JP6335618B2 - Double-glazed gasket and joinery with double-glazed glass - Google Patents

Description

  The present invention relates to a gasket for a multilayer glass for mounting a multilayer glass on a frame, and a joinery provided with a multilayer glass in which the multilayer glass is mounted on a frame with a multilayer glass gasket interposed therebetween. .

A multilayer glass gasket called a glazing channel is shown in FIGS.
This multilayer glass gasket includes a hard holder having a substantially U-shaped cross section at a bottom plate portion and side plate portions on both sides, and a soft seal body provided on each side plate portion of the hard holder.
In the gasket for multilayer glass, the lower end surface of the multilayer glass is in contact with the bottom plate portion of the hard holding body in a state where it is attached to the lower edge of the multilayer glass.
For this reason, there exists a problem in the water resistance of the sealing part of a multilayer glass.
Patent Document 2 discloses a gasket for double-glazed glass that has solved this problem and improved the water resistance of the seal portion of the double-glazed glass.
This multi-layer glass gasket has a shape in which part of both ends of the bottom plate portion of the rigid holder is raised, the lower end surface of the multi-layer glass is in contact with the raised portion of the bottom plate portion, By forming a space between the bottom plate portion and the bottom plate portion, the water resistance of the seal portion is improved.

Japanese Patent Laid-Open No. 11-336438 Japanese Patent No. 4777688

Since the multilayer glass gasket is attached to the peripheral edge of the multilayer glass, the upper multilayer glass gasket to be attached to the upper edge, and the left and right vertical glass gaskets to be attached to the vertical edge, A lower glass gasket is mounted on the lower edge, and each multilayer glass gasket is cut at 45 ° according to the length of the upper edge, vertical edge, and lower edge of the double glass.
And by attaching each gasket for multilayer glass to the upper edge part of a multilayer glass part, a vertical edge part, and a lower edge part, and joining the cut end faces of the gasket for multilayer glass adjacent to each other, A gasket for multilayer glass is attached to the peripheral edge.

  Since the gasket for multilayer glass disclosed in Patent Document 2 is more expensive than the gasket for multilayer glass disclosed in Patent Document 1, the gasket for multilayer glass disclosed in Patent Document 2 is the peripheral portion of the multilayer glass. Is attached to the multi-layer glass gasket disclosed in Patent Document 1, which is significantly more expensive than the multi-glass mounted on the peripheral edge of the multi-layer glass.

Therefore, the inventors of the present invention assumed that the lower multilayer glass gasket to be attached to the lower edge portion of the multilayer glass was raised at both ends of the bottom plate portion as disclosed in Patent Document 2, and the multilayer glass As disclosed in Patent Document 1, the double-glazed glass for the vertical glass glass to be mounted on the vertical edge and the upper edge of the glass and the upper glass gasket for the double-glazed glass are not raised. The water resistance of the glass was improved, and an attempt was made to make an inexpensive gasket for multilayer glass.
However, since the lower multilayer glass gasket and the vertical multilayer glass gasket have different cross-sectional shapes, the soft seal body of the lower multilayer glass gasket and the soft seal body of the vertical multilayer glass gasket are joined portions. Problems such as misalignment at the (corner portion) occurred, and a multilayer glass gasket that could be put to practical use could not be obtained.

  The present invention has been made in view of the above-mentioned problems, and the object thereof is to use a gasket for a multilayer glass and a gasket for the multilayer glass, which are inexpensive while improving the water resistance of the seal portion of the multilayer glass. It is to make a joinery with a multi-layer glass attached to the frame.

The first multilayer glass gasket according to the present invention includes: a bottom glass gasket mounted on a lower edge portion of the multilayer glass; a bottom plate portion having both sides in the width direction raised and having a glass receiving surface; A hard holder having a substantially U-shaped cross section with side plate portions provided on both sides in the width direction of the portion, and a soft seal portion provided on each of the side plate portions,
The vertical multilayer glass gasket to be mounted on the vertical edge of the multilayer glass is a hard holder having a substantially U-shaped cross section with a bottom plate portion and side plate portions provided on both sides in the width direction of the bottom plate portion, A soft seal portion provided on each of the side plate portions,
The glass penetration dimension of the lower multilayer glass gasket and the glass penetration dimension of the vertical multilayer glass gasket are the same,
The joint surface of the lower multilayer glass gasket and the joint surface of the vertical multilayer glass gasket are each 45 °,
In the lower multilayer glass gasket and the vertical multilayer glass gasket, the joint surfaces are joined to each other, and the innermost edge is matched at the joint, and the glass receiving surface and the inner surface of the bottom plate portion are joined at the joint. It is the gasket for multilayer glass characterized by joining so that it may match.

In the first multilayer glass gasket, the apparent size of the soft seal portion of the lower multilayer glass gasket is larger than the apparent size of the vertical seal of the vertical multilayer gasket.
The outer surface of the apparent portion of the soft seal portion of the lower multilayer glass gasket is positioned outside the outer surface of the side plate portion, and a concave groove is formed on the outer surface of the apparent portion. In combination with the apparent dimensions of the soft seal part of the glass gasket,
The outer surface of the end portion closer to the end in the length direction than the concave groove in the portion below the concave groove of the apparent portion can be removed.
In this way, the portion above the concave groove of the soft seal portion of the lower multilayer glass gasket and the apparent portion of the soft seal portion of the vertical multilayer glass gasket are joined to each other. Because it matches, it looks good.
When the double-glazed glass gasket is mounted on the double-glazed glass, when it is mounted on the frame, the end of the lower portion of the soft seal portion of the lower double-glazed glass gasket is below the vertical portion of the frame. There is no interference with the frame material.

The second multilayer glass gasket of the present invention includes a bottom glass portion mounted on the lower edge of the multilayer glass, a bottom plate portion having both sides in the width direction raised and having a glass receiving surface, and a bottom plate A hard holder having a substantially U-shaped cross section with side plate portions provided on both sides in the width direction of the portion, and a soft seal portion provided on each of the side plate portions,
The vertical multilayer glass gasket to be mounted on the vertical edge of the multilayer glass is a hard holder having a substantially U-shaped cross section with a bottom plate portion and side plate portions provided on both sides in the width direction of the bottom plate portion, A soft seal portion provided on each of the side plate portions,
The outer peripheral surface shape, overall height, and soft seal portion of the lower multilayer glass gasket are the same as the outer peripheral surface shape, overall height, soft seal portion of the vertical multilayer glass gasket, and the vertical multilayer glass gasket is the same. The glass penetration depth is larger than the glass penetration depth of the lower gasket for multilayer glass,
The joint surface of the lower multilayer glass gasket and the joint surface of the vertical multilayer glass gasket are each 45 °,
In the lower multilayer glass gasket and the vertical multilayer glass gasket, the joining surfaces are joined to each other, and the innermost edge is matched at the joined portion, and the inner side surfaces of the bottom plate portion are matched at the joined portion. It is the gasket for multilayer glass characterized by joining so.

In the second multilayer glass gasket, the lower multilayer glass gasket and the vertical multilayer glass gasket are formed on the multilayer glass, and the lower corner of the multilayer glass is longer than the joint portion of the gasket. It can be mounted so as to be located closer to the bottom plate of the gasket for multilayer glass.
In this way, the gap between the vertical end surface of the multilayer glass and the inner surface of the bottom plate portion of the vertical multilayer glass gasket can be reduced or contacted, and the multilayer glass is used for the vertical multilayer glass. Does not move greatly in the direction of the gasket.

In the second multilayer glass gasket, the joint surface of the lower multilayer glass gasket is a length from the innermost edge to the glass receiving surface of the bottom plate portion, and the longitudinal multilayer with the end face in the longitudinal direction. It can be made into a thing which has a clearance gap between the joint surfaces of the glass gasket.
If it does in this way, since the water which flowed into the baseplate part of the gasket for lower multilayer glass will be drained from a length direction edge part, the drainage of a lower corner edge part will improve.

The joinery comprising the multilayer glass of the present invention is equipped with the lower multilayer glass gasket according to claim 1 and the vertical multilayer glass gasket on the lower edge and vertical edge of the multilayer glass, The lower corner of the multilayer glass matches the joint of the lower multilayer glass gasket and the vertical multilayer glass gasket,
The lower edge portion of the multilayer glass is attached to the inward recess of the lower frame material of the frame body with the gasket for the lower multilayer glass interposed therebetween,
A fitting having a multilayer glass, wherein a vertical edge portion of the multilayer glass is attached to an inward recess of a vertical frame member of the frame body with the vertical multilayer glass gasket interposed therebetween. It is.

In the joinery equipped with the double-glazed glass of the present invention, the lower glass glass gasket according to claim 1 and the vertical double-glazed gasket are attached to the lower edge and the vertical edge of the double-glazed glass,
The lengthwise end of the lower frame member of the frame is inserted into the inward recess of the vertical frame member,
The end portion of the lower portion of the soft seal portion of the lower multi-layer glass gasket below the apparent groove of the soft seal portion may enter the inward recess of the vertical frame member.
In this way, when assembling the joinery, it is possible to easily assemble the joinery without causing the apparent portion of the soft seal portion of the lower multilayer glass gasket to interfere with the vertical frame member.

The gasket for multilayer glass of the present invention has a glass receiving surface in which the lower gasket for multilayer glass is raised, so that the water resistance of the sealing portion of the multilayer glass is improved, and the gasket for vertical multilayer glass is improved. Since the bottom plate portion of this is not raised, it is inexpensive.
In addition, since the innermost edge of the lower multilayer glass gasket and the innermost edge of the vertical multilayer glass gasket match at the joint, the appearance is good.

It is an inside view of joinery provided with double-glazed glass. It is an AA expanded sectional view of FIG. It is sectional drawing of the gasket for lower multilayer glass. It is BB expanded sectional drawing of FIG. It is sectional drawing of the gasket for vertical multilayer glass. It is a corner part front view of the state which joined the gasket for lower multilayer glass, and the gasket for vertical multilayer glass. It is an expansion detailed explanatory view of the corner part which connected the lower frame material and vertical frame material of FIG. It is sectional drawing of the gasket for lower multilayer glass which shows 2nd Embodiment. It is sectional drawing of the gasket for vertical multilayer glass which shows 2nd Embodiment. It is a front view of the corner part of the state which joined the gasket for lower multilayer glass which shows 2nd Embodiment, and the gasket for vertical multilayer glass. It is a front view of the corner part of the state which joined the gasket for lower multilayer glass and the gasket for vertical multilayer glass which show 3rd Embodiment.

As shown in FIG. 1, a joinery 1 equipped with the multilayer glass of the present invention includes a frame body 2, a multilayer glass 3 mounted on the frame body 2, and a multilayer glass mounted on the peripheral edge of the multilayer glass 3. A gasket 4 is provided.
The frame 2 is formed by connecting a lower frame member 20, left and right vertical frame members 30, 30, and an upper frame member 40 in a square shape.
The multilayer glass gasket 4 is attached to the lower edge of the multilayer glass 3, and the lower multilayer glass gasket 50 attached to the inward recess 20 a of the lower frame member 20 and the left and right sides of the multilayer glass 3. A vertical glass gasket 60 attached to the vertical edge and attached to the inward recess 30a of the vertical frame member 30 and an inward recess of the upper frame member 40 attached to the upper edge of the multilayer glass 3. It has an upper gasket 70 for multi-layer glass to be attached to 40a.
And it is set as the square-shaped multilayer glass gasket 4 by joining the longitudinal direction both ends of each gasket 50, 60, 70 for multilayer glass.

As shown in FIG. 2, the multi-layer glass 3 is configured such that the one-side glass 30 and the other-side glass 31 are arranged at intervals, and the peripheral portions of the one-side glass 30 and the other-side glass 31 are sealed with a seal portion 32. is there.
As shown in FIG. 2, the lower frame member 20 has a side wall 21 on one side in the out-of-plane direction, another side wall 22 on the other side in the out-of-plane direction, and a connecting wall 23 that connects the one side wall 21 and the other side wall 22. It has the inward recessed part 20a opened toward.
A door wheel 24 is attached to the lower frame member 20 below the inward recess 20a. That is, the fitting 1 provided with the multilayer glass of the embodiment is a shoji.
In the embodiment, the lower frame member 20 is formed as a lower frame member 20 by connecting one side member 25 of the synthetic resin on one side in the out-of-plane direction and the other side member 26 of the aluminum alloy on the other side in the out-of-plane direction.
In the above description, the one side in the out-of-plane direction is the side facing the indoor side with the fittings attached to the building, and the other side in the out-of-plane direction is the side facing the outdoor side.

As shown in FIG. 3, the lower multilayer glass gasket 50 had a width in the thickness direction (out-of-plane direction) of the multilayer glass 3 and a length in the length direction of the multilayer glass 3. The bottom plate portion 51 and the side plate portions 52, 52 provided on both sides in the width direction of the bottom plate portion 51 with the upper side facing each other, a hard holding body 53 having a substantially U-shaped cross section, and each side plate portion 52 of the hard holding body 53. And a soft seal portion 54 provided on the upper end portion 52a.
Both side portions 51a, 51a in the width direction of the bottom plate portion 51 are raised, and the upper surfaces of both side portions 51a, 51a are higher than the upper surface of the central portion 51b in the width direction between the both side portions 51a. The upper surface of 51a is the glass receiving surface 50a of the gasket 50 for multilayer glass below, and the drain hole 55 is formed in the center part 51b of the baseplate part 51. FIG.
That is, the bottom plate portion 51 of the lower multilayer glass gasket 50 has a glass receiving surface 50 a at a position higher than the portion where the drain hole 55 is formed.
Each side plate portion 52 is provided upward on both side portions 51 a of the bottom plate portion 51.

Each soft seal portion 54 has a lower portion 54a provided at the upper end portion 52a of the side plate portion 52, and an upper portion 54b that is continuous with the lower portion 54a and protrudes upward from the lower portion 54a.
An upper portion of the inner side surface 54b-1 of the upper portion 54b is bent inward, and an upper portion of the upper portion 54b has an inward projection 56 having a triangular cross section. The inner side surface is a surface on the side where the multilayer glass 3 is mounted.
The inner side surface 54 a-1 of the lower part 54 a is continuous with the inner side surface 54 b-1 of the upper part 54 b, and the inner side surface 54 a-1 of the lower part 54 a and the inner side surface 54 b-1 of the upper part 54 b are It is located inside the inner side surface 52b.
A seal piece 57 is provided below the inner side surface 54a-1 of the lower portion 54a. The seal piece 57 is directed obliquely downward.

The thickness of the upper portion 54 b is larger than the thickness of the lower portion 54 a, and the outer surface 54 b-2 of the upper portion 54 b is located outside the outer surface 52 c of the side plate portion 52. The outer side surface 54 a-2 of the lower portion 54 a is located inside the outer side surface 52 c of the side plate portion 52. The outer side surface is a surface on the opposite side to the side on which the multilayer glass 3 is mounted.
The outer side surface 54 a-2 of the lower part 54 a of the soft seal part 54 and the lower surface 54 b-3 of the upper part 54 b have a downward saddle shape, and the downward saddle shape part is the supported part 58 of the soft seal part 54.
A concave groove 59 which is a parting edge is continuously provided in the longitudinal direction in the upper and lower middle of the outer surface 54b-2 of the upper portion 54b of the soft seal portion 54.

  The overall height of the lower multilayer glass gasket 50, that is, the dimension from the outer surface 51c of the bottom plate portion 51 to the uppermost portion of the soft portion 54 is H1, and the glass penetration depth, that is, the glass receiving surface 50a of the bottom plate portion 51 and the soft seal. The dimension between the uppermost part of the part 54 is H2 (H1> H2).

As shown in FIG. 2, the lower multilayer glass gasket 50 is attached to the lower edge of the multilayer glass 3, and the glass receiving surface 50 a is in contact with the lower end surface of the one side glass 30 and the lower end surface of the other side glass 31. A gap S is formed between the seal portion 32 and the central portion 51 b of the bottom plate portion 51.
The inward protrusion 56 and the seal piece 57 of the soft seal portion 54 are in contact with the one side glass 30 and the other side glass 31.

As shown in FIG. 2, the lower glass sheet gasket 50 together with the lower edge of the multi-layer glass 3 is mounted so as to be pushed into the inward recess 20 a of the lower frame material 20. 21, the inner end 21 a which is the upper end of the other side wall 21, and the inner end 22 a which is the upper end of the other side wall 22 are in contact with the supported portion 58 of the soft seal portion 54, and the soft seal portion 54 is supported by the lower frame member 20. The side is supported by one side wall 21 and the other side wall 22.
The soft seal portion 54 is an apparent portion where the upper portion 54b protrudes inward from the lower frame member 20 and the upper portion 54b is visible from the outside. The apparent dimension visible from the outside of the soft seal portion 54 is T1.

Since it is like this, the lower edge part of the multilayer glass 3 can be attached to the inward recessed part 20a of the lower frame member 20 with the lower multilayer glass gasket 50 interposed therebetween.
Since there is a gap S between the seal portion 32 of the multilayer glass 3 and the bottom plate portion 51 of the lower multilayer glass gasket 50, the water resistance of the seal portion 32 of the multilayer glass 3 is improved.

As shown in FIG. 4, the vertical frame member 30 is opposite on the one side wall 31 on one side in the out-of-plane direction, on the other side wall 32 on the other side in the out-of-plane direction, and on the connecting wall 33 that connects the one side wall 31 and the other side wall 32. It has an inward recess 30a that opens toward the vertical frame member 30 on the side.
In the embodiment, the one side member 34 of the synthetic resin and the other side member 35 of the aluminum alloy are connected to form the vertical frame member 30.

As shown in FIG. 5, the vertical multilayer glass gasket 60 includes a bottom plate portion 61 and both side plates 62 and 62 provided on both sides in the width direction of the bottom plate portion 61. 63, and a soft seal portion 64 provided at the tip end portion 62a of the side plate portions 62.
A drain hole 65 is formed in the bottom plate portion 61.
The bottom plate portion 61 and the side plate portions 62 are plate-like with the same thickness.
The soft seal portion 64 has a proximal end portion 64a provided at the distal end portion 62a of the side plate portion 62 and a distal end portion 64b provided at the distal end of the proximal end portion 64a.
The distal end portion 64b has an inward protruding portion 66 having a triangular cross-section projecting inward from the inner side surface 64a-1 of the base end portion 64a, and an outward direction projecting outward from the outer side surface 64a-2 of the base end portion 64a. And a protrusion 67.
A seal piece 68 is provided near the bottom plate portion 61 of the inner side surface 64a-1 of the base end portion 64a. The seal piece 68 protrudes inward from the inner side surface 62 b of the side plate portion 62.
The outward projecting portion 67 of the tip end portion 64 b projects outward from the outer side surface 62 c of the side plate portion 62.
The outer surface 64 a-2 and the outward projecting portion 67 of the base end portion 64 a have a hook shape, and the hook-shaped portion is a supported portion 69 of the soft seal portion 64.

The soft seal portion 54 of the lower multilayer glass gasket 50 shown in FIG. 3 and the soft seal portion 64 of the vertical multilayer glass gasket 60 shown in FIG. 5 have the same inner shape and length.
That is, the inward projection 56 and the inward projection 66 have the same cross-sectional shape, and the seal piece 57 and the seal piece 68 have the same cross-sectional shape. The length L1 between the inward projection 56 and the seal piece 57 and the length L2 between the inward projection 66 and the seal piece 68 are the same.
The outer surface shape of the upper portion 54b of the soft seal portion 54 of the lower multilayer glass gasket 50 above the concave groove 59 and the outer surface of the tip portion 64b of the soft seal portion 64 of the vertical multilayer glass gasket 60 The shape is the same.
The supported portion 58 of the soft seal portion 54 of the lower multilayer glass gasket 50 and the supported portion 69 of the soft seal portion 64 of the vertical multilayer glass gasket 60 have the same shape.

The total height of the vertical multilayer glass gasket 60, that is, the dimension from the outer surface 61a of the bottom plate portion 61 to the tip of the soft seal portion 64 is H3, which is lower than the total height H1 of the lower multilayer glass gasket 50. That is, the raised dimension H5 of the bottom plate portion 51 is lower.
The glass penetration depth of the vertical multilayer glass gasket 60, that is, the dimension of the inner side surface 61b of the bottom plate portion 61 and the leading edge of the soft seal portion 64 is H4, and the lower multilayer glass gasket 50 shown in FIG. It is the same as the glass penetration depth H2.

  As shown in FIG. 4, a vertical double-glazed glass gasket 60 is attached to the vertical edge portion of the double-glazed glass 3, and the end face of the one side glass 30 and the other side glass 31 contacts the inner side surface 61 b of the bottom plate portion 61. Alternatively, they face each other with a slight gap therebetween, and the inward projection 66 and the seal piece 68 of the soft seal portion 64 are pressed against the one side glass 30 and the other side glass 31, respectively.

The vertical edge of the multilayer glass 3 is pushed together with the vertical multilayer glass gasket 60 into the inward recess 30a of the vertical frame member 30, and the inner end 31a of one side wall 31 of the vertical frame member 30 and the inner end of the other side wall 32. By supporting the soft seal portion 64 with the vertical frame member 30 in contact with the supported portion 69 at 32a, the vertical frame member 30 is interposed between the vertical edge portions of the multilayer glass 3 with the vertical multilayer glass gasket 60. Attach to.
The soft seal portion 64 is an apparent portion where the tip end portion 64b protrudes inward from the vertical frame member 30 and the tip end portion 64b is visible from the outside. The apparent dimension visible from the outside of the soft seal portion 64 is T2.
The apparent dimension T2 is smaller than the apparent dimension T1 of the lower multilayer glass gasket 50. That is, the total height difference (H1−H3) is small.

The joining of the lower multilayer glass gasket 50 and the vertical multilayer glass gasket 60 will be described.
The innermost edge (the uppermost portion of the soft seal portion 54) 50-1 of the lower multilayer glass gasket 50 and the innermost edge (the most advanced portion of the soft seal portion 64) 60-1 of the vertical multilayer glass gasket 60 And join so that they match at the joint.
The lower multilayer glass gasket 50 and the vertical multilayer glass gasket 60 have different overall heights H1 and H3, but have the same glass penetration depths H2 and H4.
As shown in FIG. 6, the lengthwise end of the lower multilayer glass gasket 50 is cut between the glass receiving surface 50a of the bottom plate 51 and the innermost edge 50-1 with a cutting angle θ1 of 45 °. And between the glass receiving surface 50a and the innermost edge 50-1, let it be the joining surface 50-2. The joint surface 50-2 is 45 °. An end surface 51d from the glass receiving surface 50a to the outer surface 51c of the bottom plate portion 51 is perpendicular to the length direction.
The vertical multi-layer glass gasket 60 has a longitudinal end portion cut between the inner side surface 61b of the bottom plate portion 61 and the innermost edge 60-1 with a cutting angle θ2 of 45 °, and a joining surface 60-2. And The joining surface 60-2 is 45 °. An end surface 61c in the length direction of a portion between the inner side surface 61b and the outer side surface 61a of the bottom plate portion 61 is set to be perpendicular to the length direction.
The ideal cutting angle at the lengthwise ends of the lower multilayer glass gasket 50 and the vertical multilayer glass gasket 60 is θ1 and θ2 of 45 °, but the angle actually varies depending on the cutting accuracy. When the cutting angles θ1 and θ2 are 45 ° or less, a gap is formed in the joint portion (soft seal portions 54 and 64). Therefore, when cutting, the cutting is performed at an angle of 45 ° or more and the cutting angle does not become 45 ° or less. I am doing so.

  Joining the joining surface 50-2 of the lower multilayer glass gasket 50 and the joining surface 60-2 of the vertical multilayer glass gasket 60, and matching the glass receiving surface 50a and the inner side surface 61b at the joint, The innermost edges 50-1 and 60-1 are matched.

By joining in this way, the lower corner portion 3c of the lower end surface 3a and the vertical end surface 3b of the multilayer glass 3 is matched with the lower corner portion where the joining surfaces 50-2 and 60-2 are joined. While contacting the lower end surface 3a of the layer glass 3 and the glass receiving surface 50a, the vertical end surface 3b of the multilayer glass 3 and the inner surface 61a of the bottom plate part 61 can be approached. The vertical end surface 3b of the multilayer glass 3 and the inner side surface 61a of the bottom plate portion 61 are preferably in direct or indirect contact.
In FIG. 6, the lower end surface 3a and the glass receiving surface 50a of the multi-layer glass 3 and the vertical end surface 3b of the multi-layer glass 3 and the inner side surface 61b of the bottom plate portion 61 are illustrated with a gap, but actually contact each other. Alternatively, contact is made with a spacer or the like interposed.

As shown in FIG. 6, the apparent dimension T1 of the lower multilayer glass gasket 50 is larger than the apparent dimension T2 of the vertical multilayer glass gasket 60, but the lower multilayer glass gasket 50 has a softness. The concave groove 59 of the seal portion 54 is formed at a position having the same dimension as the apparent dimension T2 of the vertical glass gasket 60 from the innermost edge 50-1, so that the portion 54b above the concave groove 59 is formed. -4 and the visible portion (tip portion 64b) of the soft seal portion 64 of the vertical multilayer glass gasket 60 can be seen continuously at the joint portion.
Therefore, the appearance of the apparent portions of the lower multilayer glass gasket 50 and the vertical multilayer glass gasket 60 is good.

As shown in FIG. 7, the lower frame member 20 and the vertical frame member 30 are configured such that the lower frame member 20 is inserted into the inward recess 30 a of the vertical frame member 30, and the end face 20 c in the length direction of the lower frame member 20 is It is connected in contact with the connecting wall 33 of the material 30.
The upper portion 54b of the soft seal portion 54 of the lower multilayer glass gasket 50 protrudes inward from the inner end 20b of the lower frame member 20, that is, the inner end 21a of the one side wall 21 and the inner end 22a of the other side wall 22. The upper portion 54b is an apparent portion.
The leading end portion 64b of the soft seal portion 64 of the vertical multilayer glass gasket 60 protrudes inwardly from the inner end 30b of the vertical frame member 30, that is, the inner end 31a of the one side wall 31 and the inner end 32a of the other side wall 32, and is external. The tip 64b is an apparent part.

  And the part 54b-4 above the recessed groove 59 of the upper part 54b of the soft seal part 54 of the lower multilayer glass gasket 50, and the tip part 64b of the soft seal part 64 of the vertical multilayer glass gasket 60 Is continuous at the joint, so that the appearance of the visible portion of the gasket 50 for the double-layer glass and the vertical gasket 60 for the double-layer glass provided with the double-glazed glass is good, and the goodness of the joinery 1 is good. It will be a thing.

  By connecting the lower frame member 20 and the vertical frame member 30 as shown in FIG. 7, a portion 54 b − lower than the concave groove 59 in the upper portion 54 b of the soft seal portion 54 of the lower multilayer glass gasket 50. 5 enters the inwardly recessed portion 30a of the vertical frame member 30 rather than the inner end 30b of the vertical frame member 30, but the thickness of the upper portion 54b of the soft seal portion 54 is large, and the outer side surface 54b of the upper portion 54b. -2 protrudes outward from the outer surface 52c of the side plate portion 52, so that the end portion 54b closer to the end in the length direction than the concave groove 59 of the lower portion 54b-5 than the concave groove 59 of the upper portion 54b. -5a cannot interfere with the inner end 30b of the vertical frame member 30 and enter the inward recess 30a of the vertical frame member 30.

As shown by hatching in FIGS. 6 and 7, the inward concave portion of the vertical frame member 30 in the lower portion 54 b-5 than the concave groove 59 of the upper portion 54 b of the soft seal portion 54 of the lower multilayer glass gasket 50. By cutting along the cutting line a shown by the phantom line in FIG. 3 near the outer side surface 54b-2 of the end portion 54b-5a entering into 30a, the outer side surface side of the entering end portion 54b-5a is removed, The remaining part has the same width as the lower part 54a.
As a result, the end portion 54b-5a of the portion 54b-5 below the concave groove 59 of the upper portion 54b can be inserted into the inwardly recessed portion 30a of the vertical frame member 30.

  Although the upper multilayer glass gasket 70 is not shown in the drawing, it is the same as the vertical multilayer glass gasket 60, and is joined in the same manner as in the past by cutting the end in the length direction at 45 °.

A joinery provided with double-glazed glass can be assembled as follows.
The lower edge of the multilayer glass 3 is attached to the peripheral edge of the multilayer glass 3 by attaching the lower multilayer glass gasket 50, the vertical multilayer glass gasket 60, and the upper multilayer glass gasket 70. Is inserted into the inward recess 20a of the lower frame member 20 with the lower glass gasket 50 interposed therebetween, and the upper edge of the multi-layer glass 3 is interposed with the upper multi-layer glass gasket 70. The upper frame member 40 is inserted into the inward recess 40a.
The vertical edge portion of the multilayer glass 3 is inserted into the inward recessed portion 30a of the vertical frame member 30 with a vertical multilayer glass gasket 60 interposed therebetween. At the same time, the length of the lower frame member 20 and the upper frame member 40 is increased. The longitudinal end is inserted into the inward recess 30a of the vertical frame member 30, and the vertical frame member 30 and the lower frame member 20 are screwed into the lower frame member 20 and the upper frame member 40 from the vertical frame member 30. By joining the upper frame material 40 and assembling the frame body 2, a joinery is obtained.

Next, a second embodiment will be described.
Since the joinery provided with the multi-layer glass is the same as the joinery 1 shown in FIG.
As shown in FIG. 8, the lower multilayer glass gasket 50 includes a hard holder 53 having a substantially U-shaped cross section and a soft seal portion 54. The shape of the hard holding body 53 is the same as the shape of the hard holding body 53 of the multilayer glass gasket 50 according to the first embodiment, and a bottom plate portion 51 that is raised and has a glass receiving surface 50a, and both side plate portions 52. have.

The soft seal portion 54 of the lower multilayer glass gasket 50 has a narrow lower portion 54a and a wide upper portion similar to the soft seal portion 64 of the vertical multilayer glass gasket 60 of the first embodiment. Part 54b.
A seal piece 57 is provided below the inner side surface 54a-1 of the lower portion 54a.
The outer side surface 54 a-2 of the lower portion 54 a is located inside the outer side surface 52 c of the side plate portion 52.
The upper portion 54b has an inward projection 80 projecting inward from the inner side surface 54a-1 of the lower portion 54a, and an outward projection 81 projecting outward from the outer surface 54a-2 of the lower portion 54a. The width of the upper portion 54 is larger than the width of the lower portion 54a.
The lower surface 54 b-3 of the upper portion 54 b (outward protruding portion 81) and the outer surface 54 a-2 of the lower portion 54 a are continuous in a bowl shape, and the bowl-shaped portion forms a supported portion 82 of the soft seal portion 54. Yes. Thereby, the upper part 54b is an apparent part, and the dimension between the supported part 82 and the uppermost end of the upper part 54b is an apparent dimension T1.

As shown in FIG. 9, the vertical multilayer glass gasket 60 has the same shape as the vertical multilayer glass gasket 60 of the first embodiment, and the description thereof is omitted because the reference numerals are the same.
The total height H1 of the lower multilayer glass gasket 50 and the length L1 of the soft seal portion 54 are the same as the total height H3 of the vertical multilayer glass gasket 60 and the length L2 of the soft seal portion 64.
The glass penetration depth H2 of the lower multilayer glass gasket 50 is smaller than the glass penetration depth H4 of the vertical multilayer glass gasket 60.
The apparent dimension T1 of the lower multilayer glass gasket 50 is equal to the apparent dimension T2 of the vertical multilayer glass gasket 60.

That is, the lower multilayer glass gasket 50 and the vertical multilayer glass gasket 60 have the U-shaped hard holders 53 and 63 and the soft seal portions 54 and 64, and the bottom plate portions 51 and 61. The shape of the outer side surfaces 51c and 61a, the shape of the outer side surfaces 52c and 62c of the side plate portions 52 and 62, and the shape of the outer peripheral side surface that is the shape of the outer side surfaces of the soft seal portions 54 and 64 are the same. Dimensions T1 and T2 are the same, and glass penetration depths H1 and H2 are different.
The bottom plate portion 51 of the lower multilayer glass gasket 50 is raised on both sides, and has glass receiving surfaces 50 a on both sides of the bottom plate portion 51.

The lower multilayer glass gasket 50 and the vertical multilayer glass gasket 60 are joined as shown in FIG.
The lower end of the multilayer glass gasket 50 in the longitudinal direction is cut at 45 °, and the joining surface 50-2 is set at 45 °.
The longitudinal end of the vertical multilayer glass gasket 60 is cut at 45 degrees, and the joining surface 60-2 is set at 45 degrees.
The joint surface 50-2 of the lower multilayer glass gasket 50 is the length from the innermost edge 50-1 to the inner surface 51e of the bottom plate portion 51.
A joining surface 60-2 of the vertical multilayer glass gasket 60 has a length from the innermost edge 60-1 to the inner side surface 61b of the bottom plate portion 61.
The lower multilayer glass gasket 50 and the vertical multilayer glass gasket 60 are formed such that the innermost edge 50-1 and the innermost edge 60-1 are joined by joining the joint surface 50-2 and the joint surface 60-2. In addition to matching at the joint portion, the inner surface 51e of the bottom plate portion 51 and the inner surface 61b of the bottom plate portion 61 are joined so as to match at the joint portion.

  By joining in this way, the innermost edge 50-1 and the innermost edge 60-1, the visible portion (the upper portion 54b of the soft seal portion 54) and the apparent portion (the tip portion 64b of the soft seal portion 64) are formed. Each matches at the joint.

  The lower multilayer glass gasket 50 and the vertical multilayer glass gasket 60 are mounted on the lower edge and the vertical edge of the multilayer glass 3 in the same manner as in the first embodiment. A gap S is formed between the portion 32 and the portion between the glass receiving surface 50 a of the bottom plate portion 51 of the lower multilayer glass gasket 50.

In the second embodiment, the glass penetration depth H4 of the vertical multilayer glass gasket 60 is larger than the glass penetration depth H2 of the lower multilayer glass gasket 50, and the vertical glass and the lower end surface 3a of the multilayer glass 3 are longitudinal. When the lower corner portion 3c with the end surface 3b is located at the gasket joint portion, the vertical end surface 3b of the multilayer glass 3 and the inner side surface 61b of the bottom plate portion 61 of the vertical multilayer glass gasket 60 are greatly separated.
For this reason, the double-glazed glass 3 may move greatly until it hits the inner side surface 61 b of the bottom plate portion 61 by opening and closing the fitting with the double-glazed glass 3 attached to the frame 2.

In the second embodiment, the corner portion 3c below the multilayer glass 3 is closer to the bottom plate portion 61 of the multilayer glass gasket 60 than the gasket joint portion, and the inner side surface 61b of the bottom plate portion 61 and the multilayer glass are arranged. 3 is approaching the vertical end face 3b. Preferably it contacts directly or indirectly.
Thereby, when the fitting with the multi-layer glass 3 is opened and closed, the multi-layer glass 3 does not move greatly.

  Also in the second embodiment, the upper multilayer glass gasket 70 is the same as the vertical multilayer glass gasket 60.

Next, a third embodiment will be described.
In this embodiment, the lower multilayer glass gasket 50 and the vertical multilayer glass gasket 60 are the same as those of the second embodiment.
The difference between this embodiment and the second embodiment is the shape of the joint between the lower multilayer glass gasket 50 and the vertical multilayer glass gasket 60.
That is, as shown in FIG. 11, the joining portion 50-2 of the lower multilayer glass gasket 50 is the length from the innermost edge 50-1 to the glass receiving surface 50 a of the bottom plate portion 51, and the glass of the bottom plate portion 51. An end surface 51d in the length direction from the receiving surface 50a to the outer surface 51c is set to be perpendicular to the glass receiving surface 50a.
A joining surface 60-2 of the vertical multilayer glass gasket 60 has a length from the innermost edge 60-1 to the inner side surface 61b of the bottom plate portion 61.

By doing in this way, the clearance gap b is formed between the end surface 51d of the length direction of the baseplate part 51, and the joint surface 60-2 of the vertical multilayer glass gasket 60. FIG. And the space | gap S between the seal part 32 of the multilayer glass 3 and the inner surface 51e of the baseplate part 51 opens outside from the clearance gap b, and is connected.
Therefore, water accumulated in the gap S, water flowing from the vertical multilayer glass gasket 60, and the like are drained from the gap b, and drainage performance at the lower corner end is improved.

  In each embodiment, the joinery is a shoji, but the joinery can be a fitting window.

  DESCRIPTION OF SYMBOLS 1 ... Joinery, 2 ... Frame, 3 ... Multi-layer glass, 3c ... Lower corner part, 4 ... Gasket for multi-layer glass, 20 ... Lower frame material, 20a ... Inward recessed part, 30 ... Vertical frame material, 30a ... Inside Orientation recessed part, 50 ... Gasket for lower multilayer glass, 50-1 ... Innermost edge, 50-2 ... Joining surface, 50a ... Glass receiving surface, 51 ... Bottom plate part, 52 ... Side plate part, 53 ... Hard holding body, 54 ... Soft seal part, 59 ... Ditch, 60 ... Vertical gasket for multilayer glass, 60-1 ... Inner edge, 60-2 ... Joint surface, 61 ... Bottom plate part, 62 ... Side plate part, 63 ... Hard holding Body, 64 ... soft seal part.

Claims (6)

The lower multilayer glass gasket to be mounted on the lower edge of the multilayer glass is composed of a bottom plate portion having both sides in the width direction raised and having a glass receiving surface, and side plate portions respectively provided on both sides in the width direction of the bottom plate portion. A hard holding body having a substantially U-shaped cross section, and a soft seal portion provided on each of the side plate portions,
The vertical multilayer glass gasket to be mounted on the vertical edge of the multilayer glass is a hard holder having a substantially U-shaped cross section with a bottom plate portion and side plate portions provided on both sides in the width direction of the bottom plate portion, A soft seal portion provided on each of the side plate portions,
The glass penetration dimension of the lower multilayer glass gasket and the glass penetration dimension of the vertical multilayer glass gasket are the same,
The joint surface of the lower multilayer glass gasket and the joint surface of the vertical multilayer glass gasket are each 45 °,
In the lower multilayer glass gasket and the vertical multilayer glass gasket, the joint surfaces are joined to each other, and the innermost edge is matched at the joint, and the glass receiving surface and the inner surface of the bottom plate portion are joined at the joint. Are joined so that
The apparent dimension of the soft seal portion of the lower multilayer glass gasket is larger than the apparent dimension of the soft seal portion of the vertical multilayer gasket,
The outer surface of the apparent portion of the soft seal portion of the lower multilayer glass gasket is positioned outside the outer surface of the side plate portion, and a concave groove is formed on the outer surface of the apparent portion. In combination with the apparent dimensions of the soft seal part of the glass gasket,
A gasket for a multilayer glass, wherein an outer surface near an end nearer to a lengthwise end than a concave groove in a portion below the concave groove of the apparent portion is removed . The lower multilayer glass gasket to be mounted on the lower edge of the multilayer glass is composed of a bottom plate portion having both sides in the width direction raised and having a glass receiving surface, and side plate portions respectively provided on both sides in the width direction of the bottom plate portion. A hard holding body having a substantially U-shaped cross section, and a soft seal portion provided on each of the side plate portions,
The vertical multilayer glass gasket to be mounted on the vertical edge of the multilayer glass is a hard holder having a substantially U-shaped cross section with a bottom plate portion and side plate portions provided on both sides in the width direction of the bottom plate portion, A soft seal portion provided on each of the side plate portions,
The outer peripheral surface shape, overall height, and soft seal portion of the lower multilayer glass gasket are the same as the outer peripheral surface shape, overall height, soft seal portion of the vertical multilayer glass gasket, and the vertical multilayer glass gasket is the same. The glass penetration depth is larger than the glass penetration depth of the lower gasket for multilayer glass,
The joint surface of the lower multilayer glass gasket and the joint surface of the vertical multilayer glass gasket are each 45 °,
In the lower multilayer glass gasket and the vertical multilayer glass gasket, the joining surfaces are joined to each other, and the innermost edge is matched at the joined portion, and the inner side surfaces of the bottom plate portion are matched at the joined portion. A gasket for multilayer glass , characterized by being joined as described above . The lower multilayer glass gasket and the vertical multilayer glass gasket are formed on the multilayer glass, and the lower corner portion of the multilayer glass is closer to the bottom plate portion of the vertical multilayer glass gasket than the joint portion of the gasket. The gasket for multilayer glass according to claim 2, which is mounted so as to be positioned . The bonding surface of the lower multilayer glass gasket is the length from the innermost edge to the glass receiving surface of the bottom plate portion, and a gap is formed between the end surface in the longitudinal direction and the bonding surface of the vertical multilayer glass gasket. The gasket for multilayer glass of Claim 2 or 3 which has these . The lower glass glass gasket and the vertical multi-layer glass gasket according to claim 1 are mounted on the lower and vertical edges of the multi-layer glass, and the lower corner of the multi-layer glass is the lower multi-layer glass. It matches the joint between the laminated glass gasket and the vertical double-glazed gasket,
The lower edge portion of the multilayer glass is attached to the inward recess of the lower frame material of the frame body with the gasket for the lower multilayer glass interposed therebetween,
A fitting having a multilayer glass, wherein a vertical edge portion of the multilayer glass is attached to an inward recess of a vertical frame member of the frame body with the vertical multilayer glass gasket interposed therebetween. . On the lower edge and the vertical edge of the multilayer glass, the lower multilayer glass gasket according to claim 1 and the vertical multilayer glass gasket are mounted .
The lengthwise end of the lower frame member of the frame is inserted into the inward recess of the vertical frame member,
The multilayer glass according to claim 5, wherein an end portion of a portion below the concave groove in the apparent portion of the soft seal portion of the lower multilayer glass gasket enters the inward concave portion of the vertical frame member. Provided joinery.

Images