WO2024106978A1 - Module de déplacement horizontal pour ensemble fenêtre/porte mobile horizontalement - Google Patents

Module de déplacement horizontal pour ensemble fenêtre/porte mobile horizontalement Download PDF

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Publication number
WO2024106978A1
WO2024106978A1 PCT/KR2023/018470 KR2023018470W WO2024106978A1 WO 2024106978 A1 WO2024106978 A1 WO 2024106978A1 KR 2023018470 W KR2023018470 W KR 2023018470W WO 2024106978 A1 WO2024106978 A1 WO 2024106978A1
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WO
WIPO (PCT)
Prior art keywords
guide track
area
horizontal
upper plate
window
Prior art date
Application number
PCT/KR2023/018470
Other languages
English (en)
Korean (ko)
Inventor
이재선
Original Assignee
주식회사 씨에스테크
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.)
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Publication date
Application filed by 주식회사 씨에스테크 filed Critical 주식회사 씨에스테크
Publication of WO2024106978A1 publication Critical patent/WO2024106978A1/fr

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    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05BLOCKS; ACCESSORIES THEREFOR; HANDCUFFS
    • E05B17/00Accessories in connection with locks
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05CBOLTS OR FASTENING DEVICES FOR WINGS, SPECIALLY FOR DOORS OR WINDOWS
    • E05C19/00Other devices specially designed for securing wings, e.g. with suction cups
    • EFIXED CONSTRUCTIONS
    • E05LOCKS; KEYS; WINDOW OR DOOR FITTINGS; SAFES
    • E05CBOLTS OR FASTENING DEVICES FOR WINGS, SPECIALLY FOR DOORS OR WINDOWS
    • E05C19/00Other devices specially designed for securing wings, e.g. with suction cups
    • E05C19/06Other devices specially designed for securing wings, e.g. with suction cups in which the securing part if formed or carried by a spring and moves only by distortion of the spring, e.g. snaps
    • 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
    • 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

Definitions

  • the present invention relates to a horizontal movement module for a horizontally movable window assembly, and relates to an invention that can quickly and easily horizontally move windows.
  • window assemblies serve as a wall that separates the inside from the outside, and at the same time allow indoor ventilation by bringing in sunlight and fresh air from the outside, and also provide a view of the outside and a feeling of openness.
  • window assemblies are largely classified into casement window assemblies and sliding window assemblies depending on the opening and closing method of the window.
  • sliding window assemblies Compared to casement window assemblies, sliding window assemblies have the advantage of being easier to open and close and are more beautiful, but have the disadvantage of lower performance in terms of airtightness, watertightness, and wind pressure resistance due to the gap between the sash and the window when the window is closed.
  • the window is moved in a horizontal direction perpendicular to the linear movement direction of the window from the closed position and is brought into close contact with the sash, thereby eliminating the gap between the sash and the window.
  • a horizontal sealing device that improves the airtightness of the assembly has been developed.
  • the horizontal adhesion device of the prior art consists of a roller housing held on the rail of the chassis, a base plate fixed to the window, a guide plate and a link member connecting the roller housing and the base plate, and the base plate side An inclined guide hole is formed in the guide plate, and the operation bar of the hardware is provided with a guide pin guided to the inclined guide hole.
  • the operating bar of the hardware moves in a straight line to guide the guide pin to the inclined guide hole, so that the base plate can be horizontally approached or spaced apart from the roller housing through the guide plate and link member.
  • the "mechanism for pressing a sliding door on a fixed door frame" of Publication Patent No. 10-2016-0033690 consists of a guide member that is held by the rail of the sash and a fixing member that is fixed to the window, and a guide member on the guide member side.
  • An inclined guide hole is formed, and the operating bar of the hardware is provided with a guide pin guided to the inclined guide hole. The operating bar moves linearly to guide the guide pin to the inclined guide hole, thereby forming a fixing member with respect to the guide member.
  • the present inventor proposed an invention in Korean Patent No. 10-2373584 that can maintain crime prevention performance while having a ventilation function.
  • the horizontal movement module for implementing the horizontal adhesion function had a complicated structure, which lowered productivity and made it difficult to assemble, increasing the cost and complicating the movement mechanism.
  • the present invention was prepared to solve this problem, and its purpose is to provide a horizontal movement module that allows horizontal movement of windows and doors quickly and easily using a simple structure and mechanism.
  • the present invention for achieving this purpose includes an upper plate attachable to a window frame; a lower plate installed below the upper plate, capable of sliding relative to the upper plate, and on which a roller is installed; a curved upper guide track provided on the upper plate; A lower guide track provided on the lower plate and facing the upper guide track, at least a portion of which has a curved shape, and a rotary actuating part disposed between the upper guide track and the lower guide track, wherein the rotary actuating part A hinge pin is provided on one side, a moving pin that moves along the upper guide track and the lower guide track is provided on the other side of the rotation operation unit, and a movement between the upper guide track and the lower guide track according to the rotation movement of the rotation operation unit is provided.
  • a horizontal moving module for horizontally moving windows is provided, wherein the upper plate and the lower plate move relative to each other in the horizontal direction depending on the facing state and the position of the moving pin between them.
  • the lower guide track is characterized by having a curved area partially corresponding to the curvature of the upper guide groove and a straight area connected to the curved area.
  • a receiving space below the upper plate into which the lower plate can be inserted and moved It is characterized in that it includes side walls installed on both sides of the receiving space to support the sides of the lower plate.
  • the upper plate is provided with a hinge hole into which a hinge pin is coupled, and a through hole is provided between the hinge hole and the upper guide track into which a part that transmits the moving motion of the window to the rotation operation unit can be inserted and moved. It is characterized by
  • the upper guide track is provided on the lower surface of the upper plate, has a curved shape that is symmetrical in the left and right directions about the center of the upper guide track, and the center of the upper guide track is open to the outside.
  • a curved area is connected to one end of the straight area of the lower guide track
  • a diagonal track is connected to the other end of the straight area.
  • the curved area of the upper guide track and the curved area of the lower guide track have corresponding curvatures, and when the position of the moving pin is located in the curved area of the upper guide track and the curved area of the lower guide track, the relative relationship between the upper plate and the lower plate It is characterized by preventing the occurrence of movement.
  • the lower surface of the upper plate is characterized in that a recess is provided that accommodates the rotation operation unit and defines a movement area of the rotation operation unit.
  • an installation groove providing a passing space through which the hinge pin can pass and be installed on the upper plate and the rotating operation unit;
  • a movement guide groove is provided to guide the hinge pin so that it can move freely without interference during relative movement between the upper plate and the lower plate, and the installation groove and the movement guide groove are formed adjacent to each other and are provided in a stepped form.
  • the internal structure of the horizontal movement module is simplified and the mechanism is simplified, so product productivity can be significantly increased and cost superiority can be secured.
  • the moving pin is located in an area where the curvature of the upper guide track and a part of the lower guide track match, relative movement between the upper plate and lower plate does not occur, and if the moving pin is located in an area where the curvature does not match, Since relative movement occurs between the upper plate and the lower plate, the relative movement can occur naturally and smoothly.
  • the central part of the upper guide track forms the peak of the curve and is open to the outside, so that the maximum rotation radius of the rotation operation part and the moving pin inserted therein can be realized.
  • the lower plate has an installation groove to prevent interference with the lower plate and to facilitate installation when installing the hinge pin on the upper plate and the rotating operation part.
  • the lower plate has a movement guide groove, which prevents the head of the hinge pin from interfering with the lower plate and provides a movement path when the relative movement between the upper plate and the lower plate is completed after installation of the hinge pin.
  • Figure 1 is a side view of a window assembly to which the present invention is applied.
  • Figure 2 is a side cross-sectional view of a window assembly to which the present invention is applied in a state in which horizontal contact is released.
  • Figure 3 is a side cross-sectional view of a window assembly to which the present invention is applied in a horizontal close contact state.
  • Figure 4 is a perspective view of a locking portion and a locking guide of a window assembly to which the present invention is applied.
  • Figure 5 is a perspective view and a front view of a locking guide of a window assembly to which the present invention is applied.
  • Figure 6 is a perspective view showing the mutual operation process between the locking part and the locking guide in the window assembly to which the present invention is applied.
  • Figure 7 is a front view showing the mutual operation process between the locking part and the locking guide in the window assembly to which the present invention is applied.
  • Figure 8 is an upper perspective view and a lower perspective view of the horizontal movement module according to the present invention.
  • Figure 9 is an upper perspective view and a lower perspective view of the upper plate of the horizontal movement module according to the present invention.
  • Figure 10 is a perspective view of the lower plate of the horizontal movement module according to the present invention.
  • Figure 11 is an exploded perspective view of the horizontal movement module according to the present invention viewed from above.
  • Figure 12 is an exploded perspective view of the horizontal movement module according to the present invention viewed from below.
  • Figure 13 shows the change in position of the moving pin within the horizontal movement module for each operation mode in the window assembly to which the present invention is applied.
  • Figure 14 is a state diagram of the horizontal movement module in the open mode in the window assembly to which the present invention is applied.
  • Figure 15 is a state diagram of the horizontal movement module in the closed mode by horizontal close contact in the window assembly to which the present invention is applied.
  • Figure 16 is a state diagram of the horizontal movement module in ventilation mode in the window assembly to which the present invention is applied.
  • the second component may be referred to as the first component without departing from the scope of the present invention, and similarly, the first component may also be referred to as the second component.
  • the term and/or includes any of a plurality of related stated items or a combination of a plurality of related stated items.
  • the present invention relates to a window assembly (hereinafter referred to as 'window assembly') 10 having a horizontal close contact function, which includes a sash 20 having a rail formed and an opening 21 through which the window can move, and the inside of the sash 20. It consists of a window 30 that is seated on and can slide.
  • the window 30 is provided with a window frame 31 on its edge, and a rotatable handle 40 is provided on one side of the window frame 31.
  • the handle 40 can rotate 180 degrees in the up and down directions.
  • the status of the window according to the position of the handle 40 is as follows.
  • the window 30 When the end portion 41 of the handle 40 (opposite the rotating portion 42) faces upward, the window 30 is in a ventilable state. There is no horizontal close contact between the window frame 31 and the sash 20, and the window frame 31 does not interfere with the sash 20 anywhere.
  • the arrangement relationship between the window 30 and the chassis 20 is as shown in Figure 2.
  • a narrow gap may occur between the window frame 31 and the sash 20, through which internal and external air can move and perform a ventilation function.
  • the window frame 31 When an attempt is made to move the window frame 31 in the opening direction, the window frame 31 tries to move while fluttering, but as a result, the above-mentioned locking portion 300 and the second locking area 204 of the locking guide portion 200 are caught. Cannot be opened by relationships.
  • the distance that the window 30 moves in this state is about the distance until the locking part 300 moves slightly when it is inside the locking guide, but eventually gets stuck and cannot move any further (e.g., 0.5 ⁇ 1cm).
  • the window 30 When the handle 40 is placed horizontally with respect to the ground, the window 30 is in an openable state. There is no horizontal close contact between the window frame 31 and the sash 20, and the window frame 31 does not interfere with the sash 20 anywhere.
  • the arrangement relationship between the window 30 and the chassis 20 is also the same as in Figure 2.
  • the window frame 31 moves along the rail and becomes open. That is, as shown in FIG. 2, the window frame 31 is disposed in the left direction in FIG. 2 or the outer direction of the chassis 20 (relatively outer direction compared to the state in FIG. 3), and the middle area of the chassis 20 becomes separated from.
  • the window 30 can move in the open direction. Conversely, when the user holds the horizontally placed handle 40 and moves it in the closing direction ( If moved in the direction opposite to the bold arrow, the window 30 can be moved in the closed direction.
  • the unexplained symbol 1000 is a horizontal adhesion device to be described later, and 22 is a rail on which the roller provided in the horizontal adhesion device is seated.
  • the window 30 is closed or in a closed state.
  • the window frame 31 and the sash 20 are in horizontal close contact, and the latching portion 300 of the window 30 is caught in the first latching area 203 of the latching guide portion 200 on the sash 20. It becomes a state.
  • the window 30 moves relatively to one side (to the right in FIG. 3) compared to the state of FIG. 2, and the wall (not shown) or rib (not shown) in the central part of the sash 20 It becomes in close contact with.
  • the handle 40 is linked with the vertical operating bar 32 through a known connection structure.
  • the vertical operating bar 32 is a long strip-shaped bar provided on the side of the window frame 31 and capable of moving upward or downward according to the rotation of the handle 40.
  • a locking portion 300 is provided to protrude from the vertical operating bar 32, and the locking portion 300 has a body portion 301 and a locking protrusion 302 that is formed larger than the outer diameter of the body portion 301 and is stepped. Includes.
  • the unexplained symbol 303 is a wrench hole.
  • the vertical operating bar 32 and the engaging part 300 connected thereto When the handle 40 is positioned horizontally so that the window 30 can be slid to open or close, the vertical operating bar 32 and the engaging part 300 connected thereto perform the upper ventilation function and the closing function. It is located in the middle of the vertical operating bar 32 and the locking portion 300 connected thereto.
  • a jamming guide portion 200 is provided opposite the latching portion 300. As shown in Figure 5, the engaging guide 200 is fixed to the inner surface of the chassis 20.
  • the latching guide 200 includes a fixing plate 201 having insertion holes 202a, 202b, and 202c into which screws are inserted, and a first latching area in the shape of a " ⁇ " located in the upper front area of the fixing plate 201. (203), and a " ⁇ " shaped second locking area (204) disposed below the first catching area (203) and spaced apart from the first catching area (203).
  • first and second locking areas 203 and 204 are formed between the first and second locking areas 203 and 204.
  • the first catching area 203 serves to guide the window 30 into horizontal contact with the sash 20.
  • the first locking area 203 includes a first side wall portion 203a that is open downward and in front, and a first edge portion ( 203b).
  • a stepped structure is formed by the first border portion 203b, and the locking protrusion 302 of the locking portion 300 is caught in this stepped portion and cannot move forward, and in this state, the window 30 slides. Movement is prevented.
  • a first rim groove 203d in which the locking portion 300 is caught is formed by the first border portion 203a and the first side wall portion 203a, and the opening of the locking groove 203d is open downward.
  • the side wall and edge portion adjacent to the opening portion below the first locking area 203 are provided with an extension portion 203c extending diagonally to one side.
  • This extension portion 203c guides the locking portion 300, which is outside the first locking area 203, to move toward the second locking area 204.
  • the second locking area 204 serves to support the window 30 so that it moves horizontally with respect to the sash 20 and remains in a released state. In this state, the ventilation mode described above is possible.
  • the second locking area 204 includes a second side wall portion 204a that is open upward and forward, and a second edge portion that extends inward from the edge of the second side wall portion 204a and onto which the locking portion 300 is caught ( 204b).
  • a stepped structure is formed by the second border portion 204b, and the locking protrusion 302 of the locking portion 300 is caught in this stepped portion and cannot move forward, and in this state, the window 30 slides. Movement is prevented.
  • a second rim groove 204d is formed by the second border portion 204a and the second side wall portion 204a, into which the locking portion 300 is caught, and the opening of the second locking groove 204d is opened upward. .
  • inclined portions or chamfered portions are provided on both sides of the upper portion of the second locking area 204 inside the open portion. This is to guide the engaging portion 300 to easily enter the lowering second engaging groove 204d after it is lowered.
  • the backs of the first locking groove 203d and the second locking groove 204d are open in order to reduce the weight and amount of material of the locking guide 200.
  • a separation space (S) is provided between the first engaging area 203 and the second engaging area 204, and the engaging part 300 moves away from the first engaging area 203 and descends, or the engaging part 300 moves down.
  • the window 30 In a state where it rises out of the second locking area 204 and is located in the spaced space S, when the user applies an external force to slide the window 30 (e.g., by holding the handle and pulling it in the opening direction), the locking part Since there is nothing caught by the window 300 on the jam guide 200, the window 30 can be smoothly opened by sliding.
  • the vertical center line C1 of the first catching area 203 and the vertical center line C2 of the second catching area 204 are arranged to be offset from each other, so that the catching portion 300 is located in the first catching area 203 or the second catching area. When located at (204), it induces horizontal adhesion or release of horizontal adhesion of the chassis. Also, when the locking portion 300 is located in the space S, the window frame can be slid relative to the sash.
  • the window 30 is in close horizontal contact with the sash 20, and the locking portion 300 is located in the first locking groove 203d. Since the locking protrusion 302 of 300 is hung on the first border 203b (see Figure 5), the window 30 can never be opened, and there is no horizontal gap between the window 30 and the sash 20.
  • the locking portion 300 descends and enters the second locking groove 204d, and the locking protrusion 302 is caught on the second edge 204b, thereby preventing it from leaving in the forward direction (window opening direction).
  • the horizontal movement module 1000 that causes the horizontal adhesion operation or the horizontal adhesion release operation of the window 30 will be described.
  • the horizontal movement module 100 includes an upper plate 1100 installed on the upper or lower surface of the window frame, and a lower plate 1200 provided below the upper plate 1100 to enable horizontal slide movement.
  • horizontal movement means a direction perpendicular to the direction of movement of the vertical roller 1310. Due to this horizontal movement, the window frame may be brought into close contact with the sash or may be spaced apart.
  • a roller unit 1300 is provided below the lower plate 1200.
  • the roller unit 1300 includes a vertical roller 1310 that stands vertically and moves along the middle part of the rail, and a horizontal roller 1320 that is laid horizontally and is supported on both side walls of the rail to guide the movement.
  • a plurality of fastening holes 1101 are formed on the upper surface of the upper plate 1100 along the edge into which fastening members (not shown) to which the window frame is fastened are inserted, and in the center A long through hole 1102 formed in the longitudinal direction is connected.
  • the horizontal operating bar (see Figure 11, 33) connected to the vertical operating bar 32 of the window frame described above is arranged long along the lower or upper surface of the window frame, and the connecting boss 34 connected to the horizontal operating bar 33 is It passes through the through hole 1102 and is inserted into the rotation operation unit 1400, which will be described later.
  • a slot-shaped receiving space 1103 is provided at the lower part of the upper plate 1100, and side walls 1104 are provided on both sides of the receiving space 1103.
  • the lower plate 1200 is accommodated in the receiving space 1103 to enable horizontal relative slide movement.
  • a first step 1105 is provided on the inner surface of the side wall 1104 of the upper plate 1100, and the side wall of the lower plate 1200 On the outside, a second step portion 1205 is provided that engages the first step portion 1105.
  • a symmetrical curved upper guide track 1110 is provided on the lower surface of the upper plate 1100, and a hinge hole 1120 is provided on the opposite side.
  • the upper guide track 1110 is a component that causes horizontal movement in collaboration with the lower guide track 1210, which will be described later, and the hinge hole 1120 is where the hinge pin 1410 of the rotation operation unit 1400, which will be described later, is installed. It's a place.
  • a recessed portion 1130 is provided in the central area of the lower surface of the upper plate 1100, and the rotation operation portion 1400 is accommodated in this recess portion 1130, and rotates within the recess portion 1130.
  • the operation unit 1400 may perform a rotation operation.
  • the hinge hole 1120, the through hole 1102, and the upper guide track 1110 are formed in the inner area of the recess portion 1130, and the upper guide track 1110 is formed so that the apex area of the curve is open to the outside. . This is to secure the maximum rotation radius of the rotation operation unit 1400 within a limited space.
  • Figure 10 is a perspective view of the lower plate 1200.
  • a lower guide track 1210 is provided on the upper surface of the lower plate 1200.
  • the lower guide track 1210 does not have a left-right symmetrical curved shape like the upper guide track 1110, but is a mixture of a curved area (1210a), a straight area (1210b), a diagonal area (1210c), and an auxiliary area (1210d). It becomes a structure.
  • a semicircular groove in the form of a double step and a U-shaped groove are formed on the side opposite to the portion where the lower guide track 1210 is located.
  • the semicircular groove is the installation groove (1231), and the U-shaped groove is the movement guide groove (1232).
  • the installation groove 1231 is a passage section for installing the hinge pin 1410 when the upper plate 1100, lower plate 1200, and rotation operation unit 1400 are assembled.
  • the installation groove 1231 and the moving guide groove 1232 are formed adjacent to each other and are provided in a double stepped shape.
  • the hinge pin 1410 sequentially rotates through the hole 1401 of the operation unit 1400 and the hinge hole 1101 of the upper plate 1100. to be combined with.
  • the head portion of the hinge pin 1410 is located near the installation groove 1231, but does not interfere with the installation groove 1231.
  • the movement guide groove 1232 is such that after the hinge pin 1410 is installed, when the upper plate 1100 and the lower plate 1200 move relative to each other, the head portion of the hinge pin 1410 moves relative to the lower plate 1200. ) is a groove 1232 that can freely guide its movement so as not to interfere with it.
  • the head portion of the hinge pin 1410 interferes with the lower plate 1200. It can be freely exposed to the outside or hidden by the lower plate 1200.
  • a rotation operation unit 1400 is installed between the upper plate 1100 and the lower plate 1200.
  • a hole 1401 is formed at one end of the rotation operation unit 1400 to install a hinge pin 1410, and a hole 1402 is formed at the other end to install a moving pin 1420.
  • the head portion which is the upper part of the moving pin 1420, is placed on the upper guide track 1110, and the lower part of the moving pin 1420 is placed on the lower guide track 1210.
  • the rotation operation unit 1400 has curved edges at both ends and a straight edge in the middle.
  • a long boss hole 1403 is formed in the center of the rotation operation unit 1400.
  • the horizontal operation bar 33 and the rotation operation unit 1400 are coupled by the coupling boss 34. That is, the coupling boss 34 is installed in the boss hole 33a of the horizontal operating bar 33, the through hole 1102 of the upper plate 1100, and the boss hole 1403 of the rotation operation unit 1400 to provide a horizontal
  • the moving motion is transmitted to the rotation operation unit 1400 to cause rotation of the rotation operation unit 1400.
  • the rotation operation unit 1400 may move in a fan-shaped trajectory with the hinge pin 1410 as the center.
  • the hinge pin 1410 is fixed to the hinge hole 1120 of the upper plate 1100 and becomes the rotation center of the rotation operation unit 1400.
  • the holes 33b at both ends of the horizontal operating bar 33 are holes where connecting members (not shown) connected to the vertical operating bar 32 are installed.
  • a roller unit 1300 is installed on the lower plate 1200.
  • a protrusion 1220 for installing the roller unit 1300 is provided at the bottom of the lower plate 1200.
  • the roller unit 1300 consists of two vertical rollers 1310 and one horizontal roller 1320.
  • the vertical roller 1310 is rotatably supported by support brackets 1330 and a horizontal axis 1311 on both sides, and the center of the support bracket 1330 is fixed to the fixed shaft 1221 provided on the side of the protrusion 1220. do.
  • the horizontal roller 1320 is rotatable in the bottom hole 1222 of the protrusion 1220 by the vertical axis 1321.
  • the appearance of the upper guide track 1110 is not visible from the upper surface of the upper plate 1100, but only its outline is visible, and as shown in FIG. 13(b), the upper guide track 1110 is not visible from the upper surface of the upper plate 1100. ) is visible from the bottom.
  • the upper guide track 1110 preferably has a symmetrical shape so as to have the same curvature from its center area (apex area) to both ends, and the center area has the maximum rotation radius of the rotation operation unit 1400 as described above. It is open to the outside for security purposes.
  • the lower guide track 1210 is arranged to face the upper guide track 1110 in the horizontal movement module 1000, and includes a curved area 1210a, a straight area 1210b, It consists of a diagonal track 1210c and an auxiliary track 1210d.
  • a curved area 1210a is connected to one end of the straight area 1210b, a diagonal area 1210c is connected to the other end of the straight area 1210b, and a straight auxiliary area 1210d is formed at the end of the diagonal area 1210c. ) is prepared.
  • the reason for placing a diagonal area 1210c at the end of the straight area 1210b and a straight auxiliary area 1210d at the end of the diagonal area 1210c is to secure a sufficient downward rotation angle of the handle, while also ensuring that there is no excessive movement when moving horizontally due to horizontal adhesion. This is to prevent damage caused by pressure (pressure on the side of the upper guide track of the moving pin).
  • each operating mode of the window (locking mode by horizontal adhesion, openable mode by releasing horizontal adhesion, horizontal adhesion prevents opening by release or catch) and ventilation mode), the position of the moving pin 1420 is as follows.
  • the head portion of the moving pin 1420 has a larger diameter than the body portion.
  • the head portion of the moving pin 1420 is installed on the upper guide track 1110, and the lower end of the body portion of the moving pin 1420 is installed on the lower guide track 1210.
  • the diameter of the point indicated on the upper guide track 1110 is formed to be larger than the diameter of the point indicated on the lower guide track 1210.
  • the sash 20 and the window frame 31 are spaced apart.
  • the moving pin 1420 is located in the left curved section (marked Locking) of the upper guide track 1110, while it is located in the straight section 1210b of the lower guide track 1210.
  • the left and right areas excluding the exact center of the upper guide track 1110 are curved sections, and the straight area 1210b of the lower guide track 1210 is literally a straight section, resulting in a difference in curvature.
  • the moving pin 1420 moves and presses the side of the upper guide track 1110 to horizontally move the upper plate 1100.
  • the upper plate 1100 moves relative to the window frame 31 to move horizontally and come into close contact with the sash.
  • the moving pin 1420 is located on the right curved area (Ventilation) of the upper guide track 1110, while it is located on the curved area 1210a of the lower guide track 1210. Since the curvature of the curved area of the upper guide track 1110 and the curvature of the curved area 1210a of the lower guide track 1210 are the same curvature, the moving pin 1420 is moved to the right curved area of the upper guide track 1110 and the lower guide track ( When moving in the right curved area 1210a of 1210, no relative horizontal movement occurs between the upper plate 1100 and the lower plate 1200.
  • Figure 14 shows an open mode in which the window frame 31 is separated from the sash and is released from tight contact, and the latching portion 300 is not caught by the latching guide portion 30, so the sash can move freely.
  • the rotation operation unit 1400 is arranged in a direction perpendicular to the moving direction of the vertical roller 1310, and one long side of the upper plate 1100 is on one long side of the lower plate 1200 (marked S2). They are almost aligned, and the other long side of the upper plate 1100 protrudes more than the other side S1 of the lower plate.
  • the moving pin 1420 pushes the side of the upper guide track 1110 harder, and the moving pin 1420 moves closer to the curved area of the upper guide track 1110. It moves along the intersection point of the straight area 1210b and the remaining areas 1210c and 1210d of the lower guide track 1210.
  • the moving pin 1420 can move to the straight area 1210b, the diagonal area 1210c, and the auxiliary area 1210d of the lower guide track 1210, thereby moving the upper plate 1100 to the exact opposite position of FIG. 14. Go to
  • one long side of the upper plate 1100 protrudes more than one long side of the lower plate 1200 (marked S2), and the other long side of the upper plate 1100 is almost identical to the other side (S1) of the lower plate 1200. I do it.
  • the moving pin 1420 has no resistance within that area. It moves without being touched, and for this reason, no change in position between the upper plate 1100 and the lower plate 1200 occurs even when changing from the open mode to the ventilation mode.
  • one long side of the upper plate 1100 is almost aligned with one long side of the lower plate 1200 (marked S2), and the other long side of the upper plate 1100 is aligned with the other long side of the lower plate 1200 (S1). ) becomes more protruding.

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  • Wing Frames And Configurations (AREA)

Abstract

La présente invention concerne un module de déplacement horizontal pour un ensemble fenêtre/porte mobile horizontalement, qui peut déplacer horizontalement une fenêtre/porte rapidement et facilement. La présente invention concerne ainsi un module de déplacement horizontal pour un ensemble fenêtre/porte mobile horizontalement, comprenant : une plaque supérieure destinée à être fixée à un cadre de fenêtre ; une plaque inférieure installée sous la plaque supérieure pour pouvoir coulisser par rapport à la plaque supérieure, un rouleau étant installé sur la plaque inférieure ; un rail de guidage supérieur disposé sur la plaque supérieure sous forme d'une ligne incurvée ; un rail de guidage inférieur disposé sur la plaque inférieure et agencé pour faire face au rail de guidage supérieur, au moins une partie du rail de guidage inférieur étant conçue sous forme d'une ligne incurvée ; et une partie de fonctionnement en rotation disposée entre les rails de guidage supérieur et inférieur. Une broche de charnière est disposée sur un côté de la partie de fonctionnement en rotation. Une broche mobile est disposée sur l'autre côté de la partie de fonctionnement en rotation de façon à se déplacer le long des rails de guidage supérieur et inférieur. Les plaques supérieure et inférieure se déplacent horizontalement l'une par rapport à l'autre selon l'état dans lequel les rails de guidage supérieur et inférieur se font face en réponse à une action de rotation de la partie de fonctionnement en rotation, et la position de la broche mobile interposée entre celles-ci.
PCT/KR2023/018470 2022-11-18 2023-11-16 Module de déplacement horizontal pour ensemble fenêtre/porte mobile horizontalement WO2024106978A1 (fr)

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KR1020220155858A KR102494937B1 (ko) 2022-11-18 2022-11-18 수평 이동형 창호 조립체용 수평 이동 모듈
KR10-2022-0155858 2022-11-18

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KR102494937B1 (ko) * 2022-11-18 2023-02-06 주식회사 씨에스테크 수평 이동형 창호 조립체용 수평 이동 모듈

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KR101254327B1 (ko) * 2012-10-24 2013-04-12 (주)코리아쇼와록 수평밀착창호의 잠금모듈
KR101731775B1 (ko) * 2017-02-13 2017-04-28 이재선 미닫이 창호의 수평밀착장치
KR20190098182A (ko) * 2016-12-19 2019-08-21 로토 프란크 펜스타 운트 투르테크놀로지 게엠베하 롤링 베어링 가이드를 갖는 변위 장치
KR20210095322A (ko) * 2020-01-23 2021-08-02 주식회사 씨에스테크 창호의 수평밀착장치
KR20210108276A (ko) * 2020-02-25 2021-09-02 주식회사 씨에스테크 환기 기능 및 수평 밀착 기능을 갖는 창호 조립체
KR102494937B1 (ko) * 2022-11-18 2023-02-06 주식회사 씨에스테크 수평 이동형 창호 조립체용 수평 이동 모듈

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
KR101254327B1 (ko) * 2012-10-24 2013-04-12 (주)코리아쇼와록 수평밀착창호의 잠금모듈
KR20190098182A (ko) * 2016-12-19 2019-08-21 로토 프란크 펜스타 운트 투르테크놀로지 게엠베하 롤링 베어링 가이드를 갖는 변위 장치
KR101731775B1 (ko) * 2017-02-13 2017-04-28 이재선 미닫이 창호의 수평밀착장치
KR20210095322A (ko) * 2020-01-23 2021-08-02 주식회사 씨에스테크 창호의 수평밀착장치
KR20210108276A (ko) * 2020-02-25 2021-09-02 주식회사 씨에스테크 환기 기능 및 수평 밀착 기능을 갖는 창호 조립체
KR102494937B1 (ko) * 2022-11-18 2023-02-06 주식회사 씨에스테크 수평 이동형 창호 조립체용 수평 이동 모듈

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