KR100681269B1 - Fabricated sash for windows improved in heat insulation - Google Patents

Abstract

The present invention relates to a window frame sash of a window formed on a side wall of a living room or a room, in particular, to form only an outdoor side rail on the upper surface of the window frame frame is produced by extrusion, the interior of one side of the finishing member coupled to one side of the window frame frame By splitting only the side rails, the window frame frame and the finishing member are securely combined and fixed,

By minimizing the area exposed to the interior space of the window frame frame, which has excellent conduction and heat dissipation effect, the outdoor temperature minimizes the influence on the indoor temperature, and the rail part observed in the room is made of the same material and color as the finishing member You can get the interior decoration effect,

As described above, the thermal efficiency is reduced due to the reduction of heat absorption and heat dissipation area according to the window frame frame made of aluminum as well as the conduction area of the room temperature is reduced, thereby minimizing indoor heat loss. For sash assemblies.

Windows, sash, finish, rail, insulation, thermal efficiency

Description

Fabricated sash for windows improved in heat insulation             

1 is a perspective view showing a conventional sash structure for a window

2 is a perspective view of a sash assembly for a window according to the present invention

Figure 3 is a side cross-sectional view of the sash assembly for a window according to the present invention

Figure 4 is a cross-sectional view showing the assembly process of the sash assembly for a window according to the present invention

5 is a cross-sectional view of the sash structure using the sash assembly for the window according to the present invention.

Figure 6 is another embodiment of the sash assembly for the present invention window

Explanation of symbols on the main parts of the drawings

1: fixing bolt

10: frame frame 11: outdoor side rail

12: part 13: support

14: protrusion 15: coupling hole

16: gagejo

20: Finishing member 21: Interior side rail

21 ': reinforcement tank 22: hook

23: settled home 24: grooved groove

25 extension portion 26 screw hole

27: indentation tank

30,30 ': window 31: roller

The present invention relates to a window frame sash of a window formed on a side wall of a living room or a room, and in particular, to improve the structure of a sash assembly having a finishing member assembled to give an insulation effect while doubling the aesthetic decoration effect on one side of the sash of the window frame. By doing so, when the temperature difference between indoor and outdoor suddenly, such as summer and winter, the outdoor temperature is conducted to the sash, and the sash assembly for the window is prevented from dropping the indoor insulation effect.

In general, many houses, apartments, officetels, malls, offices, etc. are generally provided with a number of windows for the purpose of ventilation and dimming of the interior.

It is most preferable to install a sash with rails on the inner circumferential wall of the installation space, and to install a plurality of windows sliding along the rails of the sash. It is a general structure.

Particularly, due to the characteristics of the chassis that is extruded by aluminum material, the outdoor temperature of a high temperature or a low temperature is transferred to the room to radiate heat into a relatively large area, so that a large amount of heat loss occurs. By forming a finishing member using a foamed resin having excellent thermal insulation effect, the thermal insulation power of the sash is doubled and various patterns and designs are formed on the surface of the finishing member to have a more beautiful design.

Looking at the structure of such a window and the window frame in more detail, as shown in Figure 1, the window frame frame 102, the extruded plurality of rails 101, 101 'that can move the window frame 100, 100' is protruded upwards One side of the, that is, the interior member is formed by attaching the finishing member 103 made of foamed resin material, the heat insulating effect of the aluminum frame frame 102 to conduct the outdoor side temperature by the finishing member 103 While to double the effect of the interior of the room to improve the effect.

However, the sash assembly for the window frame as described above is because the upper surface of the window frame frame with the rail is exposed to the indoor side as it can not prevent the actual thermal insulation and heat dissipation action, actually absorbs the heat of the outdoor hot or cold Aluminum window frame frame that radiates quickly to the interior of the room will be more active heat dissipation action in the upper surface of the window frame frame exposed to the interior space than the side end, the above-mentioned finishing member can perform efficient thermal insulation action in addition to the simple plastering effect It is impossible to say.

In other words, if the windows positioned before and after the window is closed by sliding to both sides, the rails and the frame of the window under the window are exposed to the interior space, so these exposed areas occupy a relatively large area. The outdoor temperature radiated to the site has a large effect on the indoor temperature, so that the heating and cooling efficiency is greatly reduced, thereby promoting the waste of energy.

The present invention has been made to eliminate the problems as described above, forming only the outdoor side rail on the upper surface of the window frame frame to be extruded, and one side of the finishing member coupled to one side of the window frame frame is formed separately divided only the indoor side rail By making the window frame frame and the closing member firmly fixed,

The window frame frame, which has excellent conduction and heat dissipation effect, minimizes the area exposed to the interior space, thereby minimizing the influence of the outdoor temperature on the indoor temperature, and the rail part observed in the room is made of the same material and color as the finishing member. You can get the interior decoration effect,

As described above, the thermal efficiency is reduced due to the reduction of heat absorption and heat dissipation area according to the aluminum window frame frame as well as the conduction area of the room temperature is reduced, thereby minimizing indoor heat loss. It is an object of the present invention to provide a sash assembly for use.

Hereinafter, preferred embodiments of the present invention will be described.

Figure 2 is a perspective view of a sash assembly for a window according to the invention, Figure 3 is a side cross-sectional view of the sash assembly for a window according to the invention.

In a well-known sash assembly in which an extruded metallic window frame frame having an upward rail and a finishing member molded by foamed resin are coupled to one side of the window frame frame,

On the upper surface of the window frame frame 10, only the outdoor rail 11 is formed to protrude, and at one lower end thereof, an upwardly protruding locking piece 12 having a coupling hole 15 of a predetermined interval is formed.

On one side of the finishing member 20, the interior rail 21 is formed to protrude upward from the end of the reinforcing tank 21 'formed of a relatively rigid material at the front end, a predetermined interval on the bottom surface of the finishing member 20 To form a fastening tank 22 in which the screw holes 26 are formed,

One side of the closing member 20 is in close contact with one side of the window frame frame 10 so that each of the rails 11 and 21 are spaced apart, and the locking piece 12 of the window frame frame 10 is closed member 20. Inserted into the catching tank 22 of the), it is to be fixed by screwing a separate fixing bolt (1) to the screw hole (26).

In addition, the support frame 13 is drawn out from one end of the window frame frame 10 is bent upwardly, and the support member 13 is inserted into one side of the rail 21 of the closure member 20. 23)

A downward projection 14 is formed at the lower end of the support portion 13, and a recessed groove 24 is formed below the projection member 14 and the settling groove 23 at the corresponding position. , Window frame frame 1 and the finishing member 20 may be to increase the support coupling force,

The extension part 25 is drawn out from one side of the finishing member 20 to be in close contact with the upper surface of the window frame frame 10, and a separate locking tank 16 is formed at one side of the locking piece 12. It may be formed upward in the longitudinal direction, the lower end of the closing member 20 of the corresponding position to form a press-fit tank 27 is inserted into the locking tank 16 may be to increase the fastening force.

In the drawings, reference numerals 30 and 30 'denote windows and 31 are rollers.

When described in more detail by the accompanying drawings the operation of the sash assembly for a window having an improved thermal insulation structure of the present invention as follows.

As shown in the figure, the sash assembly of the present invention has two rows of rails spaced before and after the sliding window, and the rail 11 positioned at the bottom of the outdoor side window 30 'has an aluminum extrusion frame. It is formed in the upper center of the (10), the rail 21 located at the bottom of the indoor window 20 is to be formed upward on one side of the finishing member 20 of the foamed synthetic resin.

Therefore, as shown in FIG. 4, when the side edges of the window frame frame 10 and the finishing member 20 are formed in close contact with each other, each of the rails 11 and 21 has a separation width between the windows 30 and 30 ′. It is formed at equal intervals apart.

At this time, looking at the coupling structure of the window frame frame 10 and the finishing member 20, the locking piece 22 formed on the lower surface of the closing member 20 protruding the locking piece 12 protruding to one side of the window frame frame 10 ) And then fix it by tightening it with a separate fixing bolt (1).

Since the engagement piece 15 of a predetermined interval is formed in the locking piece 12, and the locking hole 22 is formed with a screw hole 26 at a position corresponding to the engagement hole 15. When the fixing bolt 1 is inserted from the outside of the locking piece 12 and rotationally coupled to the screw hole 26, the window frame 10 and the finishing member 20 are firmly fixed.

In addition, an upwardly protruding support portion 13 is formed at one side of the window frame frame 10, and a recess 23 having a corresponding shape is formed at one side of the interior rail 21 of the finishing member 20. The support portion 13 and the settled groove 23 are to be joined to each other, the lower bent portion of the support portion 13 to form a downward projection 14 and the corresponding position of the closing member 20 The groove 21 is formed in the lower portion of the rail 21, so that the window frame frame 10 and the closing member 20 are more firmly and resiliently formed by the supporting force of the protrusions 14 and the grooves 24. It can be combined.

Accordingly, as shown in FIG. 5, the window frame frame 10 having the outdoor side rails 11 and the finishing member 20 having the interior side rails 21 are coupled to each other on the rails 11 and 21. The rollers 31 of the windows 30 and 30 'may be placed and used.

At this time, the interior rail 21 of the finishing member 20 is formed of a foamed resin material, while being grounded with the roller 31 at the bottom of the window 20, and receives a continuous load and friction force, the fragile damage may occur. Therefore, the window 21 is formed on the reinforcing tank 21 'by integrally protruding a reinforcing tank 21' having a harder and higher strength characteristic on the upper surface of the rail 21 on which the roller 21 is located. By moving the roller 31 of the seat is to extend the service life more.

Therefore, since the area of the window frame frame 10 exposed to the interior is greatly reduced by the finishing member 20 having the indoor side rail 21, it is expected to improve the thermal efficiency according to the reduction of the area radiated to the interior.

In addition, the present invention sash assembly is to maximize the indoor exposure area of the finishing member 20 as shown in Figure 6 to obtain a more efficient cooling, heating effect, the extension is drawn out from one side of the finishing member 20 By forming the portion 25 so that the extension portion 25 is placed in close contact with the upper surface of the window frame frame 10 to form a finishing member 20 of a larger area to improve the thermal insulation efficiency,

On the one side of the locking piece 12 of the window frame frame 10 is formed an integral locking cage 16 which is formed upward along the longitudinal direction of the frame, and the lower side of the closing member 20 at a position corresponding thereto. By forming a press-fitting tank 27 to be inserted into the locking tank 16, the press-fitting tank 27 is forcibly pressed into the locking tank 16, the fastening force of the window frame frame 10 and the closing member 20 It can be increased more.

In particular, the sash assembly of the present invention having the structure as described above has a very wide area that is exposed to the interior of the finishing member 20 that can be molded into a shape having a variety of colors as well as a variety of designs than the conventional window frame, Of course, you can get the interior effect together.

The sash assembly for the window having the improved thermal insulation structure of the present invention as described above minimizes the area exposed to the indoor space by the window frame frame having excellent conduction and heat dissipation effect, thereby minimizing the influence of the outdoor temperature on the indoor temperature, As the rail part observed at is formed of the same material and color as the finishing member, a more beautiful interior decoration effect can be obtained.

As described above, the thermal efficiency is reduced due to the reduction in heat absorption and heat dissipation area according to the aluminum window frame frame, and the conduction area of the room temperature is reduced, thereby minimizing indoor heat loss.

Claims (3)

Extruded metal window frame frame 10 having an upwardly protruding locking piece 12 having an outer rail 11 protrudingly formed on an upper surface thereof and a coupling hole 15 having a predetermined interval formed on one lower end thereof, and having a beam at the tip. For the window on which the finishing member 20 formed with a fastening member 22 formed with a threaded hole 26 having a predetermined interval is formed on the bottom side of the inner rail 21 in which the emphasis 21 'is integrally formed. In the sash assembly, The support 13 is drawn out from one end of the window frame frame 10 and is bent upwardly, and a settling groove 23 into which the support 13 is inserted is formed at one side of the rail 21 of the closing member 20. But A downward projection 14 is formed at the lower end of the support portion 13, and a recessed groove 24 is formed below the projection member 14 and the settling groove 23 at the corresponding position. , The sash assembly for the window having an improved thermal insulation structure, characterized in that the support coupling force of the window frame frame (1) and the closing member 20 is increased. The method of claim 1,  The extension part 25 is drawn out from one side of the closing member 20 to be in close contact with the upper surface of the window frame frame 10, and a separate locking tank 16 is longitudinally formed at one side of the locking piece 12. An improved thermal insulation structure, characterized in that to form upward, and to form a press-fitting tank 27 inserted into the locking tank 16 at the bottom of the closing member 20 of the corresponding position to increase the fastening force Sash assembly for windows. delete

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