KR101388178B1 - Sunlight protect of light and heat for double-glazed to device access - Google Patents

Abstract

The present invention relates to a device for introducing and removing colored liquid into/from double-glazed glass capable of protecting sunlight and heat, and more particularly, to a device that introduces or remove colored liquid into/from the insulation space between two pieces of glass in the existing double-glazed glass so as to protect sunlight (infrared rays) and to optimize the interior effects. According to the present invention, the device has a double-glazed glass cell (100) including: triangular top and bottom fixing frames (30) and (31) attached to face each other diagonally on the edges of outer transparent glass (10) and each having a stepped projection (102) formed on the upper surface (101) thereof and a space portion (103) formed at the inside thereof; aluminum fillers (20) formed on the edges thereof in such a manner as to be connected horizontally to the upper surfaces (101) of the top and bottom fixing frames (30) and (31) so as to form a space between the double-glassed glass; and inner transparent glass (11) having triangular cut portions (111) formed on the edges facing to each other in such a manner as to be brought into close contact with the stepped projections (102) formed on the top and bottom fixing frames (30) and (31) and adapted to allow the edge surfaces thereof to be brought into close contact with the upper surfaces of the aluminum fillers (20).

Description

A device for entering / extracting colored liquids into a double glass that can block the light and heat of sunlight {sunlight protect of light and heat for double-glazed to device access}

The present invention relates to a device for entering / extracting a liquid having color into a double glass that can block light and heat from sunlight, and more preferably, a color in a space formed between the glass and the glass of the double glass for thermal insulation. In order to be able to inject or remove the liquid with the sun (sunlight, infrared) to block, and to maximize the interior effect.

Today's buildings are very high-rise, large-scale, and multi-functional structures, and the three major elements of architecture, such as structure, function, and aesthetics, are emphasized, and the three representative building materials that meet these conditions are steel, concrete, and Glass and skyscrapers and large buildings are mostly finished with glass curtain walls, and blinds and curtains are installed indoors to block sunlight in the summer, and apartments account for a large proportion of residential buildings (67% of residential buildings). As the temperature continues to rise, the indoor temperature caused by sunlight increases in the summer, and electrical energy consumption for cooling is enormous.In addition, sunshades or curtains are installed on exterior walls to prevent such solar heat in single-family homes, multi-family homes, and small shopping malls. It is making the housing environment worse by blocking it.

Blocking the sunlight indoors in the summer with blinds, curtains, etc. blocks sunlight, but solar heat (infrared rays) seems to be temporarily blocked by raising the temperature between the glass and the block, but eventually raising the room temperature. This temporary method is not possible for large buildings closed on the roof with glass, and it is currently covered with expensive special Lloyd's glass that blocks some sunlight and infrared rays when building new buildings. Some blockages reduce solar heat (infrared) and sunlight, but in winter, solar heat (infrared) and sunlight transmittance decrease, causing solar heat (infrared) to hinder room temperature rise and maintenance.

Such special Lloyd glass or transparent glass is difficult to change and replace in the middle with respect to the glass plate installed in new building construction, so it is impossible to adjust it to block sunlight (sun, infrared) in summer and accept in winter. The building and residential multi-purpose building has an intelligent building concept, which is a central air-conditioning system that closes almost all windows, making it difficult to control the temperature of the room individually, and it is extremely wasteful of electric energy.

1. Domestic Utility Model Registration No. 20-0177046 2. Domestic registered patent No. 10-1199835

The present invention has been created to solve the above problems, by allowing the color liquid to be injected and removed in the space of the double glass installed in the large shopping mall, restaurant and apartment balcony, the color of the glass freely By changing the color, the interior effect can be maximized, and by adjusting the color suitable for the four seasons, the cooling effect is increased in the summer season, and in the winter season, the sunlight (sunlight, infrared rays) can be directly received so that the solar heating effect can be increased. Therefore, it is a method of minimizing the use of electric energy, which is becoming a problem recently, and saving energy, and aims to improve a residential environment in a general small house.

In addition, when the present invention is manufactured in the existing double glass factory, the construction is performed in the same manner as ordinary glass, and for the balcony part of the lower floor of the apartment where sunlight (sunlight, infrared rays) blocking and maximizing the interior interior effect or personal privacy are violated by transparent glass, The simple tool and the appropriate color liquid can be injected into the space between the double glass through the liquid inlet of the upper fixing frame of the double glass cell, and can be discharged to the liquid discharge hole of the lower fixing frame if it is not necessary. It is done.

The configuration of the present invention having the above object will be described in detail with reference to the accompanying drawings.

As shown in FIG. 1, the present invention is attached to the edge surfaces of the outer transparent glass 10 diagonally opposite to each other, and at the same time, the upper surface 101 has a step 102 and an interior 103 formed with a space 103. And lower fixing frames 30 and 31,

Aluminum wheeler 20 and the upper and lower fixing frames 30, 31 and the horizontal connection with the upper surface 101 is formed on the edge to form a space of the double glass.

The edges of the upper and lower fixing frames 30 and 31 are cut out to form a cutout 111 formed in a triangle so that edges facing each other closely contact the step 102 formed on the upper surfaces of the upper and lower fixing frames 30 and 31. It characterized in that it consists of one double glass cell 100, including the inner transparent glass 11 formed to be in close contact with the upper surface of the 20.

The present invention by the configuration as described above by injecting a liquid with color into the inner space of the double glass in the summer, by blocking the sunlight (sunlight, heat) transmitted through the glass to maximize the cooling effect of the room to save energy In small shopping malls and houses, the westward sunlight (sunlight, heat) shines deep into the room during the summer to improve indoor temperature and increase the indoor brightness, thereby preventing the residential environment from worsening. In buildings that focus on interiors such as shops, hotels lobby, and restaurants, the glass on the exterior walls and the interior partitions can be appropriately changed in color to improve the interior effect and the atmosphere of the room.

In addition, the present invention can install the device so that even a little trained technicians to the existing double glass to see this effect even without replacing the glass.

1 is an exploded and combined perspective view of a device for entering / exiting a fluid having color into a double glass according to the present invention;
Figure 2 is a perspective view showing a state in which the fixing frame of the device for entering / exiting fluid having a color to the double glass according to the present invention attached to the outer transparent glass,
3 is a side view showing a state in which the guide hole is perforated on the side of the fixed frame of the device for entering / exiting fluid having a color on the double glass according to the present invention,
Figure 4 is a front perspective view showing a state in which the guide hole is punctured on the side of the fixed frame of the device for entering / exiting fluid having a color on the double glass according to the present invention,
Figure 5 is a cross-sectional view showing a liquid inlet hole of the device for entering / exiting a fluid having a color in the double glass according to the present invention,
6 is a cross-sectional view showing the induction hole of the device for entering / exiting a fluid having a color on the double glass according to the present invention,
7 is a perspective view showing a T-shaped tube connected to the liquid inlet hole and the induction hole of the device for entering / exiting a fluid having a color on the double glass according to the present invention;
8 is a perspective view showing an elbow tube connected to the liquid discharge hole of the device for entering / exiting a colored fluid into the double glass according to the present invention,
9 is a perspective view showing a liquid induction pipe mounted on the aluminum wheeler of the device for entering / exiting a fluid having a color on the double glass according to the present invention,
10 is a front view showing a state in which the double glass cells in accordance with the present invention connected vertically,
11 is a front view showing a state in which the double glass cells according to the present invention are horizontally connected.

Hereinafter will be described in more detail with respect to the configuration of the device for entering / exiting a fluid having a color to the double glass according to the present invention according to the present invention.

As shown in FIG. 1, the double glass cell of the present invention is configured by mounting the upper fixing frame 30 and the lower fixing frame 31 diagonally opposite to the edge surface of the outer transparent glass 10, and the upper side The inner transparent glass 11 is attached in close contact with the step 102 formed on the upper surface 101 of the fixed frame 30 and the lower fixed frame 31, but the outer transparent glass 10 and the inner transparent glass ( 11) The aluminum wheeler 20 is attached to the edge so that the space 103 is formed in the interior thereof.

At this time. The upper surface 101 and the side 104 of the upper side fixing frame 30 are formed with a liquid inlet hole 50 and an induction hole 60, respectively, and are configured to be opened and closed by a sealing cap 80.

In addition, the upper surface 101 and the side surface 104 of the lower fixing frame 31, respectively, the liquid discharge hole 51 and the guide hole 61 is formed so that it can be opened and closed by the closing cap (81).

With the above configuration, as shown in FIGS. 2 and 6, the colored liquid 200 can be entered / exited into the double glass space 103 formed by the upper and lower fixing frames 30 and 31. After opening the sealing cap 80 formed in the screw type that was closing the liquid inlet hole 50 in the upper surface 101 of the upper fixing frame 30 so as to, a simple tool in the liquid inlet hole (50) Piston-type water sprayer, rubber tube) and the like to inject the liquid 200 of the desired color. When the liquid 200 is removed in the future, the liquid 200 is opened by opening the cap-type sealing cap 81 which was closing the liquid discharge hole 51 perforated on the upper surface 101 of the lower fixing frame 31. Since it can be discharged, it is made of double glass to block the infrared light, which is the main heat source of sunlight in the summer.

In addition, as shown in FIGS. 3, 4, and 7, the upper fixing frame 30 becomes smoother and more convenient when injecting or removing the colored liquid 200 into the internal space 103 of the double glass cell 100. The liquid 200 may be injected through the induction hole 60 formed on the side of the upper fixing frame 30 without opening the closing cap 80 that has closed the liquid inlet hole 50 of the bottom side. That is, according to the site conditions, the liquid inlet hole 50 of the upper fixing frame 30 and the induction hole 60 formed on the side surface of the closing caps 80 and 90 are closed to inject the liquid 200. It can be a configuration.

4 and 7, side surfaces of the liquid inlet hole 50 and the liquid discharge hole 51 formed on the upper and lower fixing frames 30 and 31 of the double glass cell 100 are formed. The induction hole 60, 61 is configured by connecting to the T-shaped tube (40). That is, the liquid inlet hole 50 is formed in the vertical tube 41 of the T-shaped tube 40 to mount the sealing caps 80 and 81, and the induction holes 60 and 61 are provided in the horizontal tube 42. It is formed to mount the sealing cap (90, 91) and the other side pipe 42 'is configured to open the liquid 200 by connecting with the space 103 in the interior of the double glass cell (100).

 In addition, as shown in FIG. 8, an elbow type tube 40 'is connected to the liquid discharge hole 51 of the lower fixing frame 31 of the double glass cell, and an opening / closing valve is provided inside the one side tube 41'. 83), and the other side pipe (42 ') is configured to couple the drain hose cap (84).

In addition, the configuration of connecting the double glass cells to each other, the position of the upper and lower fixing frames (30, 31) are arranged as shown in Figure 10 when the vertical connection, and as shown in Figure 11 when the horizontal connection Double glass cells 100 and 100 'are used in combination.

At this time, the configuration for connecting the plurality of double glass cells 100, 100 'in a vertical and horizontal manner is as follows. The connection valve 70 is connected to the induction hole 61 of the lower fixing frame 31 of the double glass cell 100 and the induction hole 60 of the upper fixing frame 30 of the other double glass cell 100 '. The glass cells 100 and 100 ′ are configured to be vertically connected to each other.

In addition, the connection valve 70 is connected to the induction hole 60 formed in the upper fixing frame 30 of the double glass cell 100 and the upper fixing frame 30 of another double glass cell 100 ', or double The double glass cell 100 is connected by connecting a connection valve 70 to the induction hole 61 formed in the lower fixing frame 31 of the glass cell 100 and the lower fixing frame 31 of another double glass cell 100 ′, respectively. ) Is configured to connect 100 'horizontally.

And as shown in Figure 10, when the liquid is to be injected into the existing interior of the double glass or the double glass of the present invention. After drilling the aluminum (AL) wheeler 20 with a drill, the nut-shaped cap 110 is tightly installed in the hole using silicon or the like, and then the bolt 112 is fastened after the liquid is injected.

When removing the liquid 200 to remove the liquid by loosening the bolt 112 of the lower portion installed at the same time when the nut-shaped cap 110 is installed on the upper end.

Although the present invention having been described above has been described with reference to a limited number of embodiments, it is to be understood that the present invention is not limited thereto and that various changes and modifications may be made without departing from the spirit and scope of the present invention by those skilled in the art. Various modifications and variations are possible within the scope of the appended claims.

10. Outside transparent glass 11. Inside transparent glass
20. Aluminum Wheeler 30. Top Fixing Frame
31. Lower fixing frame 40. T-shaped tube
41.vertical pipe 42.horizontal pipe
50. Liquid inlet hole 51. Liquid outlet hole
60, 61. Guide hole 70. Connecting valve
80, 81, 90, 91. Sealed cap 83. Valve
84. Drain hose cap 100 ', 100. Double glass cell
101. Top surface 102. Step
103. Space 104. Side
111. Cutout 110. Nut type cap
112. Bolt 40 '. Elbow tube
41 '. One side 42 '. The other side

Claims (4)

The upper and lower fixing frames 30 and 31 of the triangle are formed on the edge surface of the outer transparent glass 10 so as to face each other diagonally and at the same time the upper surface 101 has a step 102 and an interior 103 formed therein. and,
Aluminum wheeler 20 and the upper and lower fixing frames 30, 31 and the horizontal connection with the upper surface 101 is formed on the edge to form a space of the double glass.
The edges of the upper and lower fixing frames 30 and 31 are cut out to form a cutout 111 formed in a triangle so that edges facing each other closely contact the step 102 formed on the upper surfaces of the upper and lower fixing frames 30 and 31. One double glass cell 100 including an inner transparent glass 11 formed to be in close contact with the upper surface of the 20,
A liquid inlet hole 50 formed in the inner surface of the upper fixing frame 30 to allow the liquid 200, which has a color, to flow into the inner space 103 of the upper fixing frame 30;
Sealing cap 80 for sealing the liquid inlet hole 50,
A liquid discharge hole 51 drilled on the inner surface of the lower fixing frame 31 so as to discharge the liquid from the inner space 103;
Apparatus for entering / exiting liquid having a color in the double glass which can block the light and heat of sunlight, characterized in that it comprises a sealing cap (81) for sealing the liquid discharge hole (51).
The method of claim 1,
The liquid inlet hole 50 and the induction hole 60 of the upper fixing frame 30 and the liquid discharge hole 51 and the induction hole 61 of the lower fixing frame 31 are connected to the T-shaped tube 40, or An elbow tube 40 'is attached to the liquid discharge hole 51, and the one side pipe 41' is formed to open and close the liquid discharge hole 51 by an on / off valve 83, and the other side pipe 42 '. There is a device for entering and entering the liquid having a color on the double glass that can block the light and heat of sunlight, characterized in that configured by combining the drain hose cap (84). The method of claim 1,
The upper fixing frame 30 and the lower fixing frame 31 formed on the edge surface of the double glass cell 100 vertically and horizontally formed, or guide holes of the lower fixing frame 31 of the double glass cell 100. By connecting the connection valve 70 to the induction hole 60 of the upper fixing frame 30 of the 61 and another double glass cell 100 ', the double glass cells 100 and 100' are perpendicular or horizontal to each other. A device for entering / exiting colored liquids into a double glass that can block solar light and heat, which is configured to be connected. The method according to claim 1 or 3,
The connecting valve 70 is connected to the induction hole 60 formed in the upper fixing frame 30 of the double glass cell 100 and the upper fixing frame 30 of another double glass cell 100 ', or double glass Double glass cell 100 by connecting a connection valve 70 to the induction hole 61 formed in the lower fixing frame 31 of the cell 100 and the lower fixing frame 31 of another double glass cell 100 ', respectively. A device for entering / exiting a liquid having color on a double glass that can block light and heat of sunlight, characterized by being configured to connect 100 'horizontally.

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