KR20130027892A

KR20130027892A - Fluid circulation structure a space bar for pair glass

Info

Publication number: KR20130027892A
Application number: KR1020110091412A
Authority: KR
Inventors: 박일흥
Original assignee: 박일흥
Priority date: 2011-09-08
Filing date: 2011-09-08
Publication date: 2013-03-18

Abstract

PURPOSE: A prefabricated type space bar equipped with a fluid circulation structure and an insulated glass using the same are provided to favorably overcome glass temperature difference by forming a fluid passage in order to circulate fluid. CONSTITUTION: A prefabricated type space bar(100) comprises a space bar(110) and a corner joint unit(120). The space bar vacuously seals a space between glasses by assembling the corner joint unit with the space bar which is made of a synthetic resin material. The space bar is separately adhered between two tempered glasses by each end of the glasses. The corner joint unit comprises a fluid passage(123) and a nipple(122). The fluid is supplied into an insulated glass panel through a fluid hole; passes the fluid passage of a corner joint unit; and is discharged to the nipple. The insulated glass panel forms a prefabricated type space bar between the two tempered glasses for circulating the fluid.

Description

Ganbong with fluid circulation structure and multilayer glass panel using the same {fluid circulation structure a space bar for pair glass}

The present invention relates to a liver rod coupled between the glass of the multilayer glass panel to maintain a gap between the glass, and more particularly, to form a flow path through which the fluid is transferred into the interior of the liver rod that is coupled between two sheets of glass to form a multilayer oil panel. In addition, it is configured to circulate fluid inside the multi-layer glass panel, thereby maintaining and blocking the indoor and external temperatures respectively, including insulation against outside air, soundproofing, windproof, and dustproof, and indoor temperature regardless of season. It relates to a liver rod having a fluid circulation structure to uniformly form a more improved indoor environment and a multi-layer glass panel using the same.

In general, glass windows are used in the case of an interior window sill separating a veranda and a living room such as an apartment or a villa, an exterior window sill of the veranda, and an exterior door and an entrance door of a high-rise building. Various problems can be derived depending on the season. First of all, due to the nature of the glass window, it is not only very vulnerable to natural phenomena such as wind, hail, and heavy snow. Along with the hassle of performing cooling and heating, there was a problem that the maintenance costs caused by performing separate cooling and heating as described above significantly increased.

Therefore, in order to prevent the separate cooling and heating of the room due to the heat loss of the glass window to be carried out separately, double tempered glass panels (hereinafter, referred to as multilayer glass panels), that is, two sheets of tempered glass spaced apart from the internal space Forming a multi-layer glass panel consisting of one panel having a has been used in various ways, such as using as an external glass window of the building, or installing the windows in the form of sliding windows and sliding doors.

In order to manufacture such a multilayer glass panel, inserts a liver bar that can form a sealed state for vacuum on the upper, lower, left, and right sides between two sheets of tempered glass, and the liver bar has a gap between the two sheets of tempered glass. In addition to maintaining and vacuuming the space between the two glass panels, various components have been developed and used as an indispensable component in the multilayer glass panel for insulation and noise isolation. .

As a rod for a multilayer glass panel as described above, "Korean Patent Publication No. 10-0472039 (2005.02.03)" has been disclosed, which simplifies the process because the connection welding step and the cutting step can be omitted as compared to the conventional method of manufacturing the rod. And accordingly there is published a method of manufacturing a glass bar for reducing the production cost accordingly.

In addition, "Korean Patent Publication No. 10-0743921 (2007.07.24)" has been disclosed as a conventional liver rod, which is an insulating cap covering both sides and inclined surfaces and bottom or upper surfaces and both sides of a multilayer glass liver rod made of aluminum or an aluminum alloy. By providing a condensation can be prevented from occurring inside the double glass due to the temperature difference, it can prevent the water adhesion phenomenon generated from the liver bar of the metal material, the double layer that can seal the air from the outside by the structure of the insulating cap A glass stem is shown.

In addition, a conventional liver bar has been disclosed "Korean Patent Publication No. 10-2010-0047199 (2010.05.07)", which is an extrusion molding by optimizing the glass fiber or glass or silica component mixed with ABS resin to 20% or less There is a liver rod for multilayer glass that smoothes the rod to increase the extrusion speed and reduce the manufacturing cost.

In addition, conventional Korean Patent Application Publication No. 20-0226401 (2001.03.27) has been disclosed as a ganbong, which is a flexible synthetic resin that can be flexibly made of a gap retaining zone and a desiccant storage room therein. Perforated moisture absorption hole on one side to absorb moisture between the laminated glass. The gap retaining zone has flexibility, so the gap retaining hole for the laminated glass can be used not only for flat glass but also for curved glass. Published.

The conventional ganbong is combined to separate the space for thermal insulation between the two pieces of glass can be used to produce a two-layer glass panel having a predetermined interval, but such a double-layer glass panel using a single layer of glass window Even though the heat loss at the indoor temperature is small, the heat loss is generated from the glass window that is in direct contact with the outside air in the summer when the outdoor temperature is more than 30 degrees or in the winter below -10 degrees. There was a big problem such as the need to perform indoor cooling, heating.

In addition, when the conventional bar is made of aluminum, the thermal conductivity is high, so condensation occurs on the interior glass surface in winter, and heat loss through aluminum occupies a large proportion of the total heat loss of the multilayer glass. In addition, when manufacturing the rods made of synthetic resin, there was another problem that the manufacturing process was complicated and the production cost was increased accordingly.

The present invention is to solve the above problems, the space bar between the four sides of the upper, lower, left, right between the two pieces of tempered glass and at the same time to combine the corner connector to the corner of the space bar between the space between the glass It forms a prefabricated liver bar to close the vacuum, and forms a flow path through which the fluid is transferred into the interior of the liver bar, and circulates and supplies the fluid between the two glasses to maintain and block the inside and outside temperatures, respectively. The purpose of this invention is to provide a ganbong with a fluid circulation structure and a multi-layer glass panel using the same, which together with the windproof and dustproof action, form a room temperature uniformly regardless of the season to create an improved indoor environment.

In addition, the present invention is a fluid circulation structure to simplify the assembly and manufacturing process of the liver bar by forming the liver bar in a manner of easily assembling the space bar and the corner connector produced by manufacturing the space bar and the corner connector made of synthetic resin material Its purpose is to provide a liver rod and a multilayer glass panel using the same.

According to an aspect of the present invention,

In the ganbong which is installed between the tempered glass so as to bond the two sheets of tempered glass to maintain a predetermined interval to form an internal space between the tempered glass to form a multi-layer glass panel, the ganbong is placed between the two tempered glass Space bar adhered to the longitudinal direction of the lower, left, right end; A corner connector connected to each corner of both the upper and lower sides of the space bar to connect the space bar; It's done,

Two corner connectors on the upper and lower sides of the space bar of the corner connector are formed with a flow path to the inner center, and an outer side thereof provides a liver rod having a fluid circulation structure, wherein a nipple is formed to communicate with the flow path. .

According to the present invention, the space bar is coupled to each of the four upper, lower, left and right sides between the two pieces of tempered glass and at the same time the corner connector is coupled to the corner of the space bar to form a prefabricated ganbong sealing the space between the glass vacuum In addition, the flow path is formed to transfer the fluid into the interior of the liver rod, and the fluid is supplied between the two pieces of glass to maintain and block the interior and exterior temperature, respectively, including insulation to the outside air, soundproof, windproof, dustproof Regardless of the season, the indoor temperature is uniformly formed to create an improved indoor environment.

In addition, the space bar and the corner connector is made of a synthetic resin material, and as the liver bar is formed by simply assembling the manufactured space bar and the corner connector, the assembly and manufacturing process of the liver bar is simplified, thereby lowering the manufacturing cost.

1 is a perspective view of a liver rod having a fluid circulation structure according to the present invention.
Figure 2 is an exploded perspective view of a liver rod having a fluid circulation structure according to the present invention.
3 is a perspective view of a multilayer glass panel according to the present invention.
4 is a cross-sectional view of the multilayer glass panel according to the present invention.
5 to 6 is a state of use of the liver rod having a fluid circulation structure and a multilayer glass panel using the same according to the present invention.
7 to 9 is a state diagram of another embodiment of a liver rod having a fluid circulation structure according to the present invention.

With reference to the accompanying drawings, a liver rod having a fluid circulation structure and a multilayer glass panel using the same according to the present invention will be understood by the embodiments described in detail below.

1 to 2 are views illustrating a liver rod having a fluid circulation structure according to the present invention.

When briefly explaining the ganbong according to the present invention, the two sheets are coupled between the tempered glass 210, the tempered glass 210 to be bonded while maintaining a predetermined interval between the inner space (S) between the tempered glass (210) The liver bar 100 for forming the multilayer glass panel 200 includes a space bar 110 bonded to the longitudinal direction of the upper, lower, left, and right ends between two pieces of tempered glass 210; A corner connector 120 coupled to each corner of both the upper and lower sides of the space bar 110 to connect the space bar 110; Is made, the upper and lower two corner connector 120 of the space connector 110 of the corner connector 120 is formed with a flow path 123 therein, the outer one side is in communication with the flow path 123 Nipples 122 are formed.

Hereinafter, each component will be described in detail with reference to FIGS. 1 to 2.

First, the space bar 110 is bonded by an adhesive in the longitudinal direction between the upper, lower, left and right ends between the two pieces of tempered glass 210 to space the predetermined distance apart from the tempered glass 210, the space Bar 110 is a rectangular tubular shape is formed to correspond to the size and length of the tempered glass 210 made of synthetic resin material, can also be made of aluminum in some cases, the inner coupling hole 111 of the square length As the through-holes are formed in the direction, the corner connectors 120 are inserted into the coupling holes 111 to connect the respective space bars 110.

In this case, an adhesive groove 130 is formed on both outer sides of the space bar 110 to facilitate bonding with the tempered glass 210, and the adhesive groove 130 is formed on an outer surface of the space bar 110. Since it is formed to be concave, when the adhesive is applied to the outer both sides of the space bar 110, the friction surface between the tempered glass 210 and the adhesive is formed to be firmly bonded.

On the other hand, the corner connector 120 is coupled to each corner of the upper and lower sides of the space bar 110 before the space bar 110 is bonded to the tempered glass 210 to connect the space bar 110. By doing so, the corner connector 120 is formed of a synthetic resin material at a right angle to 90 degrees, can be made of an aluminum material in some cases, the coupling portion 121 to both sides of the corner connector 120 is the space bar 110 Correspondingly made so that the size and shape of the coupling hole 111 is the same as the coupling portion 121 is inserted into the coupling hole 111 by the corner connector 120 to the space bar 110 Each is fastened to connect the space bar 110.

At this time, the corner connector 120 connected to the upper and lower sides of the space bar 110 in the corner connector 120 is formed through the passage 123 which is a passage through which the fluid is moved, the corner connector 120 The outer one side of the nipples 122 are formed in the corner connector 120 to communicate with the flow path 123, the nipples 122 are formed integrally with the corner connector 120 or the nipples 122 are It is formed as a single body is selected by the user in a manner that couples the niphorn 122 to the corner connector (120).

On the other hand, when the connection hose (H) for supplying a fluid is coupled to the niphorn 122 to supply the fluid to the niphorn (122), the supplied fluid is transferred to the flow path 123 in communication with the niphorn (122) The fluid is discharged through the flow path 123, and the upper and lower two corner connectors 120 having the flow path 123 are formed as described above when the fluid is supplied from the lower corner connector 120. 120 is to have a fluid circulation structure to discharge the fluid supplied to.

At this time, the outer side of the corner connector 120, the adhesive groove 130 is formed to facilitate the adhesion to the tempered glass 210, the adhesive groove 130 is on the outer surface of the corner connector 120 When the adhesive is applied to the outer both sides of the corner connector 120 is formed so that the friction surface between the tempered glass 210 and the adhesive is formed to be firmly bonded, and the corner connector 120 and as described above By assembling the space bar 110, a prefabricated liver bar 100 is formed to vacuum-tighten spaced spaces while being spaced between two pieces of tempered glass 210.

3 to 4 are diagrams for explaining the multilayer glass panel according to the present invention.

In the schematic description of the multilayer glass panel according to the present invention, in the multilayer glass panel 200 in which an inner space S is formed between the tempered glass 210 by coupling the liver rod 100 between the two tempered glass 210. In addition, the multilayer glass panel 200 is spaced between the two, the tempered glass 210, the space bar 110, respectively bonded to the longitudinal direction of the top, bottom, left and right ends; The space bar 110 is coupled to each corner portion of both the upper and lower sides to connect the space bar 110, the flow path 123 is formed in the inner center, the outer side of the nipple communicating with the flow path 123 To corner connector 120 is formed (122); Ganbong made of 100 is coupled between the tempered glass (210).

Hereinafter, each component will be described in detail with reference to FIGS. 3 to 4.

First, the liver rod 100 is bonded to the upper, lower, left and right ends between the two pieces of tempered glass 210 to form an inner space S between the tempered glass 210 and at the same time to seal the inner space S. Since the liver rod 100 has been described in detail with reference to FIGS. 1 and 2, description of the detailed structure will be omitted.

On the other hand, a reinforcing frame 220 is coupled around the outer circumference of the liver rod 100 and the tempered glass 210 to prevent breakage of the edge surface of the tempered glass 210 and at the same time the liver rod 100 and the tempered glass ( To more firmly coupled 210, the reinforcement frame 220 is bent and formed to surround the outer circumference of the liver rod 100 and the tempered glass 210 of aluminum, and formed of a synthetic resin material as needed It can be manufactured by.

On the other hand, by connecting the liver bar 100 having the above structure, the multilayer glass panel 200 is the fluid through the flow path 123 of the lower one side corner connector 120 of the liver bar 100, the tempered glass 210 When supplied to the interior space (S) between the supplied fluid is supplied sequentially from the lower side of the interior space (S) is filled up, the fluid filling up into the interior space (S) as described above the upper one side corner of the liver rod (100) By having a fluid circulation structure that is discharged to the outside through the flow path 123 of the connector 120, and the sound insulation, windproof, dustproof action, including the insulation to the outside air, such as maintaining and blocking the indoor and external temperature respectively, Irrespective of the uniformity of the room temperature, it is possible to create an improved indoor environment.

On the other hand, Figures 5 to 6 is a view showing a state of use of the liver rod and the multilayer glass panel using the same with a fluid circulation structure according to the present invention.

First, FIG. 5 illustrates a state in which fluid is supplied through the liver rod 100 into the multilayer glass panel 200, and the lower one side corner connector 120 of the liver rod 100 into the multilayer glass panel 200. When the fluid is supplied through the connection hose (H) in the niphorn 122, the supplied fluid from the lower side into the inner space (S) of the multilayer glass panel 200 through the flow path 123 in communication with the niphorn (122) It will be supplied sequentially and filled up.

In this case, as a means for supplying a fluid, the applicant has previously filed "Application No. 10-2011-0046182 (2011.05.17) using windows and doors using a multilayer glass panel with a colorless and colorless fluid circulation structure." , The windows and doors using the multi-layer glass panel of the colorless fluid circulation structure transfer, supply and circulate oil and colorless fluids to the windows and doors through the antifreeze supply means (fluid supply means) to improve the thermal insulation effect of the windows and doors. As described above, the antifreeze supply means (fluid supply means) previously applied as described above may be coupled to the multilayer glass panel 200 of the present invention to supply and circulate fluid therein.

6, when the fluid is supplied to the interior space (S) of the multilayer glass panel 200 as described above, the fluid to the outside through the flow path 123 of the upper one-side corner connector 120 of the liver rod 100 When the fluid is sequentially discharged to the inner space (S) of the multilayer glass panel 200 to the upper side of the inner space (S), the flow path of the upper one-side corner connector 120 of the liver rod (100) The fluid supplied to the inner space S through the 123 is discharged to the outside,

At this time, the fluid discharged to the outside is discharged to the connection hose (H) through the niphorn 122 in communication with the flow path 123 is transferred to the fluid supply means (P) connected to the connection hose (H), the fluid The fluid transferred to the supply means (P) is again supplied to the lower one-side corner connector 120 of the liver rod 100 so that the fluid is circulated in the inner space (S) of the multilayer glass panel 200, and As described above, the transport amount of the fluid supplied and discharged into the inner space S of the multilayer glass panel 200 is equally supplied and discharged.

On the other hand, since the size of the multilayer glass panel 200 is produced and used in various ways when the size of the multilayer glass panel 200 increases beyond a certain range, the interior of the multilayer glass panel 200 in the liver rod 100. There is a difference between the amount of fluid supplied to the space S and the amount of transport of the fluid discharging the fluid in the internal space S. Accordingly, the amount of transport supplied to the internal space S is greater than the amount of fluid being discharged to the internal space S. Lower internal glass (S) of the multilayer glass panel 200 is expanded, and the phenomenon that the tempered glass 210 does not overcome the pressure of the expansion may be damaged.

Accordingly, in order to prevent breakage of the tempered glass 210 as described above, a plurality of reinforcing members 230 are provided between the two pieces of tempered glass 210, and the reinforcing members 230 are the width of the liver rod 100. As it is manufactured in the same way as to be firmly adhered to the contact surface of the tempered glass 210 by an adhesive serves to reinforce the tempered glass 210 is not expanded to the outside.

In this case, the reinforcing member 230 is made of a transparent material, or by forming the reinforcing member 230 in a variety of character shapes to increase the design aesthetics of the multilayer glass panel 200, or the reinforcing member 230 Formed with letters is an additional advantage that can produce an advertising effect through the multilayer glass panel 200.

On the other hand, Figures 7 to 9 is a state diagram of another embodiment of a liver rod having a fluid circulation structure according to the present invention.

First, Figure 7 shows various embodiments of the adhesive groove 130 formed on both sides of the outer space of the space bar 110 and the corner connector 120, the liver bar 100, (a), (b), (c) the adhesive groove 130 is formed to be indented into the outer surface of the space bar 110 and the corner connector 120 in a variety of forms so that the liver rod 100 is bonded between the two tempered glass 210 When showing the various embodiments of the adhesive groove 130 as a reference embodiment for increasing the friction of the adhesive surface through the adhesive material.

At this time, the reinforcing frame 220 for protecting the edge of the tempered glass 210 is coupled to the outer circumference of the liver rod 100 and the tempered glass 210.

And, Figure 8 is a state diagram of another embodiment of the liver bar having a fluid circulation structure according to the present invention, one of the space bar 110, one side of the space bar 110 bonded to the upper, lower side of the tempered glass 210 of the The two entrance and exit holes 112 are formed to communicate with the coupling hole 111, respectively, the upper and lower portions of the space bar 110 of the corner connector 120 in the two corner connector 120 inside the A flow path 123 is formed toward the coupling portion 121 of the corner connector 120 to communicate with the nipple 122 so that the fluid supplied through the nipple 122 is spaced through the flow path 123. Will be transferred to the coupling hole 111 side of.

At this time, the fluid transferred as described above is supplied to the inner space (S) of the multilayer glass panel 200 to the entry and exit hole 112 of the space bar 110 adhered to the lower side, and is supplied to the inner space (S) The fluid is circulated more smoothly through a series of processes discharged through the flow path 123, which is a corner connector 120, to the niphorn 122 through the entrance and exit hole 112 of the space bar 110 bonded to the upper side. It is.

On the other hand, Figure 9 shows a state in which the horn horn 122 formed on the outer side of the corner connector 120 is made of a single body coupled to one side of the corner connector 120, the horn horn 122 is threaded on one side This is formed is fastened to the outer side of the corner connector 120 in a spiral coupling method.

As described above. While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It will be understood by those skilled in the art that various changes, modifications, and alterations can be made by those skilled in the art.

100.Sanbong 110.Spacebar
111.Combination Holes 112.
120. Corner connector 121. Coupling part
122.Earhorn 123.Euro
200. Laminated Glass Panel 210. Tempered Glass
220.Reinforcement Frame H. Hose
P. Fluid supply means S. Internal space

Claims

Two sheets of tempered glass 210 are bonded to each other while maintaining a predetermined interval so as to form an inner space (S) between the tempered glass 210 is installed between the tempered glass 210 is fixed to the multilayer glass panel 200 In the liver bar 100 to form,
The liver rod 100 is a space bar 110, respectively bonded to the longitudinal direction of the upper, lower, left, right end between the two pieces of tempered glass 210;
A corner connector 120 coupled to each corner of both the upper and lower sides of the space bar 110 to connect the space bar 110; But
Two corner connectors 120 of the upper and lower sides of the space bar 110 of the corner connector 120 are formed with a flow path 123 at an inner center thereof, and an outer side of the corner connector 120 communicates with the flow path 123. A liver rod with a fluid circulation structure, characterized in that 122) is formed.

The method of claim 1,
Inside the space bar 110, the coupling hole 111 is formed in the longitudinal direction, and both sides of the corner connector 120, the coupling portion 121 is inserted into the coupling hole 111 is characterized in that the protrusion formed. Liver bar with fluid circulation structure.

The method of claim 1,
The horns 122 are formed integrally with the outer side of the corner connector 120, or only the horns 122 are made of a single body select the structure that the horns 122 are coupled to the corner connector 120 Liver rod with a fluid circulation structure, characterized in that.

The method of claim 2,
One side of the space bar 110, which is bonded to the upper, lower side of the space bar 110 has a fluid circulation structure characterized in that a plurality of inlet and outlet holes 112 are formed so as to communicate with the coupling hole 111, respectively. Liver bar.

The method of claim 2,
Two corner connectors 120 of the corner connector 120, the upper and lower portions of the space bar 110, the flow path toward the coupling portion 121 side of the corner connector 120 to communicate with the niphorn 122 inwardly Liver rod with a fluid circulation structure, characterized in that the (123) is formed.

The method of claim 1,
Ganbong with a fluid circulation structure, characterized in that the adhesive groove 130 is formed on the outer both sides of the space bar 110 and the corner connector 120 to easily adhere to the two pieces of tempered glass (210).

In the multi-layered glass panel 200 in which the interior bar (S) is formed between the tempered glass 210 is coupled between the two sheets of tempered glass 210,
The multilayer glass panel 200 includes a space bar 110 bonded to the longitudinal direction of the upper, lower, left, and right ends between the two pieces of tempered glass 210;
The space bar 110 is coupled to each corner portion of both the upper and lower sides to connect the space bar 110, the flow path 123 is formed in the inner center, the outer side of the nipple communicating with the flow path 123 To corner connector 120 is formed (122); Ganbong 100 made of a multi-layer glass panel, characterized in that the coupling is made between the tempered glass (210).

8. The method of claim 7,
Multilayer glass panel, characterized in that the reinforcing frame 220 for protecting the edge of the tempered glass 210 is further provided around the outer circumference of the liver rod 100 and the tempered glass 210.

8. The method of claim 7,
The multilayer glass panel 200 is a fluid from the lower side of the inner space (S) through the flow path 123 of the lower corner connector 120 of the two corner connector 120 of the upper and lower side of the space bar 110 When sequentially supplied and filled, the multi-layered glass panel, characterized in that the fluid supplied through the flow path 123 of the upper corner connector 120 is discharged to the outside.

8. The method of claim 7,
Laminated glass panel, characterized in that a plurality of reinforcing member 230 is further provided between the two pieces of tempered glass (210).