallowed into the reinforcing material swallowing groove d10, when it is burnt out, thermal expansion spreads over almost the entire depth of the reinforcing material swallowing groove d10. Absorption allowance L can be secured.

The deformation of the inner crosspiece 1 due to thermal elongation is also suppressed by the reinforcing material 2, as shown in FIGS. 7(b) and 7(c).
That is, the reinforcing material 2 made of a metal that is less thermally deformed supports the inner crosspiece 1 from the inside, thereby suppressing the deformation of the inner crosspiece 1.

As described above, in the middle crosspiece 1 according to the mounting configuration of the first embodiment, deformation can be suppressed by absorbing thermal elongation by the thermal elongation absorption allowance L, and deformation of the middle crosspiece 1 can be suppressed by the reinforcing material 2. It is attached to fitting A in the configuration.
That is, the fitting A to which the middle crosspiece 1 according to the installation configuration of the first embodiment is attached can suppress the deformation of the meeting frame d1 and the longitudinal stile d2 due to thermal expansion of the middle crosspiece 1 in the event of a fire, and also prevent the deformation of these members. The gap caused by the deformation can be made small, and the support state of the glass panel d5, which is deformed by the heat of the fire, can be ensured.
Therefore, the generation of gaps due to heat in the event of a fire can be suppressed, and the glass panel d5 can be prevented from falling, resulting in a fitting A that has high fire prevention performance and can enhance the function of preventing the spread of fire in the event of a fire.

[Second embodiment of mounting configuration of middle crosspiece]
Next, a second embodiment of the mounting configuration of the middle crosspiece 1 will be described with reference to FIGS. 8 to 10.
Configurations that overlap with those of the first embodiment will be omitted by giving the same reference numerals.

[Configuration of middle crosspiece 1]
As shown in FIGS. 8(a) and 8(b), the middle crosspiece 1 is fixed with one end 10 of the middle crosspiece 1 in contact with the resin piece 3 of this embodiment arranged in the reinforcing material swallowing groove d10. The one end portion 10 is swallowed by the reinforcing material swallowing groove d10.

[Composition of reinforcement material]
The reinforcing material 2 is formed so that the length along the longitudinal direction of the middle crosspiece 1 is approximately the same length (slightly shorter) as the length in the longitudinal direction of the middle crosspiece 1, and both ends 20 and 21 of the reinforcing material 2 are It is built in without protruding from both ends 10 and 11 of the middle crosspiece 1.

[Composition of resin piece]
As shown in FIG. 10, in the resin piece 3 of this embodiment, the inner crosspiece abutting plate portion 33, which the one end portion 10 of the inner crosspiece 1 contacts, and the end portion 20 of the reinforcing material 2 on the side of the joining frame d1 face each other. The reinforcing material abutting plate part 34 and the insertion protrusion part 35 inserted into the inside of the inner crosspiece 1 and the reinforcing material 2 are integrally formed.
As shown in FIGS. 8(a), 9, and 10, the middle crosspiece contact plate portion 33 has a vertical length that is approximately the same as the vertical length of the middle crosspiece 1, and a width that is equal to the width of the reinforcing material swallowing groove d10. The groove depth is approximately half of the depth of the groove, and one end 10 of the inner crosspiece 1 is brought into contact with the facing portion 33a of the inner crosspiece abutting plate portion 33 on the side of the inner crosspiece 1.
As shown in FIGS. 8(a), (b) and 10, the reinforcing material contact plate part 34 is provided on the outdoor side surface of the middle crosspiece contact plate part 33, and the reinforcing material contact plate part 34 is provided on the surface of the middle crosspiece 1 side. The facing portion 34a that the end portion 20 of the reinforcing member 2 faces is formed in a shape that covers the hollow portion 1c except for the screw 100 portion.
As shown in FIGS. 8(a) and 8(b), the insertion protrusion 35 projects from the facing portion 33a of the reinforcing material abutting plate portion 33 toward the middle crosspiece 1 side.

[Function of middle crosspiece (not shown)]
The effect of the inner crosspiece 1 installed in the configuration of the second embodiment is the same as that of the inner crosspiece 1 installed in the configuration of the first embodiment, as the resin piece 3 is burned out and the resin piece 3 is reinforced. A space is created in the material swallowing groove d10, and this space is secured as the thermal elongation absorption allowance L of the inner crosspiece 1.
In addition, the reinforcing material 2 made of a metal with little thermal deformation supports the middle crosspiece 1 from the inside, so that deformation of the middle crosspiece 1 can be suppressed.
That is, the fitting A to which the middle crosspiece 1 according to the installation configuration of the second embodiment is attached,
In the event of a fire, it is possible to suppress the deformation of the connecting stile d1 and the vertical stile d2 due to thermal expansion of the middle frame 1, and to make the gap created by the deformation of these members small, and moreover, it is possible to suppress the deformation due to the heat of the fire. The supporting state of the glass panel d5 can be ensured.
Therefore, the generation of gaps due to heat in the event of a fire can be suppressed, and the glass panel d5 can be prevented from falling, resulting in a fitting A that has high fire prevention performance and can enhance the function of preventing the spread of fire in the event of a fire.

[Composition of heated foam material]
As shown in FIGS. 11 to 18, heating foaming materials e1 to e6 are installed in the above-mentioned fitting A, and as the heating foaming materials e1 to e6 foam due to the heat during a fire, The gaps s to s3 (see FIGS. 14 to 20) that are created when the fixture A is deformed by heat are closed to prevent the spread of fire.
As shown in FIGS. 11 to 14, the heated and foamed materials e1 to e3 are arranged in a reinforcing material swallowing groove (panel attachment groove) c10 in a matching stile c1 of the outer shoji C.
As shown in FIGS. 15 to 16, the heated foamed materials e4 and e5 are disposed on the outer shoji D side, and the heated foamed material e6 is disposed on the inner shoji D side.

[Arrangement configuration of heating foaming materials e1 to e3]
The heated foaming material e1 is disposed at a portion of the crescent receiver 6 provided in the matching stile c1 of the outer shoji C, which is located inside the matching stile c1.
Here, the crescent receiver 6 has a fixing part 60 fixed at the right end facing directly to the prospective surface in the reinforcing material swallowing groove (hereinafter referred to as "panel mounting groove") c10, and a fixing part 60 fixed to the outside of the panel mounting groove c10. It is configured to include an engaging part 61 with which the dovetail crescent 5 engages, and a connecting part 62 that connects the fixing part 60 and the engaging part 61.
The end of the connecting portion 62 on the side of the panel mounting groove c10 is formed integrally with the fixing portion 60 within the panel installing groove c10, and the end of the connecting portion 62 on the side of the engaging portion 61 is formed with the engaging portion 61. It is integrally formed, protrudes outward from the panel mounting groove c10 from the fixing part 60 toward the engaging part 61, and extends so as to connect the fixing part 60 and the engaging part 61.

As shown in FIGS. 11 to 13, the heated foaming material e1 is disposed on the surface of the fixing portion 60 excluding the screwed portion so as to face the prospective surface of the glass panel c5.
The heating foaming material e1 may be mounted on the outdoor side surface of the connecting portion 62 located in the panel mounting groove c10, so as to face the indoor wall of the panel mounting groove c10 on the outdoor side.
As shown in FIGS. 11 and 13, the heated foaming material e2 is disposed at two locations above and below, with the connecting portion 62 in between, on the inner peripheral side of the panel mounting groove c10 and on the facing surface c1c on the indoor side. There is.
Moreover, the heating foaming material e2 has a longitudinal direction along the vertical direction of the panel mounting groove c10.
As shown in FIG. 13, the heated foaming material e2 in this embodiment is arranged to have a necessary minimum length corresponding to a part of the upper and lower ranges of the panel mounting groove c10.
The length of the heating foaming material e2 in the longitudinal direction is sufficient as long as it can close at least the gap s1 (see FIG. 14) during foaming, and is within the range above and below the panel mounting groove c10 excluding the connecting portion 62. If so, the length may be longer than the illustrated length.
As shown in FIGS. 11 to 13, the heated foaming material e3 is placed on the prospective surface c1b of the panel mounting groove c10 in the vertical direction of the panel mounting groove c10 so as to be adjacent to the fixing part 60 on the outdoor side of the fixing part 60. They are located throughout the area.

[Effects of heat foaming materials e1 to e3]
Next, the effects of the heated foaming materials e1 to e3 arranged in this manner will be explained with reference to FIGS. 14(a) to (e).
Immediately after the fire starts from the outside as shown in FIG. 14(a), the glass panel c5 and the stile c1 of the outside shoji C are deformed due to the heat of the fire.
At this time, as shown in FIG. 14(b), if there are no heat-foaming materials e1 and e2, the heat-foaming material e3 will foam, and the glass panel c5 and the stile c1 of the outside shoji C will be deformed, causing the outdoor side to attempts to close the gap s that occurs.
However, as shown in FIG. 14(c), even after foaming, the glass panel c5 and the mating frame c1 of the outer shoji C are deformed due to the heat of the fire. A gap is created between the matching stile c1 of the glass panel c5 and the matching stile c1 of the outside shoji C, and a gap s on the outdoor side between the glass panel c5 and the matching stile c1 of the outside shoji C is created. There was a risk that the flame would pass through the gap s and the gap s1 and enter the indoor side from the outdoor side.

On the other hand, when there are heated foaming materials e1 and e2, as shown in FIG. An attempt is made to close the gap s generated on the outdoor side due to the deformation of the stile c1.
At this time, as mentioned above, even after foaming, the glass panel c5 and the outer shoji C are deformed due to the heat of the fire. A gap is created between the glass panel c5 and the matching stile c1 of the outside shoji C on the indoor side, and the gap s on the indoor side between the glass panel c5 and the matching stile c1 of the outside shoji C. It will communicate with the gap s1.
After this heating foaming material e3 is foamed, the heating foaming materials e1 and e2 are foamed, as shown in FIG. By filling the space, communication between the gap s and the gap s1 can be prevented, thereby preventing flame from entering from the outdoor side to the indoor side.
Therefore, the fire prevention function of fittings A is improved, and the spread of fire can be suppressed.

[Arrangement configuration of heating foaming materials e4 to e6]
As shown in FIGS. 15 to 17, the heated foaming material e4 is applied to the facing surface c40 on the indoor side of the lower stile c4 of the outer shoji C, and on the facing surface c40 on the indoor side of the matching stile (vertical member) d1 of the inner shoji D. It is arranged to face the attached surface 70.
The lower stile c4 of the outer shoji C is swallowed by and connected to the inner peripheral side facing surface c1d of the matching stile c1 of the outer shoji C.
The stile d1 has a structure that integrally includes a stile body 7a and a tubular vertical member 7b on the facing surface d1a on the outer peripheral side of the stile main body 7a, and the heated foam material e4 is attached to the facing surface of the vertical member 7b. I try to face 70.
Inside the vertical member 7b, there is a pulling mechanism (not shown) for pulling the outer shoji C and the inner shoji D toward each other to ensure watertightness when the crescent 5 is engaged with the crescent receiver 6. Built-in.
The heated foaming material e5 is disposed on the outer circumferential side of the matching frame c1 of the outer shoji C and over the entire length of the facing surface c41 on the indoor side.
The heated foam material e6 is disposed on the outer circumferential side of the matching stile d1 of the inner shoji D and over the entire length of the facing surface d40 on the outdoor side.
In addition, the vertical members include a vertical frame, a mullion, etc. in addition to the matching frame d1.

[Effects of heat foaming materials e4 to e6]
Next, the effects of the heat foaming materials e4 to e6 arranged in this manner will be explained with reference to FIGS. 18 to 20.
As shown in FIGS. 18(a) and (b), immediately after a fire breaks out from the outside, the glass panel c5 and the stile c1 of the outer shoji C may be deformed due to the heat of the fire, and the lower stile c4 of the outer shoji C may be damaged. An outward fall occurs.
At this time, as shown in FIGS. 19(a) and 20(a), if there is no heat-foaming material e4, heat-foaming materials e5 and e6 are foamed, and the combination stile c1 of the outer shoji C and the inner shoji Block the gap between D and the meeting frame d1.
However, due to the deformation of the joining frame c1 of the glass panel c5 and the outer shoji C, a gap s2 is created between the reinforcing material swallowing groove c10 and the glass panel c5, which communicates the outdoor side and the indoor side, and the outer shoji C As the lower stile c4 falls toward the outdoor side, a gap s3 is created between the lower stile c4 and the matching stile c1, and the gap s2 and the gap s3 communicate with each other, and the flame communicates with the gap s2 and the gap s3. There was a risk that it could pass through the room and enter the room from the outside.

On the other hand, when there is the heat-foamable material e4, the heat-foamable materials e4 to e6 are foamed, as shown in FIGS. 19(b) and 20(b).
The heated foaming material e4 is foamed toward the matching stile d1 of the inner shoji D, so that when the lower stile c4 of the outer shoji C falls toward the outdoor side, the lower stile c4 and the matching stile c1 are foamed. Close up the gap s3 that occurs between them.
The heating and foaming materials e5 and e6 are foamed between the matching stile c1 of the outer shoji C and the matching stile d1 of the inner shoji D, respectively, thereby forming the matching stile c1 of the outer shoji C and the matching stile of the inner shoji D. Close the space between it and the stile d1.
That is, by filling the gap s3 that cannot be filled with the heat foaming materials e5 and e6 with the heat foaming material e4, communication between the gap s2 and the gap s3 can be prevented, thereby preventing the flame from flowing from the outdoor side to the indoor side. can prevent intrusion.
In addition, since the heated foaming material e4 is disposed so as to face the facing surface 70 on the outdoor side of the matching frame (vertical member) d1 of the inner shoji D, when it foams, the heating foaming material e4 will cause the matching frame of the inner shoji D (Vertical member) d1 can be relied upon to reliably close the gap s3 between the lower stile c4 and the matching stile c1.
Therefore, the fire prevention function of fittings A is improved, and the spread of fire can be suppressed.

According to the fitting A having the above structure, deformation of the middle crosspiece 1 due to heat during a fire is suppressed, and by absorbing the elongation of the middle crosspiece 1, deformation of the combined stiles c1, d2 and the vertical stiles c2, d2 is achieved. can be suppressed.
By suppressing the deformation of the joining frames c1, d2 and the vertical frames c2, d2, the gaps s to s3 generated at each portion can be reduced.
Further, even if gaps s to s3 occur, flame can be prevented from entering the room by closing the gaps s to s3 with heated foaming materials e1 to e6.
In particular, the heating foaming materials e1, e2, and e4 can prevent flames from entering the room in areas that could not be prevented with the heating foaming materials e3, e5, and e6.
Therefore, it is possible to provide fittings A with improved fire prevention function and capable of suppressing the spread of fire.

The fittings of the embodiments of the present invention have been described above in detail with reference to the drawings, but the specific configuration is not limited to these embodiments, and may be modified without departing from the gist of the present invention. Even if there is a change in design, it is included in the present invention.
The window type is not limited to double sliding windows, but can also be applied to internal sliding single sliding windows, external sliding single sliding windows, etc.

In addition, each of the above-described embodiments can be combined by utilizing each other's technologies unless there is a particular contradiction or problem in the purpose, structure, etc.

A: Fittings B: Frame B1: Opening A1: Vertical frame A2: Horizontal frame C: Outer shoji D: Inner shoji c1: Matching frame (vertical component)
d1: Meeting frame (vertical member)
c2: Vertical stile d2: Vertical stile c3: Upper stile d3: Upper stile c4: Lower stile d4: Lower stile c5: Glass panel d5: Glass panel 1: Middle stile 1a: Panel mounting groove 1b: Panel mounting groove 1c: Hollow part 1d: Expected surface 10: One end 11: Other end c10: Reinforcement swallowing groove (panel mounting groove)
c1b: Expected surface c1c: Found surface c1d: Expected surface d10: Reinforcement swallowing groove (panel mounting groove)
d20: Reinforcement material swallowing groove (panel mounting groove)
d1a: Expected surface c41: Found surface d40: Found surface 100: Screw (fastening material)
101: Screw (fastening material)
102: Screw 2: Reinforcing material 2a: Tip part 20: End part 21: End part 3: Resin piece 30: Middle crosspiece contact plate part 31: Insertion projection part 32: Fitting groove
33: Middle crosspiece abutting plate part 34: Reinforcement material abutting plate part 35: Insertion projection part 30a: Facing part 33a: Facing part 5: Crescent 6: Crescent receiver 60: Fixed part 61: Engagement part 62: Connecting part 7a : Frame body 7b: Vertical material 70: Mating surface e1 to e6: Heat foaming material s to s3: Gap

Claims (1)

A crescent receiving member and a heated foam material are provided, the crescent receiving member is fixed to the panel mounting groove of the stile, and the heated foam material is arranged in the panel mounting groove facing the panel or the inner wall of the panel mounting groove. A fitting characterized in that it is provided on a crescent receiving member.

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