KR20190114382A - Insulation structure of connecting door vertical frame - Google Patents

Abstract

The present invention provides a thermal insulation structure of a connecting door leaf vertical frame, which comprises: a frame body in which vertical frames located in an inner window and an outer window when closing a sliding window and adjacent to each other by being made of metal materials are close to each other; and a thermal insulation material inserted into a portion between a cover coupled to a side surface of the frame body and the frame body. Accordingly, thermal insulation of the vertical frames coming in contact with each other when closing the window by blocking conducted heat can be increased. Moreover, materials and colors of the cover mounted on the side surface of the frame body exposed to the outside are same as those of the frame body to improve the beauty of an appearance of the frame.

Description

Insulation structure of connecting door vertical frame}

The present invention relates to a vertical frame structure of the US window, more specifically, by inserting an insulating material between the frame body and the cover of the vertical frame that is in contact with each other when the US window closes the vertical frame of the vertical frame The present invention relates to a heat insulating structure of a connecting frame vertical frame capable of improving heat insulating properties.

The small window is a window in which a user slides the roller attached to the lower part of the window frame while rotating the rails attached to the lower part of the window frame when the user grabs the vertical frame or the handle of the window and slides the window. Therefore, the window frame must be slid within the window frame frame, so there must be a gap between the window frame frame and the window frame and between a pair of window frames. Cause problems such as.

In order to solve this problem, technologies such as patent registration No. 354822 "Movement window and window frame confidentiality of the US Secretary window", utility model registration No. 309088 "window structure of the window" and the like appeared, but so far Most of the emerging technologies have airtight members mounted on the upper and lower frames of the mobile door to maintain the airtightness between the window frame and the window frame frame, so that outside cold air is introduced into the room through the upper and lower parts of the mobile door. The technology prevents hot air from escaping into the outdoors. In addition, the applicant of the present invention (inventor) has been applied for more than 50 patents regarding windows and doors for decades, and has been registered for most of the windows, developed many technologies for windproof and soundproofing and insulation of windows and doors, and is constantly researching and developing Keep going.

On the other hand, because the window frame of the US window is made of aluminum, when the window is closed, the vertical frame of the inner window and the vertical frame of the outer window come into contact with each other. Since there is no outdoor cold or heat is transmitted to the room as it is through the vertical frame is connected to the outer window and the inner window. In addition, the window frame has various colors of aluminum, but when the window is closed, the PVC cover attached to the side when the cover of PVC is fitted to the side of the vertical frame body at the part where the vertical frame of the outer window and the inner window are connected. Since it is black, the color of the cover of the frame body and the side of the window frame is not matched with each other, so that the aesthetics are not good and there is a problem that no insulation is made at all.

The present invention has been made to solve the above problems, an object of the present invention, the frame body is made of a metal material while being located in the inner window and the outer window when the meso window is closed, the vertical frame adjacent to each other, and Inserting and assembling the insulation between the cover and the frame body coupled to the side of the frame body to block the heat conduction to improve the thermal insulation of the vertical frame that is in contact with each other when the window is closed, as well as the side of the frame body exposed to the outside The material and color of the cover attached to the same as the frame body is to provide a beautiful structure of the frame, the insulating structure of the connecting door vertical frame.

Insulating structure of the connecting door vertical frame according to the present invention, the vertical frame, the frame body having a side opening with one side open, the cover and the frame main body is coupled to the frame body to close the open side between the frame and the cover It is configured to include a heat insulating material inserted into; The cover may include a side plate portion exposed to one side of the vertical frame, a first bend portion bent vertically at one end along a length direction of the side plate portion and coupled to the frame body, and the length of the side plate portion. A second bent portion bent vertically at the other end along the direction and having a mohaira fastening portion and a fastening portion; The heat insulating material may include: a first heat insulating part inserted between a front end portion of one side (second surface) outer side of the frame body and a rear surface of the moheya fastening part formed at the second bent portion of the cover body; A second insulation portion which is positioned on a side surface of the first insulation portion and is inserted between one side (second surface) outer side surface of the frame body and a rear surface of the fastening portion formed in the second bent portion of the cover; Located in the side of the second heat insulating portion, the gasket fastening portion formed to be coupled to the gasket toward the glass fitting side of the vertical frame; A connecting wing portion formed in a plate shape extending to the outer end of the gasket connection portion, each vertical frame positioned on the indoor side and the outdoor side when the micro-window is closed, each of which is connected to the It is characterized in that the ends are positioned adjacent to each other.

Preferably, the heat insulating material further includes a third heat insulating portion inserted between the front end side of the side (opening) side of the frame body and a rear surface of the side flat portion of the cover, and the third heat insulating portion is provided with a first heat insulating material. And it is configured to be positioned in the vertical direction with the surface on which the second insulation is formed.

Preferably, the first to third heat insulating portions are provided with hollow portions, and the material of the heat insulating material is any one of PVC, polyamide or resin.

Since the insulating structure of the connecting frame vertical frame according to the present invention is a structure in which a heat insulating material is inserted between the frame body and the cover in a vertical frame formed by combining a frame body and a cover made of a metal material (aluminum), the secretary window is closed. When the metal material (aluminum) of the vertical frame located in the inner window and the outer window is in contact with or adjacent to each other, the heat conducted between the frame body and the cover is blocked by the heat insulating material, thereby blocking the heat transmitted between the vertical frames of the inner window and the outer window. In this way, the thermal insulation can be significantly improved. In addition, since the cover is coupled to the frame body side of the vertical frame to be exposed to the outside is made of metal (aluminum) material and color is the same as the frame body, the appearance of the window frame is luxurious and beautiful.

1 is a view showing a micro window to which the vertical frame of the present invention is applied.
FIG. 2 is an enlarged cross-sectional view and a portion of a vertical frame taken along line II-II in FIG. 1.

The biggest technical feature of the vertical frame of the connecting door according to the present invention is that the heat is transferred between the frame body and the cover by inserting an insulating material between the frame body and the cover in the vertical frame when the micro-window is closed. In other words, when the window is closed, the vertical frames which are in contact with each other cut off heat transferred to each other, thereby significantly improving the thermal insulation.

The thermal insulation structure according to the present invention is located on the indoor side and the outdoor side when the micro-window is closed, and the heat or cold of the outdoor side or the heat or cold of the indoor side is transmitted through the vertical frame of the door connected to each other. To increase the insulation effect by blocking, the same applies to both single and double windows. In addition, the vertical frame of the door to be located on the indoor side is called the first vertical frame 10, the vertical frame of the door to be located on the outdoor side is called the second vertical frame 20, the first vertical frame (10) The second vertical frame 20 is the same in structure, only opposite to each other in the assembled direction. Therefore, it is noted in advance that the term "vertical frame" refers to both the first and second vertical frames 10 and 20.

The vertical frame includes a frame body 11 and 21 having side openings 112 and 212 having one side open, and a cover 13 which is coupled to the frame body 11 and 21 to close the open side. 23 and heat insulating materials 15 and 25 inserted between the frame bodies 11 and 21 and the covers 13 and 23. Frame bodies 11 and 21 made of metal such as aluminum are open portions, and glass coupling portions 111 and 211 to which glass 30 of the window is coupled, and side openings 112 and 212 having one side open. It is divided into sections.

The covers 13 and 23 made of a plate-shaped metal material (aluminum) have side length portions 131 and 231 and side length portions 131 and 231 exposed to one side of the vertical frame. The first bent portions 132 and 232 which are bent vertically at one end along the direction (refer to the vertical direction) and coupled to the frame bodies 11 and 21, and the longitudinal directions of the side plate portions 131 and 231. The second bent portion 133, 233 is bent vertically at the other end and provided with mohaira fastening portions 133a, 233a and fastening portions 133b, 233b.

The first bent portions 132 and 232 are formed on the first surface of the frame bodies 11 and 21 ('first surface' is an outer side of a frame to be joined when the first and second vertical frames are coupled by closing an unknown window. It is coupled to the front end portion of the first surface of the frame body (11, 21), and the first bent portion of the cover 132 and 232 are also bent to form a coupling portion corresponding to the protrusion of the first surface to be coupled to each other (see Fig. 2). Of course, the method of coupling the first bent portions 132 and 232 and the frame bodies 11 and 21 may be changed in various ways.

Insulation (15, 25) is to increase the thermal insulation effect by blocking the cold air or heat transmitted between the first vertical frame 10 and the second vertical frame 20 made of a metal material such as aluminum, the material is PVC, It is made in one piece using either polyamide or resin. The heat insulators 15 and 25 include the first heat insulating parts 151 and 251, the second heat insulating parts 152 and 252, the gasket fastening parts 154 and 254, and the connection wing parts 155 and 255 in a basic configuration. It may be further provided with a third insulating portion (153, 253).

The heat insulators 15 and 25 are formed on the second side of the frame bodies 11 and 21 ('second side' is the inner side of the frame to be joined when the first and second vertical frames are closed by closing a small window. The frame and the side surfaces of the frame are adjacent to each other, which is the same in the present specification) and are inserted into and coupled between the second bent portions 133 and 233 of the cover.

The first heat insulating parts 151 and 251 are formed at the outer end portions of the second surface and the second bent parts 133 and 233 of the cover at the side opening parts 112 and 212 of the frame bodies 11 and 21. Moheya fastening portion (133a, 233a) is located between the back of the. In addition, while the second insulation portions 152 and 252 are positioned on the side surfaces of the first insulation portions 151 and 251, the outer surface of the second surface and the cover of the second surface in the side opening portions 112 and 212 of the frame main body. It is positioned between the rear surfaces of the fastening portions 133b and 233b formed at the two bent portions 133 and 233. The fastening parts 133b and 233b are formed to be bent deeper than the moheya fastening parts 133a and 233a. The fastening parts 133b and 233b are end portions of the second bent parts 133 and 233. By using a fastening means such as a screw to fix the heat insulating material (15, 25) and the cover (13, 23).

The third insulation portions 153 and 253 are positioned between the front end of the second surface and the rear surface of the side plate portions 131 and 231 at the side open portions 131 and 231 of the frame body. The three insulation portions 153 and 253 are positioned perpendicular to the plane on which the first and second insulation portions are formed. It is preferable to form the 1st to 3rd heat insulation part so that it may have a hollow part provided with a double wall, in order to improve a heat insulation effect, and even if it is not a double wall, it may be formed by bending it to have a space part.

The gasket fastening parts 154 and 254 are positioned on the side surfaces of the second insulating parts 152 and 252 and are configured to couple the gasket (not shown) toward the glass fitting side of the vertical frame. The second bent parts 133 and 233 of the cover are positioned only to the rear surfaces of the gasket fastening parts 154 and 254, and the connection wing parts formed on the vertical frames facing the gaskets fastened to the gasket fastening parts 154 and 254 ( 155, 255 is in contact with the front end to prevent the gap (gap) generated between the first and second vertical frame (10, 20) to prevent the entry of wind or foreign matter into the room.

The connecting wing parts 155 and 255 extend in the outer ends of the gasket fastening parts 154 and 254 and are formed in a plate shape. The first and second wing parts 155 and 255 are positioned in the inner window and the outer window when the US window is closed. And the second vertical frame (10, 20) is not in contact with or adjacent to the metal materials, but the front ends of the connecting wings (155, 255) in the heat insulating material are located adjacent to each other, it is possible to reliably block the conduction heat, fastening the gasket Gaskets fastened to the parts 154 and 254 respectively prevent a gap (gap) generated between the first and second vertical frames 10 and 20 to prevent wind or foreign matter from entering the room. In addition, the mohaira (not shown) fastened to the mohaira fastening portions 133a and 233a of the first and second vertical frames 10 and 20 also comes into contact with the side surfaces of the frame bodies 11 and 21 of the vertical frames. Prevents.

Since the assembled vertical frame is the frame body 11, 21 and the cover 13, 23 made of the same aluminum material is exposed to the outside, it can be made in a variety of colors, the appearance is beautiful, the frame body 11, 21) and the insulation (15, 25) is inserted between the cover (13, 23) is able to block the transmission of outdoor heat or cold air to the interior through the vertical frame is very high insulation effect.

The above description illustrates the present invention by way of example, and the embodiments disclosed in the specification are not intended to limit the technical spirit of the present invention, but to describe the present invention, so that those skilled in the art to which the present invention pertains can understand the present invention. Various modifications and variations will be possible without departing from the spirit of the technology. Therefore, the protection scope of the present invention is to be interpreted by the matter described in the claims, it should be interpreted that the technical matters within the scope equivalent to that included in the scope of the present invention.

10, 20: first and second vertical frame
11, 21: frame body 111, 211: glass bonding portion
112, 212 open side
13, 23: cover 131, 231: side plate portion
132, 232: first bent part 133, 233: second bent part
15, 25: insulation 151, 251: first insulation
152, 252: second insulation portion 153, 253: third insulation portion
154, 254: Gasket connection part 155, 255: Connection wing part
30: glass

Claims (4)

In the insulation structure of the vertical frame to block the heat transmitted between the vertical frames of the doors connected to each other located on the indoor side and the outdoor side when the US window is closed,
The vertical frame is configured to include a frame body having a side open portion with one side open, a cover coupled to the frame body to close the open side, and an insulating material inserted between the frame body and the cover,
The cover may include a side plate portion exposed to one side of the vertical frame, a first bent portion bent vertically at one end along a length direction of the side plate portion and coupled to the frame body, and the side plate portion. It is composed of a second bent portion bent vertically at the other end along the longitudinal direction and provided with a mohaira fastening portion and a fastening portion,
The heat insulating material,
A first heat insulating part positioned between a front end portion of one side surface of the side surface opening portion of the frame body and a rear surface of the moheya fastening portion formed at the second bent portion of the cover;
A second heat insulating part positioned on a side of the first heat insulating part and positioned between an outer side surface of one side of the frame body and a rear surface of the fastening part formed on the second bent portion of the cover;
A gasket fastening part positioned at a side of the second heat insulating part and configured to couple a gasket toward a glass-fitting side of the vertical frame;
A connection blade portion extending in an outer end of the gasket portion and formed in a plate shape;
It is configured to include, each vertical frame which is located on the indoor side and the outdoor side when the microscopic window is closed, the insulation structure of the connecting door vertical frame, characterized in that the front ends of the connecting wings are positioned adjacent to each other in the heat insulating material.
The method of claim 1,
The heat insulating material further includes a third heat insulating portion inserted between one side front end of the side open portion of the frame body and a rear surface of the side flat portion of the cover, and the third heat insulating portion includes a surface on which the first and second heat insulating portions are formed. Insulation structure of the connecting frame vertical frame, characterized in that located in the vertical direction.
The method of claim 2,
The first to the third insulating portion is a heat insulating structure of the connecting door vertical frame, characterized in that it comprises a hollow portion (hollow portion).
The method of claim 1,
The insulating material is a heat insulating structure of the vertical frame of the connecting door, characterized in that any one of PVC, polyamide or resin.

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