KR101336583B1 - a high airtight structure of the window - Google Patents

Abstract

The present invention can maintain the airtightness of the entire window without hindering the movement of the window perfectly to prevent heat loss due to convection, improve the thermal insulation performance, and also have a high sound insulation, airtightness, sound insulation even in long-term use It is intended to provide a high airtight structure of a window that does not degrade the performance of the back, such as a horizontal hermetic means for sealing between the horizontal frame of the window frame and the horizontal frame of the door frame, and can be sealed between the vertical frames of the window frame. A vertical hermetic means and a blocking hermetic means for preventing a gap that may occur between the horizontal hermetic means and the vertical hermetic means.
In the structure of the window of the present invention, it is possible to prevent the energy loss due to the flow of air by completely blocking the minute gap that can be passed through the air, and excellent double insulation and noise blocking effect by maintaining the double complete sealing function It is economical because it can be used semi-permanently without any deterioration in performance of airtightness, insulation, and sound insulation by preventing wear or deformation even after long-term use. In addition, since the sealing member does not interfere with the movement of the window, it can maintain the smooth operation of the window, and exhibits a new effect that cannot be expected at all in the conventional technology such as a windshield.

Description

High airtight structure of the window}

The present invention relates to a structure for improving the airtightness of a small window, specifically, a high airtight structure of a window for maximally suppressing energy loss of a building by completely blocking the flow of air circulated between the window frame and the rail of the window frame. It is about.

The windows used for the view and daylight of the building have problems with heat loss at the same time despite the advantages of the view itself. In general, the heat insulation performance of building windows is about 6 ~ 10 times lower than the heat insulation performance of exterior walls, which is a weak point of heat loss.

In particular, as a method of reinforcing the airtightness and insulation performance of the window, a study called the 'system window' has been conducted to improve the airtightness and heat insulation of the entire window including the glass window and the window frame. By adopting a gasket that can be adopted and fixed to the window frame, a window having high density and high insulation performance has been developed.

The most significant heat dissipation in the window structure is largely due to the gap between the horizontal frame bottom of the window frame and the rails installed on the horizontal frame of the window frame, the gap between the vertical frame of the window frame and the vertical frame of the window frame, and the closure of the window. It is mainly in the gap where the vertical frame of the window frame meets each other. Therefore, the most important point to improve the airtight performance of the conventional window was to maintain the airtightness of the above three parts, the minute gaps that may occur in the coupling structure of the rail and the window except for the three parts, such as the space between the rails There is little research on the airtight structure of the perfect window related to the phenomenon of air circulation through the rail direction. However, such a small air flow path is a problem that must be solved in modern building window structures pursuing zero energy.

In addition, the study on the airtightness of each window of air flow channel tends to be done independently of each part rather than the whole by organic relationship with each other. have.

The airtight window structure for preventing air flow in the window frame and the window frame or the overlapping part of the window is 'Sliding window structure' of the registered notification No. 20-0175792. 1A to 1C are related to the structure of the sliding window, FIG. 1A is a front view of a sliding window, FIG. 1B is a cross sectional view seen from A-A of FIG. 1A, and FIG. to be.

In the prior art, when the windows are closed, each of the two vertical frames overlapping each other forms a protruding airtight member 6 as shown in FIG. 1B, and a mohair is formed on the airtight member 6. By attaching the mohair of the hermetic member to each other in close contact with the frame on the opposite side, air is not allowed to flow between the window frames. In addition, in order to maintain the airtightness between the upper and lower window frames and the window frame, as shown in Figure 1c, by attaching a mohair to the inside of the window frame horizontal frame so that the mohair close to the side of the rail protruding from the window frame horizontal frame Or, indoor air is not allowed to flow between the rail and the window frame horizontal frame. However, in the structure in which the mohair is attached to the inside of the horizontal frame of the window frame so that the mohair is in close contact with the rail side of the horizontal frame of the window frame, a space is inevitably spaced between the bottom surface of the horizontal frame of the window frame and the bottom of the horizontal frame of the window frame (FIG. 1C). Arcs), and these spaces create airflow both inside and outside the room, resulting in loss of room energy.

On the other hand, in order to block the flow of air through the space formed between the bottom surface of the window frame horizontal frame and the bottom surface of the window frame horizontal frame as shown in Figure 2a or the airtight member is attached to the mohair as shown in Figure 2b. . The windshield plate is provided by forming a plurality of relatively thin flexible sealing plates 51 in a state in which a predetermined interval is maintained perpendicular to the upper surface of the substrate 50, and a cutout is formed between the flexible sealing plates 51 of each row. The upper side of the soft sealing plate 51 is pressed under the window frame to form an airtight between the bottom of the window frame and the bottom of the window frame. Figure 2c shows a state in which the windshield is installed on the bottom of the window frame and pressed under the window frame to maintain airtightness. An example of this is the 'window frame provided with multiple hermetic members and the window structure using the same' of Korean Patent Registration No. 20-0411839.

However, since the airtight member with the wind vane or mohair is always in contact with the lower part of the horizontal frame of the window frame, the airtight member is in a pressed state. There are structural limitations.

Eventually, the mohair is attached to the inside of the window frame horizontal frame so that the mohair is in close contact with the rail side of the window frame horizontal frame to block the flow of air over the rail, and between the bottom surface of the window frame horizontal frame and the bottom surface of the window frame horizontal frame. In the conventional window structure in which the weather plate is installed in the wall, it is practically impossible to maintain the airtightness of the entire window.

The present invention is to improve the above problems, while maintaining the airtightness of the entire window without hindering the movement of the window to prevent heat loss due to convection as well as to improve the thermal insulation performance, and can have a high sound insulation In addition, it is intended to provide a high airtight structure of the window that does not degrade the performance of airtightness, sound insulation, etc. even at long time use.

According to a preferred embodiment of the present invention for achieving the above object, in the airtight structure of a conventional sliding window, a support provided with a horizontal hermetic member between the inner rail and the outer rail of the window frame horizontal frame bottom of the horizontal frame It is formed in the longitudinal direction of the rail so as to protrude from the surface, and forms a projection provided with a vertical hermetic member on the inner surface of the inner vertical frame of the window frame, the projection so that both ends of the window frame is not interfered by the support when moving the window It is formed in the longitudinal direction of the inner vertical frame of the window frame in a length obtained by cutting a predetermined length from both ends of the inner vertical frame, and the space (S) of a constant size between the two inner window frame and the projections facing each other when the window is closed. To form and close the sealing member to the upper surface of the support on which the space (S) is located. A high airtight structure of a window is provided.

According to another preferred embodiment of the present invention, the airtight structure of the window is characterized in that the sealing member is formed of an elastic material.

According to another preferred embodiment of the present invention, the sealing member has a width and a length of the horizontal cross section equal to that of the space S, or only the length of the width and the length of the space S compared to that of the space S. It is provided with a high-tight structure of the window, characterized in that it is formed long, or both the width and the length is formed slightly longer than that of the space (S).

The present invention can prevent the energy loss due to the flow of air by completely blocking the minute gap that can be flowed in the structure of the window, and excellent double insulation and noise blocking effect by maintaining the double complete sealing function It is economical because it can be used semi-permanently without any deterioration in performance of airtightness, heat insulation and sound insulation by preventing wear or deformation even after long-term use. In addition, since the sealing member does not interfere with the movement of the window, it can maintain the smooth operation of the window, and exhibits a new effect that cannot be expected at all in the conventional technology such as a windshield.

1a to 1c are airtight structures of a window according to the prior art.
Figures 2a, 2b is an example of a conventional airtight member installed in the horizontal frame of the window frame.
3A to 3D show a first embodiment to which the airtight structure of the present invention is applied.
4A to 4E show a second embodiment to which the airtight structure of the present invention is applied.

The present invention is a conventional airtight structure of a sliding window, a horizontal hermetic means for sealing between the horizontal frame of the window frame and the horizontal frame of the door frame, a vertical hermetic means for sealing between the vertical frames of the window frame and the It is composed of a blockt sealing means to prevent the gap between the horizontal and vertical sealing means.

Hereinafter, various embodiments of the present invention to which the above means are applied will be described in detail with reference to the accompanying drawings. In the following description of the present invention, however, it is to be understood that the present invention is not limited to the disclosed embodiments.

3A to 3D show the airtight structure of the window according to the first embodiment of the present invention. Fig. 3A is a front view of the window, Fig. 3B is a partial perspective view showing the relationship between the horizontal airtight means, the vertical airtight means and the blocking airtight means when the window is closed, and Fig. 3C is A-A 'of Fig. 3A when the window is closed. 3D is a sectional view seen from BB ′ of FIG. 3A when the window is closed.

According to the first embodiment, the window is composed of a window frame frame in which the inner rail 141 and the outer rail 142 are formed, and a window frame frame placed on the rail of the window frame frame to which glass is fixed. The window frame is formed of a square of the upper and lower horizontal frame 110, the window frame vertical frame 120 facing each other, the window frame frame is also the upper and lower horizontal frame 210 and the outer side of the window frame frame The vertical frame 222 (vertical frame in contact with the window frame vertical frame when the window is closed) and the inner vertical frame 221 (vertical frame overlapping with the other mating window frame when the window is closed) is formed as a square. Rail frame (141, 142) for guiding the movement of the window is formed in the window frame horizontal frame 110 protrudes on the outside and inside, grooves for receiving the rail is formed inside the end of the window frame horizontal frame 210, By installing a pair of first horizontal airtight members 219, such as mohair, on both sides of the groove, the first horizontal airtight member 219 contacts both sides of the rails so that air flows in and out of the room. Prevent it primarily.

This airtight structure is not very different from the airtight structure of a conventional window. However, the present invention further includes a second horizontal sealing means capable of secondary sealing between the window frame horizontal frame 210 and the window frame horizontal frame 110. The horizontal sealing means is a bottom surface of the horizontal frame 210, the support 150, the second horizontal hermetic member 151 is installed between the inner rail 141 and the outer rail 142 of the window frame horizontal frame 210 It is made by forming in the longitudinal direction of the rails (141, 142) to protrude from. The horizontal airtight means secondly seals the air crossing over the rail, and fundamentally blocks the air that penetrates in the longitudinal direction between the bottom of the window frame horizontal frame 210 and the bottom of the window frame horizontal frame 110. Do it. Therefore, the conventional airtight means, such as a windshield to be installed on the lower surface of the window frame horizontal frame 210, the effect is not necessary.

Meanwhile, grooves are formed at both ends of the window frame outer vertical frame 222 so that glass is inserted into the inner groove and a vertical hermetic member 229 such as a mohair or a gasket is inserted into the outer groove. The vertical hermetic member 229 is inserted into a vertical rail formed in the window frame vertical frame to prevent the flow of air through the window and the window frame. In addition, by forming a protrusion 223 in which the vertical hermetic member 229 is installed on the inner surface of the inner vertical frame 221 of the window frame in the longitudinal direction of the inner vertical frame 221, two window frame inner vertical frames facing each other when the window is closed. A space S having a predetermined size is formed between the 221 and the protrusion 223. The vertical hermetic member 229 installed on the protrusion 223 prevents air from flowing in a portion where the window overlaps with the window when the window is closed.

The protrusion 223 has a length cut from both ends of the inner vertical frame 221 by a predetermined length. The cut portion of the protrusion 223 facilitates smooth movement of the window by preventing the protrusion 223 from being interfered by the support 150 when the window is moved. However, the cutout of the protrusion 223 on the other hand forms a small gap d between the support 150 when the window is closed, and the gap d forms an air flow path between the window and the window. You can. This gap (d) is closed by the sealing member 250 below.

Closing airtight member 250 is installed in close contact with the upper surface of the support 150 at a position corresponding to the space S formed between the window frame inner vertical frame 221 and the protrusion 223 when the window is closed. Each circumferential surface of the closure sealing member 250 is in close contact with the inner vertical frame 221 and the protrusion 223 of the window when the window is closed, thereby completely blocking the gap d. Therefore, the sealing member 250 must be at least as wide as the width and length of the horizontal cross-section of the space (S).

The sealing member 250 is more preferably formed of an elastic material. As described above, when the sealing member 250 is formed of an elastic material, the horizontal cross section of the sealing member 250 is formed to be somewhat longer than that of the space S only with respect to the length of the window moving direction, thereby closing the window. When the blocking airtight member 250 is compressed, there is an advantage that a higher airtightness can be expected.

Thus, when the window is closed, the space between the window and the window, the window and the window frame is completely sealed so that no air flows into or out of the room, thereby preventing energy loss due to the air flow. In addition, the blocking airtight member 250 is installed in a space formed when the window is closed, so that it does not interfere with the movement of the window, and this relationship is that the airtight member for gaps such as windshields is used for smooth movement of the window. The effect of solving the problem that was interrupted is exerted.

In the first embodiment, the primary airtightness is achieved by the first horizontal airtight member 219 between the inner edge of the window frame horizontal frame 210 and the rail, and the inner rail 141 of the window frame horizontal frame 210 is formed. ) Between the window frame horizontal frame 210 and the support 150 by the second horizontal hermetic member 151 by installing a support 150 provided with the second horizontal hermetic member 151 between the outer rail 142 and the outer rail 142. In order to have a second hermetic airtight to have a double hermetic structure between the window frame horizontal frame 110 and the window frame horizontal frame, even if the primary airtight by the first horizontal hermetic member 219 is omitted. The technical concept of the airtight member 250 is applied to the same. Therefore, even if only having the primary confidentiality between the window frame horizontal frame 210 and the support 150 will be included in the technical scope of the present invention is apparent to those skilled in the art.

Meanwhile, in the first embodiment, since the first and second horizontal sealing members 219 and 151 are always in close contact with the rails 141 and 142 or the window frame horizontal frame 210 regardless of the closing or moving of the window, When the first and second horizontal hermetic members 219 and 151 are easily worn or deformed by friction with the rail or the like, even when they are moved to open the window, the durability is lowered and the window is not needed. Since there is a problem of limiting the smooth movement of the window, the structure of the window has been developed in recent years so that the horizontal hermetic members 219 and 151 are in close contact only when the window is closed. Representative examples of such a newly improved window structure is a window structure having high meat insulation performance and high insulation performance, which was developed by the inventor of the present invention and filed as 2011. 7. 15. Application No. 10-2011-0070295 (unpublished). There is. Hereinafter, the airtight structure of the window according to the second embodiment that is applied to the same or similar structure to the improved window structure will be described. For reference, in describing the second embodiment, the same terms as the first embodiment represent the same configuration, and thus detailed description thereof will be omitted.

4A to 4E show the airtight structure of the window according to the second embodiment of the present invention. 4B and 4C are cross-sectional views seen from AA 'and B-B' of FIG. 4A when the window is opened, and 4D and 4E are respectively viewed from AA 'and B-B' of FIG. 4A when the window is closed. It is a cross section.

According to the second embodiment, the first horizontal hermetic member 219 is installed on each side of the inner rail 141 and the outer rail 142 of the window frame horizontal frame 210, and the inner rail 141 and The support 150 is formed to protrude between the outer rails 142 and a second horizontal hermetic member 151 is installed on the support 150. However, the first horizontal hermetic member 219 may be installed inside the end of the window frame horizontal frame 210 as in the first embodiment.

In addition, the first contact means 310 is installed at both ends of the window frame horizontal frame 210, and when the window is closed, the first contact means 310 is provided on the horizontal frame 110 of the window frame at a position corresponding to the first contact means 310. 2 Install the contact means 320. In such a configuration, when the window is closed, the window is moved horizontally by the rails 141 and 142 and simultaneously moves in the vertical direction of the movement direction by the first and second contact means 310 and 320. That is, when the close means 310 and 320 act, the window moves diagonally until the inner side of the end of the window frame horizontal frame 210 comes into close contact with the first horizontal hermetic member 219, and the window frame horizontal frame 210 The outer surface is in close contact with the second horizontal hermetic member 151 to have a double sealed structure.

Since the airtight structure of the window frame vertical frame 220 and the window frame vertical frame 120 and the protrusion 223 and the airtight structure of the window frame inner vertical frame 221 are the same as in the first embodiment, description thereof will be omitted.

In addition, when the window is closed, the sealing member 250 is installed in close contact with the upper surface of the support 150 at a position corresponding to the space S formed between the window frame inner vertical frame 221 and the protrusion 223. Is also not different from the first embodiment. However, unlike the first embodiment, the blocking member 250 in the second embodiment is preferably formed to have a width as well as a length of the horizontal cross section rather than the space S. The reason is that in the case of the first embodiment, since the window moves only horizontally along the rails 141 and 142, if the width of the blocking airtight member 250 is larger than the width of the space S, the window is closed during the closing process. Both side surfaces of the blocking member 250 prevents the clearance d between both end surfaces of the blocking member 250, that is, the protrusion 223 and the support 150, while rubbing against the outer surface of the window frame horizontal frame 210. There is a possibility to pull the giving portion, this may prevent the sealing member 250 can not completely block the gap (d), in the second embodiment the direction of movement of the window is closed when the window is closed Since it is made in a diagonal direction toward the edge of the member 250, by pressing both sides of the corner of the block-sealed airtight member 250 without friction between the horizontal frame outer surface of the window and the block-sealed airtight member 250 at once to achieve more airtightness. Because it can.

The present invention has been described in detail above with reference to specific embodiments, but the above embodiments are merely examples for easy understanding of the present invention, and therefore, substitutions, additions, and modifications within the scope do not depart from the spirit of the present invention. Embodiments will also belong to the protection scope of the present invention as defined by the claims below.

110: horizontal frame of window frame 120: vertical frame of window frame
141: inner rail 142: outer rail
150: support 151: second horizontal hermetic member
210: horizontal frame of the window frame 219: first horizontal hermetic member
221: vertical frame inside the window frame 222: vertical frame outside the window frame
223: protrusion 229: vertical airtight member
250: sealing member 310: first contact means
320: second contact means

Claims (3)

In the conventional airtight structure of sliding windows, the support 150 is installed between the inner rail 141 and the outer rail 142 of the window frame horizontal frame 210 so as to protrude from the bottom surface of the horizontal frame. It is formed in the longitudinal direction of the rail, the inner surface of the inner frame of the window frame to form a protrusion 223 is provided with a vertical hermetic member 229, the protrusions 223 are both ends of the support when the window is moved It is formed in the longitudinal direction of the window frame inner vertical frame 221 to a length obtained by cutting a predetermined length from both ends of the window frame inner vertical frame 221 so as not to be interfered by (150), the two opposite when closing the window A space S having a predetermined size is formed between the inner frame 221 of the window frame and the protrusion 223, and the sealing member 250 is closely attached to the upper surface of the support 150 on which the space S is located. But the blocker The member 250 is made of an elastic material and the width and length of the horizontal cross section thereof are the same as those of the space S, or the length and the length of the width and length are slightly longer than those of the space S, or The high-tight structure of the window, characterized in that the length is formed slightly longer than that of the space (S).
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