JP2015145569A - Multiple glass paper sliding door - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a multiple glass paper sliding door that can be easily manufactured and also can have superior heat insulation performance.SOLUTION: A first glass plate 10 made of two layers of multiple glass and a second glass plate 20 made of three layers of multiple glass are held in a frame body 30 so as to constitute a multiple glass paper sliding door 1 having a five-layered structure. The first glass plate 10 and second glass plate 20 are fitted in a first groove part 37A and a second groove part 37B that the frame body 30 has to be attached to the frame body 30. The first glass plate 10 and second glass plate 20 have a gap, formed with the frame body 30, sealed with a seal member 36. Consequently, a sealed space 38 is formed between the first glass plate 10 and second glass plate 20 so as to obtain the same function with use of five layers of multiple glass.

Description

  The present invention relates to a multiple glass shoji in which a plurality of glass plates are spaced apart.

In order to increase the efficiency of indoor air conditioning, the window glass used for the outer wall of the building has a predetermined heat insulation performance (heat transmissivity: U value (JIS R3107: 1998), unit: W / m ² · K) Is required. For this reason, in recent years, a double-glazed glass having a higher heat insulation performance (lower U value) than a single glass plate tends to be used as a glass plate of a window glass.

  When used for a glass plate of a double-glazed window, usually, a shoji is constructed by assembling a gutter around the peripheral edge of the double-glazed glass, and this is placed in a frame provided on the outer wall of the building.

  In Patent Document 1, a double-glazed glass is formed by separating two glass plates with a spacer so that a recessed portion is formed at the peripheral portion, and a holding frame that forms a ridge is attached to the recessed portion. Shoji (multi-layer glass shoji) is disclosed.

JP 2000-356075 A

  By the way, as for the multi-layer glass, heat insulation performance improves as the number of the hollow layers arrange | positioned between each glass plate increases.

  However, the double-glazed glass has a problem that its production becomes difficult as the number of hollow layers increases. That is, as the number of hollow layers increases, the number of glass plates to be used increases and there is a problem that it is difficult to assemble each glass plate without displacement. In addition, as the number of hollow layers increases, there is a problem that it becomes difficult to manage the overall plate thickness.

  This invention is made | formed in view of such a situation, and it aims at providing the multiple glass shoji which can be manufactured easily and the outstanding heat insulation performance is obtained.

  Means for solving the above problems are as follows.

  (1) A first glass plate made of a multi-layer glass, a second glass plate made of a multi-layer glass or a single plate glass, and the first glass plate and the second glass plate are held in parallel at intervals. A multiple glass shoji comprising a frame.

  According to this aspect, the first glass plate made of the multilayer glass and the second glass plate made of the multilayer glass or the single plate glass are held by the frame, so that the plurality of glass plates are separated. A multiple glass shoji placed (arranged in parallel at intervals) is constructed. Since a multi-layered shoji is formed by combining a plurality of multi-layer glass, or a combination of a multi-layer glass and a single plate glass, a multi-layer glass having the same configuration is manufactured to form a shoji (glass plate Can be manufactured more easily than in the case of producing a double-glazed glass having the same number of constituents and constructing a shoji by assembling a scissors.

  (2) The frame body includes a collar part and a spacer part that is provided on an inner peripheral part of the collar part and that separates the first glass plate and the second glass plate. Multiple glass shoji.

  According to this aspect, the frame includes the flange portion and the spacer portion, and the first glass plate and the second glass plate are spaced apart by the spacer portion. Thereby, a 1st glass plate and a 2nd glass plate can be spaced apart accurately.

  (3) The multiple glass shoji according to (2), further including a seal member that seals between the frame and the first glass plate and the second glass plate.

  According to this aspect, the sealing member for sealing between the frame, the first glass plate, and the second glass plate is provided. Thereby, the airtightness of the space (equivalent to the hollow layer of a multilayer glass) between a 1st glass plate and a 2nd glass plate improves.

  (4) A lip portion made of an elastic material is provided on the opposing wall surface of the adjacent spacer portion, and the first glass plate or the second glass plate disposed between the spacer portions is sandwiched and held by the lip portion. The multiple glass shoji according to (2) or (3) above.

  According to this aspect, the lip part which consists of an elastic material is provided in the wall surface which the adjacent spacer part opposes. The 1st glass plate or 2nd glass plate arrange | positioned between spacer parts is clamped by this lip | rip part, and is hold | maintained at a frame. Since the first glass plate or the second glass plate can be attached to the frame simply by being inserted between the spacer portions, it can be easily assembled. Further, since the lip portion also serves as a seal member, the airtightness can be improved while reducing the number of parts.

  (5) The above-mentioned (2) to (4), wherein the eaves portion includes a recess portion into which the first glass plate and the second glass plate are fitted in the inner peripheral portion, and the spacer portion is disposed in the recess portion. The multiple glass shoji according to any one of the above.

  According to this aspect, the concave strip portion into which the first glass plate and the second glass plate are fitted is provided on the inner peripheral portion of the collar portion. A 1st glass plate and a 2nd glass plate are engage | inserted by a recessed strip part, and are hold | maintained at a frame. Thereby, a 1st glass plate and a 2nd glass plate can be hold | maintained reliably.

  (6) The inner wall surface of the concave strip portion and the wall surface of the spacer portion facing the inner wall surface of the concave strip portion are provided with a lip portion made of an elastic material, and are arranged between the spacer portion and the inner wall surface of the concave strip portion. The multiple glass shoji according to (5) above, wherein the first glass plate or the second glass plate is sandwiched and held by the lip portion.

  According to this aspect, the lip portion made of an elastic material is provided on the inner wall surface of the concave strip portion and the wall surface of the spacer portion facing the inner wall surface of the concave strip portion. The 1st glass plate or 2nd glass plate arrange | positioned between a spacer part and the inner wall face of a concave part is clamped by this lip | rip part, and is hold | maintained at a frame. Since the first glass plate or the second glass plate can be attached to the frame simply by being inserted between the spacer portion and the inner wall surface of the concave portion, it can be easily assembled. Further, since the lip portion also serves as a sealing member, the sealing performance can be improved while reducing the number of parts.

  (7) The multiple glass shoji according to any one of (2) to (6), wherein the spacer portion further includes a space portion in which the desiccant is accommodated and a vent hole communicating with the space portion.

  According to this aspect, the spacer portion is provided with the space portion that stores the desiccant and the vent hole that communicates with the space portion. Thereby, the dry state of the space (hollow layer) between the 1st glass plate and the 2nd glass plate can be maintained for a long period of time.

  (8) The multiple glass shoji according to any one of (1) to (7), wherein the frame further includes a bishole.

  According to this aspect, the frame is provided with the screw hole. Thereby, the assembly | attachment of a multiple glass shoji can be performed easily.

  According to this invention, it can manufacture easily and can obtain the outstanding heat insulation performance.

Front view of first embodiment of multiple glass shoji 2-2 sectional view of the multiple glass shoji shown in FIG. Enlarged view of the part surrounded by circle A in FIG. Enlarged view of main parts when assembling multiple glass shoji Sectional drawing which expanded the principal part of 2nd Embodiment of multiple glass shoji Sectional drawing which expanded the principal part of 3rd Embodiment of multiple glass shoji Sectional drawing which shows the modification of the frame of the multiple glass shoji of 3rd Embodiment Sectional drawing which shows other embodiment of a sealing member

  Hereinafter, preferred embodiments for carrying out the present invention will be described in detail with reference to the accompanying drawings.

  Note that the drawings illustrate preferred embodiments of the present invention, and the present invention is not limited to the illustrated drawings and the description thereof.

[First Embodiment]
"overall structure"
1 is a front view of the first embodiment of the multiple glass shoji, and FIG. 2 is a cross-sectional view of the multiple glass shoji 2-2 shown in FIG. 3 is an enlarged view of a portion surrounded by a circle A in FIG. 2, and FIG. 4 is an enlarged view of a main part when the multiple glass shoji is assembled.

  The multiple glass shoji 1 of the present embodiment is a multiple glass shoji having a five-layer structure, and includes a first glass plate 10 composed of two layers of multi-layer glass and a first layer composed of three layers of multi-layer glass. Two glass plates 20 and a frame 30 that holds the first glass plate 10 and the second glass plate 20 in parallel with a distance therebetween.

<First glass plate>
The first glass plate 10 is configured by separating two glass plates 10 </ b> A and 10 </ b> B having a rectangular flat plate shape with a spacer 12 and sealing the periphery with a seal member 13. The 1st glass plate 10 comprised in this way is provided with the hollow layer 11 sealed between two glass plate 10A, 10B.

<Second glass plate>
The second glass plate 20 is configured by separating three glass plates 20A, 20B, and 20C having a rectangular flat plate shape with spacers 22A and 22B, and sealing the periphery with seal members 23A and 23B. The second glass plate 20 configured in this manner has a hollow layer 21A sealed between adjacent glass plates (between the glass plate 20A and the glass plate 20B and between the glass plate 20B and the glass plate 20C), 21B is provided.

<Frame body>
The frame 30 has a rectangular frame shape corresponding to the outer peripheral shape of the first glass plate 10 and the second glass plate 20, and the first glass plate 10 and the second glass plate in the inner peripheral portion thereof. The peripheral part of 20 is hold | maintained and the 1st glass plate 10 and the 2nd glass plate 20 are hold | maintained in parallel with a fixed space | interval.

  The frame body 30 includes a frame-shaped flange portion 31 that serves as a base, and a spacer portion 32 that is disposed on the inner peripheral portion of the flange portion 31.

  The collar part 31 is provided with the concave line part 33 over the perimeter of an inner peripheral part. The concave stripe portion 33 includes a pair of inner wall surface portions 33A and 33B and a bottom surface portion 33C. The pair of inner wall surfaces 33 </ b> A and 33 </ b> B are provided in parallel with the main surfaces of the first glass plate 10 and the second glass plate 20. The bottom surface portion 33 </ b> C is provided orthogonal to the main surfaces of the first glass plate 10 and the second glass plate 20. The first glass plate 10 and the second glass plate 20 are held by the frame body 30 with the peripheral edge portion fitted into the concave stripe portion 33.

  The spacer part 32 is arrange | positioned over the perimeter of the inner peripheral part of the collar part 31 as a protruding item | line part which has a predetermined | prescribed width | variety and height. The spacer portion 32 is disposed inside the concave stripe portion 33 and includes a pair of side wall surface portions 32A and 32B and an inner surface portion 32C. The pair of side wall surface portions 32 </ b> A and 32 </ b> B are provided in parallel with the inner wall surface portions 33 </ b> A and 33 </ b> B of the concave stripe portion 33, and the inner surface portion 32 </ b> C is provided in parallel with the bottom surface portion 33 </ b> C of the concave stripe portion 33. The first glass plate 10 and the second glass plate 20 are separated by the spacer portion 32.

  The spacer portion 32 has a hollow structure, and a desiccant 34 is accommodated in the space portion 32D. The inner surface portion 32C of the spacer portion 32 is provided with vent holes 32E communicating with the space portion 32D at regular intervals along the longitudinal direction (direction of each side).

  A seal member 36 made of an elastic material is attached to the inner wall surface portions 33A and 33B of the concave stripe portion 33 and the side wall surface portions 32A and 32B of the spacer portion 32.

  The frame 30 configured as described above is provided with the first groove portion 37A and the second groove portion 37B on the inner peripheral portion thereof by the concave stripe portion 33 and the spacer portion 32. The first glass plate 10 is fitted into the first groove portion 37 </ b> A, and the second glass plate 20 is fitted into the second groove portion 37 </ b> B and attached to the frame body 30.

  The frame body 30 includes a part (upper frame body part) constituting the upper side of the frame body 30, a part constituting the lower side (lower frame body part), a part constituting the left side (left frame body part), It manufactures by dividing | segmenting into the part (right frame body part) which comprises a right side, and it comprises in a rectangular frame shape combining each part. In this case, each part can be connected to each corner using a corner block. By setting it as such a division | segmentation structure, the assembly of the multiple glass shoji 1 can be performed easily.

《Assembling multiple glass shoji》
The multiple glass shoji 1 is assembled by fitting the first glass plate 10 and the second glass plate 20 into the frame 30.

  As described above, the frame body 30 is configured to be divided into upper, lower, left, and right sides, so the frame body 30 that is divided into each side of the first glass plate 10 and the second glass plate 20 is attached. Assemble the multiple glass shoji 1. At this time, as shown in FIG. 4, the first glass plate 10 is fitted into the first groove portion 37 </ b> A, and the second glass plate 20 is fitted into the second groove portion 37 </ b> B to attach the frame body 30.

  In the assembled multiple glass shoji 1, the first glass plate 10 and the second glass plate 20 are spaced apart and held by the frame body 30, and between the first glass plate 10 and the second glass plate 20. A space 38 having a constant thickness is provided.

  Here, since the gap between the first glass plate 10 and the second glass plate 20 held by the frame 30 and the frame 30 is sealed by the seal member 36, The space 38 between the two glass plates 20 is sealed. That is, it exhibits the same function as the hollow layer of the multilayer glass. Further, since the space 38 communicates with the space portion 32D in which the desiccant 34 is accommodated through the vent holes 32E of the spacer portion 32, the dry state can be maintained.

  Thus, according to the multiple glass shoji 1 of this Embodiment, the 1st glass plate 10 which consists of a double layer glass, and the 2nd glass plate 20 which consists of a double layer glass are combined. Thus, a shoji exhibiting the same function as the shoji using the five-layer glass can be realized. The multiple glass shoji 1 according to the present embodiment can be easily manufactured because it uses a combination of multiple layers of glass having a relatively small number of components.

[Second Embodiment]
FIG. 5 is an enlarged cross-sectional view of a main part of the second embodiment of the multiple glass shoji.

  The multiple glass shoji 100 is also a multi-glass shoji having a five-layer structure, but the configuration of the glass plate used is different from the multiple glass shoji 1 of the first embodiment.

  As shown in FIG. 5, the multiple glass shoji 100 of the present embodiment includes two first glass plates 110 made of two layers of glass and one second glass plate 120 made of single plate glass. It is used to form a multiple glass shoji with a five-layer structure. In this case, the frame body 30 is provided with two spacer portions 32. Moreover, when each glass plate is attached to the frame, a sealed space 38 is provided between the glass plates (a total of two spaces are provided).

  As described above, the multiple glass shoji can also be configured by combining double glazing and single glass.

  The multiple glass shoji of the present invention uses two or more glass plates, and at least one of them should be composed of double-glazed glass. Therefore, the minimum configuration is a three-layer structure using one double-layer glass and one single glass sheet. The upper limit is not particularly limited.

  The number of layers of multilayer glass to be used (number of glass plates) is not particularly limited, but multilayer glass is difficult to manufacture as the number of glass plates to be used increases. It is preferable to use glass. Therefore, it is preferable to use a double-layer glass or a double-layer glass.

  Further, the order in which the glass plates are arranged is not particularly limited, but it is preferable that a glass plate having a low strength is arranged on the inside and a glass plate having a high strength is arranged on the outside.

[Third Embodiment]
FIG. 6 is an enlarged cross-sectional view of a main part of the third embodiment of the multiple glass shoji.

  The multiple glass shoji 200 is also a multi-layer glass shoji having a five-layer structure, but the configuration of the glass plate to be used and the configuration of the frame are different from the multiple glass shoji 1 of the first embodiment.

  As shown in FIG. 6, the multiple glass shoji 200 according to the present embodiment includes one first glass plate 210 made of three-layer glass and two second glass plates 220 made of single glass. It is used to form a multiple glass shoji with a five-layer structure.

  In addition, the frame body 230 of the multiple glass shoji 200 of the present embodiment is not provided with a concave portion in the collar portion 231, and two outer glass plates (in the present embodiment, two sheets of single plate glass). The second glass plate 220) is attached to the side wall surface portions 232A and 232B of the spacer portion 232 with an adhesive 240 and is held (a glass plate disposed inside (in this embodiment, three layers) The first glass plate 210) made of the multi-layer glass is fitted in a groove provided between the spacer portions 232 and is held by the frame body 230.

  As described above, the structure for holding the glass plate is not limited to the structure in which the glass plate is fitted and held in the groove portion, but may be a structure in which the glass plate is attached to the side wall surface portion of the spacer portion and held. In this case, the attachment of the glass plate to the spacer portion is not limited to the adhesive material, and can be performed with an adhesive tape.

  FIG. 7: is sectional drawing which shows the modification of the frame of the multiple glass shoji of 3rd Embodiment.

  As shown in the figure, the frame body 230 of this example includes extension portions 231 </ b> A and 231 </ b> B on the side surface of the flange portion 231. The extension portions 231A and 231B constitute the same surface as the side wall surface portions 232A and 232B of the spacer portion 232 to which the two outer glass plates are attached, and are configured so that the glass plates can be attached.

  Thus, by providing extension part 231A, 231B in collar part 231, the adhesion area of two outside glass plates can be expanded, and the holding power of two outside glass plates can be raised.

  Further, by providing the flange portion 231 with the extension portions 231A and 231B as described above, the outer peripheral groove portion 231C can be provided on the outer peripheral portion of the flange portion 231. This outer peripheral groove portion 231C can be used as an attachment portion for a door roller, a door wheel support member, a stopper component, and other shoji functional members. Moreover, it can also be set as the structure closed with a cover as needed.

  In the example shown in FIG. 7, the bent portions 231A1 and 231B1 are provided at the tip portions of the extension portions 231A and 231B, but the bent portions 231A1 and 231B1 may be omitted. In addition, the end surface of the glass plate adhere | attached on extension part 231A, 231B can be protected by providing this bending part 231A1, 231B1.

[Other embodiments]
<Seal material>
FIG. 8 is a cross-sectional view showing another embodiment of the seal member.

  As the seal member, a seal member 50 having a U-shaped cross section may be used in accordance with the inner peripheral shape of the groove portion into which the glass plate is fitted. Thereby, protection of the end surface of a glass plate is attained simultaneously with sealing.

  Further, a fin-like lip portion 52A made of an elastic material is provided on the inner wall surface (the inner wall surface portions 33A and 33B of the concave stripe portion 33 and / or the side wall surface portions 32A and 32B of the spacer portion 32) of the groove portion into which the glass plate is fitted. , 52B, and the lip portions 52A, 52B can function as seal members. The lip parts 52A and 52B are provided along the longitudinal direction of the groove part, and sandwich the glass plate fitted in the groove part from both sides. At the same time, the gap between the frame and the glass plate is sealed.

  The lip portions 52A and 52B can be arranged at the same height, but are preferably arranged in steps as shown in FIG. This facilitates the fitting of the glass plate into the groove.

  Moreover, it is preferable to arrange | position the sheet-like cushion member 54 which consists of elastic materials in the bottom part of the groove part which has arrange | positioned the lip | rip parts 52A and 52B. Thereby, the end surface of the glass plate fitted in a groove part can be protected, and positioning can be ensured.

  In addition, the gap between the glass plate and the frame may be sealed with a gasket or glazing channel.

《Glass plate》
As the double-layer glass used as the first glass plate and / or the second glass plate, a general double-layer glass used for construction can be used. Similarly, a general glass plate used for construction can be used for the single glass used as the second glass plate.

  In addition, by using chemically strengthened glass for the glass plate constituting the multilayer glass and the glass plate constituting the single plate glass, the thickness of the shoji can be reduced while securing sufficient strength.

  Moreover, about double-glazed glass, heat insulation can be improved more by using double-glazed glass with which inert gas, such as argon gas and krypton gas, was enclosed in the hollow layer. Further, the same effect can be obtained even when a double-layer glass (vacuum glass) in which the hollow layer is evacuated is used.

  In addition, inert gas, such as argon gas and krypton gas, can be enclosed also in the space provided between each glass plate by hold | maintaining a 1st glass plate and a 2nd glass plate with a frame. Thereby, heat insulation can be improved more.

  Moreover, the glass plate provided with the low radiation film | membrane (Low-E film | membrane) can be used for a 1st glass plate and / or a 2nd glass plate. Thereby, heat insulation can be improved more.

  The glass plate is not limited to being colorless and transparent, and a colored or translucent one can also be used.

《Frame body》
The frame is composed of a collar part and a spacer part, but the collar part and the spacer part are preferably integrally molded. In particular, it is preferable that the frame body is manufactured for each of the upper, lower, left and right sides, and is molded by an integral molding method such as an extrusion molding method, a coextrusion molding method, or an injection molding method. Thereby, it becomes possible to manufacture a frame simply.

  Although the material which comprises a frame is not specifically limited, When integrally molding a collar part and a spacer part, it is preferable to use a synthetic resin material, and it is preferable to use a thermoplastic synthetic resin material especially. As the thermoplastic synthetic resin material, for example, a hard vinyl chloride resin material, an acrylonitrile / styrene resin material, and a material in which a glass fiber material is added thereto can be used. Frames integrally molded from hard vinyl chloride resin materials or acrylonitrile / styrene resin materials are particularly preferred because they are excellent in heat insulation when used as shoji, are easy to mold integrally, have excellent durability, and are inexpensive. . In addition to this, an aluminum material can also be used for the frame.

  Note that the frame body may have a composite structure using a plurality of types of materials. For example, different synthetic resin materials can be made into a composite structure frame made of different synthetic resin materials by co-extrusion molding. Further, the frame body may have a structure in which different materials are partially joined.

  Moreover, about the spacer part with which a frame is equipped, the space | interval of the glass plate to hold | maintain can be adjusted by adjusting the width | variety. As described above, the space provided between the glass plates is sealed, and exhibits the same function as the hollow layer of the multilayer glass. Since the heat insulation performance varies depending on the thickness of the space, it is preferable to set the width of the spacer portion to a width that can obtain the optimum heat insulation performance.

  Moreover, it is preferable that the frame manufactured for each of the upper, lower, left and right sides is provided with screw holes in order to facilitate the assembly. For example, as shown in FIG. 8, the screw holes can be provided on the outer peripheral portion of the flange portion 31 of the frame body 30. In the example shown in the figure, a pair of screw holes 39 are provided along the longitudinal direction of the frame body 30. In the frame body 30 thus provided with the screw holes 39, the parts constituting each side (upper frame body part, lower frame body part, left frame body part, right frame body part) are connected to the corner block at the corner part. In this case, it is possible to connect to the corner block using the screw hole 39 (the screw can be fixed to the corner block using the screw hole). Further, when the sides of the frame body 30 are directly connected, it is possible to connect them with screws using the screw holes 39.

<Adhesive>
When the glass plate is attached to the frame body and attached, the adhesive material to be used is selected in consideration of adhesive strength, moisture permeation prevention property, durability, adhesion process and the like. For example, when the spacer part is made of a synthetic resin material such as hard vinyl chloride resin or acrylonitrile / styrene resin, silicone adhesive, polysulfide adhesive, butyl adhesive, hot melt adhesive, epoxy adhesive Can be used as an adhesive.

  Further, the adhesive may be a transparent adhesive or an adhesive having an appropriate color tone according to black or other desired ones. If a transparent adhesive is used, a frame can be made into the design surface of a multiple glass shoji. Further, if an adhesive having an appropriate color tone is used according to black color or other requirements, this adhesive layer can be used as a design surface of a multiple glass shoji.

  Moreover, a glass plate can also be set as the structure attached using a double-sided tape.

  DESCRIPTION OF SYMBOLS 1 ... Multiple glass shoji, 10 ... 1st glass plate (two layers glass), 10A, 10B ... Glass plate which comprises 1st glass plate, 11 ... Hollow layer of 1st glass plate, 12 ... 1st glass plate spacer, 13 ... sealing member, 20 ... second glass plate (3 layers of multi-layer glass), 20A, 20B, 20C ... glass plates constituting the second glass plate, 21A, 21B ... Hollow layer of second glass plate, 22A, 22B ... Spacer of second glass plate, 23A, 23B ... Seal member, 30 ... Frame body, 31 ... Gutter part of frame body, 32 ... Spacer part of frame body, 32A 32B ... Side wall surface part of the spacer part, 32C ... Inner part of the spacer part, 32D ... Space part of the spacer part, 32E ... Vent hole of the spacer part, 33 ... Recessed part of the flange part, 33A, 33B ... Inner wall surface part, 33C ... bottom surface of concave stripe part 34 ... Desiccant, 36 ... Seal member, 37A ... First groove, 37B ... Second groove, 38 ... Space, 50 ... Seal member, 52A, 52B ... Lip part, 54 ... Cushion member, 100 ... Multiple glass Shoji, 110 ... first glass plate (two-layer glass), 120 ... second glass plate (single glass), 200 ... multiple glass shoji, 210 ... first glass plate (multi-layer glass), first 2 glass plates (single plate glass), 230 ... frame body, 231 ... frame flange part, 231A, 231B ... extension part of the flange part, 231A1, 231B1 ... bending part of the extension part, 231C ... outer peripheral groove part of the collar part, 232: Spacer portion of frame, 232A, 232B ... Side wall surface portion of spacer portion, 240 ... Adhesive

Claims (8)

A first glass plate made of multi-layer glass;
A second glass plate made of multi-layer glass or single-plate glass;
A frame that holds the first glass plate and the second glass plate in parallel with an interval;
Multiple glass shoji equipped with. The frame is
Buttock,
A spacer part provided on an inner peripheral part of the flange part, and the spacer part separating the first glass plate and the second glass plate;
The multiple glass shoji according to claim 1, comprising:   The multiple glass shoji according to claim 2, further comprising a seal member that seals between the frame body and the first glass plate and the second glass plate.   A lip portion made of an elastic material is provided on the opposing wall surface of the adjacent spacer portion, and the first glass plate or the second glass plate disposed between the spacer portions is sandwiched and held by the lip portion. The multiple glass shoji according to claim 2 or 3.   The said collar part is provided with the concave strip part by which the said 1st glass plate and said 2nd glass plate are engage | inserted in the said inner peripheral part, The said spacer part is arrange | positioned in the said concave strip part. The multiple glass shoji according to any one of the above.   The inner wall surface of the groove portion and the wall surface of the spacer portion facing the inner wall surface of the groove portion are provided with a lip portion made of an elastic material, and between the spacer portion and the inner wall surface of the groove portion. The multiple glass shoji according to claim 5, wherein the first glass plate or the second glass plate to be disposed is sandwiched and held by the lip portion. The spacer portion is
A space for storing the desiccant;
A vent hole communicating with the space;
The multiple glass shoji according to any one of claims 2 to 6, further comprising:   The multiple frame shoji according to any one of claims 1 to 7, wherein the frame further includes a bis-hole.

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