EP3845735A1 - Vitre multicouche et garniture équipée de celle-ci - Google Patents

Vitre multicouche et garniture équipée de celle-ci Download PDF

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Publication number
EP3845735A1
EP3845735A1 EP19855302.6A EP19855302A EP3845735A1 EP 3845735 A1 EP3845735 A1 EP 3845735A1 EP 19855302 A EP19855302 A EP 19855302A EP 3845735 A1 EP3845735 A1 EP 3845735A1
Authority
EP
European Patent Office
Prior art keywords
glass
exterior
sash
back direction
interior
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
EP19855302.6A
Other languages
German (de)
English (en)
Other versions
EP3845735A4 (fr
Inventor
Koji Yamada
Kotaro ABE
Mitsuru KOURABA
Satoru MOROOKA
Hiroki Arima
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Lixil Corp
Original Assignee
Lixil Corp
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from JP2018163832A external-priority patent/JP7126409B2/ja
Priority claimed from JP2018163829A external-priority patent/JP7073231B2/ja
Priority claimed from JP2018163830A external-priority patent/JP7195820B2/ja
Priority claimed from JP2018163831A external-priority patent/JP7039425B2/ja
Application filed by Lixil Corp filed Critical Lixil Corp
Publication of EP3845735A1 publication Critical patent/EP3845735A1/fr
Publication of EP3845735A4 publication Critical patent/EP3845735A4/fr
Pending legal-status Critical Current

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Classifications

    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/66Units comprising two or more parallel glass or like panes permanently secured together
    • E06B3/6617Units comprising two or more parallel glass or like panes permanently secured together one of the panes being larger than another
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/02Wings made completely of glass
    • E06B3/025Wings made completely of glass consisting of multiple glazing units
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/32Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing
    • E06B3/34Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing with only one kind of movement
    • E06B3/42Sliding wings; Details of frames with respect to guiding
    • E06B3/46Horizontally-sliding wings
    • E06B3/4609Horizontally-sliding wings for windows
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/32Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing
    • E06B3/34Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing with only one kind of movement
    • E06B3/42Sliding wings; Details of frames with respect to guiding
    • E06B3/46Horizontally-sliding wings
    • E06B3/4681Horizontally-sliding wings made of glass panes without frames
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/32Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing
    • E06B3/50Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing with more than one kind of movement
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/32Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing
    • E06B3/50Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing with more than one kind of movement
    • E06B3/5054Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing with more than one kind of movement where the sliding and rotating movements are independent of each other
    • E06B3/5081Arrangements of wings characterised by the manner of movement; Arrangements of movable wings in openings; Features of wings or frames relating solely to the manner of movement of the wing with more than one kind of movement where the sliding and rotating movements are independent of each other at least two wings have a different kind of movement
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B3/00Window sashes, door leaves, or like elements for closing wall or like openings; Layout of fixed or moving closures, e.g. windows in wall or like openings; Features of rigidly-mounted outer frames relating to the mounting of wing frames
    • E06B3/66Units comprising two or more parallel glass or like panes permanently secured together
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05DHINGES OR SUSPENSION DEVICES FOR DOORS, WINDOWS OR WINGS
    • E05D15/00Suspension arrangements for wings
    • E05D15/06Suspension arrangements for wings for wings sliding horizontally more or less in their own plane
    • E05D15/10Suspension arrangements for wings for wings sliding horizontally more or less in their own plane movable out of one plane into a second parallel plane
    • E05D15/1042Suspension arrangements for wings for wings sliding horizontally more or less in their own plane movable out of one plane into a second parallel plane with transversely moving carriage
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05DHINGES OR SUSPENSION DEVICES FOR DOORS, WINDOWS OR WINGS
    • E05D15/00Suspension arrangements for wings
    • E05D15/56Suspension arrangements for wings with successive different movements
    • E05D15/565Suspension arrangements for wings with successive different movements for raising wings before sliding
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05YINDEXING SCHEME ASSOCIATED WITH SUBCLASSES E05D AND E05F, RELATING TO CONSTRUCTION ELEMENTS, ELECTRIC CONTROL, POWER SUPPLY, POWER SIGNAL OR TRANSMISSION, USER INTERFACES, MOUNTING OR COUPLING, DETAILS, ACCESSORIES, AUXILIARY OPERATIONS NOT OTHERWISE PROVIDED FOR, APPLICATION THEREOF
    • E05Y2900/00Application of doors, windows, wings or fittings thereof
    • E05Y2900/10Application of doors, windows, wings or fittings thereof for buildings or parts thereof
    • E05Y2900/13Type of wing
    • E05Y2900/132Doors
    • EFIXED CONSTRUCTIONS
    • E06DOORS, WINDOWS, SHUTTERS, OR ROLLER BLINDS IN GENERAL; LADDERS
    • E06BFIXED OR MOVABLE CLOSURES FOR OPENINGS IN BUILDINGS, VEHICLES, FENCES OR LIKE ENCLOSURES IN GENERAL, e.g. DOORS, WINDOWS, BLINDS, GATES
    • E06B7/00Special arrangements or measures in connection with doors or windows
    • E06B7/16Sealing arrangements on wings or parts co-operating with the wings
    • E06B7/22Sealing arrangements on wings or parts co-operating with the wings by means of elastic edgings, e.g. elastic rubber tubes; by means of resilient edgings, e.g. felt or plush strips, resilient metal strips
    • E06B7/23Plastic, sponge rubber, or like strips or tubes
    • E06B7/2301Plastic, sponge rubber, or like strips or tubes without an integrally formed part for fixing the edging

Definitions

  • the present invention relates to a multi-layered glass and a fitting including the multi-layered glass.
  • a ribbon window (fitting) which includes a frame assembly and glass panels (sashes) fitted to the frame assembly (see, for example, Patent Document 2).
  • the plurality of glass panels (sashes) of Patent Document 2 are each constituted by a FIX panel, and are aligned with each other along a straight line in a front-face direction.
  • Some of such ribbon windows having FIX panels fitted thereto are provided with a mullion having a reduced width such that improved viewability is provided to a person in a room who views the outside through the ribbon window.
  • a fitting which includes a frame assembly and a sash movable within the frame assembly.
  • the fitting is provided with a cover member that can close a groove portion, the groove portion appearing when the sash has been moved in the front-face direction within the frame assembly (see, for example, Patent Document 3).
  • a different fitting which includes a sash frame, a door member that is disposed in the sash frame and can be opened and closed, a raising-lowering device disposed in a lower frame component (see, for example, Patent Document 4).
  • the raising-lowering device disclosed in Patent Document 4 is configured to raise and lower a block member to open and close a gap between the door member and the ground.
  • the multi-layered glasses may be tilted and a gap may be formed between the adjacent ones of the multi-layered glasses to allow communication between the interior and exterior of the room, thereby giving rise to the risk of leakage of light.
  • the gap allowing communication between the interior and exterior of the room may make it impossible to ensure watertightness and airtightness between the adjacent multi-layered glasses.
  • the ribbon window disclosed in Patent Document 2 includes the glass panels constituted by FIX panels and aligned with each other along a straight line in the front-face direction.
  • the ribbon window disclosed in Patent Document 2 cannot be opened.
  • an object of the present invention is to provide a multi-layered glass and a fitting that are configured to prevent formation of a gap allowing communication between the interior and exterior of a room.
  • Another object of the present invention is to provide a fitting including a sash that can be opened and closed while ensuring viewability.
  • yet another object of the present invention is to provide a fitting that includes a sash movable in an interior-exterior direction of a room, and can close, with a cover member, a groove portion formed in a frame assembly after the sash has been moved.
  • Still yet another object of the present invention is to provide a compact sash frame including a raising-lowering device.
  • an aspect of the present invention is directed to a multi-layered glass (e.g., a multi-layered glass 310, 320) including a first glass (e.g., an exterior-side glass panel 311 and an interior-side glass panel 323 to be described later); a second glass (e.g., an interior-side glass panel 313 and an exterior-side glass panel 321 to be described later); and a reinforcing member (e.g., a reinforcing member 316, 325 to be described later) disposed between the first glass and the second glass.
  • a multi-layered glass e.g., a multi-layered glass 310, 320
  • a first glass e.g., an exterior-side glass panel 311 and an interior-side glass panel 323 to be described later
  • a second glass e.g., an interior-side glass panel 313 and an exterior-side glass panel 321 to be described later
  • a reinforcing member e.g., a reinforcing member
  • the second glass has a protruding portion (e.g., an extension portion 313b, 321b to be described later) at one end thereof, the protruding portion protruding outward in comparison with an end face (e.g., an end face 311a, 323a to be described later) of the first glass in an in-plane direction of a glass surface of the second glass.
  • the multi-layered glass is provided with a shield portion (e.g., a stepwise protruding shield portion 316a, 325a to be described later) that is disposed in a portion corresponding to an interior-side glass surface or an exterior-side glass surface of at least the protruding portion.
  • the multi-layered glass further includes a sealing member (e.g., an airtight member 318, 328 to be described later) in the one end portion thereof where the protruding portion is provided, the sealing member being disposed on an outer side surface of the multi-layered glass.
  • a sealing member e.g., an airtight member 318, 328 to be described later
  • the reinforcing member preferably includes a reinforcing portion (e.g., a reinforcing portion 316c, 325c to be described later) disposed between the first glass and the second glass, and the shield portion protruding outward in comparison with the end face of the first glass in a direction in which the protruding portion of the second glass protrudes, and extending along the protruding portion.
  • a reinforcing portion e.g., a reinforcing portion 316c, 325c to be described later
  • the shield portion of the reinforcing member preferably extends in the direction in which the protruding portion of the second glass protrudes and lies over an entire length of the protruding portion.
  • the reinforcing member preferably has a flat surface (e.g., a stepwise flat portion 316b, 325b to be described later) that is located between the shield portion of the reinforcing member and the first glass, the flat surface being coplanar with the end face of the first glass.
  • a flat surface e.g., a stepwise flat portion 316b, 325b to be described later
  • a fitting e.g., sliding window 1 to be described later; a ribbon window 1A, 1B, 1C to be described later
  • a frame assembly e.g., a frame assembly 10, 10A to be described later
  • a plurality of sashes e.g., a first front-face direction slidable panel assembly 31, 31A and a second front-face direction slidable panel assembly 32, 32A to be described later
  • Adjacent sashes of the plurality of sashes each include a multi-layered glass including a first glass, a second glass, and a reinforcing member disposed between the first glass and the second glass.
  • the second glass has a protruding portion at one end thereof, the protruding portion protruding outward in comparison with an end face of the first glass in an in-plane direction of a glass surface of the second glass.
  • the multi-layered glasses of the adjacent sashes are adjacent to each other, and at least one of the multi-layered glasses adjacent to each other is provided with a shield portion that is disposed in a portion corresponding to an interior-side glass surface or an exterior-side glass surface of at least the protruding portion.
  • One sash of the adjacent sashes is abutted against the other sash in an abutment section (e.g., an abutment section 42 to be described later).
  • the protruding portion provided to the second glass of the multi-layered glass of the one sash is disposed close to one of an interior side and an exterior side
  • the protruding portion provided to the second glass of the multi-layered glass of the other sash is disposed close to the other of the interior side and the exterior side.
  • the multi-layered glasses adjacent to each other have interior-side front-face surfaces that are coplanar with each other and exterior-side front-face surfaces that are coplanar with each other.
  • the fitting further includes a sealing member in the one end portion of the multi-layered glass where the protruding portion is provided, the sealing member being disposed on an outer side surface of the multi-layered glass.
  • the reinforcing member preferably includes a reinforcing portion disposed between the first glass and the second glass, and the shield portion protruding outward in comparison with the end face of the first glass in a direction in which the protruding portion of the second glass protrudes, and extending along the protruding portion.
  • the shield portion of the reinforcing member preferably extends in a direction in which the protruding portion of the second glass protrudes and lies over an entire length of the protruding portion.
  • the reinforcing member preferably has a flat surface that is located between the shield portion of the reinforcing member and the first glass, the flat surface being coplanar with the end face of the first glass.
  • each of the multi-layered glasses adjacent to each other is provided with the shield portion.
  • the shield portion of the reinforcing member of the one sash preferably overlaps with the shield portion of the reinforcing member of the other sash.
  • a fitting e.g., a sliding window 1 to be described later
  • a fitting including: a frame assembly (e.g., a frame assembly 10 to be described later) fittable to an opening of a building; and a first sash (e.g., a front-back direction slidable panel assembly 20 to be describes later) and a second sash (e.g., a front-face direction slidable panel assembly 30 to be described later) disposed within the frame assembly.
  • a first sash e.g., a front-back direction slidable panel assembly 20 to be describes later
  • a second sash e.g., a front-face direction slidable panel assembly 30 to be described later
  • the first sash and the second sash are movable, within the frame assembly, between a closed position in which the first sash and the second sash are aligned along a straight line in a front-face direction and an open position in which the first sash overlaps with the second sash when viewed in an interior-exterior direction of a room.
  • the first sash is movable exclusively in the interior-exterior direction within the frame assembly.
  • the second sash is movable exclusively in the front-face direction within the frame assembly.
  • the fitting further includes an interior-exterior direction movement mechanism (e.g., a front-back direction movement mechanism 5 to be described later) coupled to a peripheral portion of the first sash, the interior-exterior direction movement mechanism being configured to move the first sash exclusively in the interior-exterior direction.
  • an interior-exterior direction movement mechanism e.g., a front-back direction movement mechanism 5 to be described later
  • the fitting is configured to move the first sash and the second sash from the closed position to the open position by moving the first sash in the interior-exterior direction, and thereafter, by moving the second sash in the front-face direction.
  • the fitting further includes a first airtight member (e.g., an airtight member 116b, 125b, 133b to be described later) and a second airtight member (e.g., an airtight member 116b, 125b, 133b to be described later).
  • a first airtight member e.g., an airtight member 116b, 125b, 133b to be described later
  • a second airtight member e.g., an airtight member 116b, 125b, 133b to be described later
  • yet another aspect of the present invention is directed to a fitting (e.g., a sliding window 1 to be described later) including: a frame assembly (e.g., a frame assembly 10 to be described later) fittable to an opening of a building; and a sash (e.g., a first window assembly 200 including a front-back direction slidable panel assembly 20 and a front-back direction movable sash roller 203 to be described later) disposed within the frame assembly.
  • a fitting e.g., a sliding window 1 to be described later
  • a frame assembly e.g., a frame assembly 10 to be described later
  • a sash e.g., a first window assembly 200 including a front-back direction slidable panel assembly 20 and a front-back direction movable sash roller 203 to be described later
  • the frame assembly has an exterior-side part (e.g., an upper frame component's exterior-side extension portion 112, a lower frame component's exterior-side extension portion 122 to be described later) that faces an exterior-side surface of the sash, an interior-side part (e.g., an upper frame component's interior-side extension portion 114, a lower frame component's interior-side extension portion 124 to be described later) that faces an interior-side surface of the sash, and a bottom part (e.g., a lower part 111t, an upper part 121t to be described later) that continuously extends from an end of the exterior-side part to an end of the interior-side part.
  • an exterior-side part e.g., an upper frame component's exterior-side extension portion 112, a lower frame component's exterior-side extension portion 122 to be described later
  • an interior-side part e.g., an upper frame component's interior-side extension portion 114, a lower frame component's interior-side extension portion
  • the sash includes a cover member (e.g., an upper frame component's exterior-side lid 118, a lower frame component's exterior-side lid 128 to be described later) for covering a space (e.g., an upper frame component's space S1, a lower frame component's space S2 to be described later) that is formed between the sash and the exterior-side part or a space that is formed between the sash and the interior-side part when the sash has moved in an interior-exterior direction of a room.
  • a cover member e.g., an upper frame component's exterior-side lid 118, a lower frame component's exterior-side lid 128 to be described later
  • a space e.g., an upper frame component's space S1, a lower frame component's space S2 to be described later
  • the fitting further includes a turnable member (e.g., a lower opening-closing turnable member 711, an upper opening-closing turnable member 721 to be described later) that supports the cover member such that the cover member is turnable in an inside of the frame assembly.
  • a turnable member e.g., a lower opening-closing turnable member 711, an upper opening-closing turnable member 721 to be described later
  • the fitting further includes a lock unit (e.g., a restraining rod 713b, a restraining rod 723b, a motor 52 to be described later) that is switchable between a locked state in which the cover member is restrained from moving and an unlocked state in which the cover member is released from the locked state.
  • a lock unit e.g., a restraining rod 713b, a restraining rod 723b, a motor 52 to be described later
  • the fitting further includes a drive unit (e.g., a motor 52 to be described later), wherein driving the drive unit causes the sash to be moved in the interior-exterior direction within the frame assembly.
  • a drive unit e.g., a motor 52 to be described later
  • a sash frame including a frame assembly (e.g., a frame assembly 10) fittable to an opening of a building.
  • the frame assembly has a groove portion (e.g., a groove portion M, a recessed portion K to be described later) capable of receiving a sash (e.g., a front-back direction slidable panel assembly 20, a front-face direction slidable panel assembly 30 to be described later) configured to close the opening.
  • the frame assembly includes a raising-lowering device (e.g., a middle-positioned lid raising/lowering mechanism 8 to be described later) that is disposed in the frame assembly and is capable of raising and lowering a lid member (e.g., a vertically-movable lid member 89 to be described later) in the groove portion of the frame assembly.
  • the lid member is capable of covering the groove portion when the lid member is raised to become coplanar with an upper end of the groove portion.
  • the raising-lowering device includes a raising-lowering drive unit (e.g., a motor 82 to be described later) having a drive shaft (e.g., a rotary shaft 83), and is capable of raising and lowering the lid member by means of a rotational drive force of the drive shaft.
  • the drive shaft extends in a longitudinal direction of the frame assembly.
  • the raising-lowering device preferably includes a scissor arm (e.g., a scissor arm 86 to be described later) that includes a pair of crossing arm parts (e.g., arm parts 861 to be described later) and is capable of extending and contracting in a direction in which the lid member is raised and lowered.
  • a scissor arm e.g., a scissor arm 86 to be described later
  • a pair of crossing arm parts e.g., arm parts 861 to be described later
  • the drive shaft preferably includes a screw mechanism that is connected to an end of the scissor arm in the longitudinal direction of the frame assembly, the screw mechanism being driven and rotated to raise and lower the lid member.
  • the frame assembly is preferably provided with a rib (e.g., a frame-side rising-bent part 121a to be described later) that projects from the frame assembly toward an inside of the frame assembly, the rib being intended for mounting of the raising-lowering device to the frame assembly.
  • a rib e.g., a frame-side rising-bent part 121a to be described later
  • the present invention provides a multi-layered glass and a fitting that are configured to prevent formation of a gap allowing communication between the interior and exterior of a room.
  • the present invention provides a fitting including a sash that can be opened and closed while ensuring viewability.
  • the present invention provides a fitting that includes a sash movable in an interior-exterior direction of a room, and that can close, with a cover member, a groove portion formed in a frame assembly after the sash has been moved.
  • the present invention provides a compact sash frame including a raising-lowering device.
  • FIG. 1 is a front view of the sliding window 1 according to the first embodiment of the present invention, and shows the sliding window 1 in a closed position.
  • FIG. 2 is a transverse cross-sectional view taken along line A-A in FIG. 1 , and shows the sliding window 1 of the first embodiment in the closed position.
  • FIG. 3 is a transverse cross-sectional view of the sliding window 1 that has transitioned to an intermediate position from the closed position shown in FIG. 2 , with front-back direction slidable panel assemblies 20 moved toward an exterior side.
  • FIG. 4 is a vertical cross-sectional view of the sliding window 1 that has transitioned to the closed position from the intermediate position shown in FIG.
  • FIG. 5 shows, on an enlarged scale, a left end portion of the sliding window 1 shown in FIG. 2 .
  • FIG. 6 shows, on an enlarged scale, a right end portion of the sliding window 1 shown in FIG. 2 .
  • the "front-face direction” as used herein refers to an in-plane direction of a sash fitted in a frame assembly of a fitting that is installed in an opening of a building.
  • the "front-back direction” as used herein refers to an interior-exterior direction of a room (i.e., a depth direction).
  • the lateral direction in FIG. 1 is referred to as "the lateral direction X”.
  • a leftward side (one side) in FIG. 1 is referred to as the "X1 side”
  • a rightward side (the other side) in FIG. 1 is referred to as the "X2 side”.
  • the front-back direction in FIG. 2 is referred to as the "front-back direction Y".
  • the side facing away from the viewer is referred to as the "exterior side” and the side facing the viewer is referred to as the "interior side”.
  • the sliding window 1 of the first embodiment includes a frame assembly 10 fittable to an opening of a building, a pair of first window assemblies 200, a pair of second window assemblies 300, front-back direction movement mechanisms 5 (interior-exterior direction movement mechanisms), front-face direction movement mechanisms 6, end-positioned lid opening-closing mechanisms 7, and middle-positioned lid raising-lowering mechanisms 8 (raising-lowering devices).
  • a structure excluding the pair of front-back direction slidable panel assemblies 20 and the pair of front-face direction slidable panel assemblies 30, but including the frame assembly 10 is referred to as a sash frame.
  • the first window assemblies 200 are movable in the front-back direction Y, and each include the front-back direction slidable panel assembly 20 (first sash), a front-back direction movable sash roller 203 (to be described later), an upper frame component's exterior-side lid 118 (cover member; see FIGS. 7 and 8 ), and a lower frame component's exterior-side lid 128 (cover member; see FIGS. 7 and 8 ).
  • the second window assemblies 300 are movable in the lateral direction X of the front-face direction, and each include the front-face direction slidable panel assembly 30 (second sash), and a front-face direction movable sash roller 303 (to be described later).
  • the front-back direction slidable panel assemblies 20 and the front-face direction slidable panel assemblies 30 are intended to close the opening of the building.
  • the frame assembly 10 includes an upper frame component 11, a lower frame component 12, and a pair of vertical frame components 13, 13. These frame components are assembled into the quadrilateral frame assembly.
  • the upper frame component 11, the lower frame component 12, and the pair of vertical frame components 13, 13 are each produced by extrusion molding of, for example, aluminum.
  • the pair of front-back direction slidable panel assemblies 20 and the pair of front-face direction slidable panel assemblies 30 are arranged.
  • the sliding window 1 of the first embodiment is configured such that the pair of front-back direction slidable panel assemblies 20 and the pair of front-face direction slidable panel assemblies 30 can be moved within the frame assembly 10.
  • the sliding window 1 of the first embodiment can transition between the closed position ( FIGS. 1 and 2 ), the intermediate position ( FIG. 3 ), and the open position ( FIG. 4 ).
  • the pair of front-back direction slidable panel assemblies 20 are positioned close to both ends of the frame assembly 10 in the lateral direction X, and are movable in the front-back direction Y by means of the front-back direction movement mechanisms 5 (see FIG. 1 ).
  • the pair of front-face direction slidable panel assemblies 30 are positioned in a vicinity of the middle of the frame assembly 10 in the lateral direction, and are movable in the lateral direction X of the front-face direction by means of the front-face direction movement mechanisms 6 (see FIG. 1 ).
  • the front-back direction slidable panel assemblies 20 of the present embodiment are movable exclusively in the front-back direction Y within the frame assembly 10. Therefore, after the front-back direction slidable panel assemblies 20 have been moved exclusively in the front-back direction Y within the frame assembly 10, the front-face direction slidable panel assemblies 30 can be opened. Thus, the sliding window 1 is achieved which can be opened and closed while ensuring viewability.
  • the front-face direction slidable panel assemblies 30 are movable exclusively in the lateral direction X of the front-face direction within the frame assembly 10.
  • the front-face direction slidable panel assemblies 30 are moved exclusively in the lateral direction X of the front-face direction, whereby the sliding window 1 can easily be opened and closed.
  • the pair of front-back direction slidable panel assemblies 20 and the pair of front-face direction slidable panel assemblies 30 are aligned with each other along a straight line in the lateral direction X of the front-face direction within the frame assembly 10.
  • the pair of front-back direction slidable panel assemblies 20 are moved toward the exterior side in the front-back direction Y within the frame assembly 10, so that the transition to intermediate position shown in FIG. 3 , in which the pair of front-back direction slidable panel assemblies 20 are positioned at exterior-side locations in the vicinities of both ends of the frame assembly 10 in the lateral direction X, is achieved.
  • the pair of front-face direction slidable panel assemblies 30 are moved outwardly away from each other in the lateral direction X within the frame assembly 10, so that transition to the open position shown in FIG. 4 , in which the pair of front-face direction slidable panel assemblies 30 are positioned at outward locations in the lateral direction X, is achieved.
  • the sliding window 1 is in the open position, the pair of front-back direction slidable panel assemblies 20 overlap with the pair of front-face direction slidable panel assemblies 30 within the frame assembly 10, when viewed in the front-back direction Y.
  • the frame assembly 10 has a length in the lateral direction X which allows the pair of front-back direction slidable panel assemblies 20 and the pair of front-face direction slidable panel assemblies 30 to be aligned with each other along a straight line in the lateral direction X within the frame assembly 10.
  • the frame assembly 10 has a length in the front-back direction Y which allows the front-back direction slidable panel assemblies 20 and the front-face direction slidable panel assemblies 30 to be arranged in two lines in the front-back direction Y within the frame assembly 10.
  • FIG. 7 is a cross-sectional view taken along line B-B in FIG. 1 .
  • FIG. 8 is a cross-sectional view taken along line C-C in FIG. 1 .
  • FIG. 9 is a cross-sectional view taken along line D-D in FIG. 1 .
  • FIG. 10 shows a vertically-movable lid member 89 raised from the state shown in FIG. 9 .
  • the upper frame component 11 has an upper frame component body 111 that has a hollow quadrilateral shape in cross section, an upper frame component's exterior-side extension portion 112 that extends downward from a lower exterior-side portion of the upper frame component body 111, an upper frame component's exterior-side lower projection 113 that projects from a lower end of the upper frame component's exterior-side extension portion 112 toward the inside of the upper frame component 11 in the front-back direction Y, an upper frame component's interior-side extension portion 114 that extends downward from a lower interior-side portion of the upper frame component body 111, an upper frame component's interior-side lower projection 115 that projects from a lower end of the upper frame component's exterior-side lower projection 113 toward the inside of the upper frame component 11 in the front-back direction Y, an upper frame component's interior-side cover 116 that is detachably engaged with the upper frame component's interior-side lower projection 115 and is disposed to extend from the upper frame component'
  • the upper frame component 11 has, in a lower portion thereof, an upper frame component's downward opening 117 that opens downward.
  • the upper frame component's downward opening 117 has a width in the front-back direction Y and extends in the lateral direction X over the entire upper frame component 11.
  • the upper frame component's downward opening 117 opens downward between an interior-side end of the upper frame component's exterior-side lower projection 113 and an exterior-side end of the upper frame component's interior-side lower projection 115.
  • the upper frame component 11 has the upper frame component's exterior-side extension portion 112 (exterior-side part) that faces an exterior-side surface of the front-back direction slidable panel assembly 20, the upper frame component's interior-side extension portion 114 (interior-side part) that faces an interior-side surface of the front-back direction slidable panel assembly 20, and a lower part 111t (bottom part) that forms part of the upper frame component body 111 and continuously extends from an end of the upper frame component's exterior-side extension portion 112 to an end of the upper frame component's interior-side extension portion 114.
  • an upper frame component's space S1 space is formed close to the exterior side.
  • the upper frame component's space S1 is located between the front-back direction slidable panel assembly 20 and the upper frame component's exterior-side extension portion 112.
  • exterior-side portions of the upper frame component's downward opening 117 can be opened and closed by the upper frame component's exterior-side lids 118 of the first window assemblies 200 when the front-back direction slidable panel assemblies 20 are moved toward the exterior side.
  • the upper frame component's exterior-side lids 118 move between a closure position and an open position with the help of the movement of the front-back direction slidable panel assemblies 20 in the front-back direction Y.
  • the upper frame component's exterior-side lid 118 closes the upper frame component's space S1 present in a groove portion of the upper frame component's downward opening 117 of the upper frame component 11, whereas in a non-closure position, the upper frame component's exterior-side lid 118 leave the upper frame component's space S1 open.
  • an exterior-side portion of the upper frame component's downward opening 117 is closed with an upper frame component's exterior-side fixed lid 119.
  • the upper frame component's exterior-side fixed lid 119 is unopenable and fixed to the upper frame component 11.
  • the upper frame component's interior-side cover 116 lies over an entire interior-side portion of the upper frame component's downward opening 117 in the lateral direction X of the sliding window 1.
  • the upper frame component's interior-side cover 116 extends from end to end of the sliding window 1 in the lateral direction X, and is detachably engaged with the upper frame component's interior-side lower projection 115 so as to cover the interior-side portion of the upper frame component's downward opening 117 from below.
  • the upper frame component's interior-side cover 116 is detached when the front-back direction slidable panel assemblies 20 or the front-face direction slidable panel assemblies 30 are going to be mounted, and is attached after the front-back direction slidable panel assemblies 20 or the front-face direction slidable panel assemblies 30 have been mounted. Since the upper frame component's interior-side cover 116 is detachable, it also functions as a detachable cover of an inspection opening that allows inspection of the inside of the upper frame component 11.
  • the upper frame component's interior-side cover 116 has an engaging portion 116a at an exterior-side end thereof.
  • the engaging portion 116a receives airtight members 116b (a first airtight member, a second airtight member) attached thereto.
  • the airtight members 116b attached to the engaging portion 116a are located between the upper frame component 11 and the front-back direction slidable panel assemblies 20 and between the upper frame component 11 and the front-face direction slidable panel assemblies 30, and are pressed onto upper interior-side portions of the front-face surfaces of the pair of front-back direction slidable panel assemblies 20 and the pair of front-face direction slidable panel assemblies 30.
  • the airtight members 116b have a hollow structure having a hollow portion, and are configured to ensure airtightness and watertightness of the upper frame component 11 and the slidable panel assemblies 20 and 30. Due to the hollow structure having the hollow portion, the airtight members 116b are inhibited from being rolled up even when the front-back direction slidable panel assemblies 20 or the front-face direction slidable panel assemblies 30 are moved.
  • the lower frame component 12 has a lower frame component body 121 that has a hollow quadrilateral shape in cross section, a lower frame component's exterior-side extension portion 122 that extends upward from an upper exterior-side portion of the lower frame component body 121, a lower frame component's exterior-side upper projection 123 that projects from an upper end of the lower frame component's exterior-side extension portion 122 toward the inside of the lower frame component 12 in the front-back direction Y, a lower frame component's interior-side extension portion 124 that extends upward from an upper interior-side portion of the lower frame component body 121, a lower frame component's exterior-side upper projection 125 that projects from an upper end of the lower frame component's interior-side extension portion 124 toward the inside of the lower frame component 12 in the front-back direction Y, and a lower frame component's exterior-side fixed lid 129 (see FIG. 9 ).
  • the lower frame component body 121 has a shape elongate in the front-back direction
  • the lower frame component 12 has, in an upper portion thereof, a lower frame component's upward opening 127 that opens upward.
  • the lower frame component's upward opening 127 has a width in the front-back direction Y and extends in the lateral direction X over the entire lower frame component 12.
  • the lower frame component's upward opening 127 opens upward between an interior-side end of the lower frame component's exterior-side upper projection 123 and an exterior-side end of the lower frame component's exterior-side upper projection 125.
  • the lower frame component 12 has the lower frame component's exterior-side extension portion 122 (exterior-side part) that faces the exterior-side surface of the front-back direction slidable panel assembly 20, the lower frame component's interior-side extension portion 124 (interior-side part) that faces the interior-side surface of the front-back direction slidable panel assembly 20, and an upper part 121t (bottom part) that forms part of the lower frame component body 121 and continuously extends from an end of the lower frame component's exterior-side extension portion 122 to an end of the lower frame component's interior-side extension portion 124.
  • a lower frame component's space S2 space is formed close to the exterior side.
  • the lower frame component's space S2 is located between the front-back direction slidable panel assembly 20 and the lower frame component's exterior-side extension portion 122.
  • exterior-side portions of the lower frame component's upward opening 127 can be opened and closed by the lower frame component's exterior-side lids 128 of the first window assemblies 200 when the front-face direction slidable panel assemblies 30 are moved toward the exterior side.
  • the lower frame component's exterior-side lids 128 move between a closure position and an open position with the help of the movement of the front-back direction slidable panel assemblies 20 in the front-back direction Y.
  • the lower frame component's exterior-side lids 128 close the lower frame component's space S2 present in a groove portion of the lower frame component's upward opening 127 of the lower frame component 12, whereas in the non-closure position, the lower frame component's exterior-side lids 128 leave the lower frame component's space S2 open.
  • the lower frame component 12 has therein sash roller placement frames 120 that are disposed on an upper surface of the lower frame component body 121.
  • the sash roller placement frame 120 has a sash roller movement upper surface 120a as an upper surface thereof.
  • the sash roller movement upper surface 120a bears a front-back direction movable sash roller 203 (to be described later) of a first movable lower-end support 201 that supports a lower end of a front-back direction slidable panel assembly 21, 22 such that the front-back direction movable sash roller 203 is movable in the front-back direction Y.
  • a front-face direction movable sash roller 303 (to be described later) of a second movable lower-end support 301 that supports a lower end of an associated one of a pair of front-face direction slidable panel assemblies 31 and 32 is placed movably in the lateral direction X.
  • an exterior-side portion of the lower frame component's upward opening 127 is closed with the lower frame component's exterior-side fixed lid 129.
  • the lower frame component's exterior-side fixed lid 129 is unopenable and fixed to the lower frame component 12.
  • the lower frame component's exterior-side fixed lid 129 includes a lid body plate 129a that extends horizontally, a downward projection part 129b that projects downward from an interior-side end of the lid body plate 129a, and a downward extension plate 129c that is provided closer than the downward projection part 129b to the exterior side and has a lower end located below that of the downward projection part 129b.
  • the downward extension plate 129c has a position restraining piece 129d (to be described later) attached to an interior-side surface of the downward extension plate 129c.
  • the lower frame component's exterior-side upper projection 125 includes an engaging portion 125a at an exterior-side end thereof.
  • the engaging portion 125a receives airtight members 125b (a first airtight member, a second airtight member) attached thereto.
  • the airtight members 125b attached to the engaging portion 125a are located between the lower frame component 12 and the front-back direction slidable panel assemblies 20 and between the lower frame component 12 and the front-face direction slidable panel assemblies 30, and are pressed onto upper interior-side portions of the front-face surfaces of the pair of front-back direction slidable panel assemblies 20 and the pair of front-face direction slidable panel assemblies 30.
  • the airtight members 125b have a hollow structure having a hollow portion, and are configured to ensure airtightness and watertightness of the lower frame component 12 and the slidable panel assemblies 20 and 30.
  • the airtight members 125b are disposed above the first movable lower-end supports 201 and are pressed onto upper interior-side portions of the front-face surfaces of the pair of front-back direction slidable panel assemblies 20 and the pair of front-face direction slidable panel assemblies 30, so that the airtightness and watertightness are ensured. Due to the hollow structure having the hollow portion, the airtight members 125b are inhibited from being rolled up when the middle-positioned lid raising-lowering mechanism 8 moves vertically.
  • each of the pair of vertical frame components 13, 13 has a vertical frame component body 131 that has a hollow quadrilateral shape in cross section, a vertical frame component's interior-side extension portion 132 that extends inward in the lateral direction X from an interior-side end of the vertical frame component body 131, and a vertical frame component's front-back direction extension portion 133 that extends toward the exterior side in the front-back direction Y from an inward end of the vertical frame component's interior-side extension portion 132 in the lateral direction X.
  • the vertical frame component body 131 has a shape elongate in the front-back direction Y.
  • Each vertical frame component's front-back direction extension portion 133 has an engaging portion 133a at an exterior-side end thereof.
  • the engaging portions 133a receive airtight members 133b (a first airtight member, a second airtight member) attached thereto.
  • the airtight members 132b attached to the engaging portions 133a are located between the vertical frame component 13 and the front-back direction slidable panel assembly 20 or between the vertical frame component 13 and the front-face direction slidable panel assembly 30.
  • the airtight members 132b are pressed onto laterally outward portions of the front-face surfaces of the pair of front-back direction slidable panel assemblies 20 or the pair of front-face direction slidable panel assemblies 30.
  • the airtight members 133b have a hollow structure having a hollow portion, and are configured to ensure airtightness and watertightness of the vertical frame components 13 and the slidable panel assemblies 20 and 30. Due to the hollow structure having the hollow portion, the airtight members 133b are inhibited from being rolled up even when the front-back direction slidable panel assemblies 20 or the front-face direction slidable panel assemblies 30 are moved.
  • the pair of front-back direction slidable panel assemblies 20 and the pair of front-face direction slidable panel assemblies 30 are arranged close to the interior side within the frame assembly 10, and are aligned with each other along a straight line in the lateral direction X when they are in the closed position, as shown in FIG. 2 .
  • the pair of front-back direction slidable panel assemblies 20 are positioned in the vicinities of both ends in the lateral direction X within the frame assembly 10, while the pair of front-face direction slidable panel assemblies 30 are positioned between the pair of front-back direction slidable panel assemblies 20 and are aligned with the pair of front-back direction slidable panel assemblies 20 along a straight line in the lateral direction X.
  • the front-back direction slidable panel assembly 21, the front-face direction slidable panel assembly 31, the front-face direction slidable panel assembly 32, and the front-back direction slidable panel assembly 22 are arranged in this order to be aligned with each other along a straight line, from the leftward side (one side) to the rightward side (the other side) in the lateral direction X.
  • the front-back direction slidable panel assembly 21 and the front-face direction slidable panel assembly 31 are abutted against each other in an abutment section 41.
  • the front-face direction slidable panel assembly 31 and the front-face direction slidable panel assembly 32 are abutted against each other in an abutment section 42.
  • the front-face direction slidable panel assembly 32 and the front-back direction slidable panel assembly 22 are abutted against each other in an abutment section 43.
  • the slidable panel assemblies 20, 30 are arranged adjacent to one another, while exterior-side front-face surfaces of exterior-side glass panels 211, 221, 311, 321 (to be described later) that are close to the exterior side are arranged coplanarly with one another, and interior-side front-face surfaces of interior-side glass panels 213, 223, 313, 323 (to be described later) that are close to the interior side are arranged coplanarly with one another.
  • Transition of the sliding window 1 (the front-back direction slidable panel assemblies 20 and the front-face direction slidable panel assemblies 30) from the closed position (see FIGS. 1 and 2 ) to the open position (see FIG. 4 ) is carried out in the following manner.
  • the pair of front-back direction slidable panel assemblies 20 are respectively moved by means of the front-back direction movement mechanisms 5 toward the exterior side in the front-back direction Y, whereby the sliding window 1 transitions to the intermediate position shown in FIG. 3 .
  • the pair of front-face direction slidable panel assemblies 30 are moved outwardly away from each other in the lateral direction X by means of the front-face direction movement mechanisms 16, whereby the sliding window 1 transitions to the open position shown in FIG. 4 .
  • Transition of the sliding window 1 from the open position (see FIG. 4 ) to the closed position (see FIGS. 1 and 2 ) is carried out in the following manner.
  • the pair of front-face direction slidable panel assemblies 30 are moved inwardly toward each other in the lateral direction X by means of the front-face direction movement mechanisms 6, whereby the sliding window 1 transitions to the intermediate position shown in FIG. 3 .
  • the pair of front-back direction slidable panel assemblies 20 are respectively moved by means of the front-back direction movement mechanisms 15 toward the interior side in the front-back direction Y, whereby the sliding window 1 transitions to the closed position shown in FIG. 2 .
  • the pair of front-back direction slidable panel assemblies 21 and 22 and the pair of front-face direction slidable panel assemblies 31 and 32 are constituted by multi-layered glasses 210, 220, 310 and 320, respectively.
  • the multi-layered glasses 210, 220, 310 and 320 each include three glass panels (exterior-side glass panels 211, 221, 311, 321, and intermediate glass panels 212, 222, 312, 322, interior-side glass panels 213, 223, 313, 323).
  • the exterior-side glass panels 211, 221, 311, 321, the intermediate glass panels 212, 222, 312, 322, and the interior-side glass panels 213, 223, 313, 323 are arranged in the front-back direction in this order from the exterior side to the interior side, and are layered together with an air space interposed between adjacent two of the glass panels.
  • the exterior-side glass panels 211, 221, 311, and 321 are closest to the exterior side in the multi-layered glasses 210, 220, 310, and 320, respectively.
  • the interior-side glass panels 213, 223, 313, and 323 are the closest to the interior side in the multi-layered glasses 210, 220, 310, and 320, respectively.
  • the multi-layered glasses 210, 220, 310, and 320 have, at each of its outward ends in the lateral direction X of the front-face direction, a pair of glass panel spacers 214, a pair of glass panel spacers 224, a pair of glass panel spacers 314, and a pair of glass panel spacers 324, respectively, and reinforcing members 215, 216, 225, 226, 315, 316, 325, and 326, respectively.
  • the pair of front-back direction slidable panel assemblies 21 and 22 and the pair of front-face direction slidable panel assembly 31 and 32 have airtight members 217, 227, 317, 318, 327, and 328 (sealing members), and buffers 219, 229, 319a, 319b, 329a, and 329b.
  • the reinforcing members 215, 216, 225, 226, 315, 316, 325, and 326 are each disposed at an associated one of the ends of the exterior-side glass panels 211, 221, 311, 321 and the ends of the interior-side glass panels 213, 223, 313, 323 in the lateral direction X.
  • the reinforcing members 215, 216, 225, 226, 315, 316, 325, and 326 are disposed between associated two of the exterior-side glass panels 211, 221, 311, 321 and the interior-side glass panels 213, 223, 313, 323.
  • the reinforcing members 215, 216, 225, 226, 315, 316, 325, and 326 may be fixed to the exterior-side glass panels 211, 221, 311, 321 and the interior-side glass panels 213, 223, 313, 323 with an adhesive.
  • the reinforcing members 215 and 225 disposed at locations other than the abutment sections 41, 42, and 43 have a flat plate shape extending in the front-back direction.
  • the reinforcing members 216, 226, 315, 316, 325, and 326 that are each disposed in the abutment section 41, 42, or 43 have a step on its front-to-back surface facing outward in the lateral direction X.
  • the reinforcing members 216, 226, 315, 316, 325, and 326 disposed in the abutment section 41, 42, or 43 will be detailed later.
  • the glass panel spacers 214, 224, 314, and 324 are arranged close to the ends of the pair of front-back direction slidable panel assemblies 21 and 22 and the pair of front-face direction slidable panel assemblies 31 and 32 in the lateral direction X, and are disposed inward in the lateral direction X in comparison with the associated one of the reinforcing members 215, 216, 225, 226, 315, 316, 325, and 326.
  • the glass panel spacers 214, 224, 314, and 324 are disposed between associated two of the glass panels (the exterior-side glass panels 211, 221, 311, 321, the intermediate glass panels 212, 222, 312, 322, and the interior-side glass panels 213, 223, 313, 323) in the front-to-pack direction.
  • the pair of front-back direction slidable panel assemblies 21 and 22 and the pair of front-face direction slidable panel assemblies 31 and 32 each have, in its upper and lower end portions, a pair of glass panel spacers 231 or a pair of glass panel spacers 331, and reinforcing members 232 and 233 or reinforcing members 332 and 333.
  • the pair of front-back direction slidable panel assemblies 21 and 22 have the lower end supported on the first movable lower-end support 201, and the upper end supported on a first upper end support 206.
  • the pair of front-face direction slidable panel assembly 31 and 32 have the lower end supported on the second movable lower-end support 301, and the upper end supported on a second movable upper-end support 306.
  • the reinforcing members 232 and 233 are each arranged in an associated one of the upper and lower end portions of the pair of front-back direction slidable panel assemblies 21 and 22 and the upper and lower end portions of the pair of front-face direction slidable panel assemblies 31 and 32, and are each disposed between associated two of the exterior-side glass panels 211, 221, 311, 321 and the interior-side glass panels 213, 223, 313, 323.
  • the reinforcing members 232, 233, 332, and 333 do not have any stepped portion, but have a flat-plate shape extending in the front-back direction.
  • the pair of glass panel spacers 231 are disposed in each of the upper and lower end portions of the pair of front-back direction slidable panel assemblies 21 and 22.
  • the pair of glass panel spacers 331 are disposed in each of the upper and lower end portions of the pair of front-face direction slidable panel assemblies 31 and 32.
  • the panel spacers 231 and 331 are arranged inward in comparison with the reinforcing members 232 and 233, respectively, while being disposed between the glass panels.
  • upper end faces of the exterior-side glass panels 211, 221, 311, and 321 are coplanar with upper end faces of the interior-side glass panels 213, 223, 313, and 323 without any offset from each other.
  • Lower end faces of the exterior-side glass panels 211, 221, 311, and 321 are coplanar with lower end faces of the interior-side glass panels 213, 223, 313, and 323 without any offset from each other.
  • the reinforcing members 232, 233, 332, and 333 that are disposed at the upper and lower ends of the multi-layered glasses 210, 220, 310, and 320 do not have any stepped portion, but have a flat-plate shape extending in the front-back direction.
  • the reinforcing member 216 disposed at the end of the front-back direction slidable panel assembly 21 has an exterior-side portion protruding toward the X2 side whereas the reinforcing member 315 disposed at the end of the front-face direction slidable panel assembly 31 has an interior-side portion protruding toward the X1 side.
  • the exterior-side portion which forms part of the reinforcing member 216 disposed at the front-back direction slidable panel assembly 21 and which protrudes toward the X2 side, overlaps with the interior-side portion, which forms part of the reinforcing member 315 disposed at the front-face direction slidable panel assembly 31 and which protrudes toward the X1 side, when viewed in the front-back direction Y.
  • the reinforcing member 226 disposed at the end of the front-back direction slidable panel assembly 22 has an exterior-side portion protruding toward the X1 side whereas the reinforcing member 326 disposed at the end of the front-face direction slidable panel assembly 32 has an interior-side portion protruding toward the X2 side.
  • the exterior-side portion which forms part of the reinforcing member 226 disposed at the front-back direction slidable panel assembly 22 and which protrudes toward the X1 side, overlaps with the interior-side portion, which forms part of the reinforcing member 326 disposed at the front-face direction slidable panel assembly 32 and which protrudes toward the X1 side, when viewed in the front-back direction Y.
  • the reinforcing member 316 disposed at one of the panel assemblies i.e., the front-face direction slidable panel assembly 31 has an interior-side portion protruding toward the X2 side whereas the reinforcing member 325 disposed at the other, i.e., the front-face direction slidable panel assembly 32 has an exterior-side portion protruding toward the X1 side.
  • the interior-side portion of the reinforcing member 316 overlaps with the exterior-side portion of the reinforcing member 325 when viewed in the front-back direction Y.
  • the reinforcing member 316 of the front-face direction slidable panel assembly 31 is matched with the reinforcing member 325 of the front-face direction slidable panel assembly 32.
  • the present embodiment includes the position restraining pieces 129d mentioned earlier. As shown in FIGS. 1 , 9 and 10 , the position restraining pieces 129d are attached to the interior-side surface of the downward extension plate 129c of the lower frame component 12.
  • the position restraining pieces 129d are provided in the lower frame component 12 to be located close to the ends of the front-face direction slidable panel assemblies 31 and 32, the ends being adjacent to the abutment section 42. As shown in FIG. 1 , the position restraining pieces 129d are provided in the lower frame component 12 to be located close to the ends of the front-face direction slidable panel assemblies 31 and 32, the ends being adjacent to the abutment section 42. As shown in FIG.
  • the abutment structure of the abutment section 42 (at which the first front-face direction slidable panel assembly 31 is abutted against the second front-face direction slidable panel assembly 32) will be described.
  • the description of the abutment section 42 applies to the abutment sections 41 and 43.
  • the abutment section 41 has the same structure as that of the abutment section 42, except that the structure of abutment section 41 is flipped left and right.
  • the description of the structure of the abutment section 42 applies to the structure of the abutment section 41.
  • the abutment section 42 is formed by way of abutting of the X2-side end portion in the lateral direction X of the first front-face direction slidable panel assembly 31 against the X1-side end portion in the lateral direction X of the second front-face direction slidable panel assembly 32.
  • the exterior-side glass panel 311 (first glass) has an X2-side end face 311a located at a position Xa1 while the interior-side glass panel 313 (second glass) has an X2-side end face 313a located at a position Xa2, and the position Xa1 is closer than the position Xa2 to the X1 side in the lateral direction X.
  • the interior-side glass panel 313 has, at one end adjacent to the abutment section 42, an extension portion 313b (protruding portion).
  • the extension portion 313b is a part of the interior-side glass panel 313 having a flat plate shape, and protrudes outward in comparison with the end face 311a of the exterior-side glass panel 311, in an in-plane direction of a glass surface of the interior-side glass panel 313.
  • the end face 311a of the exterior-side glass panel 311 is out of coincidence with the end face 313a of the interior-side glass panel 313 in the lateral direction X of the front-face direction of the multi-layered glass 310.
  • the position Xa1 of the X2-side end face 311a of the exterior-side glass panel 311 and the position Xa2 of the X2-side end face 313a of the interior-side glass panel 313 are closer than a position Xa3 of an X2-side end face 312a of the intermediate glass panel 312 to the X2 side in the lateral direction X.
  • the reinforcing member 316 that is disposed at the end of the first front-face direction slidable panel assembly 31 adjacent to the abutment section 42 is disposed between the exterior-side glass panel 311 and the interior-side glass panel 313 in the front-back direction.
  • the reinforcing member 316 has a step on its front-to-back surface facing the X2 side in the lateral direction X, so that its interior-side portion protrudes toward the X2 side.
  • the reinforcing member 316 has a reinforcing portion 316c that is disposed between the exterior-side glass panel 311 and the interior-side glass panel 313, and a stepwise protruding shield portion 316a (shield portion) that is formed in an interior-side portion of a front-to-back surface of the reinforcing portion 316c facing outward.
  • the stepwise protruding shield portion 316a is disposed in contact with the extension portion 313b of the interior-side glass panel 313.
  • the stepwise protruding shield portion 316a is located close to the interior-side glass panel 313 and disposed along the extension portion 313b.
  • the reinforcing member 316 has a stepwise flat portion 316b (flat portion) that is located closer than the stepwise protruding shield portion 316a to the exterior side.
  • the stepwise protruding shield portion 316a and the stepwise flat portion 316b each have a front-to-back surface that is flat and extends in the front-back direction.
  • the front-to-back surface of the stepwise flat portion 316b is longer in the front-back direction than the front-to-back surface of the stepwise protruding shield portion 316a.
  • the stepwise protruding shield portion 316a extends along the entire length in the lateral direction X of the extension portion 313b.
  • the front-to-back surface of the stepwise protruding shield portion 316a is closer than the front-to-back surface of the stepwise flat portion 316b to the X2 side.
  • the front-to-back surface of the stepwise protruding shield portion 316a is located at the position Xa2, i.e., is in coincidence with the end face 313a of the interior-side glass panel 313, while the front-to-back surface of the stepwise flat portion 316b is located at the position Xa1, i.e., is in coincidence with the end face 311a of the exterior-side glass panel 311.
  • the stepwise protruding shield portion 316a protrudes outward in comparison with the end face 311a of the exterior-side glass panel 311 in the direction in which the extension portion 313b of the interior-side glass panel 313 protrudes, and extends along the extension portion 313b of the interior-side glass panel 313.
  • the stepwise flat portion 316b is disposed between the stepwise protruding shield portion 316a and the exterior-side glass panel 311 in the front-back direction.
  • the stepwise flat portion 316b is coplanar with the end face 311a of the exterior-side glass panel 311.
  • the reinforcing member 316 has the stepwise protruding shield portion 316a and the stepwise flat portion 316b, which have the front-to-back surfaces out of coincidence with each other in the lateral direction X of the front-face direction of the multi-layered glass 310, whereby the front-to-back surfaces form the step.
  • the airtight member 318 (sealing member) is disposed adjacent to in the front-back direction the stepwise protruding shield portion 316a.
  • the airtight member 318 is disposed on an outer side surface of the end portion of the multi-layered glass 310 where the stepwise protruding shield portion 316a is provided.
  • the airtight member 318 is disposed closer than the stepwise protruding shield portion 316a to the exterior-side glass panel 311.
  • the airtight member 318 is disposed between the first front-face direction slidable panel assembly 31 and the second front-face direction slidable panel assembly 32.
  • the airtight member 318 has a slant projection 318a that projects in the lateral direction X toward the X2 side from a portion of the front-to-back surface of the stepwise flat portion 316b, the portion being adjacent in front-back direction to the stepwise protruding shield portion 316a.
  • the slant projection 318a projects while slanting in the direction from the exterior side to the interior side and in the direction from the X1 side to the X2 side of the lateral direction X.
  • the slant projection 318a of the airtight member 318 is pressed by a slant projection 328a (to be described later) of the airtight member 328 of the second front-face direction slidable panel assembly 32 when the first front-face direction slidable panel assembly 31 is abutted against the second front-face direction slidable panel assembly 32.
  • the first front-face direction slidable panel assembly 31 has, in the X2-side end portion in the lateral direction X, the buffer 319b disposed close to the interior side.
  • the buffer 319b extends in the front-back direction over the front-to-back surface of the stepwise protruding shield portion 316a of the reinforcing member 316 and the end face 313a of the interior-side glass panel 313, and is bonded to the front-to-back surface of the stepwise protruding shield portion 316a of the reinforcing member 316 and the end face 313a of the interior-side glass panel 313.
  • the buffer 319b becomes arranged between the first front-face direction slidable panel assembly 31 and the second front-face direction slidable panel assembly 32 when the first front-face direction slidable panel assembly 31 is abutted against the second front-face direction slidable panel assembly 32.
  • the interior-side glass panel 323 (first glass) has an Xl-side end face 323a located at a position Xb1 while the exterior-side glass panel 321 (second glass) has an Xl-side end face 321a located at a position Xb2, and the position Xb1 is closer than the position Xb2 to the X2 side in the lateral direction X.
  • the exterior-side glass panel 321 has, at one end adjacent to the abutment section 42, an extension portion 321b (protruding portion).
  • the extension portion 321b is a part of the exterior-side glass panel 321 having a flat plate shape, and protrudes outward in comparison with the end face 323a of the interior-side glass panel 323 in an in-plane direction of a glass surface of the exterior-side glass panel 321.
  • the end face 321a of the exterior-side glass panel 321 is out of coincidence with the end face 323a of the interior-side glass panel 323 in the lateral direction X of the front-face direction of the multi-layered glass 320.
  • the position Xb2 of the Xl-side end face 321a of the exterior-side glass panel 321 and the position Xb1 of the X1-side end face 323a of the interior-side glass panel 323 are closer than a position Xb3 of an Xl-side end face 322a of the intermediate glass panel 322 to the X1 side in the lateral direction X.
  • the position Xb2 of the Xl-side end face 321a of the exterior-side glass panel 321 of the second front-face direction slidable panel assembly 32 is closer than the position Xa2 of the X2-side end face 313a of the interior-side glass panel 313 of the first front-face direction slidable panel assembly 31 to the X1 side. Therefore, the X2-side end portion of the interior-side glass panel 313 of the first front-face direction slidable panel assembly 31 overlaps with the Xl-side end portion of the exterior-side glass panel 321 of the second front-face direction slidable panel assembly 32 when viewed in the front-back direction.
  • the reinforcing member 325 that is disposed at the end of the second front-face direction slidable panel assembly 32 adjacent to the abutment section 42 is disposed between the exterior-side glass panel 321 and the interior-side glass panel 323 in the front-back direction.
  • the reinforcing member 325 disposed at the end of the second front-face direction slidable panel assembly 32 adjacent to the abutment section 42 has a step thereon and is point-symmetrical with the reinforcing member 316 disposed at the end of the first front-face direction slidable panel assembly 31 adjacent to the abutment section 42.
  • the shape of the reinforcing member 325 disposed at the end of the second front-face direction slidable panel assembly 32 adjacent to the abutment section 42 is the same as the shape of the reinforcing member 316 disposed at the end of the first front-face direction slidable panel assembly 31 adjacent to the abutment section 42.
  • the reinforcing member 325 of the second front-face direction slidable panel assembly 32 and the reinforcing member 316 of the first front-face direction slidable panel assembly 31 are abutted against each other in the abutment section 42, while the protrusion of one reinforcing member faces the recess of the other reinforcing member and vice versa.
  • the reinforcing member 325 has a step on its front-to-back surface facing the X1 side in the lateral direction X, so that its exterior-side portion protrudes toward the X1 side.
  • the reinforcing member 325 has a reinforcing portion 325c that is disposed between the exterior-side glass panel 321 and the interior-side glass panel 323, and a stepwise protruding shield portion 325a (shield portion) that is formed in an exterior-side portion of a front-to-back surface of the reinforcing portion 325c facing outward.
  • the stepwise protruding shield portion 325a is disposed in contact with the extension portion 321b of the exterior-side glass panel 321.
  • the stepwise protruding shield portion 325a is located close to the exterior-side glass panel 321 and disposed along the extension portion 321b.
  • the reinforcing member 325 has a stepwise flat portion 325b (flat portion) that is located closer than the stepwise protruding shield portion 325a to the interior side.
  • the stepwise protruding shield portion 325a and the stepwise flat portion 325b each have a front-to-back surface that is flat and extends in the front-back direction.
  • the front-to-back surface of the stepwise flat portion 325b is longer in the front-back direction than the front-to-back surface of the stepwise protruding shield portion 325a.
  • the stepwise protruding shield portion 325a extends along the entire length in the lateral direction X of the extension portion 321b.
  • the front-to-back surface of the stepwise protruding shield portion 325a is closer than the front-to-back surface of the stepwise flat portion 325b to the X1 side.
  • the front-to-back surface of the stepwise protruding shield portion 325a is located at the position Xb2, i.e., is in coincidence with the end face 321a of the exterior-side glass panel 321, while the front-to-back surface of the stepwise flat portion 325b is located at the position Xb1, i.e., is in coincidence with the end face 323a of the interior-side glass panel 323.
  • the stepwise protruding shield portion 325a protrudes outward in comparison with the end face 323a of the interior-side glass panel 323 in the direction in which the extension portion 321b of the exterior-side glass panel 321 protrudes along the extension portion 321b of the exterior-side glass panel 321.
  • the stepwise flat portion 325b is disposed between the stepwise protruding shield portion 325a and the interior-side glass panel 323 in the front-back direction.
  • the stepwise flat portion 325b is coplanar with the end face 323a of the interior-side glass panel 323.
  • the reinforcing member 325 has the stepwise protruding shield portion 325a and the stepwise flat portion 325b, which has the front-to-back surfaces out of coincidence with each other in the lateral direction X of the front-face direction of the multi-layered glass 320, whereby the front-to-back surfaces form the step.
  • the position Xb2 of the front-to-back surface of the stepwise protruding shield portion 325a forming part of the reinforcing member 325 of the second front-face direction slidable panel assembly 32 is closer to the X1 side than the position Xa2 of the front-to-back surface of the stepwise protruding shield portion 316a forming part of the reinforcing member 316 of the first front-face direction slidable panel assembly 31.
  • the stepwise protruding shield portion 316a of the reinforcing member 316 of the first front-face direction slidable panel assembly 31 overlaps with the stepwise protruding shield portion 325a of the reinforcing member 325 of the second front-face direction slidable panel assembly 32 when viewed in the front-back direction.
  • the airtight member 328 (sealing member) is disposed adjacent in the front-back direction to the stepwise protruding shield portion 325a.
  • the airtight member 328 is disposed on an outer side surface of the end portion of the multi-layered glass 320 where the stepwise protruding shield portion 325a is provided.
  • the airtight member 328 is disposed closer than the stepwise protruding shield portion 325a to the interior-side glass panel 323.
  • the airtight member 328 is disposed between the first front-face direction slidable panel assembly 31 and the second front-face direction slidable panel assembly 32.
  • the airtight member 328 has a slant projection 328a that projects toward the X1 side in the lateral direction X from a portion of the front-to-back surface of the stepwise flat portion 325b, the portion being adjacent in front-back direction to the stepwise protruding shield portion 325a.
  • the slant projection 328a projects while slanting in the direction from the interior side to the exterior side and in the direction from the X2 side to the X1 side of the lateral direction X.
  • the slant projection 328a of the airtight member 328 is pressed by the slant projection 318a of the airtight member 318 of the first front-face direction slidable panel assembly 31 when the first front-face direction slidable panel assembly 31 is abutted against the second front-face direction slidable panel assembly 32.
  • the second front-face direction slidable panel assembly 32 has, in the Xl-side end portion in the lateral direction X, the buffer 329b disposed close to the exterior side.
  • the buffer 329b extends in the front-back direction over the front-to-back surface of the stepwise protruding shield portion 325a of the reinforcing member 325 and the end face 321a of the exterior-side glass panel 321, and is bonded to the front-to-back surface of the stepwise protruding shield portion 325a of the reinforcing member 256 and the end face 321a of the exterior-side glass panel 321.
  • the buffer 329b becomes arranged between the first front-face direction slidable panel assembly 31 and the second front-face direction slidable panel assembly 32 when the first front-face direction slidable panel assembly 31 is abutted against the second front-face direction slidable panel assembly 32.
  • the extension portion 313b of the interior-side glass panel 313 forming part of the multi-layered glass 310 of the first front-face direction slidable panel assembly 31 is positioned close to the interior side
  • the extension portion 321b of the exterior-side glass panel 321 forming part of the multi-layered glass 320 of the second front-face direction slidable panel assembly 32 is positioned close to the exterior side.
  • the extension portion 313b close to the interior side and the extension portion 321b close to the exterior side are matched and abutted in the opposite directions in the abutment section 42, while being oppositely oriented on the interior and exterior sides.
  • the stepwise protruding shield portion 316a of the reinforcing member 316 provided to the multi-layered glass 310 of the first front-face direction slidable panel assembly 31 is positioned close to the interior side
  • the stepwise protruding shield portion 325a of the reinforcing member 325 provided to the multi-layered glass 320 of the second front-face direction slidable panel assembly 32 is positioned close to the exterior side.
  • the stepwise protruding shield portion 316a of the reinforcing member 316 and the stepwise protruding shield portion 325a of the reinforcing member 325 are matched with, and abutted against, each other in the abutment section 42, while being oppositely oriented on the interior and exterior sides.
  • Known ribbon widows include glass panels fitted via a mullion.
  • the mullion is sometimes designed to have a small width in the front-face direction.
  • the mullion tends to have a large dimension in the front-back direction to increase the strength of the ribbon window.
  • the ribbon window with the mullion having a large dimension in the front-back direction is viewed from an oblique direction, a surface in the front-back direction of the mullion is viewed.
  • the viewability from an oblique direction is not sufficiently ensured in some cases.
  • the X2-side end face 311a of the exterior-side glass panel 311, the X2-side end face 313a of the interior-side glass panel 313, and the reinforcing member 316 of the first front-face direction slidable panel assembly 31 face the Xl-side end face 321a of the exterior-side glass panel 321, the Xl-side end face 323a of the interior-side glass panel 323, and the reinforcing member 325 of the second front-face direction slidable panel assembly 32, respectively in the front-face direction.
  • the multi-layered glass 310 and the multi-layered glass 320 are arranged adjacent to each other in the lateral direction X without any mullion or stile provided therebetween.
  • the X2-side end face 311a of the exterior-side glass panel 311 of the first front-face direction slidable panel assembly 31 is caused to face the Xl-side end face 321a of the exterior-side glass panel 321 of the second front-face direction slidable panel assembly 32, while the X2-side end face 313a of the interior-side glass panel 313 is caused to face the Xl-side end face 323a of the interior-side glass panel 323.
  • stepwise protruding shield portion 316a and the stepwise flat portion 316b of the reinforcing member 316 of the first front-face direction slidable panel assembly 31 are positioned with respect to the stepwise flat portion 325b and the stepwise protruding shield portion 325a of the reinforcing member 325 of the second front-face direction slidable panel assembly 32 such that the protrusion of one reinforcing member faces the recess of the other reinforcing member and vice versa.
  • Arranging the first front-face direction slidable panel assembly 31 and the second front-face direction slidable panel assembly 32 such that they are abutted against each other in the abutment section 42 removes the need for any mullion or stile between the multi-layered glasses 310 and 320 arranged adjacent to each other in the lateral direction X, and causes the exterior-side front-face surfaces of the exterior-side glass panels 311 and 321 that are close to the exterior side to be coplanar with each other and the interior-side front-face surfaces of the interior-side glass panels 313 and 323 that are close to the interior side to be coplanar with each other in the closed position.
  • the sliding window 1 can ensure viewability when viewed from front and when viewed from an oblique direction.
  • the absence of a frame component, such as a mullion or a stile, between the multi-layered glasses 310 and 320 contributes to design improvement of the sliding window 1.
  • the X2-side end portion of the interior-side glass panel 313 of the first front-face direction slidable panel assembly 31 overlaps with the Xl-side end portion of the exterior-side glass panel 321 of the second front-face direction slidable panel assembly 32 when viewed in the front-back direction.
  • the stepwise protruding shield portion 316a of the reinforcing member 316 of the first front-face direction slidable panel assembly 31 overlaps with the stepwise protruding shield portion 325a of the reinforcing member 325 of the second front-face direction slidable panel assembly 32 when viewed in the front-back direction.
  • This configuration prevents formation of a through gap in the front-back direction in the abutment section 42 where the first front-face direction slidable panel assembly 31 is abutted against the second front-face direction slidable panel assembly 32. As a result, leakage of light from the abutment section 42 is reduce. In addition, the abutment section 42 having no gap contributes to the design improvement.
  • the X2-side end portion of the interior-side glass panel 313 of the first front-face direction slidable panel assembly 31 overlaps with the Xl-side end portion of the exterior-side glass panel 321 of the second front-face direction slidable panel assembly 32 when viewed in the front-back direction, even if there is a difference in dimension between the interior-side glass panel 313 of the first front-face direction slidable panel assembly 31 and the exterior-side glass panel 321 of the second front-face direction slidable panel assembly 32, formation of a through gap in the front-back direction can be inhibited. Further, even if there is a difference in dimension between the reinforcing members 325 and 316, since they overlap with each other when viewed in the front-back direction, formation of a through gap in the front-back direction can be inhibited.
  • the buffer 319b is bonded to the X2-side end portion in the lateral direction X of the first front-face direction slidable panel assembly 31, the buffer 319b being close to the interior side.
  • the buffer 329b is bonded to the Xl-side end portion in the lateral direction X of the second front-face direction slidable panel assembly 32, the buffer 329b being close to the exterior side.
  • the buffers 319b and 329b which are provided between the first front-face direction slidable panel assembly 31 and the second front-face direction slidable panel assembly 32 and close to the interior side and the exterior side, respectively, absorb impact acting on the glass panels due to closure of the sliding window 1, thereby making it less likely for the glass panels to be broken.
  • the slant projection 318a of the airtight member 318 of the first front-face direction slidable panel assembly 31 and the slant projection 328a of the airtight member 328 of the second front-face direction slidable panel assembly 32 contact with, and are pressed onto, each other when the first front-face direction slidable panel assembly 31 is abutted against the second front-face direction slidable panel assembly 32, thereby increasing airtightness.
  • the first movable lower-end supports 201 are each disposed at the lower end of the associated one of the pair of front-back direction slidable panel assemblies 21 and 22, and support the pair of front-back direction slidable panel assemblies 21 and 22 movably in the front-back direction Y.
  • the first movable lower-end support 201 is disposed below the airtight member 125b.
  • the front-back direction movement mechanism 5 is provided below the first movable lower-end support 201.
  • Each of the pair of front-back direction slidable panel assemblies 21 and 22 can be moved in the front-back direction Y by means of the front-back direction movement mechanisms 5 (to be described later).
  • the first movable lower-end support 201 has a first support flat plate 202 and the front-back direction movable sash roller 203.
  • the first support flat plate 202 has a plate shape having a width in the front-back direction Y and extending in the lateral direction X, and is disposed below the front-back direction slidable panel assembly 21, 22.
  • the front-back direction slidable panel assemblies 21 and 22 are each placed on an upper surface of the associated first support flat plate 202.
  • Each of the front-back direction slidable panel assemblies 21 and 22 is not fixed to the first support flat plate 202, but is immovable with respect to the first support flat plate 202 due to its own weight.
  • the front-back direction slidable panel assemblies 21 and 22 are each configured to move integrally with the associated first movable lower-end support 201, so that movement of the first movable lower-end support 201 causes the associated one of the front-back direction slidable panel assemblies 21 and 22 to move.
  • the front-back direction movable sash roller 203 is mounted on the lower surface of the first support flat plate 202, and is movable in the front-back direction Y. As shown in FIG. 7 , in the vicinity of the end of the sliding window 1 in the lateral direction X, the front-back direction movable sash roller 203 is movable in the front-back direction Y within the lower frame component 12. Specifically, the front-back direction movable sash roller 203 is placed on the sash roller movement upper surface 120a of the sash roller placement frame 120 that is disposed on the upper surface of the lower frame component body 121.
  • the front-back direction movable sash roller 203 has a mounting frame 203a and a pair of wheels 203b (roller members) that have a disc shape and are rotatable about a rotation axis extending in the lateral direction X.
  • each front-back direction movable sash roller 203 has the pair of wheels 203b that are disposed such that a radial direction thereof extends in the front-back direction Y, and that are arranged in parallel to the lateral direction X.
  • the thus arranged wheels 203b form one set of front-back direction movable sash roller 203, and two or more sets of front-back direction movable sash rollers 203 are arranged in the lateral direction X.
  • the front-back direction movable sash roller 203 is movable in the front-back direction Y as far as it is on the sash roller movement upper surface 120a of the sash roller placement frame 120. Specifically, in the case of moving in the front-back direction Y toward the interior side, the front-back direction movable sash roller 203 can move until it reaches a location where the front-back direction slidable panel assembly 20 contacts with the airtight member 125b. In the case of moving in the front-back direction Y toward the exterior side, the front-back direction movable sash roller 203 can move until it reaches a location before the exterior-side end of the sash roller movement upper surface 120a of the sash roller placement frame 120.
  • the first support flat plate 202 of the first movable lower-end support 201 on which the lower end of the associated one of the front-back direction slidable panel assemblies 21 and 22 is disposed is connected to the front-back direction movement mechanism 5 via an L-shaped bracket 204.
  • the upper surface of the first support flat plate 202 of the first movable lower-end support 201 bears the front-back direction slidable panel assembly 21 or 22 placed thereon.
  • the first upper end supports 206 support the upper end portions of the front-back direction slidable panel assemblies 21 and 22.
  • the first upper end support 206 has a U-shaped bracket 207, an L-shaped support bracket 208, an airtight member 209a, a pressing member 209b, and a fixing screw 209c.
  • the U-shaped bracket 207 has a U-shaped cross section having a downward opening.
  • the opening of the U-shaped bracket 207 has a width larger than the width of the front-back direction slidable panel assemblies 21 and 22.
  • the U-shaped bracket 207 is disposed so as to sandwich the upper end portion of the front-back direction slidable panel assembly 21, 22 in the front-back direction Y.
  • the U-shaped bracket 207 has an upper surface to which a horizontal plate 208a forming part of the L-shaped support bracket 208 is connected by, for example, welding.
  • the L-shaped support bracket 208 includes a vertical plate 208b that has a lower end connected to an exterior-side end of the horizontal plate 208a, and an upper end connected to an upright plate 582 (to be described later) of a front-back direction movable member 58 of the front-back direction movement mechanism 5.
  • the vertical plate 208b of the L-shaped support bracket 208 or the upright plate 582 of the front-back direction movement mechanism 5 has a screw-fixing slot (not shown) that extends in the vertical direction.
  • the vertical plate 208b of the L-shaped support bracket 208 is screwed to the upright plate 582 of the front-back direction movable member 58 of the front-back direction movement mechanism 5 via the screw-fixing slot.
  • the vertical plate 208b of the L-shaped support bracket 208 or the upright plate 582 of the front-back direction movement mechanism 5 has the screw-fixing slot functioning as a screw hole, when the vertical plate 208b of the L-shaped support bracket 208 and the upright plate 582 of the front-back direction movement mechanism 5 are screwed to each other, positional adjustment can be easily implemented in the vertical direction within the screw-fixing slot.
  • the airtight member 209a is disposed between an interior-side vertical part 207b forming part of the U-shaped bracket 207 and the interior-side surface of the upper end portion of the front-back direction slidable panel assembly 21, 22.
  • the pressing member 209b is disposed closer than the U-shaped bracket 207 to the exterior side and is arranged on the exterior-side surface of the upper end portion of the front-back direction slidable panel assembly 21, 22.
  • the fixing screw 209c is screwed into, and passes through, a screw hole of an exterior-side vertical part 207a forming part of the U-shaped bracket 207, and can be fastened while allowing adjustment of a screwing position in the front-back direction Y.
  • the fixing screw 209c the pressing member 209d is pressed onto the exterior-side surface of the upper end portion of the front-back direction slidable panel assembly 21, 22, while the screwing position is adjusted in the front-face direction, so that the upper end portion of the front-back direction slidable panel assembly 21, 22 can be fastened.
  • the second movable lower-end supports 301 are each disposed at the lower end of the associated one of the pair of front-face direction slidable panel assemblies 31 and 32, and support the pair of front-face direction slidable panel assemblies 31 and 32 movably in the lateral direction X of the front-face direction.
  • the second movable lower-end support 301 is disposed below the airtight member 125b.
  • the front-face direction movement mechanism 6 is provided below the second movable lower-end support 301.
  • Each of the pair of front-face direction slidable panel assemblies 31 and 32 can be moved in the lateral direction X by means of the front-face direction movement mechanism 6 (to be described later).
  • the second movable lower-end support 301 has a second support flat plate 302 and the front-face direction movable sash roller 303.
  • the second support flat plate 302 has a plate shape having a width in the front-back direction Y and extending in the lateral direction X, and is disposed below the front-face direction slidable panel assembly 31, 32.
  • the front-face direction slidable panel assemblies 31 and 32 are each placed on an upper surface of the associated second support flat plate 302.
  • Each of the front-face direction slidable panel assemblies 31 and 32 is not fixed to the second support flat plate 302, but is immovable with respect to the second support flat plate 302 due to its own weight.
  • the front-face direction slidable panel assemblies 31 and 32 are each configured to move integrally with the associated second movable lower-end support 301, so that movement of the second movable lower-end support 301 causes the associated one of the front-face direction slidable panel assemblies 31 and 32 to move.
  • the front-face direction movable sash roller 303 is mounted on the lower surface of the second support flat plate 302, and is movable in the lateral direction X of the front-face direction. Specifically, the front-face direction movable sash roller 303, which is movable in the lateral direction X of the front-face direction, is on an upper surface 891a of the vertically-movable lid member 89 when it is positioned in the vicinity of the middle of the sliding window 1.
  • the front-face direction movable sash roller 303 is in the lower frame component 12 and positioned on the sash roller movement upper surface 120a of the sash roller placement frame 120 that is disposed on the upper surface of the lower frame component body 121 (see FIGS. 7 and 8 ).
  • the front-face direction movable sash roller 303 has a mounting frame 303a and a pair of wheels 303b (roller members) that have a disc shape and are rotatable about a rotation axis extending in the front-back direction Y.
  • each front-face direction movable sash roller 303 has the pair of wheels 303b that are disposed such that a radial direction thereof extends in the lateral direction X, and that are arranged in parallel to the front-back direction Y.
  • the thus arranged wheels 303b form one set of front-face direction movable sash roller 303, and two or more sets of front-face direction movable sash rollers 303 are arranged in the lateral direction X.
  • the front-face direction movable sash rollers 303 can be arranged at appropriate locations, as shown in FIG. 11A and 11B.
  • FIG. 11A and 11B show arrangements of the front-face direction movable sash rollers 303.
  • FIG. 11A shows a first arrangement example
  • FIG. 11B shows a second arrangement example.
  • the three sets of front-face direction movable sash rollers 303 may be aligned with each other along a straight line in the lateral direction X of the second support flat plate 302 as shown in FIG. 11A .
  • the three sets of front-face direction movable sash rollers 303 may be arranged in the lateral direction X of the second support flat plate 302 to be alternately close to one and the other ends in the front-back direction Y, i.e., in a staggered arrangement, as shown in FIG. 11B .
  • the number of the sets of front-face direction movable sash rollers 303 is not limited to three, but may be two or four or more.
  • the second movable upper-end supports 306 support the upper end portions of the front-face direction slidable panel assemblies 31 and 32.
  • the second movable upper-end support 306 has a crank-shaped connector bracket 307.
  • the crank-shaped connector bracket 307 has a lower vertical part 307a, a horizontal connection part 307b, and an upper vertical part 307c.
  • the lower vertical part 307a extends in the vertical direction along the exterior-side surface of the upper end portion of the front-face direction slidable panel assembly 31, 32.
  • the horizontal connection part 307b is connected to an upper end of the lower vertical part 307a, and extends from the upper end of the lower vertical part 307a along the upper surface of the front-face direction slidable panel assembly 31, 32 toward the interior side in the front-back direction Y.
  • the upper vertical part 307c is connected to an interior-side end of the horizontal connection part 307b, and extends upward from the interior-side end of the horizontal connection part 307b.
  • crank-shaped connector bracket 307 having the configuration described above is connected, at the lower vertical part 307a and the horizontal connection part 307b, to the upper end portion of the front-face direction slidable panel assembly 31, 32.
  • An upper portion of the upper vertical part 307c of the crank-shaped connector bracket 307 is connected to a coupling member 64 (to be described later) of the front-face direction movement mechanism 6.
  • the upper vertical part 307c of the crank-shaped connector bracket 307 or the coupling member 64 of the front-face direction movement mechanism 6 has a screw-fixing slot (not shown) that extends in the vertical direction.
  • the upper vertical part 307c of the L crank-shaped connector bracket 307 is screwed to the coupling member 64 of the front-face direction movement mechanism 6 via the screw-fixing slot.
  • the upper vertical part 307c of the crank-shaped connector bracket 307 or the coupling member 64 of the front-face direction movement mechanism 6 has the screw-fixing slot functioning as a screw hole, when the upper vertical part 307c of the crank-shaped connector bracket 307 and the coupling member 64 of the front-face direction movement mechanism 6 are screwed to each other, positional adjustment can be easily implemented in the vertical direction within the screw-fixing slot.
  • FIG. 12A is a perspective view of the front-back direction movement mechanism 5, and shows a state in which the front-back direction slidable panel assembly 21, 22 is at an interior-side position.
  • FIG. 12B is a perspective view of the front-back direction movement mechanism 5, and shows a state in which the front-back direction slidable panel assembly 21, 22 is at an exterior-side position.
  • the front-back direction movement mechanisms 5 can move the front-back direction slidable panel assemblies 21 and 22 between the interior-side position shown in FIG. 7 (see FIGS. 2 and 12A ) and the exterior-side position (see FIGS. 3 and 12B ). As shown in FIG. 1 , the front-back direction movement mechanisms 5 are coupled to four peripheral portions of each of the front-back direction slidable panel assemblies 21 and 22, and can move the four peripheral portions of each of the front-back direction slidable panel assemblies 21 and 22 in the front-face direction.
  • the front-back direction movement mechanisms 5 move the respective four peripheral portions of each of the front-back direction slidable panel assemblies 21 and 22 in the front-back direction Y, thereby moving the front-back direction slidable panel assemblies 21 and 22 exclusively in the front-back direction Y.
  • the peripheral portion of the front-back direction slidable panel assembly 21, 22 refers to a portion including an outer end of the front-back direction slidable panel assembly 21, 22 in the in-plane direction and an edge face of the end of the front-back direction slidable panel assembly 21, 22 in the in-plane direction, and a vicinity of the portion.
  • the outer end of the front-back direction slidable panel assembly 21, 22 in the in-plane direction is a vertically upper end or a vertically lower end of the front-back direction slidable panel assembly 21, 22.
  • the edge face of the end of the front-back direction slidable panel assembly 21, 22 in the in-plane direction is an upward-facing end face of the vertically upper end or a downward-facing end face of the vertically lower end of the front-back direction slidable panel assembly 21, 22, that is, the upper surface of the vertically upper end or the lower surface of the vertically lower end.
  • the upper peripheral portion of the front-back direction slidable panel assembly 21, 22 is coupled to the front-back direction movement mechanism 5 via the first upper end support 206.
  • the upper peripheral portion of the front-back direction slidable panel assembly 21, 22 is sandwiched in the front-back direction Y by the U-shaped bracket 207 of the first upper end support 206 and fastened by means of the pressing member 209d that is pressed onto the exterior-side surface of the upper end portion of the front-back direction slidable panel assembly 21, 22 with the fixing screw 209c.
  • the first upper end support 206 is coupled to the front-back direction movement mechanism 5.
  • the lower peripheral portion of the front-back direction slidable panel assembly 21, 22 is coupled to the front-back direction movement mechanism 5 via the first movable lower-end support 201.
  • the lower peripheral portion of the front-back direction slidable panel assembly 21, 22 is fixed to the first support flat plate 202 of the first movable lower-end support 201.
  • the first support flat plate 202 of the first movable lower-end support 201 is coupled to the front-back direction movement mechanism 5 via the L-shaped bracket 204.
  • the front-back direction movement mechanism 5 includes a base plate 51, a motor 52 (drive unit), a mounting member 53, a turning shaft 54, a front-face direction movable member 55, a front-face direction guide rail 56, a turnable member 57, the front-back direction movable member 58, and a front-back direction guide rail 59.
  • the base plate 51 has a rectangular plate shape.
  • the motor 52 is mounted to an upright end plate 511 that is disposed at one end of the base plate 51 in the lateral direction X of the sliding window 1.
  • the turning shaft 54 is connected to a rotary shaft of the motor 52 and extends in the lateral direction X.
  • the turning shaft 54 is constituted by, for example, a ball-screw mechanism.
  • the front-face direction movable member 55 is mounted to an intermediate portion of the turning shaft 54, and moves along the turning shaft 54 in the lateral direction X of the base plate 51 according to turning movement of the turning shaft 54.
  • the front-face direction movable member 55 has a movable member body 551 and a guide member 552 connected to one side of the movable member body 551 in the lateral direction X.
  • the movable member body 551 has a front-back direction slot opening 551a that is formed in the vertical direction from an upper surface of the movable member body 551, and that extends in the front-back direction Y.
  • the front-back direction slot opening 551a receives a lower projection 573 (to be described later) inserted therein, the lower projection 573 forming part of the turnable member 57.
  • the front-face direction guide rail 56 is disposed in parallel to the turning shaft 54, and extends in the lateral direction X of the front-face direction.
  • the front-face direction guide rail 56 is coupled to a lower end portion of the guide member 552 of the front-face direction movable member 55 so as to allow the guide member 552 to move in the lateral direction X.
  • the front-face direction guide rail 56 guides movement of the front-face direction movable member 55 in the lateral direction X.
  • the turnable member 57 has a turnable member body 571, a turning shaft 572, the lower projection 573, and an upper projection 574.
  • the turnable member body 571 is disposed in parallel to the base plate 51, and is constituted by a plate member having a substantially triangular shape in planar view.
  • the turnable member body 571 has a flat upper surface.
  • the turning shaft 572, the lower projection 573, and the upper projection 574 are each arranged in an inward vicinity of an associated one of the apexes of the substantially triangular turnable member body 571.
  • the turning shaft 572 extends in the vertical direction and supports the vicinity of one apex of the apexes of the substantially triangular turnable member body 571, the one apex being closer than the front-face direction guide rail 56 to the interior side.
  • the turning shaft 572 has a lower end connected to an upper surface of the base plate 51.
  • the turning shaft 572 is disposed closer than the front-face direction guide rail 56 to the interior side.
  • the turnable member 57 turns around the turning shaft 572.
  • the lower projection 573 is provided in the vicinity of one apex of the apexes of the substantially triangular turnable member body 571, the one apex being close to the front-face direction movable member 55.
  • the lower projection 573 projects downward from a lower surface of the turnable member body 571.
  • the lower projection 573 is inserted into the front-back direction slot opening 551a formed in the movable member body 551 and extending in the front-back direction.
  • the lower projection 573 is movable along the front-back direction slot opening 551a of the movable member body 551.
  • the upper projection 574 is provided in the vicinity of one apex of the apexes of the substantially triangular turnable member body 571, the one apex being close to the front-back direction movable member 58.
  • the upper projection 574 projects upward from the upper surface of the turnable member body 571.
  • the upper projection 574 passes through a front-face direction slot opening 581a (to be described later) that is formed in a slidable flat plate 581 of the front-back direction movable member 58, and that extends in the lateral direction X of the front-face direction.
  • the upper projection 574 is movable along the front-face direction slot opening 581a of the slidable flat plate 581.
  • the front-back direction movable member 58 moves in the front-back direction Y along with turning of the turnable member 57.
  • the front-back direction movable member 58 is movable in the front-back direction Y. Specifically, when slidable flat plate 581 moves in the front-back direction Y, the guide member 583 fixed to a lower surface of the slidable flat plate 581 moves along the front-back direction guide rail 59.
  • the front-back direction movable member 58 has an L-shaped cross section.
  • the front-back direction movable member 58 has the slidable flat plate 581 constituted by a rectangular plate and the upright plate 582 standing at an exterior-side end of the slidable flat plate 581.
  • the slidable flat plate 581 has a horizontally-extending flat plate shape with a flat lower surface.
  • the slidable flat plate 581 is disposed on the upper surface of the turnable member body 571, and moves in the front-back direction Y while being in surface-contact with the upper surface of the turnable member body 571 when the turnable member 57 turns around the turning shaft 572. Since the turnable member 57 does not have any sharp edge, the slidable flat plate 581 can smoothly move on the upper surface of the turnable member 57 without being caught at the sides of the turnable member 57.
  • the slidable flat plate 581 has the front-face direction slot opening 581a that is formed in the vertical direction from an upper surface of the slidable flat plate 581, and that extends in the front-back direction Y.
  • the front-face direction slot opening 581a receives the upper projection 574 inserted therein, the upper projection 574 forming part of the turnable member 57.
  • the front-back direction movable member 58 that is disposed in the upper frame component has the upright plate 582 connected to the L-shaped support bracket 208 of the first upper end support 206 that supports the upper end portion of the front-back direction slidable panel assembly 21, 22.
  • the front-back direction movable member 58 that is disposed in the lower frame component has the upright plate 582 connected, via the L-shaped bracket 204, to the first support flat plate 202 of the first movable lower-end support 201, the first support flat plate 202 bearing the lower end portion of the front-back direction slidable panel assembly 21, 22 placed thereon.
  • two or more front-back direction movement mechanisms 5 and a rotary belt 63 (to be described later) of the front-face direction movement mechanism 6 are arranged.
  • the slidable flat plate 581 of the front-back direction movable member 58 has an interior-side end 58a, which can move in the front-back direction Y so as to come into and go out of a ring formed by the rotary belt 63 of the front-face direction movement mechanism 6.
  • the interior-side end 58a of the slidable flat plate 581 of the front-back direction movable member 58 is provided such that the interior-side end 58a can move while avoiding interference with the movement of the rotary belt 63.
  • the space in the ring formed by the rotary belt 63 can be effectively used, thereby contributing to space saving of the sliding window 1.
  • the front-back direction movement mechanism 5 having the configuration described above turns the turning shaft 54 by driving the motor 52 in the state shown in FIG. 12A or 12B so as to move the front-back direction slidable panel assembly 21, 22 in the front-back direction Y. Then, the front-face direction movable member 55 is moved in the lateral direction X while being guided by the front-face direction guide rail 56. As the front-face direction movable member 55 is moved, the lower projection 573 of the turnable member 57, which passes through the front-back direction slot opening 551a of the front-face direction movable member 55, moves along the front-back direction slot opening 551a of the front-face direction movable member 55, thereby causing the turnable member 57 to turn around the turning shaft 572.
  • the turning of the turnable member 57 around the turning shaft 572 moves the upper projection 574 of the turnable member 57 along the front-face direction slot opening 581a, thereby moving the front-back direction movable member 58 in the front-back direction Y.
  • the movement of the front-back direction movable member 58 in the front-back direction Y can move the front-back direction slidable panel assembly 21, 22 in the front-back direction Y.
  • the front-back direction movement mechanisms 5 can move the front-back direction slidable panel assemblies 21 and 22 connected thereto within the frame assembly 10 (the upper frame component 11 and the lower frame component 12) in the front-back direction Y, by driving the motors 52.
  • the front-back direction movement mechanisms 5 can move the front-back direction slidable panel assemblies 21 and 22 between the interior-side position shown in FIG. 7 (see FIG. 2 ) or the position shown in FIG. 5 and the exterior-side position (see FIG. 3 ).
  • the front-face direction movement mechanism 6 can move the front-face direction slidable panel assembly 31, 32 in the front-face direction.
  • the front-face direction movement mechanism 6 is disposed above the associated one of the front-face direction slidable panel assemblies 31 and 32, and is arranged in the upper frame component 11, as shown in FIGS. 9 and 13 .
  • the lower frame component 12 is provided with a front-face direction guide mechanism 66 that guides movement of the front-face direction slidable panel assembly 31, 32 when the panel assembly 31, 32 is moved by the front-face direction movement mechanism 6.
  • the front-face direction movement mechanism 6 includes a pair of motors 61, a pair of pulleys 62, the rotary belt 63 wrapped around the pair of pulleys 62, a coupling member 64, and an anti-vibration mechanism 65 (see FIG. 9 ).
  • the motors 61 drive and rotate the pulleys 62.
  • the pulleys 62 are disposed above the front-face direction slidable panel assembly 31, 32, and are spaced apart from each other in the lateral direction X.
  • the pulleys 62 rotate around a rotation axis extending in the front-back direction Y.
  • the rotary belt 63 is constituted by an endless belt and has an annular shape. The rotary belt 63 is wrapped around the pair of pulleys 62 spaced apart from each other in the lateral direction X. The rotary belt 63 rotates when the pulleys 62 rotate.
  • the coupling member 64 is coupled to a lower portion of the rotary belt 63. As shown in FIG. 9 , the coupling member 64 couples the rotary belt 63 to the crank-shaped connector bracket 307 that is connected to the upper end portion of the front-face direction slidable panel assembly 31, 32. When the rotary belt 63 is rotated to move the coupling member 64 in the lateral direction X, the front-face direction slidable panel assembly 31, 32 is moved in the lateral direction X.
  • the anti-vibration mechanism 65 reduces vibration in the front-back direction Y of the front-face direction slidable panel assembly 31, 32. As shown in FIG. 9 , the anti-vibration mechanism 65 includes an anti-vibration rail frame 651, a roller member 653, and a roller support 652.
  • the anti-vibration rail frame 651 has a U-shaped cross section that opens upward, and extends in the lateral direction X of the front-face direction in a region in which the rotary belt 63 is disposed and which lies in the lateral direction X.
  • the roller member 653 is a disc-shaped roller that is disposed such that a radial direction thereof extends substantially horizontally.
  • the roller member 653 is disposed within the anti-vibration rail frame 651, and has a diameter approximately as large as the width of the anti-vibration rail frame 651.
  • the roller member 653 is mounted to the lower surface of the roller support 652 such that the roller member 653 is rotatable around a rotation axis extending in the vertical direction.
  • the roller support 652 has an L-shaped cross section, supports the roller member 653, and is connected to the coupling member 64.
  • the roller support 652 moves in the lateral direction X of the front-face direction, simultaneously with the movement of the coupling member 64 in the lateral direction X.
  • the front-face direction guide mechanism 66 is provided in the lower frame component 12.
  • the front-face direction guide mechanism 66 guides the movement of the front-face direction slidable panel assembly 31, 32 in the lateral direction X, while restraining the slidable panel assembly 31, 32 from moving toward the exterior side in the front-back direction Y.
  • the lower frame component 12 includes therein an inner frame 126a, which is hollow and formed in an interior-side end portion above the lower frame component body 121.
  • the inner frame 126a has an upper surface 126b and a projection part 126c projecting upward from an exterior-side end portion of the upper surface 126b.
  • the front-face direction guide mechanism 66 has a guide projecting part 661 constituted by the projection part 126c of the lower frame component 12, a guide roller member 662, and a guide roller support 663.
  • the guide projection part 661 extends upward from the inner frame 126a of the lower frame component body 121.
  • the guide projection part 661 extends over an entire region in which the front-face direction slidable panel assembly 31, 32 moves and which lies in the lateral direction X.
  • the guide roller member 662 is a disc-shaped roller that is disposed such that a radial direction thereof extends substantially horizontally.
  • the guide roller member 662 is disposed in contact with the interior-side surface of the guide projection part 661.
  • the guide roller member 662 is mounted to the lower surface of the guide roller support 663 such that the guide roller member 662 is rotatable around a rotary shaft 662a extending in the vertical direction.
  • the guide roller support 663 has an L-shaped cross section, and has one side supporting the guide roller member 662 and the other side connected to the interior-side surface of the front-face direction movable sash roller 303 of the second movable lower-end support 301.
  • the guide roller support 663 moves in the lateral direction X of the front-face direction, simultaneously with the movement of the second movable lower-end support 301 in the lateral direction X.
  • the motors 61 rotate the pulleys 62 whereby the rotary belt 63 is rotated.
  • the front-face direction movement mechanism 6 can move the associated one of the front-face direction slidable panel assemblies 31 and 32 in the lateral direction X, via the coupling member 64.
  • the anti-vibration mechanism 65 allows the roller member 653 to move while being guided by the anti-vibration rail frame 651. Thus, in the vicinity of the middle of the sliding window 1 in the lateral direction X, the anti-vibration mechanism 65 can reduce vibration in the front-back direction Y when the front-face direction slidable panel assembly 31, 32 is moved in the lateral direction X.
  • the front-face direction guide mechanism 66 can guide the movement of the front-face direction slidable panel assembly 31, 32 in the lateral direction X, while restraining the slidable panel assembly 31, 32 from moving toward the exterior side in the front-back direction Y.
  • the front-face direction guide mechanism 66 in the vicinity of the end the lower frame component 12 in the lateral direction X, can guide the movement of the front-face direction slidable panel assembly 31, 32 in the lateral direction X, while restraining the slidable panel assembly 31, 32 from moving toward the exterior side in the front-back direction Y.
  • FIG. 14 shows how the lower frame component's exterior-side lid 128 is opened and closed.
  • FIG. 15 shows how the upper frame component's exterior-side lid 118 is opened and closed.
  • the end-positioned lid opening-closing mechanisms 7 include a lower lid opening-closing mechanism 71 disposed in the lower frame component 12 and an upper lid opening-closing mechanism 72 disposed in the upper frame component 11.
  • the lower lid opening-closing mechanism 71 opens and closes an exterior-side portion of the lower frame component's upward opening 127 with the lower frame component's exterior-side lid 128 so that the lower frame component's space S2 is covered and uncovered.
  • the upper lid opening-closing mechanism 72 opens and closes an exterior-side portion of the upper frame component's downward opening 117 with the upper frame component's exterior-side lid 118.
  • the end-positioned lid opening-closing mechanisms 7 are configured to open and close the lower frame component's exterior-side lid 128 and the upper frame component's exterior-side lid 118 when the front-back direction slidable panel assemblies 21 and 22 are moved in the front-back direction Y by driving the motors 52 of the front-back direction movement mechanisms 5.
  • the driver unit such as the motor
  • the lower frame component's exterior-side lid 128 and the upper frame component's exterior-side lid 118 can be opened and closed by, for example, manually moving the front-back direction slidable panel assemblies 21 and 22.
  • the lower lid opening-closing mechanism 71 will be described. As shown in FIG. 8 , the lower lid opening-closing mechanism 71 is disposed in the lower frame component 12, and includes the lower frame component's exterior-side lid 128, a lower opening-closing turnable member 711 (turnable member), a lower coupling-retaining member 712, and a lower turn-restraining unit 713.
  • the lower frame component's exterior-side lid 128 is provided to the first window assemblies 200.
  • the lower coupling-retaining member 712 is coupled to the first movable lower-end support 201 (front-back direction movable sash roller 203) and retains the lower opening-closing turnable member 711 when the lower frame component's exterior-side lid 128 is in a closure position.
  • the lower frame component's exterior-side lid 128 is mounted to the front-back direction movable sash roller 203 of the first window assembly 200 via the first movable lower-end support 201 of the first window assembly 200.
  • the lower coupling-retaining member 712 has a crank-shaped lower coupling member 712a, an L-shaped lower retaining member 712b, and a projection part 712c connected to the lower coupling member 712a.
  • the lower coupling member 712a has one end connected to the first movable lower-end support 201 (front-back direction movable sash roller 203) and the other end connected to the lower retaining member 712b and the projection part 712c.
  • the lower retaining member 712b has an L-shape, and retains a retaining roller 711z (to be described later) of the lower opening-closing turnable member 711 when the lower frame component's exterior-side lid 128 is in the closure position.
  • the lower opening-closing turnable member 711 supports the lower frame component's exterior-side lid 128 such that the lid 128 can turn in the inside of the lower frame component 12.
  • the lower opening-closing turnable member 711 has a crank shape, and includes an intermediate part 711a that is positioned inside the frame assembly 10 when the lower frame component's exterior-side lid 128 is in the closure position, a first extension part 711b that is disposed close to the exterior side with respect the intermediate part 711a and extends toward the lower frame component's exterior-side lid 128, i.e., toward the lower frame component's upward opening 127 of the frame assembly 10, and a second extension part 711c that is disposed close to the interior side with respect to the intermediate part 711a and extends toward the lower frame component body 121 of the frame assembly 10.
  • the lower opening-closing turnable member 711 has a turning shaft 711x provided in one end portion of the second extension part 711c, the one end being opposite to the intermediate part 711a in the vertical direction.
  • the turning shaft 711x is turnably connected to a fixed member 121p fixed to the lower frame component 12.
  • the first extension part 711b is provided with a support roller 711y at its end close to the lower frame component's exterior-side lid 128.
  • the intermediate part 711a is provided with the retaining roller 711z in an interior-side portion thereof.
  • the support roller 711y rotates while supporting the back surface (lower surface) of the lower frame component's exterior-side lid 128, the back surface facing the inside of the lower frame component 12.
  • the retaining roller 711z is positioned on the interior-side portion of the L-shaped lower retaining member 712b and retained by the L-shaped lower retaining member 712b.
  • the lower opening-closing turnable member 711 can be turned around the turning shaft 711x provided in the end portion of the second extension part 711c.
  • the lower opening-closing turnable member 711 has such a weight balance that, under its own weight, the lower opening-closing turnable member 711 turns around the turning shaft 711x so as to fall toward the exterior side.
  • the lower turn-restraining unit 713 stops restraining the lower opening-closing turnable member 711 and the lower retaining member 712b stops applying retaining force to the retaining roller 711z, the lower opening-closing turnable member 711 turns around the turning shaft 711x so as to fall toward the exterior side, under its own weight.
  • the lower frame component's exterior-side lid 128 is turnably mounted to the projection part 712c of the lower coupling-retaining member 712.
  • the back surface (lower surface) of the lower frame component's exterior-side lid 128 is supported on the support roller 711y of the lower opening-closing turnable member 711, the back surface facing the inside of the lower frame component 12.
  • the lower turn-restraining unit 713 has a drive unit 713a and a restraining rod 713b (lock unit).
  • the restraining rod 713b is configured to reciprocate according to, for example, operation of a solenoid that is incorporated in the drive unit 733a.
  • the restraining rod 713b can be moved switchably between a locked state (see (A) of FIG.
  • the lower opening-closing turnable member 711 in the closure position, the lower opening-closing turnable member 711 is maintained in the locked state and is restrained by the restraining rod 713b of the lower turn-restraining unit 713. From this state, the restraining rod 713b is caused to stop retraining the lower opening-closing turnable member 711.
  • the front-back direction slidable panel assembly 21, 22 is moved away from the interior side and toward the exterior side in the front-back direction Y.
  • the front-back direction slidable panel assembly 21, 22 is further moved away from the interior side and toward the exterior side in the front-back direction Y, so that the turning movement of the lower opening-closing turnable member 711 is stopped, as shown in (C) of FIG. 14 .
  • the lower frame component's exterior-side lid 128 turns around its portion mounted to the projection part 712c, so as to be accommodated in an exterior-side end portion of the inside of the lower frame component 12, as shown in (D) of FIG. 14 .
  • the lower frame component's exterior-side lid 128 can be moved from the closure position to the non-closure position. Thereafter, as shown in (D) of FIG. 14 , the front-face direction slidable panel assembly 31, 32 is moved toward the end in the lateral direction X of the front-face direction. As a result, the sliding window 1 transitions to the open position ( FIG. 4 ).
  • the front-back direction slidable panel assembly 21, 22 is moved away from the exterior side and toward the interior side in the front-back direction Y so that the above-described series of movements from the closure position to the non-closure position takes place in inverse order.
  • the lower frame component's exterior-side lid 128 can be moved from the non-closure position to the closure position.
  • the upper lid opening-closing mechanism 72 will be described.
  • the upper lid opening-closing mechanism 72 differs from the lower lid opening-closing mechanism 71 mainly in that the upper lid opening-closing mechanism 72 opens and closes the upper frame component's exterior-side lid 118 and includes a spring member 724. Further, while the lower lid opening-closing mechanism 71 is disposed in the lower frame component 12 and turnably connected to the fixed member 121p, the upper lid opening-closing mechanism 72 is disposed in the upper frame component 11 and turnably connected to a fixed member 111p.
  • the upper lid opening-closing mechanism 72 is disposed in the upper frame component 11, and includes the upper frame component's exterior-side lid 118, an upper opening-closing turnable member 721 (turnable member), an upper coupling-retaining member 722, an upper turn-restraining unit 723 (restraining member), and the spring member 724.
  • the upper frame component's exterior-side lid 118 is provided to the first window assembly 200.
  • the upper lid opening-closing mechanism 72 includes the "upper frame component's exterior-side lid 118", the "upper opening-closing turnable member 721", an “intermediate part 721a”, a “first extension part 721b”, a “second extension part 721c”, a "turning shaft 721x”, a "support roller 721y”, a “retaining roller 721z”, the "upper coupling-retaining member 722", an “upper coupling member 722a”, an “upper retaining member 722b” a “projection part 722c”, the "upper turn-restraining unit 723", a “drive unit 723a”, and a “restraining rod 723b” that correspond to the "lower frame component's exterior-side lid 128", the "lower opening-closing turnable member 711", the “lower opening-closing turnable member 711", the “intermediate part 711a”, the "first extension part 711b”, the “second extension part 711c", the "turning shaft 7
  • the upper lid opening-closing mechanism 72 includes the spring member 724 disposed between the upper opening-closing turnable member 721 and the fixed member 111p fixed to the upper frame component 11, unlike the lower lid opening-closing mechanism 71.
  • the spring member 724 urges the upper opening-closing turnable member 721 in a direction in which the upper frame component's exterior-side lid 118 is opened.
  • the upper frame component's exterior-side lid 118 is connected to the upper end portion of the front-back direction slidable panel assembly 21, 22 via the upper coupling-retaining member 722.
  • the upper opening-closing turnable member 721 in a closure position, the upper opening-closing turnable member 721 is maintained in a locked state and is restrained by the restraining rod 723b of the upper turn-restraining unit 723. From this state, the restraining rod 723b is caused to stop retraining the upper opening-closing turnable member 721.
  • the front-back direction slidable panel assembly 21, 22 are moved away from the interior side and toward the exterior side in the front-back direction Y.
  • the front-back direction slidable panel assembly 21, 22 is further moved away from the interior side and toward the exterior side in the front-back direction Y, so that the turning movement of the upper opening-closing turnable member 721 is stopped, as shown in (C) of FIG. 15 .
  • the upper frame component's exterior-side lid 118 turns around its portion mounted to the projection part 722c, so as to be accommodated in an exterior-side end portion of the inside of the upper frame component 11, as shown in (D) of FIG. 15 . In this way, the upper frame component's exterior-side lid 118 can be moved from the closure position to the non-closure position.
  • the front-back direction slidable panel assembly 21, 22 is moved away from the exterior side and toward the interior side in the front-back direction Y so that the above-described series of movements from the closure position to the open position takes place in inverse order.
  • the upper frame component's exterior-side lid 118 can be moved from the non-closure position to the closure position.
  • the end-positioned lid opening-closing mechanism 7 (the upper lid opening-closing mechanism 72, the lower lid opening-closing mechanism 71) having the configuration described above opens and closes the upper frame component's exterior-side lid 118 or the lower frame component's exterior-side lid 128 to uncover and cover the upper frame component's space S1 or the lower frame component's space S2 in accordance with the movement of the front-back direction slidable panel assembly 20 in the front-back direction Y.
  • the upper frame component's space S1 or the lower frame component's space S2 present in the groove portion of the frame assembly 10 can be easily closed with the upper frame component's exterior-side lid 118 or the lower frame component's exterior-side lid 128 after the front-back direction slidable panel assembly 20 has moved in the front-back direction Y.
  • Simply turning the upper opening-closing turnable member 721 or the lower opening-closing turnable member 711 enables the upper frame component's exterior-side lid 118 or the lower frame component's exterior-side lid 128 to be opened and closed.
  • the front-back direction slidable panel assembly 20 is moved in the front-back direction Y by driving the motors 52, whereby the upper frame component's exterior-side lid 118 or the lower frame component's exterior-side lid 128 can be easily opened and closed.
  • the end-positioned lid opening-closing mechanism 7 (the lower lid opening-closing mechanism 71, the upper lid opening-closing mechanism 72) does not allow the front-back direction slidable panel assembly 21, 22 to move in the front-back direction Y.
  • a function of preventing crime is provided.
  • the restraining rod 713b of the lower turn-restraining unit 713 and the restraining rod 723b of the upper turn-restraining unit 723 restrain the lower frame component's exterior-side lid 128 and the upper frame component's exterior-side lid 118 from being opened and closed.
  • the lower frame component's exterior-side lid 128 and the upper frame component's exterior-side lid 118 cannot be moved from the closure position to the non-closure position, which prevents the front-back direction slidable panel assemblies 21 and 22 from moving in the front-face direction.
  • the sliding window 1 is prevented from transitioning from the closed position to the open position.
  • the motor 52 (lock unit) of the front-back direction movement mechanism 5 is constituted by a motor that is configured to be braked and locked in the event of a power failure.
  • the motor 52 is switchable between a locked state in which the lower frame component's exterior-side lid 128 or the upper frame component's exterior-side lid 118 is restrained from moving, and an unlocked state in which the lower frame component's exterior-side lid 128 or the upper frame component's exterior-side lid 118 is unlocked.
  • the motor 52 is braked to be brought into the locked state, in which the front-back direction slidable panel assemblies 21 and 22 are not allowed to move in the front-back direction Y.
  • the restraining function provided by the restraining rod 713b of the lower turn-restraining unit 713 or the restraining rod 723b of the upper turn-restraining unit 723 and/or the restraining function provided by the braking of the motor 52 lock and restrain the upper frame component's exterior-side lid 118 or the lower frame component's exterior-side lid 128 from moving from the closed position to the open position, thereby making it impossible to open the sliding window 1.
  • This feature can reduce or prevent intrusion into the room.
  • the sliding window 1 has a crime prevention function.
  • the restraining rod 713b of the lower turn-restraining unit 713 or the restraining rod 723b of the upper turn-restraining unit 723 lock and prevent the lower frame component's exterior-side lid 128 or the upper frame component's exterior-side lid 118 from being opened and closed, thereby making the front-back direction slidable panel assemblies 21 and 22 more resistant to wind pressure.
  • the front-back direction movement mechanism 5 described above brings the lower opening-closing turnable member 711 or the upper opening-closing turnable member 721 into locked state, whereby the lower frame component's exterior-side lid 128 or the upper frame component's exterior-side lid 118 can be maintained in the closure position.
  • a crime prevention function is imparted.
  • this feature enhances the resistance to window pressure.
  • FIG. 16A is a perspective view of the middle-positioned lid raising-lowering mechanism 8, and shows a state in which the mechanism 8 is in a descent position.
  • FIG. 16B is a perspective view of the middle-positioned lid raising-lowering mechanism 8, and shows a state in which the mechanism 8 is in an ascent position.
  • the middle-positioned lid raising-lowering mechanisms 8 are arranged in the vicinity of the middle of in the lateral direction X of the sliding window 1 in the closed position, and are provided in the lower frame component 12 located below the front-face direction slidable panel assemblies 31 and 32.
  • the middle-positioned lid raising-lowering mechanism 8 is moved from the descent position shown in FIG. 9 (see FIG. 16A ) to the ascent position shown in FIG. 10 (see FIG. 16B ), so that the vertically-movable lid member 89 can be raised to close the groove portion M present in an interior-side portion in the lower frame component's upward opening 127 located in the vicinity of the middle of the lower frame component 12 in the lateral direction X.
  • the groove portion M can accommodate therein the lower end portions of the front-face direction slidable panel assemblies 31 and 32.
  • the vertically-movable lid member 89 can be raised to become coplanar with the upper end of the groove portion M, thereby covering the groove portion M.
  • the groove portion M of the lower frame component's upward opening 127 of the lower frame component 12 is closed by the vertically-movable lid member 89 having an upper surface 891a, so that a barrier-free structure is achieved.
  • the middle-positioned lid raising-lowering mechanism 8 includes a motor 82 (raising-lowering drive unit) that has a motor-side base member 81 and a rotary shaft 83 (drive shaft), a movable member 84 that is movable in the lateral direction X, a guide rail 85, a scissor arm 86, a scissor arm-accommodating base frame 87 that is connected to an interior-side portion of the motor-side base member 81, a scissor arm's movable frame 88, and the vertically-movable lid member 89 (lid member; see FIGS. 9 and 10 ).
  • the middle-positioned lid raising-lowering mechanism 8 of the present embodiment is of a motor-straight type, and includes the motor 82 and the scissor arm 86 that are aligned with each other along a straight line.
  • the motor-side base member 81 has a motor-side base plate 811 placed on a surface of the lower frame component 12 facing the inside, and a motor-side bent part 812.
  • the motor-side base plate 811 extends in the lateral direction X.
  • the motor 82 is connected to the other end of the motor-side base member 81.
  • the rotary shaft 83 is disposed above the motor-side base member 81, and extends in a longitudinal direction of the lower frame component 12.
  • the rotary shaft 83 extends from an axis of the motor 82 toward one end in the lateral direction X.
  • the movable member 84 is mounted to an intermediate portion of the rotary shaft 83 in the lateral direction X. When the motor 82 is driven, the rotary shaft 83 is actuated to move the movable member 84 in the lateral direction X.
  • the rotary shaft 83 is connected to an end portion of the scissor arm 86 in the longitudinal direction of the lower frame component 12 via the movable member 84 (to be detailed later), and is constituted by a ball-screw mechanism (screw mechanism) that is driven and rotated to raise and lower the vertically-movable lid member 89.
  • the motor-side base plate 811 has, at both ends in the lateral direction X, motor-side bent parts 812a having an L-shaped cross section. Specifically, the motor-side bent parts 812a rise from both ends in the front-back direction Y of the motor-side base plate 811, bend outward in the front-back direction Y, and project substantially horizontally in the front-back direction Y.
  • the motor-side bent part 812a located close to the interior side has an upper surface overlaid on an upper surface of a frame-side rising-bent part 121a (rib) and fixed with a screw 812b moved from above.
  • the frame-side rising-bent part 121a has an L-shaped cross section, includes a portion projecting from a surface of the lower frame component 12 facing the inside of the frame assembly 10 toward the inside of the lower frame component 12 (upward in the present embodiment), and a portion projecting outward in the front-back direction Y from the end of the foregoing portion.
  • the frame-side rising-bent part 121a is a rib via which the middle-positioned lid raising-lowering mechanism 8 is mounted to the lower frame component 12.
  • the motor-side bent part 812a is suitably fixed to the frame-side rising-bent part 121a of the lower frame component 12 with the screw, thereby contributing to improvement of workability. Since the upper surface of the motor-side bent part 812a is overlaid on the upper surface of the frame-side rising-bent part 121a (rib) and fixed with the screw 812b moved from above, the fixing position is easily accessible, thereby achieving satisfactory work efficiency. In addition, the above configuration eliminates the need for forming a screw hole in the lower frame component 12 for mounting of the middle-positioned lid raising-lowering mechanism 8, thereby improving the watertightness.
  • a water drainage hole (not shown) at an end of a portion of the lower frame component 12 in the lateral direction X, the portion being provided with the frame-side rising-bent part 121a.
  • the scissor arm-accommodating base frame 87 extends in the lateral direction X, and is disposed offset from the motor-side base member 81 toward the interior side in the front-back direction Y, and toward one end in the lateral direction.
  • the scissor arm-accommodating base frame 87 has an arm frame body 871 disposed close to one end in the lateral direction X, a guide rail placement plate 872 disposed close to the other end in the lateral direction, and arm accommodation-side bent parts 873.
  • the arm frame body 871 and the guide rail placement plate 872 are aligned with each other along a straight line in the lateral direction X.
  • the guide rail placement plate 872 bears the guide rail 85 placed thereon.
  • the guide rail 85 extends in the lateral direction X.
  • the guide rail 85 is coupled to the movable member 84 that is movable in the lateral direction X.
  • the movable member 84 extends in the front-back direction Y, and is coupled to, and disposed between, the rotary shaft 83 disposed at the motor-side base plate 811 and the guide rail 85 placed on the guide rail placement plate 872.
  • the movable member 84 is guided by the guide rail 85 such that the movable member 84 can move in the lateral direction X.
  • the movable member 84 has a movable member body 841 that has an L-shaped cross section and extends in the front-back direction Y, and a projection plate 842 that extends from an interior-side portion toward the scissor arm 86.
  • the projection plate 842 has a leading end connected to the scissor arm 86.
  • the scissor arm 86 is disposed between the arm frame body 871 and the scissor arm's movable frame 88.
  • the arm frame body 871 has a U-shaped cross section that opens upward.
  • the scissor arm 86 is disposed in an upper portion of an inside of the arm frame body 871.
  • the scissor arm's movable frame 88 has a U-shaped cross section that opens downward.
  • the scissor arm 86 is disposed in a lower portion of an inside of the scissor arm's movable frame 88.
  • the scissor arm 86 has a pair of dual arm parts 861, a coupling turn shaft 862 that turnably couples the pair of dual arm parts 861 to each other while maintaining the dual arm parts 861 crossing each other, an accommodation-side pivot shaft 863, a movement-side non-slidable shaft 864, an accommodation-side slidable shaft 865, and a movement-side slidable shaft 866.
  • the scissor arm 86 can extend and contact in the direction in which the vertically-movable lid member 89 is raised and lowered, according to the movement in the lateral direction X of the projection plate 842 of the movable member 84.
  • the dual arm parts 861 each have a plate shape extending in a predetermined direction and cross each other.
  • the pair of dual arm parts 861 are turnably coupled to each other by means of the coupling turn shaft 862 disposed at substantially the longitudinally middle of the arm parts 861.
  • two arm parts 861 facing and connected to each other form one set of arm parts.
  • the pair of dual arm parts 861 are turnably connected to one end in the lateral direction X of the arm frame body 871 by the accommodation-side pivot shaft 863, and to the other end in the lateral direction X of the arm frame body 871 by the accommodation-side slidable shaft 865 such that the pair of dual arm parts 861 can slide along an accommodation-side slide slot 871b formed in the arm frame body 871.
  • the accommodation-side slide slot 871b is formed adjacent to the other end in the lateral direction X of a side plate 871a of the arm frame body 871, passes through the side plate 871a in the front-back direction Y, and extends in the lateral direction X.
  • the pair of dual arm parts 861 are turnably connected to one end in the lateral direction X of the scissor arm's movable frame 88 (to be detailed later) by the movement-side non-slidable shaft 864, and to the other end in the lateral direction X of the scissor arm's movable frame 88 by the movement-side slidable shaft 866 such that the pair of dual arm parts 861 can slide along a movement-side slide slot 881a formed in the scissor arm's movable frame 88.
  • the movement-side slide slot 881a is formed adjacent to the other end in the lateral direction X of a side wall 881 of the scissor arm's movable frame 88, passes through a side wall of the motor-side base plate 811 in the front-back direction Y, and extends in the lateral direction X.
  • the arm accommodation-side bent parts 873 are disposed at both ends in the lateral direction X of the scissor arm-accommodating base frame 87 and have an L-shaped cross section. Specifically, the arm accommodation-side bent parts 873 rise from both ends in the front-back direction Y of the scissor arm-accommodating base frame 87, bend outward in the front-back direction Y, and project substantially horizontally in the front-back direction Y.
  • the arm accommodation-side bent part 873a located close to the exterior side has an upper surface overlaid on the upper surface of the frame-side rising-bent part 121a (rib) and fixed with a screw 873b moved from above.
  • the arm accommodation-side bent part 873a is suitably fixed to the frame-side rising-bent part 121a of the lower frame component 12 with the screw, thereby contributing improvement of workability. Since the upper surface of the arm accommodation-side bent part 873a is overlaid on the upper surface of the frame-side rising-bent part 121a (rib) and fixed with the screw 873b moved from above, the fixing position is easily accessible, thereby achieving satisfactory work efficiency. In addition, the above configuration eliminates the need for forming a screw hole in the lower frame component 12 for mounting of the middle-positioned lid raising-lowering mechanism 8, thereby improving the watertightness.
  • the vertically-movable lid member 89 is connected to an upper portion of the scissor arm's movable frame 88.
  • the vertically-movable lid member 89 has a lid body 891 having a U-shaped cross section, and a pair of vertical positioning ribs 892.
  • the vertically-movable lid member 89 can be raised to become coplanar with the upper end of the groove portion M to cover the groove portion M.
  • the lid body 891 has the planar upper surface 891a. In the closure position, the upper surface 891a of the lid body 891 is arranged coplanarly with an upper surface 125c (interior-side surface; see FIG. 10 ) of the lower frame component 12.
  • Each of the vertical positioning ribs 892 is disposed close to the upper end of the lid body 891, and projects from a side wall of the lid body 891 outward in the front-back direction Y.
  • the vertical positioning rib 892 comes into contact with the lower end of the downward projection part 129b of the lower frame component's exterior-side fixed lid 129 at the time when the upper surface 891a of the lid body 891 of the vertically-movable lid member 89 becomes coplanar with the sash roller movement upper surface 120a of the sash roller placement frame 120 of the lower frame component 12.
  • the vertically-movable lid member 89 is raised and stopped at a position corresponding to the contact of the vertical positioning rib 892 with the lower end of the downward projection part 129b of the lower frame component's exterior-side fixed lid 129. In this way, the vertical positioning ribs 892 limits the upward movement of the vertically-movable lid member 89, enabling control of the ascent position of the vertically-movable lid member 89.
  • the motor 82 is driven so that a rotational drive force of the rotary shaft 83 constituted by a ball-screw mechanism moves the movable member 84 in the lateral direction X, and the movement of the movable member 84 in the lateral direction X causes the scissor arm 86 to extend upward and contract downward.
  • the middle-positioned lid raising-lowering mechanism 8 can raise and lower the vertically-movable lid member 89.
  • the middle-positioned lid raising-lowering mechanism 8 causes the vertically-movable lid member 89 to cover the interior-side portion of the lower frame component's upward opening 127, thereby achieving a barrier-free structure in which the upper surface 891a of the lid body 891 of the lid body 891 of the vertically-movable lid member 89 is coplanar with the sash roller movement upper surface 120a of the sash roller placement frame 120 of the lower frame component 12.
  • the rotary shaft 83 can be arranged in the longitudinal direction of the frame assembly 10, instead of the width direction or the vertical direction of the frame assembly 10.
  • a space for installation of the rotary shaft 83 can be ensured along the longitudinal direction of the lower frame component 12.
  • the lower frame component 12 can be designed to have a reduced dimension in the width and vertical directions, enabling achievement of a compact sash frame.
  • the middle-positioned lid raising-lowering mechanism 8 includes the scissor arm 86 that is constituted by the crossing pair of dual arm parts 861 and that can extend and contract in the direction in which the vertically-movable lid member 89 is raised and lowered.
  • the scissor arm 86 is configured to be disposed in the longitudinal direction of the lower frame component 12, the lower frame component 12 can be designed to have a reduced dimension in the width and vertical directions, while being capable of performing the raising and lowering operation.
  • the middle-positioned lid raising-lowering mechanism 8 is compact in size, enabling achievement of a compact sash frame.
  • the scissor arm 86 can be extended and contracted by means of the rotary shaft 83 constituted by a ball-screw mechanism.
  • the barrier-free structure can be achieved which has a simple configuration.
  • the upper surface 891a of the vertically-movable lid member 89 is configured to become coplanar with the sash roller movement upper surface 120a of the sash roller placement frame 120 in the vertical direction such that the front-face direction movable sash roller 303 of the second movable lower-end support 301 can move between the upper surface 891a of the vertically-movable lid member 89 and the sash roller movement upper surface 120a of the sash roller placement frame 120.
  • the upper surface 891a of the vertically-movable lid member 89 and the sash roller movement upper surface 120a of the sash roller placement frame 120 are arranged in the lateral direction X with no gap or a smallest possible gap left therebetween such that the front-face direction movable sash roller 303 of the second movable lower-end support 301 can move between the upper surface 891a of the vertically-movable lid member 89 and the sash roller movement upper surface 120a of the sash roller placement frame 120.
  • the boundary in the lateral direction X between the upper surface 891a of the vertically-movable lid member 89 and the sash roller movement upper surface 120a of the sash roller placement frame 120 may have an appropriate one of shapes indicated by 80A, 80B, and 80C shown in FIG. 17A, 17B and 17C.
  • FIG. 17A, 17B and 17C show boundaries 80A, 80B, and 80C at a lower rail.
  • FIG. 17A shows the boundary 80A of a first example.
  • FIG. 17B shows the boundary 80B of a second example.
  • FIG. 17C shows the boundary 80C of a third example.
  • the boundary 80A between the upper surface 891a of a vertically-movable lid member 89A and the sash roller movement upper surface 120a of a sash roller placement frame 120A may be linear in the front-back direction Y.
  • the boundary 80B between the upper surface 891a of a vertically-movable lid member 89B and the sash roller movement upper surface 120a of a sash roller placement frame 120B may be oblique.
  • the boundary 80C between the upper surface 891a of a vertically-movable lid member 89C and the sash roller movement upper surface 120a of a sash roller placement frame 120C may be stepwise.
  • the boundary 80B or 80C which is oblique as shown in FIG. 17B or stepwise as shown in FIG. 17C and where the two wheels 303b of the front-face direction movable sash roller 303 arranged side-by-side in the front-back direction Y are configured to move in the lateral direction X
  • the two wheels 303b pass across the boundary 80B or 80C at timings out of coincidence with each other.
  • noise generated when the two wheels 303b pass across the boundary 80B or 80C can be diffused.
  • the boundary 80A which is linear in the front-back direction Y as shown in FIG. 17A and where the two wheels 303b of the front-face direction movable sash rollers 303 are arranged side-by-side in the front-back direction Y but mounted to positions offset from each other in the lateral direction X, the two wheels 303b can pass across the boundary 80A at timings out of coincidence with each other.
  • noise generated when the two wheels 303b pass across the boundary 80A can be diffused.
  • the first movable lower-end supports 201 having the first support flat plates 202 disposed on top thereof are inserted into the lower frame component 12 through the lower frame component's upward opening 127, and then, are placed on the sash roller movement upper surface 120a of the sash roller placement frame 120 disposed in the lower frame component 12.
  • each first movable lower-end support 201 is connected to the upright plate 582 of the front-back direction movable member 58 of the associated front-back direction movement mechanism 5 via the L-shaped bracket 204.
  • the first support flat plates 202 of the first movable lower-end supports 201 have the plurality of front-back direction movable sash rollers 203 fixed thereto, the plurality of front-back direction movable sash rollers 203 having the plurality of wheels 203b orientated in the same direction.
  • the first movable lower-end supports 201 can be mounted while having the plurality of wheels 203b of the plurality of front-back direction movable sash rollers 203 oriented in the same direction.
  • the front-back direction slidable panel assemblies 21 and 22 are configured not to move with respect to the first support flat plates 202 due to their own weight.
  • the front-back direction slidable panel assemblies 21 and 22 on the first support flat plates 202 move in the front-back direction Y, integrally with the first support flat plates 202.
  • the upper end portions of the front-back direction slidable panel assemblies 20 are mounted to the first upper end supports 206.
  • the upper end portion of each of the front-back direction slidable panel assemblies 21 and 22 is fitted into the opening of the U-shaped bracket 207 of the associated first upper end support 206 such that the upper portion is sandwiched by the U-shaped bracket 207 in the front-back direction Y.
  • the fixing screw 209c is screwed, while the screwing position is adjusted in the front-back direction Y, so that the pressing member 209d is pressed onto the exterior-side surface of the upper end portion of the associated one of the front-back direction slidable panel assemblies 21 and 22.
  • the upper end portion of each of the front-back direction slidable panel assemblies 21 and 22 can be fastened to the associated L-shaped support bracket 208 with the screw, while the screwing position is adjusted in the front-face direction.
  • the vertical plate 208b of the L-shaped support bracket 208 of the first upper end support 206 is connected to the upright plate 582 of the front-back direction movable member 58 of the front-back direction movement mechanism 5.
  • either one of the screw hole of the L-shaped support bracket 208 and the screw hole of the upright plate 582 of the front-back direction movement mechanism 5 is configured as the screw-fixing slot. Therefore, while the position where the screw is fixed is easily adjusted in the vertical direction in the screw-fixing slot, the vertical plate 208b of the L-shaped support bracket 208 can be connected to the upright plate 582 of the movable member 58 of the front-back direction movement mechanism 5.
  • the upper frame component's interior-side cover 116 is mounted to the interior-side portion of the upper frame component's downward opening 117 of the upper frame component 11.
  • the front-back direction slidable panel assemblies 20 can be mounted to the frame assembly 10.
  • the second movable lower-end supports 301 having the second support flat plates 302 disposed on top thereof are inserted into the lower frame component 12 through the lower frame component's upward opening 127, and then, are placed on the upper surfaces 891a of the vertically-movable lid members 89 of the middle-positioned lid raising-lowering mechanisms 8 disposed in the lower frame component 12.
  • the second support flat plates 302 of the second movable lower-end supports 301 have the plurality of front-face direction movable sash rollers 303 fixed thereto, the plurality of front-face direction movable sash rollers 303 having the plurality of wheels 303b orientated in the same direction.
  • the second movable lower-end supports 301 can be mounted while having the plurality of wheels 303b of the plurality of front-face direction movable sash rollers 303 oriented in the same direction.
  • the front-face direction slidable panel assemblies 30 are placed on the upper surfaces of the second support flat plates 302.
  • the front-face direction slidable panel assemblies 30 are configured not to move with respect to the second support flat plates 302 due to their own weight.
  • the front-face direction slidable panel assemblies 30 on the second support flat plates 302 move in the lateral direction X, integrally with the second support flat plates 302.
  • the coupling members 64 of the front-face direction movement mechanisms 6 are each connected to the upper vertical part 307c of the crank-shaped connector bracket 307 having the lower vertical part 307a connected to the upper end portion of associated one of the front-face direction slidable panel assemblies 30.
  • either one of the screw hole of the upper vertical part 307c of the crank-shaped connector bracket 307 and the screw hole of the coupling member 64 of the front-face direction movement mechanism 6 is configured as the screw-fixing slot. Therefore, while the position where the screw is fixed is easily adjusted in the vertical direction in the screw-fixing slot, the upper vertical part 307c of the crank-shaped connector bracket 307 can be connected to the coupling member 64 of the front-face direction movement mechanism 6.
  • the upper frame component's interior-side cover 116 is mounted such that it covers the interior-side portion of the upper frame component's downward opening 117 of the upper frame component 11.
  • the front-face direction slidable panel assemblies 30 can be mounted to the frame assembly 10.
  • the multi-layered glasses 310 and 320 are provided.
  • the multi-layered glass 310 includes the exterior-side glass panel 311, the interior-side glass panel 313, and the reinforcing member 316 disposed between the exterior-side glass panel 311 and the interior-side glass panel 313.
  • the interior-side glass panel 313 has the extension portion 313b at one end of thereof, the extension portion 313b protruding outward in comparison with the end face 311a of the exterior-side glass panel 311 in an in-plane direction of a glass surface of the interior-side glass panel 313.
  • the multi-layered glass 310 is provided with the stepwise protruding shield portion 316a that is disposed in a portion corresponding to an interior-side glass surface or an exterior-side glass surface of at least the extension portion 313b.
  • the multi-layered glass 320 includes the interior-side glass panel 323, the exterior-side glass panel 321, and the reinforcing member 325 disposed between the interior-side glass panel 323 and the exterior-side glass panel 321.
  • the exterior-side glass panel 321 has the extension portion 321b at one end of thereof, the extension portion 321b protruding outward in comparison with the end face 323a of the interior-side glass panel 323 in an in-plane direction of a glass surface of the exterior-side glass panel 321.
  • the multi-layered glass 320 is provided with the stepwise protruding shield portion 325a that is disposed in a portion corresponding to an interior-side glass surface or an exterior-side glass surface of at least the extension portion 321b.
  • the extension portions 313b and 321 are configured to prevent formation of a gap that allows communication between the interior and exterior of the room.
  • the stepwise protruding shield portion 316a of the reinforcing member 316 and the stepwise protruding shield portion 325a of the reinforcing member 325, which are provided at the extension portions 313b and 321b, respectively, can reduce leakage of light.
  • one end of the multi-layered glass 310 becomes adjacent to one end of the multi-layered glass 320 in the front-face direction.
  • the stepwise protruding shield portion 316a of the reinforcing member 316 and the stepwise protruding shield portion 325a of the reinforcing member 325 are matched with, and abutted against, each other, while being oppositely oriented on the interior and exterior sides.
  • This configuration eliminates the need for providing a frame component, such as a mullion and a stile, between adjacent multi-layered panels. The absence of the mullion and the stile leads to a decrease in obstacles to a field of view, thereby improving the viewability from front and from an oblique direction.
  • the multi-layered glass 310, 320 further includes the airtight member 318, 328 in the one end portion thereof where the stepwise protruding shield portion 316a, 325a is provided, the airtight member 318, 328 being disposed on an outer side surface of the multi-layered glass 310, 320.
  • the reinforcing member 316 includes the reinforcing portion 316c that is disposed between the exterior-side glass panel 311 and the interior-side glass panel 313, and the stepwise protruding shield portion 316a that protrudes outward in comparison with the end face 311a of the exterior-side glass panel 311 in the direction in which the extension portion 313b of the interior-side glass panel 313 protrudes along the extension portion 313b.
  • the stepwise protruding shield portion 316a of the reinforcing member 316 can reinforce the extension portion 313b of the interior-side glass panel 313, while being arranged along the interior-side glass panel 313.
  • the reinforcing member 325 includes the reinforcing portion 325c that is disposed between the exterior-side glass panel 321 and the interior-side glass panel 323, and the stepwise protruding shield portion 316a that protrudes outward in comparison with the end face 321a of the exterior-side glass panel 321 in the direction in which the extension portion 321b of the exterior-side glass panel 321 protrudes, and extends along the extension portion 321b.
  • the stepwise protruding shield portion 325a of the reinforcing member 325 can reinforce the extension portion 321b of the exterior-side glass panel 321, while being arranged along the exterior-side glass panel 321.
  • the stepwise protruding shield portion 316a of the reinforcing member 316 and the stepwise protruding shield portion 325a of the reinforcing member 325 extend in the direction in which the extension portion 313b of the interior-side glass panel 313 protrudes and the direction in which the extension portion 312b of the exterior-side glass panel 321 extends, along the entire length of the extension portions 313b and 321b, respectively.
  • the stepwise protruding shield portion 316a of the reinforcing member 316 and the stepwise protruding shield portion 325a of the reinforcing member 325 can firmly reinforce the extension portion 313b of the interior-side glass panel 313 and the extension portion 312b of the exterior-side glass panel 321, respectively.
  • the reinforcing member 316 has the stepwise flat portion 316b that is located between the stepwise protruding shield portion 316a of the reinforcing member 316 and the exterior-side glass panel 311, the stepwise flat portion 316b being coplanar with the end face 311a of the exterior-side glass panel 311.
  • the reinforcing member 325 has the stepwise flat portion 325b that is located between the stepwise protruding shield portion 325a of the reinforcing member 325 and the interior-side glass panel 323, and is coplanar with the end face 323a of the interior-side glass panel 323.
  • a space for receiving the stepwise protruding shield portion 316a of the reinforcing member 316 and a space for receiving the stepwise protruding shield portion 325a of the reinforcing member 325 can be formed at the respective counterpart to which the multi-layered glass 310, 320 is abutted.
  • the sliding window 1 includes the frame assembly 10 fittable to an opening of a building, and the plurality of slidable panel assemblies including the first front-face direction slidable panel assembly 31 and the second front-face direction slidable panel assembly 32 that are aligned within the frame assembly 10.
  • the first front-face direction slidable panel assembly 31 and the second front-face direction slidable panel assembly 32 include the multi-layered glasses 210, 220, 310, and 320.
  • the interior-side glass panel 313 of the multi-layered glass 310 of the first front-face direction slidable panel assembly 31 has the extension portion 313b located close to the interior side
  • the exterior-side glass panel 321 of the multi-layered glass 320 of the second front-face direction slidable panel assembly 32 has the extension portion 321b located close to the exterior side.
  • the adjacent exterior-side glass panels 311 and 321 have exterior-side front-face surfaces that are coplanar with each other.
  • the adjacent interior-side glass panels 313 and 323 have interior-side front-face surfaces that are coplanar with each other.
  • the stepwise protruding shield portion 316a of the reinforcing member 316 and the stepwise protruding shield portion 325a of the reinforcing member 325 are matched with, and abutted against, each other to be placed on a plane, while being oppositely oriented on the interior and exterior sides.
  • the slidable panel assemblies 20 and 30 are arranged adjacent to each other in the front-face direction, there is a small difference in depth between the adjacent slidable panel assemblies 20 and 30.
  • the small difference in depth leads to a decrease in obstacles to the field of view, thereby contributing to viewability improvement.
  • the small difference in depth between the adjacent slidable panel assemblies 20 and 30 also contributes to design improvement.
  • the stepwise protruding shield portion 316a of the reinforcing member 316 provided to the first front-face direction slidable panel assembly 31 overlaps with the stepwise protruding shield portion 325a of the reinforcing member 325 provided to the second front-face direction slidable panel assembly 32.
  • the abutment sections 41, 42, and 43 are free from a gap passing through the sliding window 1 in the front-back direction.
  • the gap-free abutment sections 41, 42, and 43 contribute to design improvement.
  • the sliding window 1 includes the front-back direction slidable panel assemblies 20 and the front-face direction slidable panel assemblies 30 that are disposed within the frame assembly 10.
  • the front-back direction slidable panel assemblies 20 and the front-face direction slidable panel assemblies 30 are movable, within the frame assembly 10, between the closed position in which the front-back direction slidable panel assemblies 20 and the front-face direction slidable panel assemblies 30 are aligned along a straight line in the front-back direction Y and the open position in which the front-back direction slidable panel assemblies 20 overlap with the front-face direction slidable panel assemblies 30 when viewed in the front-back direction Y.
  • the front-back direction slidable panel assemblies 20 are movable exclusively in the front-back direction Y within in the frame assembly 10. With this configuration, moving the front-back direction slidable panel assemblies 20 exclusively in the front-back direction Y within the frame assembly 10 allows the front-face direction slidable panel assemblies 30 to be opened and closed. Thus, the sliding window 1 is achieved which can be opened and closed while maintaining the viewability.
  • the front-face direction slidable panel assemblies 30 are movable exclusively in the front-face direction within the frame assembly 10.
  • the front-face direction slidable panel assemblies 30 can be moved exclusively in the lateral direction X of the front-face direction.
  • the sliding window 1 is easy to open and close.
  • the front-back direction movement mechanisms 5 are coupled to peripheral portions of the front-back direction slidable panel assemblies 20, the front-back direction movement mechanisms 5 being configured to move the front-back direction slidable panel assemblies 20 exclusively in the front-back direction Y.
  • This configuration allows the front-back direction slidable panel assemblies 21 and 22 to be supported at the peripheral portions thereof and to be stably and reliably moved in the front-back direction Y.
  • the front-back direction slidable panel assemblies 20 and the front-face direction slidable panel assemblies 30 are moved in the front-back direction Y, and thereafter, the front-face direction slidable panel assemblies 30 are moved in the lateral direction X of the front-face direction.
  • the front-back direction slidable panel assemblies 20 and the front-face direction slidable panel assemblies 30 are configured to move from the closed position to the open position in this way. This configuration makes opening and closing operation of the sliding window 1 easy.
  • the airtight members 116b, 125b, 133b are disposed between the front-back direction slidable panel assemblies 20 and the frame assembly 10, while the airtight member 116b, 125b, and 133b are disposed between the front-face direction slidable panel assemblies 30 and the frame assembly 10.
  • This configuration can ensure watertightness and airtightness even when the sliding window 1 is opened and closed.
  • the sliding window 1 includes the frame assembly 10 fittable to an opening of a building, and the front-back direction slidable panel assembly 20 disposed within the frame assembly 10.
  • the frame assembly 10 (the upper frame component 11, the lower frame component 12) has the exterior-side part (the upper frame component's exterior-side extension portion 112, the lower frame component's exterior-side extension portion 122) that faces the exterior-side surface of the front-back direction slidable panel assembly 20, the interior-side part (the upper frame component's interior-side extension portion 114, the lower frame component's interior-side extension portion 124) that faces the interior-side surface of the front-back direction slidable panel assembly 20, and the bottom part (the lower part 111t, the upper part 121t) that continuously extends from an end of the exterior-side part to an end of the interior-side part.
  • the front-back direction slidable panel assembly 20 has a cover member (the upper frame component's exterior-side lid 118, the lower frame component's exterior-side lid 128) for covering the space (the upper frame component's space S1, the lower frame component's space S2) that is formed between the front-back direction slidable panel assembly 20 and the exterior-side part when the front-back direction slidable panel assembly 20 has moved in the front-back direction Y.
  • a cover member the upper frame component's exterior-side lid 118, the lower frame component's exterior-side lid 128) for covering the space (the upper frame component's space S1, the lower frame component's space S2) that is formed between the front-back direction slidable panel assembly 20 and the exterior-side part when the front-back direction slidable panel assembly 20 has moved in the front-back direction Y.
  • the upper frame component's space S1 or the lower frame component's space S2 of the frame assembly 10 can be easily closed with the upper frame component's exterior-side lid 118 or the lower frame component's exterior-side lid 128.
  • the present embodiment further includes the lower opening-closing turnable member 711 that supports the upper frame component's exterior-side lid 118 such that the lid 118 can turn in the inside of the lower frame component 12, or the upper opening-closing turnable member 721 that supports the lower frame component's exterior-side lid 128 such that the lid 128 can turn in the inside of the upper frame component 11.
  • the upper frame component's exterior-side lid 118 or the lower frame component's exterior-side lid 128 can be opened and closed by simply turning the lower opening-closing turnable member 711 or the upper opening-closing turnable member 721.
  • the present embodiment further includes the restraining rod 713b or the restraining rod 723b and the motor 52 that are switchable between the locked state in which the lower opening-closing turnable member 711 or the upper opening-closing turnable member 721 is restrained from moving and the unlocked state in which the lower opening-closing turnable member 711 or the upper opening-closing turnable member 721 is released from the locked state.
  • locking the turn movement of the lower opening-closing turnable member 711 or the upper opening-closing turnable member 721 enables the upper frame component's exterior-side lid 118 or the lower frame component's exterior-side lid 128 to be maintained in the closure position.
  • this configuration a crime prevention function is imparted.
  • this configuration enhances the resistance to window pressure.
  • driving the motor 52 causes the front-back direction slidable panel assembly 20 to move in the front-back direction Y within the frame assembly 10.
  • the upper frame component's exterior-side lid 118 or the lower frame component's exterior-side lid 128 can be easily opened and closed by moving the front-back direction slidable panel assembly 20 in the front-back direction Y by means of driving of the motor 52.
  • the sash frame of the present embodiment includes the frame assembly 10 fittable to an opening of a building, the frame assembly 10 having the groove portion M that can receive the front-face direction slidable panel assemblies 30 configured to close the opening, and the middle-positioned lid raising-lowering mechanisms 8 that are disposed in the frame assembly 10 and can raise and lower the vertically-movable lid member 89 in the groove portion M of the frame assembly 10.
  • the vertically-movable lid member 89 can cover the groove portion M when it is raised to become coplanar with the upper end of the groove portion M.
  • the middle-positioned lid raising-lowering mechanism 8 includes the motor 82 having the rotary shaft 83, and can raise and lower the vertically-movable lid member 89 by means of the rotational drive force of the rotary shaft 83.
  • the rotary shaft 83 extends in the longitudinal direction of the lower frame component 12 of the frame assembly 10.
  • the rotary shaft 83 can be arranged in the longitudinal direction of the frame assembly 10, instead of the width direction or the vertical direction of the frame assembly 10.
  • a space for installation of the rotary shaft 83 can be ensured along the longitudinal direction of the lower frame component 12.
  • the lower frame component 12 can be designed to have a reduced dimension in the width and vertical directions, enabling achievement of the sash frame that is compact in size.
  • the middle-positioned lid raising-lowering mechanism 8 includes the scissor arm 86 that is constituted by the crossing pair of arm parts 861 and can extend and contract in the direction in which the vertically-movable lid member 89 is raised and lowered.
  • the scissor arm 86 is configured to be disposed in the longitudinal direction of the lower frame component 12, the lower frame component 12 can be designed to have a reduced dimension in the width and vertical directions, while allowing the raising and lowering operation to be performed.
  • the middle-positioned lid raising-lowering mechanism 8 is compact in size, thereby enabling achievement of the sash frame that is compact.
  • the rotary shaft 83 is constituted by a ball-screw mechanism that is connected to an end of the scissor arm 86 in the longitudinal direction of the frame assembly 10 and that is driven and rotated to raise and lower the vertically-movable lid member 89.
  • the scissor arm 86 can be extended and contracted by means of the rotary shaft 83 constituted by the ball-screw mechanism.
  • a barrier-free structure can be achieved by way of a simple configuration.
  • the frame assembly 10 is provided with the frame-side rising-bent part 121a that projects from the frame assembly 10 toward the inside of the frame assembly 10, and that is intended for mounting of the middle-positioned lid raising-lowering mechanism 8 to the frame assembly 10.
  • the middle-positioned lid raising-lowering mechanism 8 can be mounted to the frame assembly 10 via the frame-side rising-bent part 121a, thereby contributing to improvement of workability.
  • the frame-side rising-bent part 121a provided to the lower frame component 12 eliminates the need for a screw hole formed in the lower frame component 12 for the purpose of mounting the middle-positioned lid raising-lowering mechanism 8, thereby contributing to improvement of watertightness.
  • the second embodiment includes a lower lid opening-closing mechanism 73 instead of the lower lid opening-closing mechanism 71 of the end-positioned lid opening-closing mechanisms 7 of the first embodiment.
  • FIG. 18 shows the lower lid opening-closing mechanism 73 according to the second embodiment of the present invention.
  • FIG. 19 shows how the lower lid opening-closing mechanism 73 according to the second embodiment of the present invention opens and closes a lid.
  • differences from the first embodiment will be mainly described.
  • the same components as those of the first embodiment are denoted by the same reference characters, and a description of the same components will be omitted as appropriate.
  • the lower lid opening-closing mechanism 73 is now described. As shown in FIG. 18 , the lower lid opening-closing mechanism 73 is disposed in a lower frame component 12, and includes a lower frame component's exterior-side lid 128, a lower opening-closing turnable member 731 (turnable member), a lower coupling member 732, and a lower turn-restraining unit 733.
  • the lower coupling member 732 is coupled to a first movable lower-end support 201 (front-back direction movable sash roller 203) and is connected to the lower frame component's exterior-side lid 128.
  • the lower frame component's exterior-side lid 128 is mounted to a lower end portion of a front-back direction slidable panel assembly 20, via the first movable lower-end support 201.
  • the lower coupling member 732 has a lower coupling plate 732a and a projection part 732b connected to a lower coupling member 712a.
  • the lower coupling plate 732a has one end connected to the first movable lower-end support 201 (front-back direction movable sash roller 203) and the other end connected to the projection part 732b.
  • the lower opening-closing turnable member 731 supports the lower frame component's exterior-side lid 128 such that the lid 128 can turn in the inside of the lower frame component 12.
  • the lower opening-closing turnable member 731 has a U-shaped cross section.
  • the lower opening-closing turnable member 731 has a closure part 731a forming closed portion of the U-shape in the frame assembly 10, a first extension part 731b extending from an exterior-side end of the closure part 731a toward a lower frame component's upward opening 127, and a second extension part 731c extending from an interior-side end of the closure part 731a toward the lower frame component's upward opening 127.
  • the second extension part 731c has a lower end provided with a turning shaft 731x.
  • the turning shaft 731x is turnably connected to a fixed member 121q fixed to the lower frame component 12.
  • the second extension part 731c has an upper end provided with a retaining roller 731z.
  • the retaining roller 731z retains a retaining block 735 mounted on the first movable lower-end support 201.
  • the first extension part 731b has a support roller 731y at its end close to the lower frame component's exterior-side lid 128.
  • the closure part 731a has a retaining roller 711z in its interior-side portion.
  • the lower turn-restraining unit 733 has a drive unit 733a and a restraining rod 733b (lock unit).
  • the lower turn-restraining unit 733 has the same or similar configuration to that of the lower turn restraining-unit 713 described above. A description of the lower turn-restraining unit 733 is omitted here.
  • the lower lid opening-closing mechanism 73 having the configuration described above opens and closes the lower frame component's exterior-side lid 128.
  • the lower opening-closing turnable member 731 is maintained in a locked state in which it is restrained by the restraining rod 733b of the lower turn-restraining unit 733. From this state, the restraining rod 733b is caused to stop retraining the lower opening-closing turnable member 731.
  • the front-back direction slidable panel assembly 21, 22 is further moved away from the interior side and toward the exterior side in the front-back direction Y, so that the turning movement of the lower opening-closing turnable member 731 is stopped, as shown in (B) of FIG. 19 .
  • the lower frame component's exterior-side lid 128 turns around its portion mounted to the projection part 732b, so as to be accommodated in an exterior-side end portion of the inside of the lower frame component 12, as shown in (C) of FIG. 19 . In this way, the lower frame component's exterior-side lid 128 can be moved from the closure position to the non-closure position.
  • the front-back direction slidable panel assembly 21, 22 is moved away from the exterior side and toward the interior side in the front-back direction Y so that the above-described series of movements from the closure position to the open position takes place in inverse order.
  • the lower frame component's exterior-side lid 128 can be moved from the open position to the closure position.
  • the lower lid opening-closing mechanism 73 of the second embodiment having the configuration described above exerts the same effects as those of the lower lid opening-closing mechanism 71 of the first embodiment.
  • the second embodiment has been described based on the case where the lower lid opening-closing mechanism 73 is disposed in the lower frame component 12. However, this is a non-limiting example.
  • the lower lid opening-closing mechanism 73 can be oriented upside down to be disposed in the upper frame component 11.
  • the third embodiment includes end-positioned lid raising-lowering mechanisms 8A and front-back direction movement mechanisms 5A disposed in a vicinity of an end of a lower frame component 12A in the lateral direction X.
  • FIG. 20 shows a lower portion of a sliding window 1 according to the third embodiment of the present invention, when viewed from the exterior side.
  • FIG. 21 is an exploded perspective view of the portion shown in FIG. 20 .
  • FIG. 22 is a perspective view showing the end-positioned lid raising-lowering mechanism 8A and the front-back direction movement mechanism 5A of the third embodiment that are disposed on the lower frame component 12A.
  • FIG. 23A shows a state in which a vertically-movable lid member 90 has been lowered from the state shown in FIG. 20 .
  • FIG. 23B shows a state in which a front-back direction slidable panel assembly 20 has been moved toward the exterior side, from the state shown in FIG. 23A .
  • differences from the first embodiment will be mainly described.
  • the same components as those of the first embodiment are denoted by the same reference characters, and a description of the same components will be omitted as appropriate.
  • the end-positioned lid raising-lowering mechanisms 8A and the front-back direction movement mechanisms 5A are disposed in the vicinity of the end of the lower frame component 12A in the lateral direction X.
  • the end-positioned lid raising-lowering mechanisms 8A are arranged in the vicinity of the end of the lower frame component 12A in the lateral direction X to be disposed below the front-back direction slidable panel assembly 20. As shown in FIG. 22 , the end-positioned lid raising-lowering mechanism 8A is mounted to the upper surface of a lower frame component body 121 of the lower frame component 12A. The end-positioned lid raising-lowering mechanism 8A raises and lowers the vertically-movable lid member 90 (see FIGS.
  • the vertically-movable lid member 90 can be raised to become coplanar with the upper end of the recessed portion K to cover the recessed portion K.
  • the recessed portion K can receive the front-back direction slidable panel assembly 20, and is formed as a portion recessed with respect to an upper surface 91a of a fixed lid member 91 disposed inward in the lateral direction X of the front-face direction.
  • the recessed portion K constitutes a groove portion.
  • the end-positioned lid opening-closing mechanisms 7 which are provided in the vicinities of the ends of the frame assembly 10 in the lateral direction X, enable the groove portion M of the lower frame component 12 to be covered when the front-back direction slidable panel assembly 20 has been moved in the front-back direction Y, thereby achieving the barrier-free structure.
  • the end-positioned lid raising-lowering mechanism 8A of the third embodiment has a configuration partially different from that of the middle-positioned lid raising-lowering mechanism 8, which is disposed in the vicinity of the middle of the frame assembly 10 of the first embodiment.
  • a main difference between the middle-positioned lid raising-lowering mechanism 8 of the first embodiment and the end-positioned lid raising-lowering mechanism 8A of the third embodiment lies in that the mechanism 8 of the first embodiment is of a motor-offset type in which the motor 82 and the scissor arm 86 are offset from each other in the front-back direction Y (see FIG. 16A ), whereas the mechanism 8A of the third embodiment is of a motor-straight type in which a motor 82 and a scissor arm 86 are aligned with each other along a straight line (see FIG. 22 ).
  • the end-positioned lid raising-lowering mechanism 8A of the third embodiment has the same configuration as that of the middle-positioned lid raising-lowering mechanism 8 of the first embodiment except that the motor 82 and the scissor arm 86 are aligned with each other along a straight line.
  • the description of the middle-positioned lid raising-lowering mechanism 8 of the first embodiment applies to the end-positioned lid raising-lowering mechanism 8A of the third embodiment, of which a description is omitted here.
  • the front-back direction movement mechanism 5A of the third embodiment differs in configuration from the front-back direction movement mechanism 5 of the first embodiment.
  • a main difference between the front-back direction movement mechanism 5A of the third embodiment and the front-back direction movement mechanism 5 of the first embodiment lies in that an upright plate 582a of a front-back direction movable member 58A of the front-back direction movement mechanism 5 has a cutout 582b (see FIG. 22 ).
  • the front-back direction movement mechanisms 5A of the third embodiment move four peripheral portions of the front-back direction slidable panel assembly 20 in the front-back direction Y, thereby moving the front-back direction slidable panel assembly 20 exclusively in the front-back direction Y.
  • the upright plate 582a of the front-back direction movable member 58A of the front-back direction movement mechanism 5 has the cutout 582b.
  • the front-back direction movement mechanism 5A has the same configuration as that of the front-back direction movement mechanism 5 of the first embodiment, when the vertically-movable lid member 90 is raised or lowered by the end-positioned lid raising-lowering mechanism 8A, the upright plate 582 of the front-back direction movable member 58 will come in contact with the vertically-movable lid member 90, and accordingly, the vertically-movable lid member 90 will need to be machined, such that, for example, a cutout is formed in the surface thereof.
  • such machining of the upper surface of the vertically-movable lid member 90 is not preferable from the viewpoint of design.
  • the upright plate 582a of the front-back direction movable member 58A has the cutout 582b, as shown in FIG. 22 .
  • the cutout 582b is formed in an inward portion in the lateral direction X of the upright plate 582a and has a rectangular shape such that the front-back direction movable member 58A of the front-back direction movement mechanism 5 can move in the front-back direction Y while avoiding the vertically-movable lid member 90.
  • the front-back direction slidable panel assembly 20 is moved away from the interior side and toward the exterior side in the front-back direction Y. At this time, the four peripheral portions of the front-back direction slidable panel assembly 20 are respectively moved in the front-back direction Y.
  • the front-back direction movable member 58A of the front-back direction movement mechanism 5 can be moved in the front-back direction Y while avoiding the vertically-movable lid member 90.
  • the upper surface of the vertically-movable lid member 90 does not need to be subjected to machining, such as formation of a cutout, thereby ensuring design quality.
  • FIG. 24 is a transverse cross-sectional view of the ribbon window 1A including FIX panels according to the fourth embodiment of the present invention.
  • a main difference between the ribbon window 1A of the fourth embodiment and the sliding window 1 of the first embodiment lies in that the ribbon window 1A of the fourth embodiment includes the FIX panels, as shown in FIG. 24 .
  • the ribbon window 1A of the fourth embodiment includes a frame assembly 10A, and a pair of front-back direction slidable panel assemblies 20 and a pair of front-face direction slidable panel assemblies 30 of the first embodiment that are aligned with each other along a straight line in the lateral direction X within the frame assembly 10A.
  • the frame assembly 10A of the fourth embodiment differs in configuration from the frame assembly 10 of the first embodiment.
  • Multi-layered glasses of the ribbon window 1A of the fourth embodiment include the same number of layers of glass panels as the multi-layered glasses of the sliding window 1 of the first embodiment.
  • the frame assembly 10A has a pair of vertical frame components 13A, 13A.
  • the vertical frame component 13A includes a vertical frame component body 131 that is shorter in the front-back direction than the vertical frame component 13 of the first embodiment, and further has a vertical frame component's exterior-side extension portion 134 that extends inwardly in the front-face direction from an exterior-side end of the vertical frame component body 131.
  • the vertical frame component's exterior-side extension portion 134 is provided with an engaging portion 134a on an interior-side front-face surface of an inward end thereof.
  • a cushion member 134b is attached to the engaging portion 134a.
  • the ribbon window 1A of the fourth embodiment is the same as the sliding window 1 of the first embodiment except that the ribbon window 1A includes the FIX panels, and exerts the same effects as those of the first embodiment.
  • FIG. 25 is a transverse cross-sectional view of the ribbon window 1B including FIX panels according to the fifth embodiment of the present invention.
  • a main difference between the ribbon window 1B of the third embodiment and the ribbon window 1A of the fourth embodiment lies in that airtight members 227, 318, 327, and 328 and exterior-side buffers 329b and 229 that are included in the ribbon window 1A of the fourth embodiment are not provided to the ribbon window 1B.
  • the ribbon window 1B of the fifth embodiment is a ribbon window including the FIX panels.
  • Multi-layered glasses of the ribbon window 1B of the fifth embodiment include the same number of layers of glass panels as the multi-layered glasses of the sliding window 1 of the first embodiment and the multi-layered glasses of the ribbon window 1A of the fourth embodiment.
  • the ribbon window 1B of the fifth embodiment which include the FIX panels, cannot be opened. Therefore, the airtight members 227, 318, 327, and 328 and the exterior-side buffers 329b and 229 that are included in the sliding window 1 of the first embodiment are not provided to the ribbon window 1B of the fifth embodiment.
  • the ribbon window 1B of the fifth embodiment exerts the same effects as those of the ribbon window 1A of the fourth embodiment, except for the effects associated with the airtight members 217, 227, 317, 318, 327, and 328 and the exterior-side buffers 329b and 229.
  • FIG. 26 is a transverse cross-sectional view of the ribbon window 1C including FIX panels according to the sixth embodiment of the present invention.
  • the ribbon window 1C of the sixth embodiment differs in the number of layers of glass panels included in the multi-layered glass from the sliding window 1 of the first embodiment and the ribbon window 1A of the fourth embodiment.
  • the ribbon window 1C of the sixth embodiment is a ribbon window including the FIX panels.
  • the multi-layered glasses 210A, 220A, 310A, 320A of the sixth embodiment do not include the intermediate glass panels 212, 222, 312, and 322, which are provided to the first embodiment, but include the exterior-side glass panels 211, 221, 311, and 321, and the interior-side glass panels 213, 223, 313, and 323.
  • a pair of glass panel spacers 214A, a pair of glass panel spacers 224A, a pair of glass panel spacers 314A, and a pair of glass panel spacers 324A are provided.
  • Each spacer is disposed on an inner side of an associated one of reinforcing members 215, 225, 226, 316, 325, and 326 in the lateral direction X, and disposed between an associated pair of exterior-side glass panels 211, 221, 311, 321 and interior-side glass panels 213, 223, 313, 323.
  • the configuration of the ribbon window 1C of the sixth embodiment is the same as that of the ribbon window 1A of the fourth embodiment.
  • the ribbon window 1C of the sixth embodiment exerts the same effect as those of the ribbon window 1A of the fourth embodiment.
  • FIG. 27 is a transverse cross-sectional view of the ribbon window 1D including FIX panels according to the seventh embodiment.
  • a main difference between the ribbon window 1D according to the seventh embodiment and the ribbon window 1C according to the sixth embodiment lies in that the airtight member 227, 318, 327, and 328 and the exterior-side buffers 329b and 229 that are included in the ribbon window 1C according to the sixth embodiment are not provided to the ribbon window 1D according to the seventh embodiment.
  • the ribbon window 1D of the seventh embodiment is a ribbon window including the FIX panels.
  • Multi-layered glasses of the ribbon window 1D of the seventh embodiment include the same number of layers of glass panels as the multi-layered glasses of the ribbon window 1C of the sixth embodiment.
  • the ribbon window 1D of the seventh embodiment which include the FIX panels, cannot be opened. Therefore, the airtight members 227, 318, 327, and 328 and the exterior-side buffers 329b and 229 that are included in the sliding window 1 of the first embodiment are not provided to the ribbon window 1D of the seventh embodiment.
  • the ribbon window 1D of the seventh embodiment exerts the same effects as those of the ribbon window 1C of the sixth embodiment, except for the effects associated with the airtight members 217, 227, 317, 318, 327, and 328 and the exterior-side buffers 329b and 229.
  • a sliding window 1E of an eighth embodiment will be described.
  • the eighth embodiment is a modification of the first embodiment.
  • the front-back direction slidable panel assemblies 21 and 22 and the front-face direction slidable panel assembles 31 and 32 of the first embodiment may be replaced with front-back direction slidable panel assemblies 21E and 22E and front-face direction slidable panel assemblies 31E and 32E, respectively.
  • the configuration of the eighth embodiment is the same as the configuration of the first embodiment. In the following description of the eighth embodiment, the differences from the first embodiment will be described.
  • FIG. 28 is a transverse cross-sectional view of the sliding window 1E according to the eighth embodiment, taken along a line corresponding to the line A-A in FIG. 1 , and shows the sliding window 1E in a closed position.
  • FIG. 29 is a transverse cross-sectional view showing the sliding window 1E that has transitioned to an intermediate position from the closed position shown in FIG. 28 , with the front-back direction slidable panel assemblies 20E moved toward the exterior side.
  • FIG. 30 is a vertical cross-sectional view showing the sliding window 1E that has transitioned to the closed position from the intermediate position shown in FIG. 29 , with the front-face direction slidable panel assemblies 30E moved outwardly away from each other in the lateral direction.
  • FIG. 29 is a transverse cross-sectional view showing the sliding window 1E that has transitioned to an intermediate position from the closed position shown in FIG. 28 , with the front-back direction slidable panel assemblies 20E moved toward the exterior side.
  • FIG. 30 is
  • FIG. 31 is a cross-sectional view taken along a line corresponding to the line B-B in FIG. 1 .
  • FIG. 32 is a cross-sectional view taken along a line corresponding to the line C-C in FIG. 1 .
  • FIG. 33 is a cross-sectional view taken along a line corresponding to the line D-D in FIG. 1 .
  • the sliding window 1E includes the front-back direction slidable panel assemblies 21E and 22E and the front-face direction slidable panel assemblies 31E and 32E.
  • the pair of front-back direction slidable panel assemblies 21E and 22E are constituted by multi-layered glasses 210E and 220E, respectively.
  • the multi-layered glasses 210E and 220E each include two glass panels (an exterior-side glass panel 211E, 221E, and an interior-side glass panel 213E, 223E).
  • the pair of front-face direction slidable panel assemblies 31E and 32E are constituted by multi-layered glasses 310E and 320E, respectively.
  • the multi-layered glasses 310E and 320E each include two glass panels (an exterior-side glass panel 311E, 321E, and an interior-side glass panel 313E, 323E).
  • the multi-layered glasses 210E, 220E, 310E, and 320E have a pair of glass panel spacers 214E, a pair of glass panel spacers 224E, a pair of glass panel spacers 314E, a pair of glass panel spacers 324E, respectively.
  • Each pair of glass panel spacers are disposed at both ends of the associated multi-layered glass in the lateral direction X of the front-face direction.
  • the pair of front-back direction slidable panel assemblies 21E and 22E and the pair of front-face direction slidable panel assembles 31E and 32E have reinforcing members 216E, 226E, 315E, 316E, 325E, 326E and buffers 219E, 229E, 319E, 319F, 329E, and 329F.
  • Each of the glass panel spacers 214E, 224E, 314E, and 324E is disposed close to an end of the pair of front-back direction slidable panel assemblies 21E and 22E and the pair of front-face direction slidable panel assemblies 31E and 32E in the lateral direction X.
  • Each of the glass panel spacers 214E, 224E, 314E, and 324E is disposed between an associated pair of the glass panels (the exterior-side glass panels 211E, 221E, 311E, 321E, and the interior-side glass panels 213E, 223E, 313E, 323E) in the front-back direction Y.
  • the reinforcing members 216E, 226E, 315E, 316E, 325E, and 326E are each disposed on the outer side of an associated one of the glass panel spacers 214E, 224E, 314E, and 324E in the lateral direction X, the glass panel spacers 214E, 224E, 314E, and 324E being disposed in an abutment section 41E, 42E, or 43E.
  • the reinforcing members 216E, 226E, 315E, 316E, 325E, and 326E have a rectangular parallelepiped shape.
  • the reinforcing members 216E, 226E, 315E, 316E, 325E, and 326E are each disposed at an end portion in the lateral direction X of the associated one the exterior-side glass panels 211E, 221E, 311E, and 321E and the interior-side glass panels 213E, 223E, 313E, and 323E, the end portion being close to the abutment section 41E, 42E, or 43E.
  • Each of the reinforcing members 216E, 226E, 315E, 316E, 325E, and 326E is disposed close to the interior side or the exterior side so as to form stepwise portions.
  • the reinforcing members 216E, 226E, 315E, 316E, 325E, and 326E in the abutment sections 41E, 42E, and 43E are configured as follows.
  • the reinforcing member 216E of the front-back direction slidable panel assembly 20E is abutted against the reinforcing member 315E of the front-face direction slidable panel assembly 30E in the abutment section 41E
  • the reinforcing member 226E of the front-back direction slidable panel assembly 20E is abutted against the reinforcing member 325E of the front-face direction slidable panel assembly 30E in the abutment section 43E.
  • the reinforcing member 216E at the end of the front-back direction slidable panel assembly 21E is positioned close to the exterior side whereas the reinforcing member 315E at the end of the front-face direction slidable panel assembly 31E is positioned close to the interior side.
  • the reinforcing member 216E of the front-back direction slidable panel assembly 21E is positioned close to the exterior side while the reinforcing member 315E of the front-face direction slidable panel assembly 31E is positioned close to the interior side in the abutment section 41E, the reinforcing members 216E and 315E overlap with each other when viewed in the front-back direction Y. Accordingly, when the front-back direction slidable panel assembly 21E is moved away from the exterior side and toward the interior side, the reinforcing member 216E of the front-back direction slidable panel assembly 21E is pressed onto the reinforcing member 315E of the front-face direction slidable panel assembly 31E.
  • the reinforcing member 226E at the end of the front-back direction slidable panel assembly 22E is positioned close to the exterior side whereas the reinforcing member 325E at the end of the front-face direction slidable panel assembly 32E is positioned close to the interior side.
  • the reinforcing member 226E of the front-back direction slidable panel assembly 22E is positioned close to the exterior side while the reinforcing member 325E of the front-face direction slidable panel assembly 32E is positioned close to the interior side in the abutment section 43E, the reinforcing members 226E and 325E overlap with each other when viewed in the front-back direction Y. Accordingly, when the front-back direction slidable panel assembly 22E is moved away from the exterior side and toward the interior side, the reinforcing member 226E of the front-back direction slidable panel assembly 22E is pressed onto the reinforcing member 325E of the front-face direction slidable panel assembly 31E.
  • the reinforcing member 316E of one of the mutually abutted slidable panel assemblies i.e., the front-face direction slidable panel assembly 31E is positioned close to the exterior side whereas the reinforcing member 326E of the other, i.e., the front-face direction slidable panel assembly 32E is positioned close to the interior side.
  • the reinforcing members 316E and 326E are arranged in the abutment section 42E such that they overlap with each other when viewed in the front-back direction Y.
  • the reinforcing member 316E of the front-face direction slidable panel assembly 31 is matched with the reinforcing member 326E of the front-face direction slidable panel assembly 32E.
  • the pair of front-back direction slidable panel assemblies 21E and 22E and the pair of front-face direction slidable panel assemblies 31E and 32E have, in respective upper and lower end portions, a pair of glass panel spaces 231E and a pair of glass panel spacers 331E, respectively.
  • the pair of glass panel spacers 231E are disposed between the glass panels in the upper and lower end portions of each of the pair of front-back direction slidable panel assemblies 21E and 22E.
  • the pair of glass panel spacers 331E are disposed between the glass panels in the upper and lower end portions of each of the pair of front-face direction slidable panel assemblies 31E and 32E.
  • each of the pair of front-back direction slidable panel assemblies 21E and 22E is supported on a first movable lower-end support 201E, whereas the upper end portion is supported on a first upper end support 206E.
  • the lower end portion of each of the pair of front-face direction slidable panel assemblies 31E and 32E is supported on a second movable lower-end support 301E, whereas the upper end portion is supported on a second movable upper-end support 306E.
  • the sliding window 1E of the eighth embodiment exerts the same effects as those of the sliding window 1 of the first embodiment.
  • the present invention is not limited to the above-described embodiment, and modification can be made as appropriate.
  • the airtight members 318 and 328 are respectively provided to the first front-face direction slidable panel assembly 31 and the second front-face direction slidable panel assembly 32 that are adjacent to each other.
  • the airtight member may be provided to only one of the adjacent slidable panel assemblies.
  • the airtight members 318 and 328 are each provided at the middle of the associated one of the first front-face direction slidable panel assembly 31 and the second front-face direction slidable panel assembly 32 in the front-back direction.
  • the airtight members 318 and 328 may be provided close to the interior side or the exterior side in the front-back direction.
  • the airtight and watertight sealing members may be provided at the locations where the buffers 219, 229, 319a, 319b, 329a, and 329b of the above-described embodiment are disposed.
  • the buffers 219, 229, 319a, 319b, 329a, and 329b of the above embodiment may be configured to function as airtight and watertight sealing members as well.
  • the above embodiments include the multi-layered glasses having two or three layers of air spaces.
  • the multi-layered glasses may have four or more layers of air spaces.
  • the shield portions are constituted by the stepwise protruding shield portions 316a and 325a as the protrusions of the reinforcing members 316 and 325.
  • the shield portion may be constituted by a film or a plate bonded to the interior-side or exterior-side glass surface of the extension portion 313b of the interior-side glass panel 313, or a film or a plate bonded to the interior-side or exterior-side glass surface of the extension portion 321b of the exterior-side glass panel 321.
  • the shield portion may be formed by coloring the extension portion 313b of the interior-side glass panels 313 or the extension portion 321b of the exterior-side glass panels 321.
  • the reinforcing members 316 and 325 are both provided with the stepwise protruding shield portions 316a and 325a.
  • the stepwise protruding shield portion may be provided to either one of the reinforcing members 316 and 325.
  • the front-back direction movement mechanisms 5 are coupled to the four peripheral portions of the front-back direction slidable panel assembly 20.
  • this is a non-limiting example.
  • one front-back direction movement mechanism 5 is coupled to the middle of the upper side of the front-back direction slidable panel assembly 20 in the lateral direction X while two front-back direction movement mechanisms 5 are coupled to two peripheral portions of the lower side of the front-back direction slidable panel assembly 20.
  • two front-back direction movement mechanisms 5 are coupled to two peripheral portions of the upper side of the front-back direction slidable panel assembly 20 while one front-back direction movement mechanism 5 is coupled to the middle of the lower side of the front-back direction slidable panel assembly 20 in the lateral direction X.
  • the middle-positioned lid raising-lowering mechanism 8 is employed in the sliding window has been described, as a non-limiting example.
  • any mechanism may be used which is configured to close an opening formed when a slidable panel assembly is moved. Such a mechanism is usable in a double sliding window.
  • the middle-positioned lid raising-lowering mechanism 8 is disposed in the lower frame component 12.
  • the middle-positioned lid raising-lowering mechanism 8 may be disposed in the upper frame component 11.
  • the frame-side rising-bent part 121a for mounting of the middle-positioned lid raising-lowering mechanism 8 is provided to the lower frame component 12.
  • the frame-side rising-bent part 121a may be provided to, for example, the upper frame component 11.
  • the frame-side rising-bent part 121a, the motor-side bent part 812a, or the arm accommodation-side bent part 873a has an L-shaped cross section.
  • the frame-side rising-bent part 121a, the motor-side bent part 812a, or the arm accommodation-side bent part 873a may have a T-shaped cross section.
  • the frame-side rising-bent part 121a, the motor-side bent part 812a, or the arm accommodation-side bent part 873a has a horizontal surface at its leading end portion adjacent to the bend.
  • the horizontal surface may be replaced with a vertical surface or an inclined surface.
  • the middle-positioned lid raising-lowering mechanism 8 of the first embodiment which is of the motor-offset type may be replaced with the end-positioned lid raising-lowering mechanism 8A of the third embodiment, which is of the motor-straight type, and vice versa.
  • the rotary shaft 83 is constituted by a ball-screw mechanism has been described as a non-limiting example.
  • the rotary shaft 83 may be constituted by, for example, a slide screw mechanism.
  • the upper frame component's exterior-side lid 118 (cover member) is configured to cover the upper frame component's space S1
  • the lower frame component's exterior-side lid 128 (cover member) is configured to cover the lower frame component's space S2 (space) located between the front-back direction slidable panel assembly 20 and the lower frame component's exterior-side extension portion 122 (exterior-side part) when the front-back direction slidable panel assembly 20 is moved in the front-back direction Y.
  • the cover member may be configured to cover a space formed between the front-back direction slidable panel assembly 20 and the interior-side part.

Landscapes

  • Engineering & Computer Science (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Wing Frames And Configurations (AREA)
EP19855302.6A 2018-08-31 2019-08-20 Vitre multicouche et garniture équipée de celle-ci Pending EP3845735A4 (fr)

Applications Claiming Priority (5)

Application Number Priority Date Filing Date Title
JP2018163832A JP7126409B2 (ja) 2018-08-31 2018-08-31 サッシ枠
JP2018163829A JP7073231B2 (ja) 2018-08-31 2018-08-31 複層ガラス及びこれを備える建具
JP2018163830A JP7195820B2 (ja) 2018-08-31 2018-08-31 建具
JP2018163831A JP7039425B2 (ja) 2018-08-31 2018-08-31 建具
PCT/JP2019/032472 WO2020045170A1 (fr) 2018-08-31 2019-08-20 Vitre multicouche et garniture équipée de celle-ci

Publications (2)

Publication Number Publication Date
EP3845735A1 true EP3845735A1 (fr) 2021-07-07
EP3845735A4 EP3845735A4 (fr) 2022-06-08

Family

ID=69644225

Family Applications (1)

Application Number Title Priority Date Filing Date
EP19855302.6A Pending EP3845735A4 (fr) 2018-08-31 2019-08-20 Vitre multicouche et garniture équipée de celle-ci

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EP (1) EP3845735A4 (fr)
WO (1) WO2020045170A1 (fr)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR3129682A1 (fr) * 2021-11-30 2023-06-02 Christophe Carrette Système coulissant de fenêtres vitrées, en particulier porte-fenêtre, dépourvu de profilé de jonction en angle

Family Cites Families (13)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
DE631068C (de) * 1932-10-14 1936-06-11 Anton Potthoff & Helmuth Loren Fenster, bei dem ein Teil der Fluegel seitlich verschiebbar und ausschwenkbar ist
CH317797A (de) * 1954-03-22 1956-12-15 Baer Soehne Fenster
DE1210712B (de) * 1961-04-17 1966-02-10 Eltreva Ag Ausstellvorrichtung fuer parallel zuruecksetzbare sowie wahlweise um eine seitliche Achse schwenkbare Fluegel von Fenstern, Tueren od. dgl.
GB1400430A (en) 1971-12-02 1975-07-16 Dunlop Ltd Valve assemblies
JPS58172673U (ja) * 1982-05-14 1983-11-18 北進木工株式会社 引違い戸
DE3232781A1 (de) * 1982-09-03 1984-03-22 Messerschmitt-Bölkow-Blohm GmbH, 8000 München Fahrzeugfenster, insbesondere seitenfenster von reisezugwagen
JPH0645074U (ja) 1992-11-29 1994-06-14 コマニー株式会社 移動壁の側端部構造及びジョイントゴム
JP3637669B2 (ja) * 1996-02-23 2005-04-13 旭硝子株式会社 複層ガラス障子、回転窓及びスライド窓
JP4410750B2 (ja) * 2005-10-06 2010-02-03 ビーエス・ライン株式会社 横移動式シャッター装置
JP4820245B2 (ja) * 2006-09-05 2011-11-24 株式会社Lixil 複層ガラスサッシ
JP2015145569A (ja) * 2014-02-03 2015-08-13 Agc−Lixilウィンドウテクノロジー株式会社 多重ガラス障子
JP3189401U (ja) 2013-12-24 2014-03-13 興華 官 電動昇降ゲート
JP6379316B2 (ja) 2018-04-05 2018-08-22 三協立山株式会社 建具

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
FR3129682A1 (fr) * 2021-11-30 2023-06-02 Christophe Carrette Système coulissant de fenêtres vitrées, en particulier porte-fenêtre, dépourvu de profilé de jonction en angle
FR3133402A1 (fr) * 2021-11-30 2023-09-15 Christophe Carrette Système coulissant de fenêtres vitrées, en particulier porte-fenêtre, dépourvu de profilé de jonction en angle

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Publication number Publication date
EP3845735A4 (fr) 2022-06-08
WO2020045170A1 (fr) 2020-03-05

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