JP7236287B2 - Fittings - Google Patents

Description

The present invention relates to fittings that are placed in building openings.

A fitting is known in which a frame and a shoji are formed from a synthetic resin.

JP-A-2000-192734

A resin sash formed of a resin profile, such as the fittings described in Patent Literature 1, has excellent heat insulating performance.
In recent years, sashes are required to have even higher heat insulation performance.

An object of the present invention is to provide a sash with even higher heat insulating performance.

One embodiment of the present invention is composed of a resin shape member having a hollow portion and forming a frame , and a vacuum heat insulating material and a non-vacuum heat insulating material are arranged in the hollow portion of the shape member. , the non-vacuum insulation is arranged in the corners of the frame and/or in the area where the parts are attached, and the vacuum insulation is of one type or a plurality of types and has standard dimensions, and is installed in the hollow section of the shape in the longitudinal direction. By arranging a plurality of fittings along the shape, they are fittings that are arranged in most of the hollow part of the shape .

With the configuration of the heat-insulating fittings of the present embodiment, it is possible to impart even higher heat-insulating performance.

FIG. 3 is a vertical sectional view (a DD section of FIG. 3) of fittings according to the first embodiment of the present invention. FIG. 3 is a lateral cross-sectional view (a cross section taken along line EE of FIG. 3) of fittings according to the first embodiment of the present invention. It is an internal view showing arrangement of heat insulating materials of fittings concerning a 1st embodiment of the present invention. FIG. 7 is a vertical sectional view (FF section of FIG. 6) of fittings according to a second embodiment of the present invention. FIG. 7 is a lateral cross-sectional view (a cross section taken along line GG of FIG. 6) of fittings according to a second embodiment of the present invention. It is an internal view showing the arrangement of the heat insulating material of the fittings according to the second embodiment of the present invention. FIG. 10 is a vertical cross-sectional view (D′-D′ cross section in FIG. 9 ) of fittings according to a third embodiment of the present invention. FIG. 10 is a lateral cross-sectional view (the E′-E′ cross section in FIG. 9 ) of fittings according to a third embodiment of the present invention. It is an internal view showing the arrangement of the heat insulating material of the fittings according to the third embodiment of the present invention. It is a partially enlarged internal view showing the arrangement of the heat insulating material of the fittings according to the third embodiment of the present invention, (a) is an enlarged view of the upper left corner, (b) is an enlarged view of the upper right corner. be. FIG. 14 is a vertical cross-sectional view (AA cross section of FIG. 14) of fittings according to a fourth embodiment of the present invention. FIG. 14 is a vertical sectional view (sectional view taken along line BB in FIG. 14) of fittings according to a fourth embodiment of the present invention. FIG. 14 is a lateral cross-sectional view (CC section of FIG. 14) of fittings according to a fourth embodiment of the present invention; It is an internal view showing arrangement of heat insulating materials of fittings according to a fourth embodiment of the present invention. FIG. 15 is a vertical cross-sectional view (A′-A′ cross section in FIG. 14 ) of fittings according to a fifth embodiment of the present invention. FIG. 14 is a vertical cross-sectional view (B′-B′ cross section in FIG. 14 ) of fittings according to a fifth embodiment of the present invention. FIG. 14 is a cross-sectional view (a cross section taken along line C'-C' of FIG. 14) of fittings according to a fifth embodiment of the present invention; It is an internal view showing arrangement of heat insulating materials of fittings according to a fifth embodiment of the present invention.

- 1st embodiment -
The first embodiment is a fitting with improved heat insulating performance by arranging a case body in which a heat insulating material is housed inside at a portion exposed to the indoor side of the frame 1 of the fitting. This is a sliding window, as shown in FIG.

The frame body 1 has an upper frame 11, a lower frame 12, and left and right vertical frames 13, 13 made of synthetic resin material. The upper frame 11, the lower frame 12, and the left and right vertical frames 13, 13 are frame members having the same cross-sectional shape, and the ends of each frame member are cut at an angle of 45 degrees, and the end faces are brought into contact with each other and welded. A frame body 1 is formed over four circumferences.

The shoji 2 has an upper frame 21, a lower frame 22, and left and right vertical frames 23, 23 made of a synthetic resin material. The upper frame 21, the lower frame 22, and the left and right vertical frames 23, 23 are frame members with the same cross-sectional shape, the ends of each frame member are cut at an angle of 45 degrees, and the end faces are brought into contact with each other and welded. A four-circumference frame is formed. A multi-layered glass 25 is arranged on the inner circumference of the frame.

The case bodies include an upper case body 51, a lower case body 52, left and right vertical case bodies 53, 53, etc., which are made of a synthetic resin material. The upper case body 51, the lower case body 52, and the left and right vertical case bodies 53, 53 are shaped members having the same cross-sectional shape. are arranged on the indoor side and the inner peripheral side of each frame member so as to

(Configuration of upper frame portion)
As shown in FIG. 1, the upper frame 11 of the frame body 1 includes an upper frame main body portion 111 having a plurality of hollow portions and an inner peripheral surface of the upper frame main body portion 111 extending in the inner peripheral direction from the inner peripheral surface of the upper frame main body portion 111 . It has a side wall portion 112 and an angle portion 113 extending from the room-side end of the upper frame main body portion 111 toward the room.
A heat insulating material 6 such as a vacuum heat insulating material may be accommodated in part or all of the hollow portion of the upper frame body portion 111 .
An airtight material that contacts the indoor side surface of the upper frame 21 of the shoji 2 is arranged at the inner peripheral end of the outdoor side surface of the indoor side wall portion 112 .

The upper frame 21 of the shoji 2 has an upper frame body portion 211 having a plurality of hollow portions, and an outdoor side wall portion 212 extending in the outer peripheral direction from the outdoor side outer peripheral surface of the upper frame body portion 211. A rim 213 is attached to the inner peripheral portion of the frame main body 211 on the outdoor side, and a glass frontage 211a for holding the outer periphery of the multi-layer glass 25 is formed.

An airtight member that abuts on the outdoor side surface of the upper frame main body portion 111 of the upper frame 11 is arranged at the outer peripheral end of the indoor side surface of the outdoor side wall portion 212 . Between the inner peripheral surface of the upper frame main body portion 111 of the frame 1 and the outer peripheral surface of the upper frame main body portion 211 of the shoji 2, a link mechanism 41 such as an opening and closing arm that enables the sliding opening and closing of the shoji 2 is provided. are placed.
The link mechanism 41 is screwed and fixed to the upper frame 11 and the upper frame 21 using back plates 41b and 41c.

The case body 51 fixed to the upper frame 11 is made of a synthetic resin material, and has an outer peripheral wall portion 51a that abuts against the inner peripheral surface of the angle portion 113 of the upper frame 11. An outer peripheral wall portion 51b extending downward, an indoor wall portion 51c extending downward from the indoor end of the outer peripheral wall portion 51a, an inner peripheral wall portion 51d extending outward from the lower end of the indoor wall portion 51c, and an inner peripheral wall portion 51d. An inner peripheral wall portion 51e extending upward from the outdoor end, an intermediate wall portion 51f extending toward the indoor side from the upper end of the inner peripheral wall portion 51e, and a standing wall portion 51f protruding in the outer peripheral direction from the outer peripheral surface of the intermediate wall portion 51f. It has an upper wall portion 51g.

In the upper case body 51, the housing space for the heat insulating material is divided vertically by the intermediate wall portion 51f. Also, the dimension in the direction of projection is formed large.

The accommodation space S1 formed on the outer peripheral side has an opening a formed between the outer peripheral chamber outer wall portion 51b and the rising wall portion 51g, and a heat insulating material 611 is arranged in the accommodation space S1. there is Further, the accommodation space S2 formed on the inner peripheral side is formed as a hollow portion without an opening, and a heat insulating material 612 is arranged in the accommodation space S2.

The upper case body 51 housing the heat insulating materials 611 and 612 has the outer peripheral wall portion 51a in contact with the inner peripheral surface of the angle portion 113 of the upper frame 11, and the outer peripheral surface of the intermediate wall portion 51f facing the room of the upper frame. With the inner peripheral surface of the side wall portion 112 abutted and the opening a closed by the indoor side surface of the upper frame 11, the portion exposed to the indoor side of the upper frame 11 is covered with a mounting means such as double-sided tape. installed.
The upper case body 51 attached to the upper frame 1 covers the indoor side surface of the upper frame 11 with the accommodation space S1 formed on the outer peripheral side, and the upper frame of the shoji 2 with the accommodation space S2 formed on the inner peripheral side. 21 indoor side.

The upper case body 51 attached to the upper frame 11 has an inner peripheral end positioned at approximately the same height as the inner peripheral end of the upper frame 21 of the shoji 2 and covers the inner side surface of the upper frame 21 to cover the upper frame 21 of the shoji 2. The indoor side surface of 21 is prevented from being exposed indoors.
Then, the projecting piece 51h formed on the inner peripheral wall portion 51d approaches or comes into contact with the lower end portion of the upper rail 21 on the indoor side, so that the indoor side surface of the upper rail 21 and the inner peripheral outer wall portion 51e of the case body 51 are separated. A heat insulating space A is formed between it and the outdoor side surface.

The structure of the upper frame portion of the fittings of this embodiment has been described above, but the structure of the lower frame portion and the left and right vertical frame portions is substantially the same as that of the upper frame portion.
That is, as shown in FIG. 1, the lower frame 12 includes a lower frame body portion 121, an indoor side wall portion 122, and an angle portion 123. , and has an outdoor-side wall portion 222 extending in the outer peripheral direction from the outdoor-side outer peripheral surface of the lower stile body portion 221 , and a pressing edge 223 is attached to the outdoor-side inner periphery of the lower stile body portion 221 , and the multi-layer glass 25 A glass frontage 221a is formed to hold the outer periphery of the glass.

Between the inner peripheral surface of the lower frame main body portion 121 of the frame 1 and the outer peripheral surface of the lower frame main body portion 221 of the shoji 2, a link mechanism 41 such as an opening and closing arm that enables the sliding opening and closing of the shoji 2 is arranged. ing.

The lower case body 52 attached to the lower frame 12 accommodates heat insulating materials 621 and 622 in an accommodation space S1 formed on the outer peripheral side and an accommodation space S2 formed on the inner peripheral side, respectively. The indoor side surface of the lower frame 22 of the shoji 2 is prevented from being exposed in the room by covering the indoor side surface of the lower frame 22 at a height position substantially equal to the inner peripheral end of the lower frame 22 of the shoji 2. - 特許庁

As shown in FIG. 2, the vertical frame 13 includes a vertical frame body portion 131, an indoor side wall portion 132, and an angle portion 133. The vertical frame 23 includes a vertical frame body portion 231 having a plurality of hollow portions. , has an outdoor-side wall portion 232 extending in the outer peripheral direction from the outdoor-side outer peripheral surface of the vertical frame body portion 231, and a pressing edge 233 is attached to the outdoor-side inner periphery of the vertical frame body portion 231, A glass frontage 231a is formed to hold the outer periphery of the glass.

Between the inner peripheral surface of the vertical frame main body portion 131 of the frame 1 and the outer peripheral surface of the vertical frame main body portion 231 of the shoji 2, a pulling means 43 for assisting and maintaining the closed state of the shoji 2, a locking mechanism 44, or the like is provided. are placed.

The vertical case body 53 attached to the vertical frame 13 accommodates heat insulating materials 631 and 632 in a storage space S1 formed on the outer peripheral side and a storage space S2 formed on the inner peripheral side. 2 and covers the indoor side of the vertical frame 23 to prevent the indoor side of the vertical frame 23 of the shoji 2 from being exposed indoors.

A handle 46 is attached to the right vertical frame 23 of the shoji 2, and a part of the case body 53 of the right vertical frame 13 is cut away at the portion where the handle 46 is attached.

In the heat-insulating fittings of the present embodiment, as shown in FIG. 3, a plurality of heat-insulating materials are appropriately arranged in the housing spaces S1 and S2 of the upper, lower and vertical case bodies.
In particular, in the storage space S1 on the outer peripheral side, a plurality of vacuum insulation materials having the same standard size are arranged, and a non-vacuum insulation material such as a fiber insulation material or a foam insulation material that is relatively easy to process is placed between the vacuum insulation materials. Insulation is appropriately placed.

In addition, a non-vacuum heat insulating material such as a fiber heat insulating material or a foam heat insulating material, which is relatively easy to process, is arranged in the storage space S2 on the inner peripheral side, and the vertical case body 53 is notched at the handle portion of the shoji. The heat insulating material is arranged adjacent to the notch.

A specific description will be given below.
Vacuum heat insulating materials 611a and 621a having the same standard dimensions are arranged in the housing space S1 on the outer peripheral side of the upper case body 51 and the lower case body 52 fixed to the upper frame 11 and the lower frame 12, respectively. Heat insulating materials (non-vacuum heat insulating materials) 611b and 621b, which are relatively easy to process, are arranged in the inner wall.
The ends of the heat insulating materials 611b and 621b arranged at both ends of the housing space S1 are cut at 45 degrees.

A plurality of vacuum heat insulating materials 631a having the same standard size are arranged in the accommodation space S1 on the outer peripheral side of the vertical case body 53 fixed to the vertical frames 13, 13, and the both ends thereof are relatively easy to process such as cutting. A heat insulating material (non-vacuum heat insulating material) 631b is arranged.
The ends of the heat insulating materials 631b, 631b arranged at both ends of the housing space S1 are cut at 45 degrees.

Between the vacuum heat insulating materials 631a, 631a is sandwiched heat insulating material (non vacuum heat insulating material) 631c is arranged.

That is, the plurality of vacuum heat insulating materials 611a, 621a, 631a arranged in the housing space S1 on the outer peripheral side of the upper, lower and vertical case bodies fixed to the upper and lower vertical frames have the same standard size with the same length dimension. are used, and gaps and corners caused by dimensional differences between the length dimensions of the case bodies 51, 52, and 53 and the vacuum insulation materials 611a, 621a, and 631a of the same standard dimensions are cut. Non-vacuum heat insulating materials 611b, 621b, 631b, and 631c, which are relatively easy to process, are used for interpolation. As a result, the heat insulating material is arranged over the entire area of the accommodation space S1 on the outer peripheral side of the case body.
A member such as an elastic spacer may be used as the member for interpolating the gap.

On the other hand, in the accommodation space S2 on the inner peripheral side of the upper case body 51 and the lower case body 52 fixed to the upper frame 11 and the lower frame 12, and the vertical case bodies 53, 53 fixed to the left and right vertical frames 13, 13, , and heat insulating materials (non-vacuum heat insulating materials) 612b, 622b, 632b, 632b, which are relatively easy to process such as cutting, are arranged, and both ends are cut at 45 degrees.

The storage space S2 on the inner peripheral side of the vertical case body 53 fixed to the right vertical frame 13 is partially cut out at the mounting portion of the handle 46, and the storage space S2 is vertically divided by the cutout portion. Heat insulating materials (non-vacuum heat insulating materials) 632b, 632b are arranged respectively in the .

- Second Embodiment -
The second embodiment is a fitting with improved heat insulating performance by arranging a case body in which a heat insulating material is housed inside at a portion exposed to the indoor side of the frame 1 of the fitting. This is a sliding window in which a shoji 2 is arranged openable and closable on the inner circumference of a frame 1, as shown in FIG.
Although specifically described below, the basic configuration of the frame 1 and the shoji 2 of the second embodiment is the same as the frame 1 and the shoji 2 of the first embodiment, and the configuration of the case body Since the only difference from the first embodiment is in the explain.

The upper case body 51 attached to the upper frame 11 is made of a synthetic resin material, and as shown in FIG. An outer peripheral wall portion 51b extending downward from the outdoor end of the outer peripheral wall portion 51a, and an indoor wall portion 51c extending downward from the indoor end of the outer peripheral wall portion 51a and having a lower portion formed as an inclined surface inclined toward the outdoor side, An inner peripheral wall portion 51d extending from the lower end of the indoor wall portion 51c to the outdoor side, an inner peripheral side room outer wall portion 51e extending upward from the outdoor side end of the inner peripheral wall portion 51d, and an inner peripheral side room wall portion 51e extending from the upper end toward the indoor side. It has a fixed wall portion 51i that extends in a vertical direction, and forms an accommodation space S that accommodates the heat insulating material 611 as a whole.

The upper case body 51 is formed with an opening a continuing to the housing space S between the outer peripheral chamber wall portion 51b and the fixed wall portion 51i. can be done.

The heat insulation structure of the case body has been described above using the upper frame portion, but as can be seen in FIGS. We omit the explanation.

In the heat-insulating fittings of the present embodiment described above, as shown in FIG. 6, a plurality of vacuum heat insulating materials are arranged in the housing space S of the upper, lower, and vertical case bodies, and between the vacuum heat insulating materials Non-vacuum heat insulating materials that are relatively easy to process, such as fiber heat insulating materials and foam heat insulating materials, are appropriately arranged.
As for the handle mounting position of the accommodation space S, the vertical case body 53 is partially notched, and a non-vacuum heat insulating material such as a fiber heat insulating material or a foam heat insulating material, which is relatively easy to process, is adjacent to the notched portion. are appropriately placed.

A specific description will be given below.
Vacuum heat insulating materials 611a and 621a of predetermined dimensions are arranged in the accommodation space S of the upper case body 51 and the lower case body 52 fixed to the upper frame 11 and the lower frame 12, and the processing is compared at the positions of both ends thereof. Easy-to-use heat insulating materials (non-vacuum heat insulating materials) 611b and 621b are arranged.
The ends of the heat insulating materials 611b and 621b arranged at both ends of the housing space S1 are cut at 45 degrees.
Sandwiching heat insulating materials (non-vacuum heat insulating materials) 611c, 621c are arranged to compensate for the difference between the length dimension of the upper and lower case bodies 51, 52 and the length dimension of the vacuum heat insulating materials 611a, 621a.

A plurality of vacuum heat insulating materials 631a having a predetermined size are arranged in the accommodation space S of the vertical case body 53 fixed to the vertical frames 13, 13, and heat insulating materials that are relatively easy to process such as cutting are placed at both ends of the vacuum heat insulating materials 631a. (Non-vacuum heat insulating materials) 631b, 631b are arranged.
The ends of the heat insulating materials 631b, 631b arranged at both ends of the housing space S1 are cut at 45 degrees.
Sandwiched heat insulators (non-vacuum heat insulators) 631c, 631c are arranged to interpolate the difference between the length dimension of the vertical case bodies 53, 53 and the length dimension of the plurality of vacuum heat insulators 631a, 631a.

Further, the accommodation space S of the vertical case body 53 fixed to the right vertical frame 13 is partly cut out at the mounting portion of the handle 46, and adjacent to the outer peripheral side of the cutout portion is a fiber-based heat insulating material or a foaming material. A heat insulating material (non-vacuum heat insulating material) 631d that is relatively easy to process, such as a heat insulating material, is arranged.

As described above, due to the dimensional difference between the plurality of vacuum heat insulating materials arranged in the housing space S1 on the outer peripheral side of the vertical case body 5 fixed to the vertical frame and the case body 5, etc. The resulting gap is filled with a non-vacuum heat insulating material that is relatively easy to process such as cutting, and the heat insulating material is arranged over the entire area of the housing space S of the case body.

-Third Embodiment-
The third embodiment is a fixture with improved heat insulation performance by arranging a heat insulating material in the hollow part of the frame 1 of the fixture. 2 is a sliding window that can be freely opened and closed.
Although it will be described in detail below, the basic configurations of the frame 1 and the shoji 2 of the third embodiment are the same as those of the frame 1 and the shoji 2 of the first embodiment, so the same parts are the same. Description will be omitted.

As shown in FIG. 7, the upper frame 11 of the frame body 1 includes an upper frame main body portion 111 having a plurality of hollow portions and an inner peripheral surface of the upper frame main body portion 111 extending in the inner peripheral direction from the inner peripheral surface of the upper frame main body portion 111 . It has a side wall portion 112 and an angle portion 113 extending in the room direction from the indoor side end of the upper frame main body portion 111. A plurality of heat insulating materials 61a and 61b are accommodated in the hollow portion S11 of the upper frame main body portion 111. It is

Between the inner peripheral surface of the upper frame main body portion 111 of the frame 1 and the outer peripheral surface of the upper frame main body portion 211 of the shoji 2, a link mechanism 41 such as an opening and closing arm that enables the sliding opening and closing of the shoji 2 is arranged. The link mechanism 41 is screwed and fixed to the upper frame 11 and the upper frame 21 using a back plate or the like.

Similarly, a plurality of heat insulating materials 62a and 62b are arranged in the hollow portion S12 of the lower frame main body portion 121 of the lower frame 12, and the inner peripheral surface of the lower frame main body portion 121 of the frame 1 and the shoji 2 A link mechanism 41 such as an opening/closing arm that enables sliding opening and closing of the shoji 2 is arranged between the outer peripheral surface of the lower frame body 221 and the link mechanism 41 connects the lower frame 12 and the lower frame of the shoji 2 . 22 by screwing using a back plate or the like.

Further, as shown in FIG. 8, a plurality of heat insulating materials 63a and 63b are arranged in the hollow portion S13 of the vertical frame body portion 131 of the left and right vertical frames 13, and the vertical frame body of the left vertical frame 13 Between the inner peripheral surface of the portion 131 and the outer peripheral surface of the vertical frame main body portion 231 of the left vertical frame 23 of the shoji 2, a pulling means 43 for assisting and maintaining the closed state of the shoji 2 is arranged. A lock mechanism 44 and the like are arranged between the inner peripheral surface of the vertical frame body portion 131 of the vertical frame 13 and the outer peripheral surface of the vertical frame body portion 231 of the right vertical frame 23 of the shoji 2 .
The drawing means 43 and the lock mechanism 44 are screwed and fixed to the left and right vertical frames 13 using back plates or the like.

In the fittings of the third embodiment described above, the hollow portions S11, S12, and S13 of the upper frame 11, the lower frame 12, and the vertical frame 13 are relatively processed with vacuum heat insulating material, fiber heat insulating material, foam heat insulating material, or the like. A non-vacuum heat insulating material that facilitates

A specific description will be given below.
As shown in FIGS. 9 and 10, vacuum heat insulating materials 61a and 62a are arranged in the hollow portions S11 and S12 of the upper frame 11 and the lower frame 12 along the longitudinal direction. , S12, in the area where the link mechanism 41 such as the opening/closing arm is fixed, as shown in FIG. A heat insulating material (non-vacuum heat insulating material) 61b (62b), which is relatively easy to process and less likely to be damaged by screws or the like, is arranged on the inner peripheral side where the means is used.

In addition, in the present embodiment, in the hollow portions S11 and S12 of the upper frame 11 and the lower frame 12, only the vacuum heat insulating materials 61a and 62a are arranged, and the vacuum heat insulating materials 61a and 62a and the heat insulating materials 61b and 62b are laminated. Sandwiched heat insulating materials (non-vacuum heat insulating materials) 61c and 62c, which are relatively easy to process, are further arranged between the regions where the heat insulating member is arranged.

In the hollow portion S13 of the left vertical frame 13, a plurality of (two in this embodiment) vacuum heat insulating materials 63a, 63a are arranged along the longitudinal direction.
In the area where members such as the pulling means 43 are attached in the middle position in the longitudinal (vertical) direction of the hollow portion S13 of the vertical frame 13, sandwiched heat insulating materials (non-vacuum heat insulating materials) 63b, which are relatively easy to process, are placed in the upper and lower vacuum areas. It is sandwiched between heat insulating materials 63a, 63a.

A vacuum heat insulating material 63a is arranged in the central region in the longitudinal direction of the hollow portion S13 of the right vertical frame 13, and members such as the lock mechanisms 44, 44 at the upper and lower positions of the hollow portion S13 of the vertical frame 13 are attached. In the region, as shown in FIG. 10B, a vacuum heat insulating material 63a is arranged on the outer peripheral side, and a heat insulating material (non-vacuum heat insulating material) 63b, which is relatively easy to process, is arranged on the inner peripheral side. .

In addition, in this embodiment, the vacuum heat insulating material 63a and the heat insulating material 63b, which is relatively easy to process, are laminated in the central area where only the vacuum heat insulating material 63a of the hollow portion S13 of the right vertical frame 13 is arranged. A sandwiched heat insulating material (non-vacuum heat insulating material) 63c, which is relatively easy to process, is further arranged between the upper and lower regions to be arranged.

-Fourth Embodiment-
The fourth embodiment is a fitting with improved heat insulation performance by arranging a case body in which a heat insulating material is housed inside at a portion exposed to the indoor side of the frame 1 of the fitting. This is a continuous window in which a FIX window and a sliding window are provided adjacent to each other on the inner periphery of the frame 1 as shown in FIG.
Although described below, the basic structure of the frame 1 and the shoji 2 of the fourth embodiment is the same as the frame 1 and the shoji 2 of the first to third embodiments, so the same parts Description will be made with some parts omitted.

The frame 1 has an upper frame 11, a lower frame 12, left and right vertical frames 13, 13 and a mullion 14 made of synthetic resin material. The upper frame 11, the lower frame 12, and the left and right vertical frames 13, 13 are frame members having the same cross-sectional shape, and the ends of each frame member are cut at an angle of 45 degrees, and the end faces are brought into contact with each other and welded. The four corners are formed by

Approximately V-shaped notches 11a and 12a are formed in the vicinity of the center of the upper frame 11 and the lower frame 12 in the viewing (left and right) direction (FIG. 18). The mullion 14 is fixed between the upper frame 11 and the lower frame 12 by cutting the mullion 14 at an angle of 100 degrees and by welding the upper and lower ends of the mullion 14 in contact with the notch.

On the left side of the frame 1, a frame for opening and closing windows is formed by an upper frame 11, a lower frame 12, a left vertical frame 13 and a mullion 14, and a shoji 2 for sliding windows is arranged. On the right side of the frame 1, the upper frame 11, the lower frame 12, the mullion 14 and the right vertical frame 13 form a frame of a FIX window. A panel body 26 is fitted.

The case bodies are each made of a synthetic resin material, and include an upper left case body 511 that covers the indoor side of the sliding window region of the upper frame 11, an upper right case body 512 that covers the indoor side of the FIX window region of the upper frame 11, and a lower case body. A lower left case body 521 that covers the indoor side of the sliding window region of the frame 12, a lower right case body 522 that covers the indoor side of the FIX window region of the lower frame 12, and a left case that covers the indoor side of the left vertical frame 13. A body 531, a right case body 532 covering the right vertical frame 13 on the indoor side, and a central case body 54 covering the mullion 14 on the indoor side.
The end face of each case body 5 is appropriately cut at an angle of 45 degrees, and the cut portion of each case body 5 is abutted and appropriately connected.

An upper left case body 511 covering the indoor side of the sliding window area of the upper frame 11, a left lower case body 521 covering the indoor side of the sliding window area of the lower frame 12, and a left case covering the indoor side of the left vertical frame 13. The body 531 has the same configuration as the upper case body 51, the lower case body 52, and the vertical case body 53 of the fittings of the first embodiment, and the housing space S1 on the outer peripheral side includes heat insulating materials 611 and 621, respectively. , 631 are accommodated, and heat insulating materials 612, 622, 632 are arranged in the accommodation space S2 on the inner peripheral side, respectively.

Also, the upper right case body 512 covering the indoor side of the FIX window area of the upper frame 11, the lower right case body 522 covering the indoor side of the FIX window area of the lower frame 12, and the indoor side of the right vertical frame 13 The covering right case body 532 has a configuration that does not have an inner peripheral storage space S2 compared to the upper case body 51, the lower case body 52, and the vertical case body 53 of the fittings of the first embodiment. Heat insulating materials 611, 621, and 631 are arranged in the housing space S1 on the side.

The central case body 54 that covers the indoor side of the mullion 14 has a storage space S41 that covers the indoor side surface of the mullion 14 portion, and a storage space S42 that covers the indoor side surface of the vertical frame 23 on the right side of the sliding window. Heat insulating materials 641 and 642 are arranged in the accommodation space S41 and the accommodation space S42, respectively.

As shown in FIG. 14, non-vacuum heat insulating materials that are relatively easy to process, such as vacuum heat insulating materials, fiber heat insulating materials, foam heat insulating materials, etc., are suitably used as the heat insulating materials arranged in the housing space of each case body. are placed.
A specific description will be given below.

Vacuum heat insulating materials 611a, 621a is arranged, and at both ends of the vacuum heat insulating materials 611a, 621a, heat insulating materials (non-vacuum heat insulating materials) 611b, 621b, which are relatively easy to process, such as fiber heat insulating materials and foam heat insulating materials, are appropriately arranged. It is

In addition, a plurality of vacuum heat insulating materials 631a, 631a are arranged in the housing space S1 on the outer peripheral side of the left case body 531 covering the indoor side of the left vertical frame 13, and both ends of the vacuum heat insulating materials 631a, 631a Between them, heat insulating materials (non-vacuum heat insulating materials) 631b and 631c, which are relatively easy to process, such as fiber heat insulating materials and foam heat insulating materials, are appropriately arranged.

In the housing space S2 on the inner peripheral side of the upper left case body 511, the lower left case body 521, and the left case body 531, a heat insulating material (non-vacuum heat insulating material) such as a fiber heat insulating material or a foam heat insulating material, which is relatively easy to process, is provided. heat insulating materials) 612b, 622b, 632b are arranged.

An upper right case body 512 that covers the indoor side of the FIX window area of the upper frame 11, a lower right case body 522 that covers the indoor side of the FIX window area of the lower frame 12, and a right vertical frame 13 that covers the indoor side. A plurality of vacuum heat insulating materials 611a, 621a, 631a are arranged in the housing space S1 of the case body 532, respectively, and a fiber heat insulating material or a foam heat insulating material is disposed between both ends of the vacuum heat insulating materials 611a, 621a, 631a. Heat insulating materials (non-vacuum heat insulating materials) 611b, 621b, 631b, 611c, 621c, 631c, which are relatively easy to process, such as, are appropriately arranged.

A plurality of vacuum heat insulating materials 641a are arranged in the accommodation space S41 covering the indoor side surface of the mullion 14 portion of the central case body 54 covering the indoor side of the mullion 14, and both ends and between the vacuum heat insulating materials 641a are arranged. , heat insulating materials (non-vacuum heat insulating materials) 641b and 641c, which are relatively easy to process, such as fiber heat insulating materials and foam heat insulating materials, are appropriately arranged.

The housing space S42 covering the indoor side surface of the right vertical frame 23 of the sliding window of the central case body 54 covering the indoor side of the mullion 14 has a notch formed at the mounting position of the handle 46. A vacuum heat insulating material 642a is disposed in each of the portions, and heat insulating materials (non-vacuum heat insulating materials) 642b and 642c, which are relatively easy to process, are appropriately disposed on the vertical outer periphery of the vacuum heat insulating material 642a.

Since the accommodation spaces S41 and S42 formed in the mullion 14 have the same width dimension, it is possible to accommodate the same vacuum insulation materials having the same width dimension as the vacuum insulation materials 641a and 642a to be accommodated. It is easy to manage parts, and it is also good in terms of cost.

- Fifth Embodiment -
The fifth embodiment is a fixture with improved heat insulation performance by arranging a heat insulating material in the hollow part of the frame 1 of the fixture. It is a continuous window in which a FIX window and a sliding window are provided adjacently.
Although described in detail below, the basic structure of the frame 1 and the shoji 2 of the fifth embodiment is the same as that of the frame 1 and the shoji 2 of the first to fourth embodiments. Some of the parts will be omitted from the description.

The frame 1 has an upper frame 11, a lower frame 12, left and right vertical frames 13, 13 and a mullion 14 made of synthetic resin material. The upper frame 11, the lower frame 12, and the left and right vertical frames 13, 13 are frame members having the same cross-sectional shape, and the ends of each frame member are cut at an angle of 45 degrees, and the end faces are brought into contact with each other and welded. The four corners are formed by

As shown in FIG. 18, approximately V-shaped notches 11a and 12a are formed in the vicinity of the center of the upper frame 11 and the lower frame 12 in the viewing (left and right) direction, and the left and right ends of the mullion 14 are formed. Both sides are cut at an angle of 45 degrees, and the mullion 14 is fixed between the upper frame 11 and the lower frame 12 by contacting and welding the upper and lower ends of the mullion 14 against the cut. there is

On the left side of the frame 1, a frame for opening and closing windows is formed by an upper frame 11, a lower frame 12, a left vertical frame 13 and a mullion 14, and a shoji 2 for sliding windows is arranged. On the right side of the frame 1, the upper frame 11, the lower frame 12, the mullion 14 and the right vertical frame 13 form a FIX window frame. A panel body 26 is fitted.

As shown in FIGS. 15 and 16, the upper frame 11 of the frame body 1 has an upper frame body portion 111 having a plurality of hollow portions. , and heat insulating materials 61a and 61b.

Then, as shown in FIG. 15, the sliding window shoji 2 is supported between the inner peripheral surface of the upper frame main body portion 111 of the upper frame 11 and the outer peripheral surface of the upper frame main body portion 211 of the shoji 2 so as to be openable and closable. A link mechanism 41 such as an opening/closing arm is arranged, and the link mechanism 41 is screwed and fixed to the upper frame 11 and the upper frame 21 using a back plate or the like.

Similarly, in the hollow portion S12 of the lower frame main body portion 121 of the lower frame 12, heat insulating materials 62a and 62b are appropriately arranged, and the inner peripheral surface of the lower frame main body portion 121 and the lower side of the shoji 2 A link mechanism 41 such as an opening and closing arm that supports the sliding window sash 2 so as to be openable and closable is arranged between the outer peripheral surface of the frame main body 221 and the link mechanism 41 is connected to the lower frame 12 and the lower frame 22. It is fixed with screws using a back plate or the like.

In addition, as shown in FIG. 17, heat insulating materials 63a and 63b are appropriately arranged in the hollow portions S13 of the vertical frame main bodies 131 of the left and right vertical frames 13 of the frame 1, and the left vertical Between the inner peripheral surface of the vertical frame main body portion 131 of the frame 13 and the outer peripheral surface of the vertical frame main body portion 231 of the left vertical frame 23 of the shoji 2, a drawing means 43 for assisting the closing of the shoji 2 is arranged. A lock mechanism 44 and the like are arranged between the sliding window side surface of the mullion 14 and the outer peripheral surface of the right frame 23 of the shoji 2 .
The drawing means 43 and the lock mechanism 44 are screwed and fixed to the left and right vertical frames 13 using back plates or the like.

In the fittings of the fifth embodiment described above, as shown in FIG. A non-vacuum heat insulating material, such as a heat insulating material, which is relatively easy to process, is appropriately arranged.
A more specific description will be given below.

Vacuum heat insulating materials 61a and 62a are arranged along the longitudinal direction in the hollow portions S11 and S12 of the regions where the sliding windows of the upper frame 11 and the lower frame 12 are arranged. In the region where members such as the mechanism 41 are screwed and fixed to the frame material, vacuum heat insulating materials 61a and 62a on the outer peripheral side and heat insulating materials (non-vacuum heat insulating materials) 61b and 62b on the inner peripheral side which are relatively easy to process are used. They are stacked and arranged.

A region where only the vacuum heat insulating materials 61a and 62a of the hollow portions S11 and S12 of the upper frame 11 and the lower frame 12 are arranged, and the vacuum heat insulating material 61a and the heat insulating materials (non-vacuum heat insulating materials) 61b and 62b are arranged in layers. Sandwiched heat insulating materials (non-vacuum heat insulating materials) 61c and 62c, which are relatively easy to process, are arranged between the regions where the heat is applied. Note that the above configuration is the same as that of the third embodiment.

In addition, in the hollow portion S13 of the left vertical frame 13, a plurality of (two in this embodiment) vacuum heat insulating materials 63a, 63a are arranged along the longitudinal direction.
At an intermediate position in the longitudinal (vertical) direction of the vertical frame 13, a drawing means 43 is arranged. A (non-vacuum heat insulating material) 63b is sandwiched between upper and lower vacuum heat insulating materials 63a, 63a.

On the other hand, vacuum heat insulating materials 61a and 62a are arranged along the longitudinal direction in the hollow portions S11 and S12 of the regions of the upper frame 11 and the lower frame 12 where the FIX windows are arranged.

In addition, a vacuum heat insulating material 63a is arranged in the central region in the longitudinal direction of the hollow portion S13 of the right vertical frame 13, and the glass stoppers 45, 45 and the like are fixed in the hollow portion S13 of the right vertical frame 13. Vacuum heat insulating materials 63a, 63a on the outer peripheral side and heat insulating materials (non-vacuum heat insulating materials) 63b, 63b on the inner peripheral side, which are relatively easy to process, are laminated and arranged in the area where the heat insulating material is formed.

Then, the processing is compared between the central region where only the vacuum heat insulating material 63a is arranged in the hollow portion S13 of the right vertical frame 13 and the region where the vacuum heat insulating material 63a and the heat insulating material 63b are laminated and arranged. A sandwiched heat insulating material (non-vacuum heat insulating material) 63c which is easy to handle is arranged.

As described above, in the heat-insulating fittings of the above-described embodiments, the heat insulation performance of the fittings is enhanced by arranging the vacuum heat insulating material in the hollow part of the frame constituting the fittings or in the case body attached to the indoor side surface of the frame. be able to.

By making the vacuum heat insulating material arranged in the frame body or the case body a vacuum heat insulating material having the same standard size, the parts management can be facilitated and the manufacturing cost can be reduced, and the vacuum heat insulating material and the frame body or the case body By filling the gaps caused by the dimensional difference with the heat insulating material (non-vacuum heat insulating material) which is easy to process By burying it with a vacuum insulation material, the insulation material can be arranged over the entire area of the frame, and the insulation performance can be improved.

In addition, in the area where the link mechanism such as the opening and closing arm is attached to the frame material, the side of the hollow part where the link mechanism is attached is easily processed and is not affected by the contact of screws and the like (non-vacuum material). By arranging the vacuum insulation material in the area far from the installation side, it is possible to improve the insulation performance and prevent damage to the vacuum insulation material due to installation work such as screwing. can enhance sexuality.

It should be noted that the heat insulating material used in the present embodiment, which can be easily processed, can be processed such as by cutting. There may be.
Further, the material and shape of the frame body and the case body on which the heat insulating material is arranged are not limited, and the part where the heat insulating material is arranged is not limited at all. Also, the type of fittings is not limited at all.

It goes without saying that the above-described embodiments do not limit the invention described in the claims, but are treated as examples.

11: Upper frame 12: Lower frame 13: Vertical frame 51: Upper case body 52: Lower case body 53: Vertical case bodies 611a, 621a, 631a: Vacuum heat insulating material 611b, 621b, 631b: (Non-vacuum) heat insulating material 612b, 622b, 632b: (non-vacuum) heat insulating material 631c: (non-vacuum) heat insulating material

Claims (1)

It is composed of a resin shape that has a hollow part and forms a frame ,
A vacuum insulation material and a non-vacuum insulation material are arranged in the hollow part of the shape ,
The non-vacuum insulation is placed in the corners of the frame and/or in the area where the parts are attached,
Vacuum insulation materials are fittings that are arranged in most of the hollow part of the shape by arranging a plurality of them along the longitudinal direction in the hollow part of the shape.

Images