KR101629333B1

KR101629333B1 - Metal Reinforced Plastic Insulating Glass Spacer

Info

Publication number: KR101629333B1
Application number: KR1020160018345A
Authority: KR
Inventors: 차종익
Original assignee: (주)디컴
Priority date: 2016-02-17
Filing date: 2016-02-17
Publication date: 2016-06-13

Abstract

The metal reinforced plastic duplex glass insulated short bar according to the present invention is characterized in that the upper face of the double layered glass heat insulating bar is provided with a sealant rejection portion formed with a cutting edge portion recessed at a predetermined depth on both sides thereof, It is possible to prevent the moisture from being absorbed beforehand by blocking the contact with the air and to easily tear the moisture absorbent so that the moisture of the moisture absorbent and the inner moisture of the double layer glass can easily contact with each other.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a metal reinforced plastic insulated glass spacer,

More particularly, the present invention relates to a metal-reinforced plastic double-layered glass thermal insulation barb, and more particularly, to a metal-reinforced plastic double-layered glass thermal insulation barb that prevents the moisture absorbing agent provided therein from being in contact with outside air, Layered glass insulated short bar with a sealant recess formed on both sides of the upper surface of the double-layered glass heat insulating bar so that the inner moisture of the double-layer glass can easily be touched.

Generally, the multi-layered glass is formed to maintain a constant gap between the glass and the glass, so that it can be used for various purposes such as windows of buildings and general houses, buildings near the roads or airports, It is an appendix.

At this time, air or an inert gas is injected between the glass and the glass of the multilayer glass, and a spacer, i.e., a thermal insulation bar, is provided so as to seal and adhere the periphery thereof with an organic material and maintain a constant gap therebetween.

Japanese Patent No. 10-1182116 has been disclosed as a technical literature on such a conventional double-layered glass heat insulating barb.

As shown in FIGS. 1 and 2, the conventional double-layered glass heat insulating base rod has a cut-away portion 101 formed in the longitudinal direction at the center of the upper surface thereof, a space 102 for filling the moisture- A slope part 104 is formed on both sides of the lower part so as to ensure stable adhesion, and adhesive parts 105 are formed on both sides so as to be bonded to both glass plates, and the upper surface of the heat insulating short bar is closed on the upper surface, A metal material 106 for supplementing is provided.

However, the conventional double-layered glass heat insulating barb is manufactured by high-temperature extrusion fixing at the time of manufacturing, so that the cooling process after the extrusion process must be accompanied by the cooling water flowing through the cutout portion 101, There is a problem that the water-cooling process can not be performed.

In addition, since the conventional double-layered glass thermal insulation barb is seated between glass and glass, the silicon sealing operation is performed, and the material thereof is formed of synthetic resin, which may cause durability problems.

2, the conventional metallic reinforced plastic double-layered glass insulated base bar is formed by extruding a metal material 106 on the upper surface thereof in order to compensate for the rigidity of the heat insulating barb made of synthetic resin. However, There is a problem that the metal material 106 is separated from the plastic body when it is rolled and stored.

The present invention has been made to solve the above-mentioned problems of the prior art, and an object of the present invention is to provide a double-layered glass thermal insulation barb, which is provided with a sealant rejection portion formed on both sides of a double- When not in use, it prevents the moisture absorbing agent contained in the inside from coming into contact with outside air to prevent moisture absorption in advance, and when it is used, an external air contact blocking film which can easily be pulled out so that the moisture of the moisture absorbing agent and the inner moisture of the double- Reinforced plastic double-layered glass insulation bare bar.

In order to accomplish the above object, the present invention provides a double-layered glass thermal insulation bar for sealing a gap between glass and glass of a double-layer glass and maintaining a gap therebetween, A heat insulating main body in the shape of a square pipe having a shape space portion; A moisture absorbent filled in the space portion; A sealing part formed at a lower portion of the heat insulating main body and having silicone coated surfaces inclined at predetermined angles on both sides thereof; Adhesive portions provided on both sides of the heat insulating main body; Wherein the moisture absorber and the exterior are blocked on the top surface of the heat insulating barb main body when the heat insulating short bar is not used and the sealing agent is removed so that the moisture absorbent and the inner space of the two-layer glass are communicated when the heat insulating short bar is used; And both sides of the sealant rejection are formed with a cutting line recessed to a predetermined depth so that the user can easily grasp it.

The upper surface of the moisture absorber is provided with a plate-like rigid reinforcing metal to prevent the shape of the heat insulating main shaft body from being deformed.

And the inner surface of the rigid reinforcing metal is formed with an inflow hole at a predetermined interval so that the inner moisture of the multilayer glass is brought into contact with the moisture absorbent.

And a coated portion coated with a metal material is formed on the surface of the sealing portion to improve adhesion of silicon.

The surface of the coating portion is formed with a plurality of recessed portions recessed inward to improve adhesion of the silicon.

And a curvilinear incidence ring portion which is recessed inwardly so as to enlarge an adhesion area of silicon is formed on the inside of the sealing portion.

And the moisture absorbent is provided with a bending moisture absorbent having a flat plate shape bent many times so as to include an air layer in the space portion.

The heat insulating main body of the present invention is characterized in that the material thereof is formed of polyester.

As described above, the effect of the metal reinforced plastic double-layered glass thermal insulation barb according to the present invention is as follows.

First, the upper surface of the double-layered glass heat insulating base rod is provided with the sealant rejection portion formed with the cut-in portions recessed at predetermined depths on both sides thereof. Thus, when the double-layered glass heat insulating base rod is not used, the moisture absorbent provided therein is prevented from coming into contact with the outside air, In addition to preventing moisture absorption, the moisture absorbent can easily be torn away so that the moisture inside the double-layer glass can easily contact with it,

Second, since the reinforcing metal of flat plate shape is provided in the inside of the double-layered glass insulating barrel, the shape of the heat insulating bar is prevented from being deformed beforehand, and when the coil is wound in a roll form, It can be prevented from being released beforehand,

Thirdly, the coating part coated with a metal material is formed on the surface of the sealing part so as to improve the adhesion of the silicon, thereby significantly improving the adhesion to the silicon sealing work between the heat insulating base and the double-layer glass.

Fourthly, by forming a recessed ring portion which is recessed inwardly on the surface of the sealing portion, it is possible to securely adhere the sealing portion by preventing the escape of silicon,

Fifthly, by providing the flat sheet-shaped flexural moisture absorber in which the moisture absorbent is bent many times, an air layer is formed together with the moisture absorber to improve the moisture absorption effect, and the expensive moisture absorber can be saved.

1 is a perspective view showing a conventional double-layered glass heat insulating base rod,
2 is a sectional view showing a conventional double-layered glass heat insulating base rod,
FIG. 3 is a perspective view showing a double-layered glass heat insulating base rod according to the present invention,
4 is a cross-sectional view illustrating a double-layered glass space according to the present invention,
FIG. 5 is a use state diagram showing an embodiment according to the present invention,
6 is a perspective view of one side of the concavo-convex portion according to the present invention,
7 is a sectional view showing the incision ring portion of the present invention,
8 is a cross-sectional view showing the flexural moisture absorber of the present invention.

Hereinafter, an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIGS. 3 to 4, the metal-reinforced plastic double-glazing insulated low-pass bar according to the present invention is a double-layered glass heat insulating barb 1 that seals between glass and glass of a double- A heat insulating main body 10 having a square pipe shape and provided between the glass 2 and having a predetermined space 11 formed therein; A hygroscopic agent (20) filled in the space (11); A sealing part 30 formed at a lower portion of the heat insulating main body 10 and having silicone coated surfaces 31 inclined at predetermined angles on both sides thereof; (40) provided on both sides of the heat insulating main body (10); The moisture absorber 20 and the outside are blocked when the heat insulating short bar 1 is not used and the inside of the two-layer glass 2 is covered with the moisture absorbent 20 when the heat insulating short bar 1 is used. And a sealant rejection (50) for removing the space so as to communicate with each other.

At both sides of the sealant rejection 50, a cutting line 51 recessed at a predetermined depth is formed so that the user can easily grasp it.

Meanwhile, the heat insulating main body 10 is preferably made of a synthetic resin material so that the thermal conductivity is reduced, and the moisture absorber 20 is preferably formed of sponge, foamed foam or the like having a good water absorption rate.

A connection portion 52 having a predetermined thickness is formed on the lower portion of the cutting line 51 to connect the sealant 50 to the heat insulating main body 10 or to allow the user to tear it off with a minimum force desirable.

The upper surface of the moisture absorbent 20 is provided with a plate-like rigid reinforcing metal 60 to prevent the shape of the heat insulating main body 10 from being deformed.

On the other hand, the rigid reinforcing metal 60 is preferably made of stainless steel resistant to humidity.

The inflow hole 61 is formed at an inner surface of the rigid reinforcing metal 60 at a predetermined interval so that the moisture of the inside of the multilayer glass 2 is brought into contact with the moisture absorbent 20.

A coating portion 70 coated with a metal material is formed on the surface of the sealing portion 30 to improve the adhesion of the silicon (S).

Meanwhile, the thickness of the coating portion 70 is preferably 5 microns.

As shown in FIG. 6, the surface of the coating portion 70 is formed with a plurality of recessed portions 71 recessed inward to improve adhesion of the silicon (S).

On the other hand, it is preferable that the concave /

As shown in FIG. 7, a curved recess 32 is formed on the inner side of the sealing portion 30 so as to be widened inward so as to enlarge the adhesion area of the silicon (S).

On the other hand, it is also preferable that the incidence ring portion 32 is recessed in a curved outward polygonal shape.

As shown in FIG. 8, the moisture absorbent 20 is provided with a curved absorbent 20a having a flat plate shape that is bent many times so as to include an air layer in the space 11.

Meanwhile, the bendable moisture absorbent 20a is preferably bent into a polygonal shape in addition to being bent in a round shape.

The heat insulating main body 10 is made of polyester.

The operation of the metal reinforced plastic double-layered glass insulating barb according to the present invention having the above-described structure will be described below.

The metal-reinforced plastic double-glazed glass thermal insulation barb according to the present invention is a double-layered glass thermal insulation barrel (1) which is configured to seal between glass and glass of the glass-reinforced glass (2)

That is, the double-layered glass thermal insulation barrel 1 has a rectangular pipe-shaped heat insulation barrel main body 10 provided between the two-layered glass 2 and having a predetermined space 11 formed therein; And the moisture absorbent 20 is filled in the space portion 11 so that the humidity is brought into contact with the moisture absorbent 20 in the inside of the double layer glass 2 to form the inside of the double layer glass 2, It is possible to prevent it from occurring.

At this time, on the upper surface of the heat insulating main body 10, when the heat insulating short bar 1 is used, the moisture absorbent 20 and the inner space of the double glass glass 2 are connected to each other or when the heat insulating short bar 1 is not used, (20) and the sealant rejection (50) that is shielded from the outside, thereby preventing contact between the moisture absorber (20) and air during the non-use of the heat insulating short bar (1) It is possible to prevent moisture absorption of the moisture absorbent 20 in advance by the contact of the cooling water with the moisture absorbent 20.

On the other hand, since the cutting lines 51 are formed at both sides of the sealant rejection 50 at a predetermined depth, the moisture absorbent 20 is prevented from being generated due to the connection portions 52 having a minimum thickness at the lower portion of the cutting line 51. [ In addition to sealing the user with minimal force during use.

The upper surface of the moisture absorber 20 is provided with a plate-like rigid reinforcing metal 60 to prevent the shape of the heat insulating main body 10 from being deformed so that the heat insulating short bar 1 is wound in a roll form The rigid complementary metal 60 can be prevented from being displaced upward due to the inertia of the arc.

A coating portion 70 coated with a metal material is formed on the surface of the sealing portion 30 so as to improve adhesion of the silicon S and a plurality of recesses and protrusions 71 are formed on the surface of the coating portion 70, It is possible to remarkably improve the adhesion to the silicon sealing work between the barrel 1 and the multilayer glass 2.

The sealing portion 30 is formed on the surface of the sealing portion 30 so as to enlarge the bonding area of the silicon S and prevent the sealing portion 30 from being separated from the sealing portion 30, And the silicon (S) can be firmly adhered to each other.

The moisture absorbent 20 can be formed with the moisture absorbent 20 to improve the hygroscopic effect by forming the moisture absorbent 20 in the form of a flat plate bending moisture absorbent 20a having many bends.

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 in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

Description of the Related Art
S: Silicon 1: Insulated thin bar
2: double-layer glass 10:
11: space part 20: moisture absorbent
20a: bending absorbent 30: sealing part
31: silicone coating surface 32: incidence ring portion
40: Adhesive part 50: Sealant rejection
51: cutting line 52:
60: Stiffness complement metal 61: Inlet ball
70: coating part 71: concave /

Claims

In the double-layered glass heat insulating base bar (1) in which the space between the glass and the glass of the double-layered glass (2) is sealed and the interval is maintained,
A heat insulating main body 10 having a rectangular pipe shape and provided between the two-layer glass 2 and having a predetermined space 11 formed therein;
A hygroscopic agent (20) filled in the space (11);
A sealing part 30 formed at a lower portion of the heat insulating main body 10 and having silicone coated surfaces 31 inclined at predetermined angles on both sides thereof;
(40) provided on both sides of the heat insulating main body (10);
The moisture absorbent 20 and the outside are blocked when the heat insulating short bar 1 is not used and the inside of the two-layer glass 2 is covered with the moisture absorbent 20 when the heat insulating short bar 1 is used. And a sealant rejection (50) for removing the space so as to communicate therewith;
And a cutting line (51) formed at both sides of the sealant rejection (50) and recessed to a predetermined depth so that the user can easily grasp it.

The method according to claim 1,
Wherein the upper surface of the moisture absorber (20) is provided with a plate-like rigid reinforcing metal (60) to prevent the shape of the heat insulating main body (10) from being deformed.

3. The method of claim 2,
Wherein the inner surface of the rigid reinforcing filler metal (60) is formed with an inflow hole (61) at a predetermined interval so that the moisture of the inner surface of the glass-reinforced glass (2) is in contact with the moisture absorber (20) Bass.

The method according to claim 1,
Wherein a coating part (70) coated with a metal material is formed on the surface of the sealing part (30) so as to improve adhesion of silicone (S).

5. The method of claim 4,
Wherein the surface of the coating portion (70) is provided with a plurality of recessed portions (71) formed therein to improve the adhesion of the silicon (S).

The method according to claim 1,
Wherein the sealing part (30) is formed with a curved recess (32) which is recessed inwardly so as to enlarge an area of adhesion of the silicon (S).

The method according to claim 1,
Wherein the moisture absorbent (20) is provided with a bending moisture absorbent (20a) in the form of a flat plate bent many times so as to include an air layer in the space (11).

The method according to claim 1,
Wherein the heat insulating main body (10) is made of a polyester material.