JP3664638B2 - Sash structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention comprises a rectangular sash frame having rails on the inside, and a pair of sash bodies formed in a rectangular shape so as to slide in a sliding manner along the rails to open and close the inner space of the sash frame. And a sash structure in which each of the pair of sash bodies includes corner blocks at four corners thereof.
[0002]
[Prior art]
In the sash structure having such a configuration, each of the pair of sash bodies that slide in a sliding manner is composed of an upper and lower hook member and a left and right horizontal hook member, and these hook members are connected to each other via a corner block. Therefore, corner blocks inevitably exist at the four corners of the sash body.
[0003]
In a closed position where the inner space of the sash frame is closed by a pair of sash bodies having corner blocks at the four corners, in order to suppress the intrusion of wind through the gap between each sash body and the sash frame, A structure is known in which a sealing member is attached to the upper and lower eaves members and the horizontal eaves members so that each sealing member contacts or slidably contacts the sash frame in the closed position.
[0004]
However, for the corner blocks located at the four corners of the sash body, the corner blocks are separate from the flange members that make up the sash body, and when the sash body is fitted into the sash frame, an assembly error occurs. In order to correspond to the above, etc., it has a function of correcting the mounting position of the flange member with respect to each corner block, and the length along the longitudinal direction of each flange member in the corner block is larger than the length of each flange member. Conventionally, special consideration has not been given to the gap between each corner block and the sash frame, for reasons such as being quite short.
[0005]
[Problems to be solved by the invention]
Therefore, in the above-described conventional sash structure, in a closed posture in which the inner space of the sash frame is closed by the pair of sash bodies, the air flows from the gaps between the corner blocks located at the four corners of each sash body to the indoor side. There is room for improvement in this regard.
[0006]
The present invention pays attention to such a conventional problem, and its purpose is to provide a corner block of each sash body in a closed position in which the inner space of the sash frame is closed by a pair of sliding sash bodies. The present invention provides a sash structure that can suppress the intrusion of wind from between the sash frame and the sash frame and that can be used for many years while suppressing damage caused by use as much as possible.
[0007]
[Means for Solving the Problems]
〔Constitution〕
As shown in FIGS. 1, 2, 9, 16, and 17, the characteristic configuration of the invention of claim 1 is a rectangular sash frame 1 having rails 7, 8, 9, and 10 on the inside, A pair of sash bodies 2, 3 formed in a rectangular shape so as to slide in a sliding manner along the rails 7, 8, 9, 10 to open and close the inner space of the sash frame 1, and the pair of sashes Each of the main bodies 2 and 3 has a sash structure having corner blocks 21, 22, 41 and 42 at four corners thereof, and an upward inclined surface 31 a and a chamber facing the lower frame body 4 of the sash frame 1. An inclined member 31 having a laterally inclined surface 31a facing the outer lateral side is provided, and the seal members 30 and 50 slidably contacted with the both inclined surfaces 31a are constituted by a plurality of elastically deformable fins. Lower corner of each sash body 2, 3 In the closed posture in which the inner space of the sash frame 1 is closed by the pair of sash main bodies 2 and 3 among the pair of sash main bodies 2 and 41, provided on the lower corner blocks 21 and 41 on the side facing each other in a sliding manner, In the closed position, the lower portions 30a and 50a of the seal members 30 and 50 are in sliding contact with the upward inclined surface 31a of the inclined member 31 positioned therebelow, and project between the seal members 30 and 50 toward the indoor side. Intrusion of wind from the gap between the lower corner blocks 21 and 41 and the lower frame body 4 of the sash frame 1 is made in sliding contact with the laterally inclined surface 31a of the inclined member 31 located on the side thereof. It is the place where it is comprised so that it may suppress.
[0009]
Characterizing feature of the second aspect of the present invention, as illustrated in FIGS. 9 and 17, the inclined member 31 is in its horizontal cross section, the upwardly inclined surface 31a, 31b and landscape inclined surface 31a, and 31b and the left side It is formed in Yamagata integrally provided with the right side, and a seal member 50 provided on the seal member 30 and the other provided on one of the lower corner blocks 21, 41 which faces the pulling difference shape, Yamagata there is to configured to sliding contact with one of the upwardly inclined surface 31a and the lateral inclined surfaces 31a of the left side and the right side of the inclined member 31 formed.
[0010]
As illustrated in FIG. 9, the characteristic configuration of the invention of claim 3 is that the lower corner blocks 21, 41 are inserted into rail grooves 23 a, into which the rails 7, 8 provided on the lower frame body 4 of the sash frame 1 are inserted. comprising a 43a, the rail groove 23a in sliding contact with the rails 7, 8, 43a and the rail 7 and 8 inhibit the auxiliary sealing member 30b wind from entering through the gap, 50b is, the sealing member 30, 50 Are formed integrally with the rail grooves 23a and 43a.
[0011]
In addition, as mentioned above, although the code | symbol was written in order to make contrast with drawing convenient, this invention is not limited to the structure of an accompanying drawing by this entry.
[0012]
[Action and effect]
According to the characteristic configuration of the first aspect of the invention, of the pair of corner blocks and the sash frame of the sash body that slide in a sliding manner, the upward inclined surface facing the lower frame body of the sash frame and the lateral side of the outdoor side. An inclined member having a laterally inclined surface facing sideways is provided, and a seal member capable of sliding contact with both inclined surfaces is provided inside the sash frame by a pair of sash bodies out of the lower corner blocks of each sash body. In the closed position with the space closed, the lower corner block is provided on the side opposite to each other so as to be opposed to each other. In the closed position, the lower part of the seal member is in sliding contact with the upward inclined surface of the inclined member positioned below the seal member. , an intermediate portion protruding toward the cabin of the seal member, in sliding contact with the lateral inclined surface of the inclined member positioned on the side, from the gap between the lower frame of the lower corner blocks and sash frame Since it is configured to suppress the intrusion of wind, when the inner space of the sash frame is closed by the sash body, the wind enters from between the lower corner block of each sash body and the lower frame body of the sash frame. Can be reliably suppressed, and the invasion suppression of the interstitial wind can be maintained for many years.
[0013]
That is, in order to suppress the intrusion of wind from between the lower corner block and the lower frame body of the sash frame, for example, a seal member protruding toward the sash body side is provided in the sash frame, and the seal member is in the closed position. It can also be configured so that the sash is in sliding contact with the lower corner block of the sash body.
However, in that case, when the sash body is slid, the seal member is always in sliding contact with the sash body and the lower corner block. It is difficult to do.
[0014]
In that respect, it is composed of an inclined member having an inclined surface and a seal member that can slide in contact with the inclined surface, and in the closed position, the seal member is configured to be in sliding contact with the inclined surface of the inclined member. Since the sliding contact of the sealing member with the inclined surface is only in the vicinity of the closed position, and the sliding contact of the sealing member is avoided, damage to the sealing member is suppressed as compared with the above-described configuration, and the gap over a relatively long period of time. Wind suppression effect can be expected.
[0015]
Further , according to the characteristic configuration of the invention of claim 1 , since the seal member is composed of a plurality of elastically deformable fins, the seal member composed of the plurality of fins is disposed on the inclined surface of the inclined member. Since it can be elastically pressed and sealed, the above-described air gap is more reliably suppressed.
And the seal member consisting of the plurality of fins is provided on the lower corner block located below the sash body, and is configured to be in sliding contact with the inclined surface of the inclined member provided on the lower frame body of the sash frame. Therefore, for example, if a seal member made of a plurality of fins is provided on the lower frame body side of the sash frame, there is a risk that dust or rainwater may accumulate between the plurality of fins. Even if accumulated, since it is on the inclined member side, cleaning can be easily performed.
[0016]
According to a feature configuration of the invention of claim 2, wherein the tilting member is in its horizontal cross section, it is formed in Yamagata integrally provided with an upward inclined surface and landscape inclined plane on the left side and right side, pulling sideways and has a seal member provided on the sealing member and the other provided on one of the lower corner blocks, one of the upward sloping surface of the left side and the right side of the inclined member which is formed a mountain opposite the difference shape Since it is configured to slide in contact with the inclined surface , it is ensured that the wind enters from between the lower corner block and the sash frame on the opposite sides of the sash body that slides in a sliding manner. Can be suppressed .
That is, since the seal members provided on the lower corner blocks opposed to each other in a sliding manner are in sliding contact with the upward inclined surface and the lateral inclined surface on the same side of the left side and the right side, both the seal members are substantially linear. Can be slidably in contact with the upward and laterally inclined surfaces on the same side, in which case the invasion of wind from between the lower corner blocks and the sash frame is more effectively achieved by the cooperation of both seal members. Can be reliably suppressed.
[0017]
According to the characteristic configuration of the invention of claim 3, the lower corner block includes a rail groove to be inserted by a rail provided on a lower frame body of the sash frame, and is in sliding contact with the rail and a gap between the rail groove and the rail. Since the auxiliary seal member that suppresses the intrusion of wind from the rail groove is provided in the rail groove, in addition to the suppression of the intrusion of the gap air by the inclined member and the seal member described above, the gap between the rail groove and the rail It is also possible to suppress the intrusion of the wind and to expect a more sure effect of suppressing the crevice wind, and the auxiliary seal member is integrally formed with the seal member that is in sliding contact with the inclined surface of the inclined member. Therefore, the number of seal members to be used can be reduced as much as possible, and the structure can be simplified, and a reliable effect of suppressing the air gap can be expected.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
An embodiment of a sash structure according to the present invention will be described with reference to the drawings.
In this specification, unless otherwise specified, the indoor direction of the building is referred to as the indoor side, the outdoor direction of the building is referred to as the outdoor side, the right direction when viewed from the indoor side of the building is referred to as the right side, and the left direction is referred to as the left side. .
As shown in FIGS. 1 and 2, for example, this sash structure is used for a sliding-type window or a sliding door in a building, and an aluminum sash frame 1 having a rectangular shape as a whole is used. A pair of sash bodies 2 and 3 that are fixed to a building wall and hold a pair of flat glass, such as vacuum glass or double glazing, or a single plate glass G, that is, an inner sash body that is located indoors 2 and an outer sash body 3 located on the outdoor side are slidably fitted inside the sash frame 1.
[0019]
The sash frame 1 is configured to be assembled in a rectangular shape by a lower frame body 4 and an upper frame body 5 and a pair of left and right horizontal frame bodies 6 that connect the upper and lower frame bodies 4 and 5, and the lower frame body 4. Is configured to be stepped so as to be higher toward the indoor side and lower toward the outdoor side, and a pair of lower rails 7 and 8 are spaced apart inwardly and outwardly from the lower frame body 4 and to the indoor side. The lower inner rail 7 positioned is provided so as to be higher than the lower outer rail 8 positioned on the outdoor side, and the upper frame 5 is opposed to the pair of lower rails 7 and 8. The upper inner rail 9 and the upper outer rail 10 are provided.
The pair of sash bodies 2 and 3 are configured to be in a closed position in which the inner space of the sash frame 1 is closed while the inner sash body 2 is slid to the right and the outer sash body 3 is slid to the left. As shown in FIG. 4, a drain notch 11 is provided at the right end of the lower inner rail 7, and a drain notch 12 is provided at the left end of the lower outer rail 8, as shown in FIG. 8, and the lower outer rail 8 is also provided with a plurality of drain holes 13.
[0020]
That is, the right end of the lower inner rail 7 is cut away, and as shown in FIGS. 10 and 11, a synthetic resin holding member 14 whose upper surface is located below the upper end of the lower inner rail 7 is provided. The upper part of the upper surface of the holding member 14 is configured as a drain notch 11, and the holding member 14 has a horizontal fin-like first inner fin 15 formed of a soft synthetic resin. It is attached in a state of projecting along the drainage notch 11 below the notch 11 for drainage.
The first inner fin 15 allows rainwater or the like that has entered the indoor side from the lower inner rail 7 to be drained from the drainage cutout portion 11 to the outdoor side, and in the closed position, It functions as a frame-side seal member that suppresses intrusion, and is provided in two pieces in the vertical direction, and is attached so as to protrude outward in an inclined posture positioned downward as the outdoor side.
Similarly, the left end of the lower outer rail 8 is also cut away, and as shown in FIGS. 12 and 13, a synthetic resin holding member 16 whose upper surface is located below the upper end of the lower outer rail 8 is provided. Thus, the upper portion of the upper surface is configured as a drainage cutout portion 12, and the holding member 16 has a first outer fin 17 composed of a horizontal fin similar to the first inner fin 15 described above, as the outdoor side. It is attached so as to protrude in an inclined posture located below.
[0021]
As shown in FIG. 6B, the inner sash body 2 includes an aluminum lower heel member 18, an upper heel member 19, and a pair of left and right horizontal heel members 20, and these aluminum heel members 18, 19, 20 are synthetic resin corner blocks positioned at the four corners, that is, a pair of left and right lower corner blocks 21 positioned on the lower side of the inner sash body 2 and a pair of left and right upper corner blocks 22 positioned on the upper side. They are connected to each other through the two and assembled so as to be rectangular as a whole.
In the lower sash member 18 and the lower corner block 21 of the sash body 2, a recessed portion along the longitudinal direction thereof, that is, a recessed portion 23 a as a rail groove provided in the lower corner block 21 (see FIGS. 9 and 10). ) And a recessed portion 23b (see FIG. 2) provided in the lower collar member 18 are provided so as to be continuous with each other, and a plurality of rolling on the lower inner rail 7 in the recessed portion 23b of the lower collar member 18 are provided. The inner roller 24 is provided, and the upper collar member 19 and the upper corner block 22 are provided with a slit 25 along the longitudinal direction thereof, and the upper inner rail 9 can be inserted into the slit 25. ing.
[0022]
Of the pair of left and right lower corner blocks, a second inner fin 26 and a third inner fin 27 are attached to a lower corner block 21 positioned on the right side as a sealing member made of a soft synthetic resin.
As shown in FIGS. 10 and 11, the second inner fin 26 is configured in a vertical fin shape and is located near the right end of the lower corner block 21, and in the longitudinal direction of the right-side recumbent member 20. Two sheets are attached to the left and right along the vertical direction so as to be continuous with the inner fin 28 (see FIG. 14) for lying down made of soft synthetic resin.
The vertical fin-shaped second inner fin 26 is in sliding contact with the first inner fin 15 in a state where the inner sash main body 2 is slid to the right side, so that the inner sash main body 2 and the right lateral frame body 6 are in contact with each other. It is comprised so that the penetration | invasion of the wind which tries to penetrate | invade through the notch part 11 for drainage from the downward clearance gap between them may be suppressed.
[0023]
The third inner fin 27 is mounted so as to protrude inward along the recessed portion 23a of the lower corner block 21 while being positioned near the left end of the lower corner block 21, and when the inner sash body 2 is slid, Try to invade through the gap 11 between the recessed portion 23a of the inner sash body 2 and the lower inner rail 7 through the notch 11 for drainage, in sliding contact with both the inner and outer side surfaces of the inner rail 7 and the upper surface. It is comprised so that the penetration | invasion of the wind may be suppressed.
The lower collar member 18 positioned between the lower corner block 21 on the right side and the lower corner block 21 on the left side is provided with a lower collar made of a soft synthetic resin that is in sliding contact with the side surface on the outdoor side of the lower inner rail 7. An inner fin 29 (see FIG. 2) is attached along the longitudinal direction of the lower collar member 18.
[0024]
Of the pair of left and right lower corner blocks, the lower corner block 21 located on the left side has a fourth inner fin 30 as a sealing member formed of a soft synthetic resin along the vertical direction as shown in FIG. The lower part 30a of the fourth inner fin 30 protrudes downward from the lower corner block 21, the upper part 30b protrudes inward along the recessed part 23a of the lower corner block 21, and The inner intermediate portion 30c projects to the indoor side, and the outdoor intermediate portion 30d projects to the outdoor side.
When the inner inner sash body 2 is slid, the fourth inner fin 30 is in a state where the upper portion 30b is in sliding contact with both the inner and outer side surfaces and the upper surface of the lower inner rail 7 and the inner sash body 2 is slid rightward. Thus, the outdoor intermediate portion 30d is configured to be in sliding contact with the outer sash body 2.
[0025]
Furthermore, between the pair of lower rails 7 and 8 in the lower frame body 4 of the sash frame 1, as shown in FIG. 5, a chevron member 31 as an inclined member made of vinyl chloride resin , that is, In a state in which the mountain- shaped member 31 including the upward inclined surfaces 31a and 31b facing upward and the laterally inclined surfaces 31a and 31b facing the lateral side of the outdoor side is bent along the stepped lower frame 4 With the inner sash body 2 being slid to the right side as shown in FIGS. 16 and 17, the intermediate portion 30 c on the indoor side of the fourth inner fin 30 is attached to the lower inner rail 7. configured as sliding contact with the left side of the lateral inclined surfaces 31a of the chevron members 31 flanking the outdoor side, and bottom 30a of the fourth inner fin 30, the upwardly inclined surface 31a of the left side of the chevron member 31 The left side is configured to slid from above It is comprised so that the penetration | invasion of the wind which tries to invade from the clearance gap between the recessed part 23a of the lower corner block 21 and the lower inner rail 7 may be suppressed.
[0026]
As shown in FIG. 7B, each of the pair of left and right upper corner blocks 22 has a fifth inner fin 32 as a block side sealing member formed of a soft synthetic resin, and a slit 25 of the upper corner block 22. A sixth inner side as a block side seal member made of a soft synthetic resin is attached to the upper corner block 22 on the left side as shown in FIG. The fins 34 are attached so as to protrude inward along the slits 25 of the upper corner block 22, and when the inner sash body 2 is slid, the fifth inner fins 32 are in sliding contact with both the inside and outside of the upper inner rail 9. At the same time, the sixth inner fin 34 is in sliding contact with both the inner and outer side surfaces of the upper inner rail 9 and the lower surface, so that the slit 25 of the upper corner block 22 and the upper inner rail 9 are in contact with each other. It is configured to suppress the wind to be intruding from the gap intrusion.
The upper collar member 19 positioned between the upper corner blocks 22 has an upper fin 33 for the upper collar made of a soft synthetic resin that is slidably in contact with both indoor and outer surfaces of the upper inner rail 9. Attached along the longitudinal direction.
[0027]
Next, the configuration of the outer sash main body 3 will be described. Although there is a difference between the left and right sides, the configuration is the same as that of the inner sash main body 2 described above.
As shown in FIG. 6 (a), the outer sash body 3 is also made of an aluminum lower collar member 38, an upper collar member 39, a horizontal collar member 40, a synthetic resin lower corner block 41, an upper corner block 42, and the like. The whole is assembled into a rectangular shape, and a plurality of outer rollers 44 that roll on the lower outer rail 8 are provided in the recessed portion 43 b of the lower collar member 38.
[0028]
As shown in FIGS. 12 and 13, a second outer fin 46 and a third outer fin 47 as seal members are attached to the lower corner block 41 located on the left side, and a second outer fin 46 as a vertical fin is attached. Is attached so as to be continuous with the lateral fin 48 (see FIG. 15) attached to the left lateral member 40, and the outer sash body 3 is slid leftward as a frame side sealing member. The third outer fin 47 is configured to be in sliding contact with both the inner and outer side surfaces and the upper surface of the lower outer rail 8 so as to be in sliding contact with the first outer fin 17 formed of a functioning horizontal fin. A lower fin outer fin 49 is attached to the member 38.
[0029]
As shown in FIG. 9, a fourth outer fin 50 as a seal member is attached to the lower corner block 41 located on the right side, and when the outer sash body 3 is slid, its upper part 50 b is the lower outer rail 8. 16 and FIG. 16 in a state in which the outer side intermediate portion 50d is in sliding contact with both side surfaces of the lower outer rail 8 and the outer sash body 3 is slid to the left side. as shown in 17, the intermediate portion 50c of the indoor side and the bottom 50a is guided to the right-inclined slope 31b of the chevron member 31 is configured to sliding contact with the sideways and upward inclined surface 31a of the left side overcame the vertex ing.
Further, as shown in FIG. 7A, a fifth outer fin 52 as a block side seal member is attached to the upper corner block 42 so as to protrude inward along the slit 45, and the right corner As shown in FIG. 8, a sixth outer fin 54 as a block side seal member is attached to the upper corner block 42, and an upper fin outer fin 53 slidably contacting the upper outer rail 10 is attached to the upper flange member 39. Installed.
[0030]
In the sash structure having the above configuration, the inner sash body 2 is slid to the right side and the outer sash body 3 is slid to the left side, whereby the inner space of the sash frame 1 is closed by the two sash bodies 2 and 3 that hold the plate glass G. Closed position.
In this closed position, the first inner fin 15 provided in the drainage notch 11 of the lower inner rail 7 is located on the indoor side of the lower corner block 21 on the right side of the lower corner blocks of the inner sash body 2. It corresponds to the surface, suppresses the intrusion of wind through the gap between the lower corner block 21 on the right side and the lower inner rail 7, and similarly, the notch for drainage of the lower outer rail 8. The first outer fins 17 provided on the left side of the outer sash body 3 are in contact with the inner side surface of the lower corner block 41 on the left side of the outer sash body 3, and the lower corner block 41 on the left side and the lower outer rail 8 are in contact with each other. Suppresses the intrusion of wind through the gaps between them.
[0031]
Further, the second inner fin 26 provided in the lower corner block 21 of the inner sash body 2 contacts the first inner fin 15 of the lower inner rail 7 to the outdoor side of the first inner fin 15. Thus, it is possible to prevent the wind from entering through the gap between the lower corner block 21 and the right lateral frame body 6, and the third inner fin 27 is provided with the recessed portion 23 a of the lower corner block 21 and the lower inner rail. The wind is prevented from entering through the gap between the two.
Similarly, the second outer fin 46 provided in the lower corner block 41 of the outer sash body 3 is in contact with the first outer fin 17 of the lower outer rail 8 against the outdoor side of the first outer fin 17. Thus, the third outer fin 47 is located between the recessed portion 43a of the lower corner block 41 and the lower outer rail 8 when the wind enters from the gap between the lower corner block 41 and the left lateral frame 6. The wind is prevented from entering through the gaps.
[0032]
In the lower corner block 21 on the left side of the inner sash body 2, the upper portion 30 b of the fourth inner fin 30 provided on the lower corner block 21 is arranged on both the outer side surfaces and the upper surface of the lower inner rail 7. The intermediate portion 30d is in sliding contact with the outer sash body 2, and the intermediate portion 30c and the lower portion 30a on the indoor side are in sliding contact with the left inclined surface 31a of the mountain-shaped member 31, so that the recessed portion 23a of the lower corner block 21 and the lower side Intrusion of wind from the gap between the inner rail 7 is suppressed.
Similarly, in the lower corner block 41 on the right side of the outer sash body 3, the upper part 50 b of the fourth outer fin 50 is on the both sides and the upper surface of the lower outer rail 8 and the intermediate part 50 d on the outer side is lower. In a state in which both sides of the side outer rail 8 are in sliding contact with each other, and the indoor side intermediate portion 50c and the lower portion 50a thereof are linearly continuous with the indoor side intermediate portion 30c and the lower portion 30a of the fourth inner fin 30. The hill-shaped member 31 is configured to be in sliding contact with the left inclined surface 31a.
[0033]
In the upper corner block 22 of the inner sash body 2, the fifth inner fins 32 provided on the left and right upper corner blocks 22 are in contact with both the inner and outer sides of the upper inner rail 9 and the left upper corner block 22. The sixth inner fin 34 provided at 22 contacts the periphery of the upper inner rail 9 to suppress the intrusion of wind from the gap between the slit 25 of the upper corner block 22 and the upper inner rail 9, In the left and right upper corner blocks 42 of the outer sash main body 3, the fifth outer fins 52 provided on the upper corner block 42 abut on both the inside and outside of the upper outer rail 10 and are provided on the right upper corner block 42. The formed sixth outer fin 54 comes into contact with the periphery of the upper outer rail 10 and suppresses intrusion of wind from the gap between the slit 45 of the upper corner block 42 and the upper outer rail 10.
[0034]
Then, the horizontal fin 28 for the horizontal rib provided on the right horizontal rib member 20 of the inner sash body 2 is between the right horizontal frame body 5 of the sash frame 1 and the left horizontal rib member of the outer sash main body 3. The lateral fin outer fins 48 provided at 40 seal the space between the left lateral frame body 5 of the sash frame 1.
Further, the lower fin inner fin 29 and the outer fin 49 provided on the lower flange members 18 and 38 of the inner sash body 2 and the outer sash body 3 are provided between the lower inner rail 7 and the outer rail 8. Further, the upper fin inner fin 33 and the outer fin 53 provided on the upper collar members 19 and 39 of the inner sash body 2 and the outer sash body 3 seal between the upper inner rail 9 and the outer rail 10, respectively. Stop.
[0035]
In this closed position, rainwater that has entered the indoor side of the lower inner rail 7 is drained from a notch provided on the left side of the lower inner rail 7 to the lower outer rail 8 side. Together with the rain water that has entered the indoor side, the water is drained to the outside through the drain hole 13 provided in the lower outer rail 8.
Further, when draining and cleaning rainwater and dust collected on the indoor side of both rails 7 and 8, the inner sash body 2 and the outer sash body 3 are opened and used for draining the lower inner rail 7. Rainwater or the like is discharged from the cutout portion 11 or the drainage cutout portion 12 of the lower outer rail. At this time, the first inner fin 15 and the first outer fin 17 are positioned below the outdoor side. Since it is inclined, it does not become an obstacle to draining rainwater and dust and can be easily cleaned.
[0036]
[Another embodiment]
(1) In the previous embodiment, the mountain-shaped member 31 provided with the inclined surfaces 31a and 31b on the left and right was shown as an example of the inclined member. However, as shown in FIG. 18, the inclined member provided with only one inclined surface 31a. It is composed of the member 31A, and is inclined as the inner sash body 2 and the outer sash body 3 are slid from the open posture shown in FIG. 18 (a) to the closed posture shown in FIG. 18 (b). A plurality of fins 30a serving as sealing members may be configured to be in sliding contact with the inclined surface 31a of the member 31A.
In the previous embodiment, the inclined member 31 is provided on the lower frame body 4 of the sash frame 1, and the fourth fins 30, 50 as seal members are provided on the lower corner blocks 21, 41 of the pair of sash bodies 2, 3. 18, an inclined member 31 </ b> A is provided on the upper corner blocks 22, 42 of the pair of sash bodies 2, 3 as in another embodiment shown in FIG. A fin 30a can also be provided.
[0037]
(2) In the previous embodiment, the first inner fin and the outer fins 15 and 17, the second inner fin and the outer fins 26 and 46, the third inner fin and the outer fins 27 and 47, the fourth inner fin and the outer fin 30. , 50, fifth inner fins and outer fins 32, 52, etc., are formed of soft synthetic resin. For example, mohair-like ones in which synthetic fibers are planted are used as these seal members. In short, various changes can be made to the shape, material, and the like as long as they can suppress the intrusion of the draft air.
[Brief description of the drawings]
FIG. 1 is a front view of a sash structure. FIG. 2 is a longitudinal sectional view of the sash structure. FIG. 3 is a perspective view of essential parts of a sash frame. Perspective view of main part [FIG. 6] Front view of sash body [FIG. 7] Top view of sash body [FIG. 8] Longitudinal cross section of main part of sash structure [FIG. 10 is a vertical cross-sectional view of the main part of the sash structure. FIG. 11 is a cross-sectional view of the main part of the sash structure. FIG. 12 is a vertical cross-sectional view of the main part of the sash structure. FIG. 14 is a cross-sectional view of the main part of the sash structure. FIG. 15 is a cross-sectional view of the main part of the sash structure. FIG. 16 is a perspective view of the mountain-shaped member. FIG. 18 is a schematic view of the main part of a sash structure according to another embodiment.
1 Sash frame 2, 3 Sash body 4 Lower frame body of sash frame 7, 8 Lower rail 9, 10 Upper rail 21, 41 Lower corner block 22, 42 Upper corner block 23a, 43a Rail groove
30, 50 seal member
Lower portions 30b, 50b of the sealing member 30a, 50a Auxiliary sealing member
30c, 50c seal member intermediate portions 31, 31A inclined members 31a, 31b inclined surfaces

Claims (3)

A rectangular sash frame having a rail on the inside, and a pair of sash bodies formed in a rectangular shape so as to slide in a sliding manner along the rail to open and close the inner space of the sash frame,
Each of the pair of sash bodies has a sash structure having corner blocks at its four corners,
An inclined member having an upward inclined surface facing upward on the lower frame body of the sash frame and a laterally inclined surface facing laterally outside the outdoor side is provided, and a seal member capable of sliding contact with both the inclined surfaces is provided. A pair of elastically deformable fins, of the lower corner blocks of each sash body, in a closed position in which the inner space of the sash frame is closed by the pair of sash bodies, opposite sides of each other In the lower corner block,
In the closed position, the lower portion of the seal member is in sliding contact with the upward inclined surface of the inclined member positioned below the inclined member, and the intermediate portion protruding toward the indoor side of the seal member is positioned on the side of the inclined member. A sash structure configured to be in sliding contact with a laterally inclined surface and to suppress intrusion of wind from a gap between the lower corner block and the lower frame body of the sash frame. The tilt member is in its horizontal cross section, be formed in Yamagata integrally provided with the upwardly inclined surface and the lateral inclined surface on the left side and right side,
A seal member provided in the seal member and the other provided on one of the lower corner blocks facing the pull difference shape, one of the upward slope of the left side and the right side of the inclined member formed in Yamagata The sash structure according to claim 1, wherein the sash structure is configured to slidably contact the surface and the laterally inclined surface . The lower corner block includes a rail groove into which a rail provided in a lower frame body of the sash frame is inserted,
2. An auxiliary seal member that is slidably contacted with the rail and suppresses intrusion of wind from the gap between the rail groove and the rail is formed integrally with the seal member and provided in the rail groove. 2. The sash structure according to 2.

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