WO2018131951A1 - Fenêtre ayant un dispositif télescopique - Google Patents

Fenêtre ayant un dispositif télescopique Download PDF

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Publication number
WO2018131951A1
WO2018131951A1 PCT/KR2018/000645 KR2018000645W WO2018131951A1 WO 2018131951 A1 WO2018131951 A1 WO 2018131951A1 KR 2018000645 W KR2018000645 W KR 2018000645W WO 2018131951 A1 WO2018131951 A1 WO 2018131951A1
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WO
WIPO (PCT)
Prior art keywords
frame
window
fixed
telescopic
telescopic device
Prior art date
Application number
PCT/KR2018/000645
Other languages
English (en)
Korean (ko)
Inventor
김남호
Original Assignee
김남호
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
Application filed by 김남호 filed Critical 김남호
Publication of WO2018131951A1 publication Critical patent/WO2018131951A1/fr

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    • 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
    • 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

Definitions

  • the present invention relates to windows and, more particularly, to windows that can be opened and closed by sliding.
  • a window or door is a window and door that separates the interior from the exterior to prevent the wind from entering the room or to ventilate the room.
  • the structure is basically a frame (or door frame) and its interior. It consists of a window (or door) mounted on it.
  • Windows and doors are distinguished by either opening or sliding doors or fixed doors. Also, depending on the number of window frames (or doors) installed in one window frame (or door frame), it may be classified into single window, double window, and triple window, and the glass fitted into the window is separated by single glass and two single glass. Insulated gas is injected into the space part or the space layer is formed to separate the laminated glass and three single plate glass which have improved insulation and sound insulation performance, respectively, and inert gas is injected into the space part or the space layer is formed to insulate and sound insulation. It can also be classified as triple (or triple) glass with improved performance. There are also various classifications.
  • the materials constituting the window frame (door frame) and the window (door) is used in the past, but a lot of wood, aluminum and polyvinyl chloride (Polyvinyl Chloride, PVC, hereinafter referred to as 'synthetic resin') materials are widely used in recent years.
  • PVC Polyvinyl Chloride
  • Aluminum is usually applied to porches because it does not cause decay, deformation, or oxidation such as iron.
  • aluminum has a disadvantage of poor thermal insulation due to high thermal conductivity, and there is a structural disadvantage that sound insulation and thermal insulation are inferior due to the occurrence of play in the assembly part due to heat deformation for a long time.
  • synthetic resins have better insulation than aluminum, so most of them are installed at the boundary of living room and veranda.
  • conventional windows and doors generally have a structure in which a roller provided at the window sill rotates and slides in a rail unit provided in the window frame.
  • a roller is installed at the bottom of the window for sliding left and right, and the roller may be disposed to contact the upper end of the rail provided in the window frame.
  • the conventional windows and doors have a structural problem that the bottom surface of the window is spaced apart by a predetermined distance from the rail top of the window frame due to the size of the roller itself, so that a space part can be formed, which is vulnerable to airtightness and insulation.
  • the problem to be solved by the present invention is to provide a window with improved airtight and insulation performance by applying a telescopic device.
  • the window frame frame A window frame installed in the window frame frame; And a telescopic device connected to the window sill and sliding the window sill.
  • the telescopic device the fixed frame fixed to the window frame frame; A moving frame disposed inside the fixed frame and connected to the connection part to slide together with the window frame; And at least one intermediate frame disposed between the fixed frame and the movable frame and sliding with respect to the fixed frame and the movable frame.
  • the telescopic device may further include a plurality of cloud members disposed inside the fixed frame and configured to smoothly slide the intermediate frame and the moving frame.
  • the fixed frame the fixed vertical web; And a pair of fixed slideways protruding from the vertical web.
  • the moving frame the moving vertical web coupled to the connecting portion; And a pair of moving slideways protruding from the moving vertical web and overlapping the fixed slide way vertically.
  • the window frame includes a window body having a first window glass and a second window glass spaced apart from the first window glass; A first window frame on which the first window glass is disposed; A second window frame disposed with the second window glass and spaced apart from the first window frame; And it may include a thermal cross-linking connector for connecting the first window frame and the second window frame. At least a portion of the connection part may be positioned between the first window frame and the second window frame.
  • the telescopic device may overlap the window body in the vertical direction.
  • the window frame may further include a block supporting the first window frame and the second window frame and connected to the connection unit.
  • connection unit the connection unit body connected to the moving frame; And a heat insulating part surrounding at least a portion of the connection part body and in contact with at least one of the first window frame, the second window frame, and the block.
  • connection unit main body, a fastening body fastened to the moving frame; A horizontal body horizontally supporting the load of the window; And a vertical body connecting the fastening body and the horizontal body and vertically formed.
  • Part of the window frame may have a polyamide material.
  • the window frame frame the main frame; And a telescopic fixed frame formed inside the main frame and to which the telescopic device is fixed.
  • a mohair is disposed between the telescopic fixed frame and any one of the first and second window frames, and the connection part passes between the telescopic fixed frame and the other one of the first and second window frames. Can be.
  • the window frame frame may further include an auxiliary frame which is formed inside the main frame and at least partially faces the first window frame or the second window frame in the front-rear direction.
  • the telescopic fixed frame and the auxiliary frame may be spaced apart in the front-rear direction.
  • a guide member is provided between the auxiliary frame located above the window and the first window frame and the second window frame, and between the auxiliary frame located below the window and the first window frame and the second window frame. Mohair may be provided.
  • a plurality of hollows may be formed in the main frame, and at least one of the plurality of hollows may accommodate an azone insulating material.
  • the main frame A window sill disposed inside the main frame; A telescopic device connected to the window frame and sliding the window window; And a telescopic fixed frame protruding inwardly from the main frame and to which the telescopic device is fixed.
  • the telescopic device and the telescopic fixed frame may be disposed between the window frame and the main frame to close a gap between the window frame and the main frame.
  • the display device may further include a connection part connecting the window sill and the telescopic device and blocking a gap between the window sill and the telescopic fixed frame.
  • the main frame the main frame; A window sill disposed inside the main frame; A telescopic device connected to the window frame and sliding the window window; A telescopic fixing frame protruding inwardly from the main frame and positioned below the window frame and fixed to the telescopic device; An auxiliary frame projecting inwardly from the main frame and spaced apart from the telescopic fixed frame; And a mohair provided in at least one of the auxiliary frame and the telescopic fixed frame.
  • the mohair may include a first mohair provided between the auxiliary frame and the window frame; And a second mohair provided between the telescopic fixed frame and the window frame.
  • the airtightness between the window frame and the window is improved and the thermal insulation performance of the window is improved by the telescopic device compared to the conventional windows and doors using the roller.
  • noise can be reduced by improving airtightness.
  • the end of the fixed frame, the intermediate frame and the moving frame of the telescopic device is caught with each other, so that the user can feel more intuitive that the window is fully open or fully closed.
  • FIG. 1 is a cross-sectional view of a window according to an embodiment of the present invention.
  • FIG. 2 is an enlarged view of a lower part of the window shown in FIG. 1.
  • FIG. 3 is an exploded view of the lower part of the window shown in FIG. 2.
  • FIG. 4 is an enlarged view of a portion A shown in FIG. 2.
  • FIG. 5 is a cross-sectional view of a telescopic device according to an embodiment of the present invention.
  • FIG. 6 is an enlarged view of the upper portion of the window illustrated in FIG. 1.
  • FIG. 7 is a cross-sectional view of a window according to another embodiment of the present invention.
  • FIG. 8 is a longitudinal cross-sectional view of a window according to another embodiment of the present invention.
  • FIG. 9 is an enlarged view of a lower portion of the window illustrated in FIG. 8.
  • FIG. 10 is a perspective view illustrating an example of a telescopic device.
  • FIG. 11 is an enlarged view of the upper part of the window shown in FIG. 8.
  • FIG. 1 is a cross-sectional view of a window according to an embodiment of the present invention.
  • a window 1 may include a first window 2 and a second window 3.
  • the configurations of the first window 2 and the second window 3 may be the same.
  • the first window 2 and the second window 3 may be spaced apart from each other by a predetermined interval so that a space 71 may be provided therebetween. Air or an inert gas may be disposed in the separation space 71 to improve the thermal insulation performance between the first window 2 and the second window 3.
  • the first window 2 and the second window 3 may be symmetrically disposed about the separation space 71.
  • a thermal bridge blocking member 70 may be provided between the first window 2 and the second window 3.
  • a thermal bridge blocking member 70 may be provided between the window frame frame 40 of the first window 2 and the window frame frame 40 of the second window 3.
  • Thermal bridge blocking member 70 may be formed long in the longitudinal direction and the height direction of the window (1). That is, the thermal bridge blocking member 70 may be provided along the circumferences of the first window 2 and the second window 3.
  • the thermal bridge blocking member 70 connects the first window 2 and the second window 3 and simultaneously spaces the windows 2 and 3 so that a space is formed.
  • the thermal bridge blocking member 70 may prevent foreign substances such as external air or liquid from flowing into the spaced spaces 71, thereby increasing the effect of improving the thermal insulation performance by the spaced spaces 71.
  • the thermal bridge blocking member 70 may use polyamide or u-PVC or LFT (Long Fiber Thermoplastic). Preferably polyamides are proposed. Since the materials have a high heat insulating effect, the heat insulating effect between the first and second windows 2 and 3 may be increased by the heat insulating performance of the thermal bridge blocking member 70 itself.
  • thermal insulation such as gaskets (55, 56), sealers (67, 68) to be described later, polyamide or u-PVC or LFT like the thermal bridge blocking member 70 (Long Fiber Thermoplastic) can be used.
  • the window 1 may include the first window 2 and the second window 3, but is not limited thereto.
  • the window 1 may include only the first window 2.
  • the window 1 of the present invention may refer to the first window 2.
  • the window 1 may further include an additional window in addition to the first window 2 and the second window (3).
  • the configurations of the first window 2 and the second window 3 are the same, the following description will be made based on the first window 2.
  • the configuration of the second window (3) can be easily understood by those skilled in the art.
  • the first window 2 may include a window sill 50 provided with window panes 8 and 9 and a window frame frame 40 on which the window sill 50 is installed.
  • the first window 2 may further include a telescopic device 10 that allows the window frame 50 to be slidable with respect to the window frame frame 40.
  • the first window 2 may include a plurality of windows 50.
  • the first window 2 may include a pair of windows 50 that move independently of each other.
  • the pair of windows 50 may be spaced apart from each other.
  • One window 50 may be located indoors than the other window.
  • One window 50 and the other window may be arranged parallel to each other.
  • the configuration of one window 50 and the other window may be the same.
  • One window 50 may cover a portion of the window frame frame 40, and the other window may cover another portion of the window frame frame 40.
  • one window 50 and the other window may overlap the entire window.
  • one window 50 and the other window may overlap only at the center of the first window 2, and only a part of the windows may overlap each other.
  • the window panes 8 and 9 of the window pane 50 and the window panes of the other window pane may not overlap.
  • the window 50 may be provided in a rectangular frame shape in which a center portion is cut out.
  • the cutouts may be fitted with window panes 8, 9. That is, the window 50 may be mounted on the circumference of the window glass 8, 9.
  • the window 50 may be provided with at least one window 8, 9.
  • the window 50 may be provided with a first window glass 8 and a second window glass 9 arranged side by side apart from the first window glass 8.
  • a window glass separation space 7 may be formed between the first window glass 8 and the second window glass 9, and air or the like may be positioned to reduce heat loss through the window glass 8 and 9. That is, the thermal insulation performance of the first window 2 can be improved.
  • the window frame frame 40 may be mounted on a structure such as a building wall.
  • the window frame 50 may be fitted to the window frame frame 40, and the window frame 50 may be slid with respect to the window frame frame 40. This allows the user to open or close the first window (2).
  • the upper part of the window 50 may be connected to the window frame frame 40 by the upper connection part 80, and the lower part of the window 50 may be connected to the window frame frame 40 by the lower connection part 15. ) Can be connected.
  • the telescopic apparatus 10 may support the weight of the window 50 and allow the window 50 to be slidable with respect to the window frame frame 40.
  • the telescopic device 10 may be mounted to the window frame frame 40 and may be connected to the window 50 by the lower connection part 15 to slide the window 50.
  • the telescopic device 10 may be arranged horizontally.
  • the telescopic device 10 may be provided long in the longitudinal direction of the first window 2.
  • the length of the telescopic device 10 may be shorter than the length of the window frame frame 40.
  • the first window 2 may include a plurality of windows 50, the telescopic device 10 may be connected to each window 50. That is, the first window 2 may include a plurality of telescopic devices 10.
  • the first window 2 may include one telescopic device 10a connected to one window 50 and another telescopic device 10b connected to another window.
  • the number of the window 50 and the number of the telescopic device 10 may be the same.
  • FIG. 2 is an enlarged view of the lower part of the window shown in FIG. 1
  • FIG. 3 is an exploded view of the lower part of the window shown in FIG.
  • the window 50 may include a first window frame 52, a second window frame 53, and a thermal cross-connection connector 54.
  • the window 50 may further include a window auxiliary frame 51.
  • each window frame 52, 53 is not limited.
  • the shape of the first window frame 52 and the shape of the second window frame 53 may be different.
  • each window frame 52, 53 is preferably provided with a plurality of hollows.
  • the first window frame 52 may be provided with a first window glass 8
  • the second window frame 53 may be provided with a second window glass 9.
  • the window panes 8 and 9 may be provided in direct contact with the window frames 52 and 53, and the window panes 8 and 9 may be supported by the window assistance frames 51 and provided in the window frames 52 and 53. have.
  • the window assistance frame 51 may be mounted to the first window frame 52 and / or the second window frame 53.
  • the window assistance frame 51 may be disposed between the window panes 8 and 9 and the window frames 51 and 52.
  • the window auxiliary frame 51 when the window auxiliary frame 51 is mounted on the first window frame 52, the window auxiliary frame 51 may be disposed above the first window frame 52. At this time, the window assistance frame 51 can support the first window glass 8 from the lower side.
  • the window assistance frame 51 may include a reinforcing part 51a formed to be inclined.
  • the material of the first window frame 52 and the second window frame 53 may be a material having excellent rigidity such as aluminum or steel, but having high thermal conductivity. Therefore, heat loss by each window frame 52, 53 itself may occur. To prevent this, the first window frame 52 and the second window frame 53 may be spaced apart from each other. As a result, heat conduction between the first window frame 52 and the second window frame 53 may be prevented, and the heat insulating performance of the window 50 may be improved.
  • the first window frame 52 and the second window frame 53 spaced apart from each other may be connected by a heat cross-connecting connector 54.
  • the thermal cross-link connector 54 may be fitted to the first connector engaging portion 52a provided in the first window frame 52 and the second connector engaging portion 53a provided in the second window frame 53.
  • the first connector locking portion 52a and the second connector locking portion 53a may be provided to face each other.
  • the heat cross connector 54 is not integrally formed, and a configuration in which an upper heat cross connector and a lower heat cross connector are spaced apart from each other is also provided.
  • the thermal cross-link connector 54 connects the first window frame 52 and the second window frame 53 and spaces apart the window frames 52 and 53.
  • the heat cross-connecting connector 54 may prevent foreign substances such as external air or liquid from flowing into the window glass separation space 7, thereby increasing the effect of improving the thermal insulation performance by the window glass separation space 7.
  • the thermal cross-link connector 54 may be formed of a material such as polyamide or u-PVC or Long Fiber Thermoplastic (LFT), and preferably, may be made of polyamide. Therefore, the heat cross-connecting connector 54 may prevent thermal conduction between the first window frame 52 and the second window frame 53 and increase the thermal insulation effect.
  • LFT Long Fiber Thermoplastic
  • the window 50 may be provided with a connection portion insertion space 59.
  • the connection part insertion space 59 may be provided between the first window frame 52 and the second window frame 53.
  • the connection insertion space 59 may be provided on the opposite side of the window panes 8 and 9 with respect to the heat cross-connecting connector 54 and may not be in communication with the window pane separation space 7 and may be separated.
  • connection part insertion space 59 may be a space into which the connection parts 15 and 80 are inserted.
  • the lower connecting portion 15 may be inserted into the connecting portion insertion space 59 positioned below the window 50
  • the upper connecting portion 80 may be inserted into the connecting portion insertion space 59 positioned above the window 50. 6) can be inserted. This will be described in detail later.
  • the window 50 may be provided with gaskets 55 and 56.
  • the gaskets 55 and 56 may be provided at the lower side of the window 50 and may be disposed to contact the upper surface of the window frame frame 40. More specifically, the gaskets 55 and 56 may be arranged to abut the cap 60 of the window frame frame 40.
  • the first window frame 52 may be provided with a first gasket 55
  • the second window frame 56 may be provided with a second gasket 56.
  • the gaskets 55 and 56 may be disposed between the window 50 and the window frame 40, and may shield the play space between the window 50 and the window frame 40. As a result, it is possible to prevent foreign substances such as external air or liquid introduced between the window frame 50 and the window frame frame 40, and to reduce heat loss due to the clearance space between the window frame 50 and the window frame frame 40.
  • the window frame frame 40 may be made of a rigid material such as aluminum or steel.
  • the window frame frame 40 may include a window frame frame body 41 and a cap 60.
  • the window frame body 41 may be integrally formed.
  • the window frame body 41 may have an upper surface open.
  • the cross section of the window frame body 41 may be shaped to rotate the U letter 90 degrees in the counterclockwise direction.
  • the inner width of the window frame frame body 41 may be larger than the width of the telescopic device 10 disposed in the window frame frame 40.
  • the inner width of the window frame frame body 41 is larger than the sum of the widths of the pair of telescopic devices 10. Can be.
  • the window frame body 41 may be formed in a two-layer structure.
  • a partition 44 provided horizontally may be disposed inside the window frame body 41.
  • the partition 44 may protrude inward from both inner surfaces 43 of the window frame body 41.
  • the partition 44 may be spaced apart from the bottom of the window frame body 41 by a predetermined interval.
  • the inner space of the window frame body 41 may be partitioned into an upper space and a lower space of the partition 44.
  • At least one drain hole may be formed in the partition 44. Since water condensed into the window glass 8 and 9 or the window 50 may leak into the window frame frame 40, the drain hole may be configured to drain the water.
  • the partition 44 may be supported by the support 45.
  • the support 45 may be disposed vertically between the bottom of the window frame body 41 and the partition 44.
  • the support 45 may be provided in plural, and each support 45 may be disposed to overlap with the telescopic device 10.
  • the partition 44 may be supported by a pair of supports 45.
  • one support 45 may overlap with one telescopic device 10a, and the other support 45 may overlap with another telescopic device 10b.
  • each support part 45 can support the weight of the telescopic apparatus 10 and the window 50 effectively.
  • a portion located between the pair of support parts 45 of the bottom of the window frame frame body 41 may be formed to be stepped with the other bottom and be recessed upward.
  • a structure such as concrete on which the window frame frame is mounted may be located below the depression.
  • the partition 44 and the support 45 By the partition 44 and the support 45, the moment of inertia of the window frame frame 40 is increased, thereby preventing deformation or breakage of the window frame frame 40.
  • the partition 44, the support 45, and the window frame frame body 41 may be integrally formed.
  • the present invention is not limited thereto, and some or all of the above components may be separately formed.
  • the partition 44 may support the telescopic device 10 from below. That is, the telescopic device 10 may be seated on the upper surface of the partition 44. In order to prevent shaking of the telescopic device 10 mounted on the partition 44, the partition 44 may be provided with a protruding partition 46.
  • the protruding partition 46 may protrude upward from the partition 44.
  • the protruding partition 46 may be integrally formed with the partition 44.
  • the protruding partition wall 46 may be provided in plural, and the number of the protruding partition walls 46 may be determined according to the number of the telescopic device 10.
  • a pair of telescopic devices 10 may be disposed in the window frame frame 40, and a pair of protruding partitions 46 may also be provided to fix each telescopic device 10.
  • the pair of protruding partitions 46 may be provided to be spaced apart from each other.
  • a partition wall space 42 may be provided between the pair of spaced apart projecting partition walls 46.
  • each of the protrusion partition walls 46 is disposed to be spaced apart from the inner side surface 43 of the window frame frame body 41, and a seating space (B) between the protrusion barrier wall 46 and the inner side surface 43 of the window frame frame body 41. 49) can be formed.
  • the telescopic device 10 may be seated in the seating space 49.
  • the width of the seating space 49 may be equal to the width of the telescopic device 10.
  • the telescopic device 10 can be fixed between the inner surface 43 of the window frame body 41 and the protruding partition 46, thereby preventing shaking.
  • the window frame frame body 41 may be provided with a thermal bridge blocking member engaging portion 48.
  • the thermal bridge blocking member locking portion 48 may protrude outward from the window frame body 41. Based on the first window (2), the thermal bridge blocking member engaging portion 48 may be provided to face the second window (3).
  • the thermal bridge blocking member 70 may be fitted to the thermal bridge blocking member catching part 48. As described above, the thermal bridge blocking member 70 connects the first window 2 and the second window 3 and at the same time separates the space 71 between the first window 2 and the second window 3. Can be shielded. In addition, the thermal bridge blocking member 70 may prevent heat conduction between the window frame frame 40 of the first window (2) and the window frame frame 40 of the second window (3).
  • the thermal bridge blocking member 70 is not integrally formed, and an upper thermal bridge blocking member and a lower thermal bridge blocking member spaced apart from each other are also provided.
  • the thermal bridge blocking member locking portion 48 may fix the thermal bridge blocking member 70 by pressing the thermal bridge blocking member 70 up and down. However, the thermal bridge blocking member locking portion 48 may be pressed only on the upper side of the thermal bridge blocking member 70, and the lower side of the thermal bridge blocking member 70 may be supported by concrete such as a structure on which the window frame frame 40 is mounted. .
  • the window frame body 41 may be provided with a plurality of ribs 47.
  • the shape of each rib 47 may be formed differently from each other according to the position.
  • the rib 47 can further increase the moment of inertia of the window frame frame body 41.
  • the rib 47 may protrude in an outward direction of the window frame body 41. Rib 47 may be formed on the opposite side of the thermal bridge blocking member engaging portion (48). The rib 47 is preferably formed horizontally, but is not limited thereto, and may be formed to be inclined.
  • the window frame frame cover 69 may be provided outside the window frame body 41 to cover the ribs 47.
  • the window frame frame cover 69 may be a finish.
  • the window frame frame cover 69 may be formed in a U shape, and both ends 69a may be formed stepwise to be fixed to the ribs 47. Grooves in which the stepped ends of the window frame frame cover 69 may be formed may be formed in the uppermost rib 47 and the lowermost rib 47.
  • both ends 69a of the window frame frame cover 69 may be fixed to the top rib 47 and the bottom rib 47, respectively. More specifically, both ends 49a of the window frame frame cover 69 may be fixed to the upper surface of the uppermost rib 47 and the lower surface of the lowermost rib 47, respectively.
  • the window frame frame cover 69 covers the ribs 47, a hollow in which air is positioned between the window frame frame cover 69 and the window frame frame body 41 may be formed, thereby improving thermal insulation performance of the window frame frame 40.
  • the window frame frame cover 69 has an advantage of preventing the inflow of drafts and the like and may also help improve the design of the window (1).
  • the cap 60 may cover the open upper surface of the window frame frame body 41. That is, the cap 60 may be a top cover.
  • the cap 60 may include a cover 61, a protruding partition coupling portion 62, and a frame body coupling portion 64.
  • the cap 60 may further include a frame auxiliary coupling part 65.
  • the cover part 61 may cover the open upper surface of the window frame body 41.
  • the cover portion 61 may be disposed horizontally.
  • Gaskets 55 and 56 fixed to the window 50 may contact the upper surface of the cover 61.
  • An upper end of the window frame body 41 and an upper end of the protruding partition 46 may be in contact with the bottom of the cover 61.
  • the cover part 61 may be provided with a connection part passing hole 63.
  • the connection part passing hole 63 may be a hole provided in the longitudinal direction of the window 50.
  • the connection part passing hole 63 may be a hole through which the lower connection part 15 passes.
  • a pair of telescopic devices 10 may be disposed in the window frame frame 40, and a pair of connecting parts through which the lower connection part 15 connected to each telescopic device 10 passes through the cover part 61.
  • the through hole 63 may be formed.
  • connection part through hole 63 may be formed at a position facing the connection part insertion space 59 between the first window frame 52 and the second window frame 53.
  • connection part passing hole 63 may be formed at a position facing the telescopic device 10.
  • the end portion 61a of the cover portion 61 may be formed stepwise, and the end portion 61a may be fitted into a groove formed in the rib 47. As a result, the coupling force between the cap 61 and the window frame body may be improved.
  • the protruding partition wall coupling part 62 may be combined with the protruding partition wall 46.
  • Protruding partition wall portion 62 may be formed to protrude downward from the cover portion (61).
  • the protruding partition wall coupling part 62 may protrude downward from an approximately central portion of the cover part 61.
  • the protrusion partition wall coupling part 62 may be provided in plural, and the number of the protrusion partition wall coupling parts 62 may be the same as the number of the protrusion partition wall 46.
  • the protrusion partition coupling part 62 may be inserted into the partition space space 42 between the pair of protrusion partition walls 46.
  • the protruding partition wall coupling part 62 may be disposed to contact the protruding partition wall 46. Thereby, the airtightness between the cap 60 and the window frame main body 41 can be increased.
  • the end portion 62a of the protruding partition wall coupling part 62 may be formed stepwise to be fixed to the groove 46a formed in the protruding partition wall 46.
  • the groove 46a may be formed on a surface facing the partition space 42.
  • the frame body coupling portion 64 may be coupled to the window frame frame body 41.
  • the frame body coupling portion 64 may protrude downward from the cover portion 61.
  • the frame body coupling portion 64 may be formed to protrude downward from an approximately edge portion of the cover portion 61.
  • the protruding height of the frame body coupling portion 64 may be lower than the protruding height of the protruding partition wall coupling portion 62.
  • the lower end of the frame body coupling portion 64 may be disposed to contact or be spaced apart from the upper surface of the telescopic device 10.
  • the frame body coupling portion 64 may be inserted into the seating space 49. At this time, the frame body coupling portion 64 may be disposed to contact the inner surface 43 of the window frame frame body 41. Thereby, the airtightness between the cap 60 and the window frame main body 41 can be increased.
  • Frame body coupling portion 64 may be provided with a pair, it may be coupled to the inner surface 43 of the window frame frame body 41, respectively.
  • an end portion of the frame body coupling portion 64 may be formed stepwise to be fixed to a groove formed in the inner surface 43 of the window frame frame body 41. As a result, the coupling force between the cap 60 and the window frame frame body 41 may be increased.
  • the frame auxiliary coupling part 65 may be coupled to the thermal cross-blocking member mounting part 48.
  • the frame auxiliary coupling portion 65 may be fitted into a groove formed in the heat cross-member blocking portion.
  • the frame auxiliary coupling part 65 may serve to assist the coupling force between the cap 60 and the window frame frame body 41.
  • the frame auxiliary coupling part 65 may protrude downward from the cover part 61.
  • the frame auxiliary coupling portion 65 may protrude further outward of the cover portion 61 than the frame body coupling portion 64.
  • the telescopic device 10 may include a fixed frame 11, a moving frame 12, and a rolling member 14.
  • the telescopic device 10 may further include an intermediate frame 13.
  • Each frame 11, 12, 13 constituting the telescopic device 10 may be formed of a rigid material such as aluminum or steel. This is because the telescopic device 10 may not only serve as a driving unit for sliding the window 50 but also may support a weight of the window 50 at the same time.
  • the fixed frame 11 may form an appearance of the telescopic device 10.
  • the fixing frame 11 may be provided in the form of a rail having an upper surface opened.
  • the fixed frame 11 may be disposed long along the longitudinal direction of the window frame frame 40.
  • the fixed frame 11 may be disposed in the window frame frame 40.
  • the fixing frame 11 may be seated in the seating space 49 of the window frame frame 40.
  • the bottom surface of the fixing frame 11 is in contact with the upper surface of the partition 44, and both sides of the fixing frame 11 are disposed so as to contact the inner surface 43 and the protruding partition 46 of the window frame body 41, respectively. Can be.
  • the outer surface of the fixing frame 11 may be coated with a heat insulating member (not shown) such as plaamide. That is, a heat insulating member such as a plaamide may be positioned between the fixed frame 11 and the window frame frame 40.
  • a heat insulating member such as a plaamide may be positioned between the fixed frame 11 and the window frame frame 40.
  • the moving frame 12 may be nested inside the fixed frame 11.
  • the moving frame 12 may be disposed long along the longitudinal direction of the window frame frame 40, similarly to the fixed frame 11.
  • the rolling member 14 may be a ball bearing.
  • the rolling member 14 is disposed between the moving frame 12 and the fixed frame 11, and can contact the moving frame 12 and the fixed frame 11, respectively.
  • the rolling member 14 may reduce frictional force between the moving frame 12 and the fixed frame 11 to smooth the sliding and reduce the noise.
  • the moving frame 12 may have a square beam shape in which a hollow is formed. That is, the cross section of the moving frame 12 may have a rectangular shape having an empty inside.
  • the lower connection part 15 may be connected to the moving frame 12.
  • the upper surface of the moving frame 12 may be connected to the lower connection part 15.
  • the moving frame 12 is slid with respect to the fixed frame 11 and can move.
  • the lower connection part 15 may connect the moving frame 12 and the window sill 50, and the window 50 may slide and move together with the moving frame 12. This may allow the user to open and close the window.
  • the lower connection part 15 may pass through the connection part passing hole 63 formed in the cover part 61 of the cap 60. In addition, the lower connection part 15 may be inserted into the connection part insertion space 59 formed in the window 50.
  • the lower connection part 15 may include a connection part body 15a and a heat insulating part 15b.
  • connection body 15a may be formed to have a T-shaped cross section.
  • the connector body 15a may be formed long along the longitudinal direction of the window frame frame 40, similarly to the moving frame 12.
  • the length of the connection unit body 15a may be the same as the length of the moving frame 12.
  • connection unit body 15a may be connected to the moving frame 12.
  • the lower end of the connecting unit body 15a may be connected to the upper surface of the moving frame 12.
  • the connection body 15a may be integrally formed with the moving frame 12.
  • the upper end of the connector body 15a may be located inside the connector insertion space 59.
  • connection part body 15a may be made of the same material as the moving frame 12. That is, the connection unit body 15a may be made of a material having high thermal conductivity such as aluminum or steel.
  • the heat insulating part 15b may be provided to surround the connection body 15a.
  • the heat insulating part 15b may surround a portion of the connection body 15a positioned in the connection part insertion space 59.
  • the heat insulation part 15b may further surround a portion of the connection body 15a that is located outside the connection portion insertion space 59.
  • the heat insulating part 15b is preferably polyurethane or Azon heat insulating material, but is not limited thereto.
  • the heat insulating part 15b may be disposed in contact with the window 50.
  • the heat insulating part 15b may be in contact with the first window frame 52 and the second window frame 53.
  • the portion of the heat insulation portion 15b located in the connection portion insertion space 59 may be in contact with the first window frame 52 and the second window frame 53.
  • connection unit body 15a heat insulation between the window frames 52 and 53 and the connection unit body 15a may be achieved. In addition, heat loss through the connection unit body 15a can be prevented.
  • the portion located in the connection portion insertion space 59 of the heat insulation portion 15b may be formed in an inverted U shape or inverted V shape.
  • the telescopic device 10 may be separately manufactured and inserted into the seating space 49 of the window frame frame 40.
  • the fabrication and mounting of the telescopic device 10 can be facilitated.
  • the user since the user can remove the cap 60 from the window frame body 41 and immediately take out the telescopic device 10, the telescopic device 10 can be easily separated and maintained.
  • FIG. 4 is an enlarged view of a portion A shown in FIG. 2.
  • a pair of sealer engaging grooves 66 may be formed at each inner side surface of the connection part passing hole 63.
  • the sealer engaging groove 66 may be formed to face each other.
  • Sealers 67 and 68 may be mounted in the sealer engaging groove 66. Like the gaskets 55 and 56, the sealers 67 and 68 may be made of a material having good thermal insulation performance and elasticity.
  • Each sealer 67, 68 may be provided to be in surface contact with the inner surface of the connection part passing hole 63.
  • the sealers 67 and 68 may be provided long along the connection part through-holes.
  • connection part passing hole 63 may be effectively shielded. However, since the lower connection part 15 passes through the connection part passing hole 63, this will be described.
  • connection portion through-hole 63 may be longer than the lower connection portion 15.
  • the length of the connection part passing hole 63 may be approximately twice as long as the length of the lower connection part 15. Therefore, any part of the sealers 67 and 68 may be in contact with each other, and the other part may be bent to be in contact with the lower connection part 15.
  • the sealers 67 and 68 may shield the connection part through-hole 63 to minimize the inflow of foreign air or foreign matter into the window frame frame 40.
  • the sealers 67 and 68 may minimize heat loss caused by a gap between the lower connection part 15 and the connection part passing hole 63.
  • FIG. 5 is a cross-sectional view of a telescopic device according to an embodiment of the present invention.
  • the telescopic device 10 may include a fixed frame 11, a moving frame 12, and a rolling member 14.
  • the moving frame 12 may have a square beam shape having a hollow 26 formed therein. That is, the cross section of the moving frame 12 may have a rectangular shape having an empty inside.
  • the self-weight of the moving frame 12 can be reduced and the moment of inertia can be increased.
  • the movable frame 15 can effectively support the weight of the window 50.
  • the moving frame 12 may be disposed long along the longitudinal direction of the window frame frame 40, similarly to the fixed frame 11.
  • the moving frame 12 may be nested inside the fixed frame 11. That is, the moving frame 12 may be disposed in the sliding space 23 in the fixed frame 11.
  • the lower connecting portion 15 is connected to the upper surface 20 of the moving frame 12 so that the moving frame 12 may slide together with the window 50.
  • the fixing frame 11 may be opened at an upper side thereof, and a sliding space 23 may be provided therein.
  • the fixed frame 11 may be provided with a rolling member mounting portion 19 in which the rolling member 14 is disposed.
  • the rolling member 14 may be rotatably mounted to the rolling member mounting unit 19 provided in the fixing frame 12.
  • the fixed frame 11 may include a horizontal portion 16 and a pair of vertical portions 17.
  • the horizontal portion 16 may include a bottom surface of the fixed frame 11.
  • the vertical parts 17 may be formed by bending upwards at both ends of the horizontal part 16.
  • Each end of the vertical portion 17 may be formed with a bent portion 18 bent in a direction closer to each other.
  • the bent portion 18 may be disposed to face at least a portion of the upper surface 20 of the moving frame 12. The bent portion 18 may prevent the moving frame 12 from being separated from the fixed frame 11.
  • the cloud member 14 may be disposed at the horizontal portion 16 and the pair of vertical portions 17 to be in contact with at least one. That is, at least one cloud member 14 may be disposed on each inner surface of the fixed frame 12.
  • the rolling member 14 disposed on the horizontal portion 16 may be in contact with the bottom surface 21 of the moving frame 12, and the rolling member 14 disposed on the vertical portion 17 may be disposed outside the moving frame 12. Abut the side 22. That is, at least one cloud member 14 may be disposed on each outer surface of the moving frame 12. As a result, the unnecessary movement of the moving frame 12 in the sliding space 23 of the fixed frame 11 may be prevented, and the moving frame 12 may move only in the longitudinal direction, thereby enabling smooth sliding. In addition, there is an advantage that the weight of the window 50 and the moving frame 12 can be effectively distributed by each rolling member 14.
  • the cloud member 14 may increase the airtightness between the movable frame 12 and the fixed frame 11 to minimize the inflow of foreign air or foreign matter into the sliding space 23.
  • the telescopic device 10 may further include an intermediate frame 13.
  • the intermediate frame 13 may be smaller in size than the fixed frame 11.
  • the intermediate frame 13 may have an upper side opening and a sub sliding space 24 therein.
  • the intermediate frame 13 may be provided with a cutout part not to overlap with the rolling member 14.
  • the rolling member 14 may be in contact with the fixed frame 11 and the moving frame 12 through the cutout.
  • the intermediate frame 13 may include a horizontal portion and a pair of vertical portions similarly to the fixed frame 11.
  • the horizontal portion may include a bottom surface of the intermediate frame 13, and the vertical portion may be formed by bending upwardly at both ends of the horizontal portion.
  • the intermediate frame 13 may be disposed between the moving frame 12 and the fixed frame 11.
  • the intermediate frame 13 may be nested inside the fixed frame 11, and the movable frame 12 may be nested inside the intermediate frame 13. That is, the intermediate frame 13 may be disposed in the sliding space 23 in the fixed frame 11, and the moving frame 12 may be disposed in the sub sliding space 24 in the intermediate frame 13.
  • the intermediate frame 13 can be slid relative to the stationary frame 11, and the movable frame 12 can be slid relative to the intermediate frame 13. That is, since the intermediate frame 13 is provided, the total length of the telescopic device 10 required to slide the same distance may be reduced, or the longer distance may be slidable in the telescopic device 10 of the same length.
  • a structure such as a lock or detent may be provided between the frames 11, 12, and 13, thereby moving the moving frame 12 and the intermediate frame 13 from the fixed frame 11. Departure in the longitudinal direction can be prevented.
  • FIG. 6 is an enlarged view of the upper portion of the window illustrated in FIG. 1. Although the gaskets 55 and 56 are not illustrated in FIG. 6, the gaskets 55 and 56 may be provided at the upper part of the window 50 as well as the lower part.
  • the upper portion of the window 1 may be the same as the lower portion of the window 1 except for the configuration associated with the upper connection 80. Therefore, the description overlapping with the above description will be omitted and the description will be mainly focused on the difference.
  • the upper connection part 80 may be inserted into the connection part insertion space 59 positioned above the window 50.
  • the upper connection part 80 may be inserted into and inserted into the connection part passing hole 63.
  • the window frame 50 may be stably fixed to the window frame frame 40.
  • the upper connection part 80 may include an elastic member 81, a push rod 82, and an insertion part 83.
  • the elastic member 81 may be a coil spring, but is not limited thereto, and may be selected as necessary.
  • the elastic member 81 may be located in the connection portion insertion space 59. One end of the elastic member 81 may be in contact with the first window frame 52 or the second window frame 53, the other end may be in contact with the push rod 82.
  • the push rod 82 may be positioned between the elastic member 81 and the insertion portion 83.
  • the push rod 81 may be connected to the elastic member 81 and the insertion portion 83, respectively.
  • the push rod 82 may be disposed to be in contact with the inner surface of the connecting portion insertion space 59. That is, the push rod 81 may be in contact with the first window frame 52 and the second window frame 53, respectively. A portion of both sides of the push rod 81 in the width direction may be bent, and the bent portion may be in surface contact with the first window frame 52 and the second window frame 53, respectively.
  • the push rod 81 can be fixed without being shaken in the connection portion insertion space 59. That is, the push rod 82 may serve to fix the upper connection part 80 so as not to shake in the connection part insertion space 59.
  • the insertion part 83 may be inserted into and disposed in the connection part passing hole 63 formed in the cap 60. That is, at least a part of the insertion unit 83 may be located inside the window frame frame 40. One end of the insertion portion 83 may be connected to the push rod 82, and the other end may be located inside the window frame frame 40.
  • the insertion unit 83 may serve to fix the window frame 50 to the window frame frame 40.
  • the upper portion of the window 50 is moved near the insertion part through-hole 63.
  • the elastic member 81 may be provided in a compressed state so that the entire length of the upper connection part 80 may be short.
  • the opposite end of the portion connected to the push rod 82 in the insertion portion 83 may be moved in contact with the cover portion 61 of the cap 60. That is, the elastic member 81 may provide an elastic force in the direction in which the elastic member 81 is compressed and stretched between the window 50 and the cover portion 61.
  • connection portion passage hole 63 When the end portion of the insertion portion 83 reaches the connection portion passage hole 63, the elastic member 81 is extended and the insertion portion 83 may be inserted into the connection portion passage hole 53. In this way, the upper connection part 80 may be coupled to the window frame frame 40.
  • the upper connection portion 80 can be easily mounted to the window frame frame 40. have.
  • the distance between the window sill 50 and the window frame frame 40 may be reduced as a result. This has the advantage that the heat loss due to the gap between the window 50 and the window frame frame 40 can be reduced.
  • the sound insulation effect can also be improved.
  • Figure 8 is a longitudinal sectional view of the window according to another embodiment of the present invention.
  • the window 101 may include a first window 102 and a second window 103.
  • the configurations of the first window 102 and the second window 103 may be the same.
  • the first window 102 and the second window 103 may be spaced apart from each other by a predetermined interval to provide a space 171 therebetween.
  • air or an inert gas may be positioned to improve thermal insulation performance between the first window 102 and the second window 103.
  • the first window 102 and the second window 103 may be symmetrically disposed about the separation space 171.
  • the window 101 may include the first window 102 and the second window 103, but is not limited thereto.
  • the window 101 may include only the first window 102.
  • the window 101 of the present invention may refer to the first window 102.
  • the window 101 may further include an additional window in addition to the first window 102 and the second window 103.
  • the main structure of the 1st window 102 and the 2nd window 103 is similar, the main structure is demonstrated based on the 1st window 102 below. In this way, the configuration of the second window 103 may be easily understood by those skilled in the art.
  • the first window 102 includes a window 150, a window frame frame 140 on which the window 150 is installed, and a telescopic device 110 connected to the window 150 to slide the window 150. Can be.
  • the first window 102 may include a plurality of windows 150.
  • the first window 102 may include a pair of windows 150 that move independently of each other.
  • the pair of windows 150 may be spaced apart from each other.
  • One window 150 may be located indoors than the other window.
  • One window 150 and the other window may be arranged parallel to each other.
  • the configuration of one window 150 and the other window may be the same.
  • One window 150 may cover a portion of the window frame frame 140, and the other window cover may cover another portion of the window frame frame 140.
  • the whole window pair 150 and the other window pair may overlap.
  • one window 150 and the other window may overlap only at the center of the first window 102, and only a part of the windows may overlap each other. At this time, the window glass of the other window of the window 150 may not overlap.
  • the window 50 may include a window body 107 having at least one window 108, 109.
  • the window body 107 may include a first window glass 108 and a second window glass 109 spaced apart from the first window glass 108.
  • a window pane spaced space 107A may be formed between the first window pane 108 and the second window pane 109 and may reduce heat loss through the window panes 108 and 109.
  • the window frame frame 140 may be mounted on a structure such as a building wall.
  • the window frame 150 may be fitted to the window frame frame 140, and the window frame 150 may be slid with respect to the window frame frame 140. As a result, the user may open or close the first window 102.
  • the upper part of the window sill 150 may be connected to the window frame frame 40, and the lower part of the window sill 50 may be connected to the window frame frame 40 and slidably connected by the telescopic device 110.
  • a portion of the window frame frame 140 may have a polyamide material, and the portion may be referred to as an insulating frame 170B.
  • the window frame frame may have a metal material such as aluminum, and the insulating frame 170B may have a polyamide material.
  • the insulation frame 170B may also include a main frame 141 (see FIG. 9) and an auxiliary frame 143 (see FIG. 9) to be described later. However, since the rigidity of the insulating frame 170B is weaker than that of the metal frame, the insulating frame 170B preferably does not include the telescopic fixed frame 142 (see FIG. 9).
  • the telescopic device 110 may support the weight of the window sills 150 and allow the window sills 150 to be slidable with respect to the window frame frame 140.
  • the telescopic device 110 may be mounted to the window frame frame 140 and may be connected to the window frame 50 to slide the window frame 50.
  • the first window 102 may include a plurality of window sills 50, and the telescopic apparatus 110 may be connected to each window sills 50. That is, the first window 102 may include a plurality of telescopic devices 110.
  • the window (1) may further include an insect screen frame 200 fastened to the window frame frame 140, and the insect screen 201 mounted on the insect screen frame 200.
  • the screen size of the screen frame 200 may be approximately half of the window frame frame 140.
  • FIG. 9 is an enlarged view of a lower portion of the window shown in FIG. 8
  • FIG. 10 is a perspective view showing an example of a telescopic device
  • FIG. 11 is an enlarged view of an upper portion of the window shown in FIG. 8.
  • the window 150 may include a window body 107, a first window frame 151, a second window frame 152, and a thermal cross-connection connector 154.
  • the window 150 may further include a block 155.
  • each window frame 151, 152 is not limited.
  • the shape of the first window frame 151 and the shape of the second window frame 152 may be different.
  • each window frame 151, 152 is preferably provided with a plurality of hollow.
  • the window body 107 may include a first window glass 108 and a second window glass 109 spaced apart from the first window glass 108.
  • the first window glass 108 may be disposed in the first window frame 151, and the second window glass 109 may be disposed in the second window frame 152.
  • Each pane 108, 109 may be disposed directly on each pane frame 151, 152, or each pane 108, 109 is supported by a pane auxiliary frame 153 and disposed on the pane frame 151, 152. May be
  • Each pane 108, 109 is provided with a sealing member 156 to secure the coupling between the panes 108, 109 and the window frames 151, 152, and the outside air or water is applied to the panes 108, 109 and the window frames. Intrusion between 151 and 152 can be prevented.
  • the sealing member 156 preferably has a silicon material, but is not limited thereto.
  • the material of the first window frame 151 and the second window frame 152 may be a material having excellent rigidity such as aluminum or steel but having high thermal conductivity. Therefore, heat loss by the window frames 151 and 152 itself may occur. To prevent this, the first window frame 151 and the second window frame 152 may be spaced apart from each other. As a result, heat conduction between the first window frame 151 and the second window frame 152 may be prevented, and the thermal insulation performance of the window window 150 may be improved.
  • the thermal cross-link connector 154 may connect the first window frame 151 and the second window frame 152 disposed to be spaced apart from each other.
  • the thermal cross-link connector 154 may be fitted to the connector catching portions provided in the window frames 151 and 152.
  • the connector locking portion of the first window frame 151 and the connector locking portion of the second window frame 152 may be provided to face each other.
  • the thermal cross-link connector 154 connects the first window frame 151 and the second window frame 152 and spaces apart each window frame 151 and 152.
  • the thermal cross-link connector 154 may be formed of a material such as polyamide or u-PVC or Long Fiber Thermoplastic (LFT), and preferably, may be made of polyamide. Therefore, the heat cross-connecting connector 154 may prevent heat conduction between the first window frame 52 and the second window frame 53 and increase the heat insulation effect.
  • the block 155 may be located between the first window frame 151 and the second window frame 152, and may be positioned below the thermal cross-connect connector 154.
  • the block 155 is connected to the connection unit 118 connected to the telescopic device 110 and may support the first window frame 151 and the second window frame 152.
  • the height from the main frame 150 to the window 150 may be determined according to the vertical height of the block 155.
  • the window frame frame 140 may include a main frame 141, a telescopic fixed frame 142, and an auxiliary frame 143.
  • At least one of the auxiliary frame 143 and the telescopic fixed frame 142 may be provided with mohairs 144 and 145.
  • a plurality of mohairs may be provided, the first mohair 144 provided between the auxiliary frame 143 and the window 150, the telescopic fixed frame 142 and the window 150 It may include a second mohair 145 provided between.
  • Each mohair 144, 145 can block the outside air flowing between the window 150 and the window frame frame 140 and increase the thermal insulation performance of the window 101.
  • the main frame 141 may be installed on an installation wall of a building or the like, and may be formed in a rectangular frame shape.
  • a plurality of hollows may be formed in the main frame 141, and at least one of the plurality of hollows may contain an azon heat insulating material 170A.
  • Azon insulation material 170A can prevent the heat conduction between the outdoor and the indoor by the main frame 141.
  • the telescopic fixed frame 142 protrudes from the inside of the main frame 141, and the telescopic device 110 may be fixed.
  • the telescopic fixed frame 142 may be disposed below the window 150, and may close the gap between the window 141 and the main frame 141 together with the telescopic device 110. As a result, the telescopic device 110 and the telescopic fixed frame 142 may prevent the outside air from entering between the main frame 141 and the window 150 and the insulation performance of the window 101 may be improved.
  • the telescopic fixed frame 142 may have an open rear surface.
  • the telescopic fixed frame 142 may have a substantially 'c' shape.
  • the second mohair 145 is disposed between any one of the telescopic fixed frame 142, the first window frame 151, and the second window frame 152, and the telescopic fixed frame 142 and the first window frame 151. ) And the connection part 118 connected to the telescopic device 110 may pass between the other one of the second window frame 152.
  • the second mohair 145 may be disposed between the first window frame 151 and the telescopic fixed frame 142. Since the connecting portion 118 passes between the second window frame 152 and the telescopic fixing frame 142, the second mohair 145 may not be provided. At this time, the second mohair 145 may maintain the airtightness between the first window frame 151 and the telescopic fixed frame 142 and perform thermal insulation.
  • the auxiliary frame 143 is formed inside the main frame 141 and at least a portion thereof may face the first window frame 151 or the second window frame 152 in the front-rear direction. In addition, the auxiliary frame 143 may be spaced apart from the telescopic fixed frame 142 in the front-rear direction.
  • a plurality of auxiliary frames 143 may be provided. Each auxiliary frame 143 may be positioned opposite to the telescopic fixed frame 142 based on the first window frame 151 or the second window frame 152.
  • a guide member 146 may be provided between the auxiliary frame 143 positioned above the window 150 and the first window frame 151 and the second window frame 152.
  • a first mohair 144 may be provided between the auxiliary frame 143 positioned below the window 150 and the first window frame 151 and the second window frame 152.
  • the guide member 146 may prevent the upper portion of the window 150 from shaking in the front-rear direction based on the telescopic device 110 supporting the window 150 at the lower side.
  • the guide member 146 may have a higher rigidity than the first mohair 144.
  • the guide member 146 supports the upper part of the window 150 in the front-rear direction, and may simultaneously maintain airtightness and heat insulation.
  • the first mohair 144 minimizes forward and backward shaking of the lower part of the window 150, maintains airtightness between the window 150 and the auxiliary frame 143, and may perform thermal insulation.
  • the telescopic device 110 may overlap the window body 107 in the vertical direction. This is to stably support the weight of the window body 107, which is the heaviest configuration in the window 150, without being eccentric.
  • the telescopic apparatus 110 may include a fixed frame 111, a moving frame 112, and at least one intermediate frame 121.
  • the telescopic device 110 may further include a cloud member 113.
  • the fixed frame 11, the moving frame 112, and the intermediate frame 121 may be formed of a rigid material such as aluminum or steel. This is because the telescopic device 110 may not only serve as a driving unit for sliding the window 150, but also may support a weight of the window 150 at the same time.
  • the fixed frame 111 may form an appearance of the telescopic device 10.
  • the fixed frame 111 may be provided in the form of a rail with a rear surface opened.
  • the fixed frame 111 may include a fixed vertical web 114 and a pair of fixed slide ways 115 protruding from the vertical web 114.
  • the fixed frame 111 may be fixed to the window frame frame 140, and more particularly, the telescopic fixed frame 142.
  • the outer surface of the fixing frame 111 may be coated with a heat insulating member (not shown) such as a plaamide. That is, between the outer surface of the fixed frame 111 and the inner surface of the telescopic fixed frame 142 may be a heat insulating member such as plaamide. Thermal insulation between the telescopic device 110 and the telescopic fixed frame 142 may be prevented by the heat insulating member, and the heat insulating performance of the entire window 101 may be improved. In addition, noise generated by driving the telescopic apparatus 110 may be reduced by the heat insulating member.
  • a heat insulating member such as a plaamide
  • the intermediate frame 121 may be nested inside the fixing frame 111.
  • the intermediate frame 121 may be disposed between the fixed frame 111 and the moving frame 112 and may be slid with respect to the fixed frame 121 and the moving frame 112.
  • the intermediate frame 121 may be provided in plurality, and the plurality of intermediate frames 121 may be configured to be slidable with each other.
  • the outermost middle frame of the plurality of intermediate frames 121 may be slide-connected to the fixed frame 111, and the innermost intermediate frame may be slide-connected to the moving frame 112.
  • the intermediate frame 121 may include an intermediate vertical web 122 and a pair of intermediate slide ways 123.
  • the intermediate vertical web 122 may be spaced apart from the fixed vertical web 114.
  • the intermediate slide way 123 may protrude from the intermediate vertical web 122 and may overlap the fixed slide way 115 of the fixed frame 111 up and down.
  • the moving frame 112 may be nested inside the fixed frame 11 and positioned inside the fixed frame 11.
  • the moving frame 112 can include a moving vertical web 116 and a pair of moving slide ways 117.
  • the moving vertical web 116 may be coupled with the connection 115.
  • the moving vertical web 116 may be spaced apart from the fixed vertical web 114.
  • the moving slide way 117 may protrude from the moving vertical web 116 and may overlap the fixed slide way 115 of the fixed frame 111 vertically.
  • the fixed slide way 115 and the moving slide way 117 may protrude in opposite directions.
  • the rolling member 113 may be a ball bearing, but is not limited thereto.
  • the rolling member 113 may reduce frictional force between the moving frame 112 and the intermediate frame 121 or between the intermediate frame 121 and the fixed frame 111 to smooth sliding and reduce noise.
  • the rolling member 113 may be disposed between the fixed frame 111 and the moving frame 112. In more detail, some of the plurality of rolling members 113 may be disposed between the fixed frame 111 and the intermediate frame 121, and others may be disposed between the moving frame 112 and the intermediate frame 121. Can be.
  • the rolling member 113 may be disposed between the fixed slide way 115 of the fixed frame 111 and the moving slide way 117 of the moving frame 112.
  • the fixed slide way 115, the intermediate slide way 123 and the moving slide way 117 may be concave.
  • connection part 118 may connect the moving frame 112 and the window 150. More specifically, the connection 118 may connect the block 155 with the vertical moving web 116 of the moving frame 112.
  • the moving frame 112 may slide while moving relative to the fixed frame 111.
  • the connection part 118 may connect the moving frame 112 and the window sill 150, and the window 150 may slide and move together with the moving frame 112. This may allow the user to open and close the window.
  • connection part 118 may be located between the first window frame 151 and the second window frame 152.
  • the connecting portion 118 may close a gap between the window 150 and the telescopic fixed frame 142. That is, the connection part 118 may prevent the outside air from entering between the window 101 and the telescopic fixed frame 142, and may further improve the thermal insulation performance of the window 101.
  • connection part 118 may include a connection part body 119 and a heat insulating part 120.
  • connection unit body 119 may be connected to the moving frame 112.
  • the connection body 119 may be formed of steel or aluminum having high rigidity.
  • connection body 119 supports the fastening body 119A fastened to the moving frame 112 and the horizontal body 119C, the fastening body 119A and the horizontal body 119C which are horizontally formed while supporting the load of the window 150. It may include a vertical body 119B connected and vertically formed.
  • the fastening body 119A may be fastened to the moving vertical web 116 of the moving frame 112.
  • the horizontal body 119C may be located above the telescope fixing frame 142 and be positioned below the block 155.
  • the horizontal body 119C may be located between the first window frame 151 and the second window frame 152.
  • the vertical body 119B may pass between the telescope fixed frame 142 and the first window frame 151 or the second window frame 152.
  • the heat insulation part 120 may surround at least a portion of the connection body 119 and contact at least one of the first window frame 151, the second window frame 152, and the block 155.
  • the heat insulating part 120 is preferably polyamide or Azon heat insulating material, but is not limited thereto.
  • the heat insulating part 120 may prevent heat from being conducted between the window 150 and the window frame frame 140 through the connection body 119.
  • the heat insulating part 120 is preferably configured to surround the horizontal body 119C and the vertical body 119B. As a result, insulation between the window frames 151 and 152 and the connection body 119 may be achieved. In addition, heat loss through the connection body 119 may be prevented, and the gap between the window 150 and the telescopic fixed frame 142 may be more reliably prevented.

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  • Engineering & Computer Science (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Wing Frames And Configurations (AREA)

Abstract

Selon un mode de réalisation, la présente invention concerne une fenêtre qui peut comprendre : un cadre de fenêtre ; une section de fenêtre installée sur le cadre de fenêtre ; un dispositif télescopique relié à la section de fenêtre par l'intermédiaire d'une partie de liaison afin de permettre le coulissement de la section de fenêtre. Le dispositif télescopique peut comprendre : un cadre fixe, fixé au cadre de fenêtre ; un cadre mobile, disposé dans le cadre fixe et relié à la partie de liaison afin d'être coulissé conjointement avec la section de fenêtre ; au moins un cadre intermédiaire disposé entre le cadre fixe et le cadre mobile afin de coulisser sur le cadre fixe et le cadre mobile.
PCT/KR2018/000645 2017-01-13 2018-01-12 Fenêtre ayant un dispositif télescopique WO2018131951A1 (fr)

Applications Claiming Priority (2)

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KR10-2017-0006075 2017-01-13
KR20170006075 2017-01-13

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WO2018131951A1 true WO2018131951A1 (fr) 2018-07-19

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Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0254077A (ja) * 1988-08-15 1990-02-23 Nabuko Syst Kk ユニット式引戸装置
KR100805366B1 (ko) * 2007-02-22 2008-02-20 (주) 이엔이씨 다단식 슬라이딩 자동도어
KR101072873B1 (ko) * 2010-10-25 2011-10-17 이은옥 고기밀성 하이단열바
KR20130024601A (ko) * 2011-08-31 2013-03-08 한국건설기술연구원 가동형 고기밀 단열덧문
KR101522537B1 (ko) * 2014-12-30 2015-06-25 (주)대상알미늄 단열 창호

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0254077A (ja) * 1988-08-15 1990-02-23 Nabuko Syst Kk ユニット式引戸装置
KR100805366B1 (ko) * 2007-02-22 2008-02-20 (주) 이엔이씨 다단식 슬라이딩 자동도어
KR101072873B1 (ko) * 2010-10-25 2011-10-17 이은옥 고기밀성 하이단열바
KR20130024601A (ko) * 2011-08-31 2013-03-08 한국건설기술연구원 가동형 고기밀 단열덧문
KR101522537B1 (ko) * 2014-12-30 2015-06-25 (주)대상알미늄 단열 창호

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