JP2011038393A - Frame structure with heat insulation and safety performance of window system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a frame structure with the heat insulation and safety performance of a window system, wherein the strength thereof is improved while the heat insulation and safety performance of a frame installed in the window system is provided, and construction, secrecy and watertightness of the window system is also improved. <P>SOLUTION: A supporting rod 11, which is separately manufactured, is joined to the front end of the frame 100 or body 10. Guiding grooves 11b, 11b' are each formed in the front and rear end of the flange 11a of the supporting rod 11. Guiding rods 21a, 21a', which can be slidably connected to the guiding grooves 11b, 11b', join heat insulating members 21 installed in a protruding manner so as to be slidably connected to the front end of the frame 100 or body 10. A rounding process is executed on the corner portions 31, 31' at the rear end of the frame 100 or body 10, in which reinforcing materials 32, 32' are formed. Dew condensation grooves 33, 33' are formed in upper and lower portions thereof. <P>COPYRIGHT: (C)2011,JPO&INPIT

Description

  The present invention provides a heat insulation and safety function for a window system, which increases the strength while having a heat insulation function and a safety function of a frame installed in the window system, and can also improve construction, secrecy and water tightness of the window system. The present invention relates to the structure of a frame having In more detail, in order to install a double window outside the building structure, a separate support bar is slid and joined to the front end of the frame constructed together with the window frame by a heat insulating member, and a corner portion protruding to the rear end is formed. The strength of the interior was reinforced while rounding, and condensation grooves were formed at the top and bottom of the rear end of the frame, so that condensation water flowing into the interior could be blocked. In addition, the cool and hot air generated outside the installed window system is blocked from flowing into the room to maximize the heat insulation effect, and the rear end of the frame is changed to a rounding structure to prevent a safety accident. However, the strength can be increased by the internal reinforcing structure.

  In recent years, high-rise buildings and general building structures have been constructed with a double glazing system to provide a comfortable indoor environment as well as dramatically reduce the cost of heating and cooling energy. Currently.

  The above double window system prevents wind and rain with a non-bearing wall that does not bear the load of the building structure, blocks noise and outside air heat (cold air, hot air), and prevents the glass window from being exposed to the outside. It is a system that is widely used for building structures that are installed in the near future.

  However, the support bar of the frame constructed in the above double window system is constructed with a structure that supports the double window and the window frame, and its tip is exposed to the outside, and external cold air or hot air is exposed to the above support bar. The heat is transferred to the frame through the heat and the heat transferred to the frame flows into the room and there is a problem with heat insulation.

  As shown in FIG. 1, in the conventional window system, the lower double window (200) is bonded and sealed to the lower stage of the support bar (101) of the frame (100) integrally formed with the support bar (101). The window frame (210) is sealed and closely attached to the upper stage of the support bar (101), and the upper double window (210 ') is installed on one side of the window frame (210). It was installed by gluing and sealing, and the other was filled with Azon (220).

  In the conventional window system described above, the window frame (210) whose tip is exposed to the outside can block the outside heat flowing into the room by the Azon (220) installed on the other side. A separate heat insulation structure is not installed on the support rod (101) of the frame (100) installed on the frame, and the outside air heat is transmitted to the frame (100) through the support rod (101), thereby increasing indoor heating and cooling costs. In addition, there is a problem that condensed water may be generated due to a temperature difference, and the rear end of the frame (100) protruding into the room is formed with a square, especially when there is a child, There was a problem that a safety accident such as a bruise or a fracture could occur when touching or hitting.

  Due to the above problems, the frame (100) structure is legally used to prevent safety accidents on construction documents for school buildings such as elementary, middle and high schools. The construction of the frame (100) is not required to be a square shape such as a square for new construction, reconstruction and existing school buildings.

  Therefore, the present invention was created for the purpose of improving the above-mentioned conventional problems. The structure of the frame to be installed in the window system is manufactured separately, and a support bar is separately manufactured at the tip of the frame body. Adjusting the length of the protruding support bar according to the size and construction method, it is possible to make it compatible, and the support bar is slidingly connected to the heat insulating member and connected to the main body of the frame, preventing dew condensation and heat insulation In addition to making it possible, the strength of the tip can be reinforced. Then, a reinforcing material is installed inside the corner portion formed at the rear end of the frame while rounding, and a structure capable of reinforcing the strength is formed to prevent a safety accident. Further, even if condensed water is generated, the inflow into the room is prevented by the condensation groove, and the heat insulation effect is increased by slidingly coupling the heat insulation member cover having the condensation groove and the corner formed outside the frame protruding into the room. It is possible to provide a frame of a structure that can be.

  In the present invention, a support bar is separately manufactured and coupled to the front end of the frame body, and guide grooves are formed at the front and rear ends of the flange of the support bar, respectively, and a guide bar that can be slidingly coupled to the guide groove projects. The installed heat insulation member is joined, slidingly joined to the front end of the frame body, the corner part at the rear end of the frame body is rounded and a reinforcing material is formed inside, and condensation grooves are formed on the upper and lower parts It is a feature that it is made to have a structure.

  In addition, a structure in which condensation grooves are formed in the upper and lower parts so that it can be slidingly connected to the rear end of the above frame body, and it can be finished by sliding and combining with a separate heat insulating member cover with rounded corners It is characterized by.

  Therefore, in the construction of the window system, the present invention separately manufactures the support bar of the frame for supporting and joining the double window and the frame of the window so that the double window is compatible with each other. It is possible to cope with it, and by sliding and connecting to the main body with a heat insulating member, the workability, confidentiality and water tightness are improved, the prevention of condensation phenomenon and the heat insulating function are maximized, the corner part at the rear end of the frame main body is In addition to preventing the safety accident by rounding, a condensation groove is formed so that even if condensed water is generated, it will evaporate without flowing into the room, and the front end of the frame is connected to a heat insulating member. There is an effect that the bars can be joined and the rear end can be formed with a reinforcing material to increase the strength of the front and rear ends of the frame.

Construction sectional structure diagram of a conventional window system. The construction sectional structure figure of the window system of the present invention. FIG. 3 is an exploded perspective view illustrating the frame coupling structure of the present invention. FIG. 3 is a cross-sectional structural diagram illustrating a frame coupling structure according to the present invention.

  The structure and operation of the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 2 is a construction cross-sectional view of the window system of the present invention, and shows a cross section of a state where a window frame and upper and lower double windows are installed on a frame on which a support bar is installed to construct a double window. 3 and 4 are an exploded perspective view and a cross-sectional structure diagram illustrating the frame coupling structure of the present invention. A support bar coupled to a heat insulating member is slidably coupled to the front end of the frame, and a corner portion at the rear end. In order to explain the structure in which the reinforcing material is formed on the inner side while rounding, and the structure in which the cover of the heat insulating member is coupled to the outside.

In the structure of a frame (100) that supports a double window (200) (200 ') and a window frame (210) in a window system constructed in a building structure,
A support bar (11) is separately manufactured and coupled to the front end of the frame (100) body (10), and guide grooves (11b) (11b ′) are respectively formed at the front and rear ends of the flange (11a) of the support bar (11). ) And a heat insulating member (21) on which guide rods (21a) and (21a ') that can be slidingly coupled to the guide grooves (11b) and (11b') are protruded to be coupled to the frame (100) main body ( 10) Sliding to the front end of the frame (100), the corners (31) and (31 ') of the rear end of the main body (10) are rounded, and reinforcing members (32) and (32') are formed on the inside. In the upper and lower portions, the condensation grooves (33) (33 ') are formed.

  Condensation grooves (43) and (43 ') are formed in the upper and lower parts to allow sliding coupling to the rear end of the frame (100) body (10), and the corners (41) and (41) are rounded. This is a structure that can be finished by sliding coupling to the heat insulating member cover (40).

  In the drawings without explanation, (50) and (50 ') are packing, (51) is a finishing material, and (52) is an adhesive.

  In this way, when constructing a window system in which double windows are installed, the present invention improves the water tightness and confidentiality of the outside air heat generated outside, completely shuts off the inflow into the room, and prevents the occurrence of condensation. While improving the efficiency of indoor air conditioning and heating, improving the workability of the window system in the process of joining, installing and bonding each part, changing the phenomenon of the part protruding into the room, and having a lot of activity The frame is designed to increase the strength of the frame and ensure the stability of the building structure, while preventing the occurrence of safety accidents that can occur during indoor activities for children, elementary, middle, and high school students. It is for providing a structure.

  As shown in FIG. 2, the window system for installing the double window (200) (200 ') includes a window frame (210) on the upper stage and one side of the protruding support bar (11) of the frame (100). And the double window (200) (200 ') is installed on the outside and the lower part of the support bar (11) with the adhesive (51) and the finish ( 52), and the other end of the window frame (210) is insulated by the Azon (220).

  As shown in FIGS. 3 and 4, the frame (100) has a support bar (11) separately manufactured at the front end of the main body (10) coupled by a heat insulating member (21), and the rear end of the main body (10). The corners (31) and (31 ') of the slab are rounded to form reinforcements (32) and (32') inside to increase the strength. Condensation grooves (33) and (33 ') are formed above and below. Formed.

  The support bar (11) installed at the front end of the frame (100) main body (10) has guide grooves (11b) (11b ') formed at the front and rear ends of the flange (11a), respectively. The guide rods (21a) (21a ') are slidingly coupled to the heat insulating member (21) formed so as to protrude inward so as to correspond to the guide grooves (11b) (11b') formed in (11a), The support bar (11) to which the heat insulating member (21) is coupled is slidingly inserted into the distal end of the frame (100) body (10) and coupled.

  The support bar (11) manufactured separately is extended or reduced in length and adjusted according to the size and construction method of the double window (200) (200 ') so that it can be applied in various ways.

  Further, when the support rod (11) and the heat insulating member (21) are coupled, the sliding coupling is made possible by the guide grooves (11b) (11b ') and the guide rods (21a) (21a') formed respectively. Even if heat of the outside air is transmitted through the tip of the support bar (11) while improving workability, the transmission to the frame (100) main body (10) can be cut off and the heat insulation can be performed. did. Further, the frame (100) is joined so as to fill the tip of the main body (10), so that the strength of the tip of the frame (100) can be increased.

  The corner portions (31) and (31 ') formed at the rear end of the frame (100) body (10) combined as described above are peeled off from the square shape and rounded, and a reinforcing material is provided on the inside. (32) (32 ') was formed to reinforce the strength of the rear end of the main body (10).

  Condensation grooves (33) (33 ') are formed on the upper and lower parts of the rear stage of the frame (100) main body (10) so that even if condensed water is generated, the condensation grooves (33, 33') are formed. ) (33 ') to allow evaporation.

  The frame (100) main body is formed by forming a separate heat insulating member cover (40) in which condensation grooves (43) (43 ') are formed in the upper and lower portions and the corner portions (41) (41') are rounded. The heat insulating member cover (40) is additionally used so that sliding insertion can be performed while wrapping the entire exterior of (10) so that the heat insulating effect can be improved.

  The window system constructed as described above is rounded at the rear of the frame (100) and the main body (10) protruding inside, and is applicable not only to school buildings such as elementary, middle and high schools, but also to general buildings. It is possible to provide a safety structure that can weaken the extent of an accident even in the case of contact or collision that can occur in life from children to adults.

  The present invention is not limited to the specific preferred embodiments described above, and any person having ordinary knowledge in the technical field to which the invention belongs without departing from the gist of the present invention claimed in the claims may be various. It goes without saying that variations are possible, and such modifications are within the scope of the claims.

DESCRIPTION OF SYMBOLS 10: Main body 11: Supporting rod 11a: Flange 11b: Guide groove 11b ': Guide groove 21: Thermal insulation member 21a: Guide rod 21a': Guide rod 31: Corner portion 31 ': Corner portion 41: Corner portion 41': Corner portion 32: Reinforcing material 32 ': Reinforcing material 33: Condensation groove 33': Condensation groove 43: Condensation groove 43 ': Condensation groove 40: Heat insulation member cover 100: Frame 200: Double window 200': Double window 210: Window flame

Claims (2)

In the structure of the frame (100) that supports the double window (200) (200 ') and the window frame (210) of the window system installed in the building structure,
A support bar (11) is separately manufactured and coupled to the front end of the frame (100) body (10), and guide grooves (11b) (11b ′) are respectively formed at the front and rear ends of the flange (11a) of the support bar (11). ) And a heat insulating member (21) on which guide rods (21a) and (21a ') that can be slidingly coupled to the guide grooves (11b) and (11b') are projected and coupled to the frame (100 ) Sliding connection to the front end of the main body (10), the corners (31) and (31 ') at the rear end of the frame (100) main body (10) are rounded and the reinforcing members (32) (32' ), And a condensate groove (33) (33 ') is formed on the upper and lower parts of the frame structure with heat insulation and safety function of the window system. In item 1,
Condensation grooves (43) and (43 ') are formed in the upper and lower parts so that sliding coupling can be performed on the rear end of the frame (100) body (10), and the corners (41) and (41) are rounded. A structure of a frame having heat insulation and safety functions of a window system, characterized in that it can be slid and joined to a separate heat insulation member cover (40).

Images