KR101695478B1 - Window and door with insulation function and making method thereof - Google Patents

Abstract

The present invention provides a frame structure comprising: a frame member installed to form a boundary between an outside and an inside of a building and having an installation groove; A glass member which is disposed at an interval between the frame members and is inserted into the installation groove portion or is arranged to face the installation groove portion so as to form a boundary between the outdoor and the indoor; A finishing unit inserted into the installation groove and blocking an interval between the glass member and the frame member; And a heat conduction preventing portion provided in the mounting groove portion to suppress heat conduction along the frame member.

Description

TECHNICAL FIELD [0001] The present invention relates to a window having a heat insulating function and a method of constructing the window,

The present invention relates to a window having a heat insulation function and a method of constructing the same, and more particularly, to a window frame for supporting a window or a door using a stainless steel panel and providing a heat insulation function for suppressing heat conduction by the window frame And a window having a heat insulating function capable of simplifying the manufacture and construction of windows, and a method of constructing the window.

Generally, a window (window) is a window or door that is installed in an opening (opening) of a window or an entrance to block the inside of the building from the outside, , And is used for ventilation of the room.

These windows are broadly classified into wood windows, metal windows and plastic windows depending on the materials used for the production, and include a window frame for forming the outer frame and a glass window fixedly installed in the window frame.

The frame for a window frame is usually woven with a rectangular frame, and an inner area of the rectangular frame is provided with a glass or a door for entry and exit.

Such a conventional frame for a window is usually constructed by cutting and bending a stainless steel plate to manufacture a stainless steel outer frame, and a steel reinforcing frame formed by cutting and bending a steel plate into the same shape is inserted into a stainless steel outer frame .

However, in the conventional frame for a window, both front and rear sides are in contact with the room and the outside, respectively, with the glass being installed on one side of the frame. The frame for the window is made of an integral metal plate so that heat conduction is good, The condensation phenomenon occurs and the steel reinforcing frame easily rusts and rusts down due to such condensation phenomenon and there is a problem that heat loss is lost due to heat loss due to heat conduction phenomenon.

In order to solve the problems of the conventional window frame as described above, recently, as disclosed in Registration No. 10-1219379 (Registered on Feb. 31, 2013), a heat-conducting prevention connector is installed at the center, There is a tendency that a technique for preventing the heat conduction phenomenon between the frames and reducing the heat loss to the outside of the frame to increase the heat insulating performance has been proposed.

BACKGROUND ART [0002] The background art of the present invention is disclosed in Korean Registered Patent No. 10-1484723 (published on Jan. 28, 2015, entitled "Frame for window frames with excellent heat insulation and airtightness").

In order to suppress the heat conduction through the frame, the window according to the related art is provided with a separate outer frame on the outer surface of the frame, so that the connection structure between the frame and the outer frame is complicated, There is a problem in that it is difficult to save time and cost.

Therefore, there is a need for improvement.

The present invention relates to a window panel for manufacturing a window frame for supporting a window or a door by using a stainless steel panel and providing a heat insulation function for suppressing the conduction of heat by the window frame and having a heat insulation function for simplifying the manufacture and construction of the window, And its object is to provide a construction method thereof.

The present invention provides a frame structure comprising: a frame member installed to form a boundary between an outside and an inside of a building and having an installation groove; A glass member which is disposed at an interval between the frame members and is inserted into the installation groove portion or is arranged to face the installation groove portion so as to form a boundary between the outdoor and the indoor; A finishing unit inserted into the installation groove and blocking an interval between the glass member and the frame member; And a heat conduction preventing portion provided in the mounting groove portion to suppress heat conduction along the frame member.

The finishing portion of the present invention may further include: a molding member inserted into the installation groove portion; A finishing protrusion protruding from the molding member and closing an opening of the mounting recess; And an insertion protrusion protruded from the molding member and engaged with the heat conduction preventing portion.

In addition, the heat conduction preventing portion of the present invention is characterized by including a plurality of prevention hole portions formed in the inner wall of the installation groove portion.

Further, the heat conduction preventing portion of the present invention further includes a heat insulating member inserted into the mounting groove portion.

Further, the frame member of the present invention includes: a support frame provided in a lattice shape to support the glass member and having a first groove portion and a second groove portion in which the glass member is installed; A window frame fixing frame connected to the support frame to cover the second groove portion and having a third groove portion; And a window frame rotation frame rotatably installed on the window frame fixing frame and having a fourth groove portion facing the third groove portion and a fifth groove portion on which the glass member is mounted.

Further, the frame member of the present invention includes: a support frame provided in a lattice shape to support the glass member and having a first groove portion and a second groove portion in which the glass member is installed; And a window frame slide frame which is slidably inserted into the second groove and is installed on the support frame so as to be openable and closable, the window frame being provided with the glass member.

delete

According to another aspect of the present invention, there is provided a method of manufacturing a panel, comprising the steps of: (a) continuously processing a plurality of barrier holes in a panel body made of a stainless steel material; (b) forming a machining groove in a space between a plurality of rows of the plurality of barrier holes; (c) placing the back surface of the machining groove portion on a molding jig and pressing the machining groove portion with a pressing tool to bend the panel main body to mold the mounting groove portion; (d) repeating the step (c) to manufacture a frame member and installing the frame member on the building; And (e) installing a glass member or a finishing unit in the installation groove.

A window having a heat insulating function and a method of manufacturing the same according to the present invention is characterized in that a panel main body made of a stainless steel material is formed by continuously machining a plurality of prevention hole portions and bending the panel main body so that a plurality of prevention hole portions are arranged on the entire inner wall of the installation groove portion Since the frame member is manufactured, it is possible to prevent the heat conduction along the frame member from being conducted, and to prevent the outdoors outdoor air or heat from being transmitted along the frame member to the room.

In addition, a window having a heat insulating function and a method of manufacturing the same according to the present invention are characterized in that a molding member provided in an installation groove portion is provided with an insertion protrusion so as to be engaged with the prevention hole portion, It is possible to prevent the heat loss due to the separation of the molding member.

A window having a heat insulating function and a method of manufacturing the same according to the present invention are characterized in that a frame member provided with a heat conduction preventing portion in an installation groove portion is formed by a window frame on which a door is installed, a window frame on which a sliding window is installed, So that there is an advantage that heat conduction can be prevented in various types of windows.

A window having a heat insulating function and a method of manufacturing the same according to the present invention is characterized in that a mounting groove portion in which a plurality of portions are successively arranged on a panel main body made of stainless steel is processed in three rows and a machining groove portion is formed in a space between each row Since the panel main body is bent, a frame member having the installation recess can be easily manufactured, and the installation recess can be easily machined on various types of frame members.

1 is a front view and a side sectional view showing a window provided with a heat insulating function according to the first embodiment of the present invention.
2 is a plan sectional view showing a window having a heat insulating function according to the first embodiment of the present invention.
3 is a view showing a panel body of a window provided with a heat insulating function according to the first embodiment of the present invention.
4 is a cross-sectional view illustrating a frame member connecting structure of a window provided with a heat insulating function according to a first embodiment of the present invention.
5 is a process diagram showing a construction method of a window having a heat insulating function according to the first embodiment of the present invention.
6 is a front view showing a window provided with a heat insulating function according to a second embodiment of the present invention.
7 is a side sectional view showing a window having a heat insulating function according to a second embodiment of the present invention.
FIG. 8 is a cross-sectional view illustrating an upper portion of a window frame rotation frame of a window provided with a heat insulation function according to a second embodiment of the present invention.
FIG. 9 is a sectional view showing a lower portion of a window frame rotation frame of a window provided with a heat insulating function according to a second embodiment of the present invention.
10 is a plan sectional view showing a window frame rotation frame connection structure of a window having a heat insulating function according to a second embodiment of the present invention.

DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, an embodiment of a window having an insulating function according to the present invention and a construction method thereof will be described with reference to the accompanying drawings.

In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

In addition, the terms described below are terms defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator.

Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a front view and a side sectional view showing a window provided with a heat insulating function according to a first embodiment of the present invention. FIG. 2 is a side view showing a window having a heat insulating function according to the first embodiment of the present invention. And FIG. 3 is a view showing a panel body of a window provided with a heat insulating function according to the first embodiment of the present invention.

4 is a cross-sectional view illustrating a frame member connecting structure of a window having a heat insulating function according to the first embodiment of the present invention, and FIG. 5 is a cross-sectional view of a window having a heat insulating function according to the first embodiment of the present invention. The construction method is a process drawing shown.

1 to 5, a window provided with a heat insulating function according to a first embodiment of the present invention includes a frame member 10 (see FIG. 1) provided with a mounting groove 16, A glass member 90 which is disposed at an interval between the frame member 10 and is inserted into the installation groove portion 16 so as to form a boundary between the outside and the inside of the room or is disposed so as to face the installation groove portion 16, (Not shown) provided in the installation groove portion 16 to suppress the heat conduction along the frame member 10, and a finishing portion 50 which is inserted in the frame member 10 and blocks the gap between the glass member 90 and the frame member 10, (30).

A frame member 10 is provided in a space where a door or window of a building is installed and a glass member 90 is installed in an interval between the frame members 10 to construct a door or a window. Since the heat conduction along the frame member 10 can be suppressed by providing the installation groove portion 16 in the mounting groove portion 10 and the heat conduction preventing portion 30 in the installation groove portion 16, .

Since the frame member 10 of the present embodiment is made of stainless steel, the strength of the frame member 10 is high and the stainless steel material having gloss can be finely finished according to the characteristics of the window. The frame member 10 may be made of a brass material.

Since the finishing portion 50 is provided between the installation groove 16 and the glass member 90, the gap between the glass member 90 and the frame member 10, which form the window or door, It can be prevented more effectively.

The finishing portion 50 includes a molding member 52 inserted into the installation groove 16, a finishing projection 52a projecting from the molding member 52 and closing the opening of the installation groove 16, And an insertion protrusion 52b projecting from the heat conduction preventing portion 30 and engaging with the heat conduction preventing portion 30.

The molding member 52 is made of a synthetic resin material including an elastic material and is formed into a long rod shape so as to be inserted into an installation groove portion 16 formed in a long lengthwise direction of the frame member 10, Is formed by bending in a " c " shape.

The opening of the molding member 52 is inserted into the inner wall of the installation groove 16 so as to be closely contacted with the air and is formed in the space formed by the installation groove 16 and the molding member 52, Can be suppressed more effectively.

The outer end of the molding member 52 is formed with a finishing projection 52a projecting in both directions to finish the opening of the installation groove 16 and protruded laterally on both sides of the molding member 52, A plurality of protrusions which are in close contact with the inner wall are formed.

Since the insertion protrusions 52b protruding laterally from both sides of the molding member 52 and engaged with the prevention hole 32 are formed in the molding recess 52 when the molding member 52 is inserted into the installation recess 16, 52b are deformed and inserted into the installation groove portion 16. When the molding member 52 is completely inserted, the insertion protruding portion 52b is restored to its original shape and inserted into the prevention hole portion 32. [

The molding member 52 inserted into the mounting groove portion 16 can be prevented from being separated from the mounting groove portion 16 by the engagement of the insertion projection portion 52b and the prevention hole portion 32. [

Since the heat conduction preventing portion 30 includes a plurality of the prevention hole portions 32 formed on the inner wall of the installation groove portion 16, the sectional area of the installation groove portion 16 connecting the outer wall and the inner wall of the frame member 10 is reduced, The heat conduction from the outer wall to the inner wall of the member 10 can be suppressed.

The heat conduction preventing portion 30 of the present embodiment further includes the heat insulating member 34 inserted into the prevention hole portion 32 so that the sectional area of the installation groove portion 16 connecting the outer wall and the inner wall of the frame member 10 And at the same time, the thermal energy passing through the installation trench 16 is absorbed by the heat insulating member 34, thereby effectively suppressing heat conduction.

The frame member 110 according to the present embodiment includes a first groove portion 162 and a second groove portion 164 provided in a lattice shape for supporting the glass member 190 and provided with a glass member 190, And a window frame slide frame 166 slidably mounted on the support frame 160 and disposed opposite to the second groove portion 164 and provided with a glass member 190.

In this embodiment, a window provided with a heat insulating function is applied to a casement window, and a glass member 190 is fixed to the upper part of the support frame 160 installed in a lattice shape, and the lower part of the support frame 160 And a window frame slide frame 166 which is slid in the left and right direction of the support frame 160 and is opened and closed.

A first groove part 162 is formed on the upper surface of the support frame 160 so as to fix the glass member 190. A second groove part 164 is formed on the bottom surface of the support frame 160, Respectively.

The first groove portion 162 and the second groove portion 164 of the present embodiment are provided with the same heat conduction preventing portion 30 as in the first embodiment to suppress the heat conduction through the frame member 110. [

A method of constructing a window having a heat insulating function according to an embodiment of the present invention will now be described.

A method of constructing a window having a heat insulating function according to a first embodiment of the present invention includes a step of continuously processing a plurality of prevention hole portions 32 in a panel body 12 including a stainless steel material, A step of forming a machining groove 14 in a space between a plurality of rows formed by the hole 32 and a step of placing the back surface of the machining groove 14 on a molding jig and pressing the machining groove 14 with a press tool, A step of forming the installation groove 16 by bending the panel main body 12 and a step of bending the panel main body 12 to manufacture the frame member 10 and installing the frame member 10 on the building; And installing the glass member (90) or the finishing portion (50).

A plurality of the prevention hole portions 32 are formed in the panel body 12 made of stainless steel panel so as to be continuously formed in a vertical direction while maintaining a predetermined gap therebetween to form a plurality of the prevention hole portions 32, Three rows of prevention hole portions 32 are formed so as to be spaced apart from the hole portion 32 in the left-right direction.

In this case, since the barrier holes 32 arranged continuously in the left-right direction are spaced apart from each other, the narrow panel body 12 formed between the prevention hole portions 32 is connected to the connection between the outer wall of the frame member 10 and the inner wall And the connecting portions are disposed so as to be spaced apart from each other. Therefore, the supporting strength between the outer wall and the inner wall of the frame member 10 can be prevented from being lowered.

When the machining of the prevention hole portion 32 is completed as described above, the machining groove portion 14 is formed in a shape of 'V' at the interval between the three lines of the prevention hole portions 32, Is placed on a jig (14a) having a groove portion and the panel body (12) is bent by using the pressing tool (14b) to form the mounting groove portion (16).

The frame member 10 is installed at the entrance of the building and the molding member 52 is pressed into the installation groove 16 to insert the frame member 10, (90) is installed to complete the construction of the window which constitutes the entrance of the building.

FIG. 6 is a front view showing a window having a heat insulating function according to a second embodiment of the present invention, FIG. 7 is a side sectional view showing a window having a heat insulating function according to the second embodiment of the present invention, 8 is a sectional view showing an upper part of a window frame rotation frame of a window having a heat insulating function according to a second embodiment of the present invention.

9 is a sectional view showing a lower portion of a window frame rotation frame of a window provided with a heat insulating function according to a second embodiment of the present invention, and FIG. 10 is a cross-sectional view of a window frame having a heat insulating function according to the second embodiment of the present invention. Sectional view of the window frame rotation frame connection structure.

6 to 10, a frame member 110 of a window provided with a heat insulating function according to a second embodiment of the present invention includes a glass member 190 installed in a lattice shape to support a glass member 190, A support frame 160 having a first groove portion 162 and a second groove portion 164 on which the second groove portion 164 is provided and a third groove portion 172 connected to the support frame 160 to cover the second groove portion 164 A fourth groove portion 182 rotatably provided on the window frame fixing frame 170 and opposed to the third groove portion 172 and a fifth groove portion 182 on which the glass member 190 is provided And a window frame rotation frame 180 having a window frame 184.

In this embodiment, a window having a heat insulating function is applied to a sliding window, and a glass member 190 is fixed to an upper portion of the support frame 160 after the support frame 160 is installed in a lattice shape, A window frame fixing frame 170 and a window frame rotation frame 180 are installed below the window frame 160 so that the user can open or close the window while pushing or pulling the window frame rotation frame 180 in the front- do.

A first groove part 162 is formed on the upper surface of the support frame 160 to fix the glass member 190. A second groove part 164 is formed on the bottom surface of the support frame 160, And a third groove 172 is formed on the bottom surface of the window frame fixing frame 170.

The window frame rotation frame 180 is rotatably provided on the window frame fixing frame 170 and the fourth groove portion 182 is formed on the upper surface of the window frame rotation frame 180 so as to face the third groove portion 172, A fifth groove portion 184 into which the glass member 190 is inserted is formed on the bottom surface of the frame 180.

The first and second trenches 162 to 184 are provided with the same finishing section 150 as in the first embodiment and each of the trenches is provided with a heat conduction preventing section 30, .

A second groove portion 164 is formed on one side and the other side of the support frame 160 installed in the vertical direction so that a window frame fixing frame 170 is installed on one side and the other side of the support frame 160, The window frame rotation frame 180 is installed so as to face the frame 170. [

The window frame rotation frame 180 is provided with a guide slanting portion 174 formed on the window frame fixing frame 170 opposite to the upper end of the window frame rotation frame 180 to prevent the rain from flowing into the space between the window frame rotation frame 180 and the window frame rotation frame 180 .

A cushioning member 178 is provided at the lower end of the window frame rotation frame 180 to prevent the window frame rotation frame 180 from colliding with the window frame fixing frame 170 when the window frame rotation frame 180 is pulled, Thereby preventing heat loss from occurring through the gap.

Reference numeral 176 denotes an interval closing member 176 provided on the outer wall of the molding member 152 and reference numeral 156 denotes a closing connection unit 156 which doubles the interval between the window frame fixing frame 170 and the window frame rotation frame 180 .

This makes it possible to manufacture a window frame for supporting a window or a door by using a stainless steel panel and to provide a heat insulation function for suppressing the conduction of heat by the window frame and to provide a window and its object having a heat insulation function capable of simplifying the manufacture and construction of a window It is possible to provide a construction method.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. .

Although a window having a heat insulation function and a construction method thereof have been described by way of example, it is only an example, and it is also possible to use the window of the present invention and its construction method in other products other than a window having a heat insulation function and its construction method .

Accordingly, the true scope of the present invention should be determined by the following claims.

10: frame member 12: panel body
14: machining groove portion 16: installation groove portion
30: heat conduction preventing portion 32:
34: thermal insulating member 50:
52: molding member 52a: finishing projection
52b: insertion protrusion

Claims (8)

A frame member installed to form a boundary between the outside and the inside of the building and having an installation groove;
A glass member which is disposed at an interval between the frame members and is inserted into the installation groove portion or is arranged to face the installation groove portion so as to form a boundary between the outdoor and the indoor;
A finishing unit inserted into the installation groove and blocking an interval between the glass member and the frame member; And
And a heat conduction preventing portion provided in the mounting groove portion to suppress heat conduction along the frame member,
The frame member includes:
A support frame provided in a lattice shape to support the glass member and having a first groove portion and a second groove portion in which the glass member is installed;
A window frame fixing frame connected to the support frame to cover the second groove portion and having a third groove portion;
And a window frame rotating frame rotatably installed on the window frame fixing frame and having a fourth groove portion facing the third groove portion and a fifth groove portion on which the glass member is mounted.
The apparatus according to claim 1,
A molding member inserted into the installation groove;
A finishing protrusion protruding from the molding member and closing an opening of the mounting recess; And
And an insertion protruding portion protruding from the molding member and engaged with the heat conduction preventing portion.
The method according to claim 1,
Wherein the heat conduction preventing portion includes a plurality of prevention hole portions formed in an inner wall of the installation groove portion.
The method of claim 3,
Wherein the heat conduction preventing portion further includes a heat insulating member inserted into the mounting groove portion.
delete delete delete (a) continuously processing a plurality of protection hole portions in a panel body made of a stainless steel material;
(b) forming a machining groove in a space between a plurality of rows of the plurality of barrier holes;
(c) placing the back surface of the machining groove portion on a molding jig and pressing the machining groove portion with a pressing tool to bend the panel main body to mold the mounting groove portion;
(d) repeating the step (c) to manufacture a frame member and installing the frame member on the building; And
(e) installing a glass member or a finishing portion in the installation groove portion,

The step (d)
A support frame provided in a lattice shape to support the glass member and having a first groove portion and a second groove portion in which the glass member is installed;
A window frame fixing frame connected to the support frame to cover the second groove portion and having a third groove portion;
And a frame member including a window frame rotation frame rotatably installed on the window frame fixing frame and having a fourth groove portion facing the third groove portion and a fifth groove portion on which the glass member is mounted. A method of constructing a window having a function.

Images