KR101137228B1 - Apparatus reinforce glass for building outer wall - Google Patents

Abstract

The present invention relates to a glass reinforcement device for building exterior walls.
The present invention disclosed in the multi-layered glass for building outer wall which is sandwiched between the inner and outer glass in the support beam having a left, right flange and web; First and second flange blocks protruding from the left and right flange inner surfaces of the support beam to form front and rear guide spaces together with the front and rear surfaces of the web; A bracket fixed to the building structure with a horizontal strip and a vertical strip; A spacer element that is horizontally coupled to the horizontal strip and vertically coupled to the rear guide space of the support beam to disperse external forces concentrated on the glass and to adjust the distance to the building structure from the inner and outer glass; And a glass detachment preventing member coupled to the front guide space of the support beam so as to be vertically movable and closely adhered to a surface of an adjacent outer glass to prevent the glass from being separated by a negative pressure.
Accordingly, the external force concentrated on the glass is distributed to the building structure through the spacer element and the bracket to prevent the glass from being broken due to breakage and negative pressure of the glass, and also to the curved surface of the wall or the flat surface of the building structure and The distance can be adjusted according to the height, so that the glass and the building structure are kept tight.

Description

Apparatus reinforce glass for building outer wall}

The present invention relates to a glass reinforcing device for building exterior walls for protecting single-layer glass or multi-layered glass installed for exterior walls of commercial or residential buildings, for example, from external forces, and more specifically for building exterior walls, for each section. In single-layered or multi-layered glass continuously installed up, down, left, and right by a "H" shaped cross-section support beam, the static pressure is provided in the weak section of the glass and is concentrated on the glass, with the support beam being fixed. It prevents the breakage of glass which can be generated by external force such as negative pressure and corner zone and the detachment of glass which can be generated under the pressure lower than atmospheric pressure, and prevents the flat surface, height and wall of building structure. Regardless of the surface of the bend, the glass reinforcement device for exterior walls of the building that can protect and secure the glass to the building structure. It is.

In general, the glass as an exterior material for the exterior wall of the building, due to its transparency, secures the view of the indoor occupants to give a sense of openness and improves the light of the building.

In addition, the high smoothness provides a beautiful appearance to the building with a clean image without distortion. The importance and the use area of glass as exterior materials for exterior walls of buildings are continuously increasing. In addition, since the strength is high and the external environment such as rainwater and wind can be blocked relatively lightly, it occupies an important position as an exterior building material for a high-rise building, and thus, the glass portion of the modern building material is greatly increasing due to various advantages.

In recent years, single or multi-layer glass walls, which are installed in partitions without supporting loads on the exterior walls of buildings, have an aesthetic appearance, such as indoor lighting by solar light, outdoor network function and blocking of feng shui, sound insulation, heat insulation, light, etc. This is a trend that has been applied to a lot of excellent.

As for the multilayer glass wall surface used for the exterior wall of such a building, upper and lower frames are provided in the opening part of the building wall formed in the rectangle. In addition, a plurality of support beams having an "H" cross-sectional shape are vertically installed by the angle at the upper and lower frames at a predetermined distance from each other.

On the other hand, the front and rear of the plurality of support beams are fixed up, down, left and right continuously in a state facing each other at a predetermined interval so that the outer glass and the inner glass of the "U" cross-section type having a wing piece on both sides to form a double layer. .

At this time, an impact absorbing silicone sealant is injected between the adjacent outer glass and the wing pieces of the inner glasses to fasten and fix the support beam and the glasses to each other, whereby the plurality of inner glass and outer glass It is prevented from being damaged or detached from the impact by external force.

However, such a conventional laminated glass wall surface is not only a slight shaking of the glass in the upper and lower frames on the windy day, such as during the rainy season during the typhoon to generate noise, but also severely adjacent to the inner and outer glass Due to the vibration caused by the vibrations do not correspond to each other or to change the temperature changes according to the season, there was a problem that the glass does not maintain the circular shape due to shrinkage and expansion of the multilayer glass.

Therefore, recently, in order to supplement the above problems, the shock absorbing member is inserted into the window frame to absorb and protect the shock caused by strong winds, or exclude the shock absorbing silicone sealant, and only the fixing member of the bolt and the synthetic resin Techniques for protecting and using them have been proposed and installed. As an example, Korean Patent No. 730901 (Building Window Reinforcement System) and Korean Utility Model No. 267578 (Fixing member and installation structure of multilayer glass for building exterior wall) Is disclosed in.

In the aforementioned Patent No. 730901, the impact on the window frame member installed on the inner circumferential surface of the shock absorbing member is inserted into an inner circumferential surface of the window frame mounting hole formed on the wall to insert an impact absorber capable of absorbing external shocks. Minimization, of course, can be fixed without shaking, and is installed in the window frame through a plurality of fixing rods fixed in a diagonal direction to the plurality of coupling holes formed in the upper, lower center and left, right center of the window frame member By fixing the window frame member, it is possible to firmly fix the window frame without shaking even if a severe impact such as an earthquake acts on the wall.

On the other hand, in the Republic of Korea Utility Model No. 247578, between the frame contact portion made of a flat plate of a certain shape so as to interview the front surface of the frame, and between the flat plate of the same shape in the center or the end portion of the flat plate facing and fixed oppositely The outer end inserting portion into which the outer end portion of the inner glass is inserted into the recessed portion of the inner surface, the inner end contact portion in which the inner end portion of the outer glass contacts the outer surface of the opposingly fixed flat plate, and the front and rear sides of the flat plate which is connected with the connecting plate. The cross-sectional shape consisting of the fastening portion penetrating a plurality of bolt holes at intervals corresponding to the bolt holes formed in the "H" shape or "c" shape made of synthetic resin straight, ten cross, T-shape, L-shape, etc. By fixing the laminated glass to the wall as a medium, not only the construction work is easy but also the laminated glass is deformed according to the change of season after construction, which impairs the aesthetics of the building. It is characterized by being able to prevent that.

However, in the aforementioned Patent No. 730901, since there is no separate fixing means for evenly dispersing external forces such as static pressure, negative pressure, corner zone, etc. concentrated on the glass to the building structure to prevent breakage of the glass. In strong winds, there is a risk of vibrating the glass adjacent to each other by external force concentrated on the glass, in particular negative pressure and corner zone, or even causing the laminated glass to be separated from the window frame or the fixing member by the negative pressure.

Therefore, when the glass is to be fixed to the wall of the building, not only has the problem of installing the glass to be limited to the minimum height, but also structurally complicated, high cost is required, and due to the complexity of the structure There are many difficulties.

In addition, in the latter registered utility model No. 247578, the external force concentrated in the multilayer glass is distributed to the building structure through the fixing member and the plurality of rectangular frames, which may have an advantage of protecting the glass to some extent. Fixing member for fixing the multi-layer glass is fixed to the building structure through the rectangular frame uniformly, there is an uneconomical aspect to be installed in the building structure with a lot of fixing members and square frame per unit area.

In addition, by fixing the multilayer glass, the fixing member and the square frame with a plurality of bolts, it is impossible to adjust the distance and height of the multilayer glass with respect to the building structure, whereby the fixing member and the square frame are not fixed to each other in an airtight manner and the wall Depending on the curved surface of the building or the height and level of the flat surface of the building may be spaced apart from each other, this causes the ability to disperse the external force in this area when the external force, such as static pressure, negative pressure corner zone, etc. occurs, eventually the glass There is a problem that the glass breaks or even breaks out.

Accordingly, the present invention was devised under the above-mentioned background, and an object of the present invention is to distribute external forces such as static pressure, negative pressure, corner zone, etc. concentrated in glass evenly to a building structure to prevent breakage of glass under harsh environment and to standard glass. It is to provide a glass reinforcement device for building exterior walls so that it can be installed by setting the height as high as possible, this building glass wall reinforcement device is a plurality of support beams installed vertically at a certain distance to the upper and lower frames, This is achieved by mounting a spacer element orthogonally fitted to the support beam and fixing it to the building structure through a bracket, which is vertically coupled to fit the height so as to cope with height and distributes the external force concentrated on the glass to the building structure.

Another object of the present invention is to allow the distance between the building structure and the glass to be adjusted, so that the glass is hermetically fixed to the building structure irrespective of the degree of the curved surface of the already constructed wall or the flat surface of the building structure. It provides a glass reinforcement device, the glass reinforcement device for the outer wall of the building, the sling to be able to adjust the distance to the bracket fixed to the structure and the spacer element coupled to the support beam vertically movable regardless of the height of the building structure. This is accomplished by forming a hole and joining it with a bolt.

Still another object of the present invention is to provide a glass reinforcement device for building exterior walls, which prevents the escape of the glass to the outside that may be generated under a negative pressure concentrated on the glass, that is, a pressure lower than the atmospheric pressure. The glass reinforcing device for the outer wall of the building has a glass detachment preventing member which is fitted into the support beam so as to be movable vertically to the support beam facing the spacer element after the glass is mounted so as to hold the adjacent outer glass to be in close contact with the support beam. It is achieved by installing orthogonal to the support.

Other objects of the present invention will become more apparent from the following detailed description and the accompanying drawings.

According to the glass reinforcement device for the building exterior wall according to the present invention for achieving the above objects, the "H" shaped cross-section support beam having a left, right flange and web on the upper and lower frames installed on the wall of the building vertically A multi-layered glass for building exterior walls, which is fixed and fitted with a plurality of inner glass and outer glass facing each other in the support beam and then filled with a silicone sealant; Continuously protruding along the longitudinal direction to face the inner surface of the left and right flanges, while maintaining parallel to the front and rear surfaces of the web, respectively, to form a guide space with the front and rear surfaces of the web, respectively. First and second flange blocks; A bracket fixed to the building structure having a horizontal strip having a pair of slot holes and a vertical strip formed orthogonal to an end of the horizontal strip; The surface contact is coupled to the horizontal strip of the bracket so as to move horizontally, and is coupled to the rear guide space formed by the rear of the web and the first flange block to be vertically movable to disperse external force concentrated on the glass. A spacer element that controls and secures a distance between the building structure and the inner and outer glass; And a glass separation preventing member coupled to the front guide space formed by the front surface of the web and the front guide space formed by the second flange block so as to be movable vertically and in close contact with the surface of the adjacent outer glass to prevent the glass from being separated by negative pressure. ; Characterized by including.

Optionally, the spacer element comprises a first horizontal flange having a pair of slot holes and a rear surface of the web orthogonal to the first horizontal flange such that the spacer element is horizontally contacted and coupled to the horizontal strip of the bracket. It is characterized in that it is made of a "T" cross-sectional shape having a first vertical web inserted into the rear guide space formed by the one flange block to move vertically.

Optionally, the glass detachment preventing member comprises: a second vertical web inserted vertically into a front guide space formed by the front surface of the web and the second flange block; A second horizontal flange formed at right angles with the second vertical web so as to have a “T” cross-sectional shape and having a long width groove recessed downward; And a separation prevention plate having a long width fastening groove recessed upwardly in the center and cross-coupled so that there is no flow in the long width groove of the second horizontal flange to be in close contact with the surface of the adjacent outer glass. It characterized by including.

Optionally, the first horizontal flange of the spacer element and the second horizontal flange of the glass release preventing member are interposed between the adjacent inner glass and the wing pieces of the outer glass, respectively, and are in surface contact.

As such, the spacer element is coupled to the support beam and the bracket so as to be movable vertically and horizontally, respectively, and the glass release preventing member is coupled to the support beam so as to be vertically movable to closely support the glass, thereby concentrating external force concentrated on the glass. The spacer elements and brackets are dispersed into the building structure to prevent breakage of the glass as well as to prevent the glass from being released under a pressure lower than atmospheric pressure by the glass release preventing member. In addition, the glass and the building structure are hermetically fixed regardless of the curved surface of the wall or the height or flat surface of the building structure, and the external force can be dispersed.

According to the glass reinforcing device for the building exterior wall of the present invention, by distributing external forces such as static pressure, negative pressure, corner zone, etc. concentrated in the glass evenly to the building structure, not only to prevent the glass from being damaged by the external force but also to reduce the atmospheric pressure. Since the detachment of the glass, which may occur under low pressure, is prevented in advance, and the distance from the wall to the glass can be freely adjusted according to the curved surface of the already constructed wall or the height or flatness of the building structure. By fixing the glass tightly to the building structure, the external force can be completely dispersed, in particular, by improving the structural strength of the support beam, it is possible to set the standard of the glass as high as possible, can be installed.

1 is a cross-sectional view of the wall glass constructed using a glass reinforcement device for building exterior walls according to the present invention,
2 is a plan view taken along line AA of FIG. 1,
3 is a plan view taken along line BB of FIG. 1,
4 is an exploded perspective view of a glass reinforcing device for a building exterior wall according to the present invention;
5 is a perspective view of the combination of the glass reinforcing device for the building exterior wall of FIG.

Hereinafter, with reference to the accompanying drawings it will be described in detail a preferred embodiment of the glass reinforcing device for a building exterior wall according to the present invention.

1 is a cross-sectional view of the wall glass constructed using the glass reinforcement device for the building exterior wall according to the present invention, Figure 2 is a plan view taken along the line AA of Figure 1, Figure 3 is a plan view taken along the line BB of Figure 1 to be.

As shown in FIGS. 1 to 3, the glass reinforcing device for building exterior walls according to the present embodiment is supported on the upper and lower frames 60 installed on the wall of the building at a predetermined distance from each other in a vertical downward direction. And the "L-shaped cross-section angle 65 which fixes the support beam 10 to the upper and lower frames 60 through the bolt 65a, and is adjacent to the support beam 10, and absorbs shock. Inner and outer glass 40 and 45 fixed by the filling of the member 70 and the silicone sealant 75, a bracket 20 fixed to the building structure 50, and horizontal movement to the bracket 20. It is coupled to the surface contact so as to be able to be coupled to the support beam 10 so as to be vertically movable to disperse the external force concentrated on the inner glass (40, 45), as well as to the building structure 50, The spacer element 30, which adjusts the distance to the outer glass 40, 45, and the support beam 10 can be moved vertically. Is a combination of the lock fitted to combine the alignment and is in close contact with the outer surface of the glass 45 adjacent to prevent separation of the outer glass 45 by the negative pressure glass departure prevention member 55.

At this time, the support beam 10 is made of a material that is not rusted by moisture or water and excellent in durability, for example, metal such as stainless steel or aluminum, and the left and right flanges (12) (12a) and the web (14) It is manufactured in the shape of "H" cross section to have.

As shown in FIG. 4, the left and right flanges 12 and 12a of the support beam 10 are parallel to the front and rear surfaces of the web 14 at regular intervals, respectively, along the longitudinal direction thereof. A first flange block 16, 16a and a second flange block 18, 18a are formed to continuously project inwardly to form the front and rear guide spaces together with the front and rear surfaces of the web 14, respectively. Here, the first and second flange blocks 16, 16a, 18 and 18a have the same length and maintain parallel state.

On the other hand, the spacer element 30 is fitted in the rear guide space formed by the first flange blocks 16, 16a of the support beam 10 and the rear surface of the web 14 so that the spacer element 30 can be moved up and down, that is, vertically moved. The glass separation preventing member 55 is coupled to a front guide space formed by the front surface of the web 14 and the second flange blocks 18 and 18a of the support beam 10.

The spacer element 30 is made of, for example, the same material as that of the support 10, and is manufactured in the shape of a “T” cross section. The spacer element 30 having a “T” cross-sectional shape has a first horizontal flange 34 having a pair of slot holes 34a and a first horizontal flange 34 to be in surface contact with the bracket 20 as shown in FIG. 4. Orthogonal to the horizontal flange 34 is inserted into the rear guide space formed by the web 14 and the first flange blocks 16, 16a to vertically move up and down along the first flange blocks 16, 16a. The first vertical web 32 is provided.

As such, the first vertical web 32 of the spacer element 30 fits into the rear guide space formed by the web 14 of the support 10 and the first flange blocks 16, 16a. 30 is stably coupled without flowing left and right with respect to the support beam 10, and the first vertical web 32 is in surface contact with the first flange blocks 16 and 16a. Up and down movement is freely along the guide space.

On the other hand, the bracket 20 described above has an overall "T" cross-sectional shape.

This "T" cross section bracket 20 is provided with a horizontal strip 22 having a pair of slot holes 22a and a vertical strip 24 formed orthogonal to an end of the horizontal strip 22. .

When the bracket 20 is to be coupled to the building structure 50 having the spacer element 30 and the rectangular cross-sectional shape, the plurality of bolts in the state in which the above-described vertical strip 24 is in contact with the building structure 50. 26) and fix it. And the horizontal strip 22 formed orthogonal to the vertical strip 24 is in surface contact with the first horizontal flange 34 of the spacer element 30 and then bolts 36 and nuts 38 and washers 36a. In this case, the slot holes 34a of the first horizontal flange 34 and the slot holes 22a of the horizontal strip 22 are matched to each other, and then a pair of bolts 36 are fitted thereto. The union is achieved by tightening (38).

On the other hand, the above-described inner glass 40 and the outer glass 45 has the blade pieces (40a, 40b, 45a, 45b) bent at both ends. In order to install the inner glass 40 and the outer glass 45 between the left and right flanges 12, 12a formed on the support beam 10, first, a plurality of inner glass 40 and outer glass The left and right flanges 12 and 12a of the support beam 10 having the cross-sectional shape of the "H" shape after the 40 faces each other and then their wing pieces 40a, 40b and 45a and 45b. ) To fit together. At this time, the wing pieces 40a and 40b of the inner glass 40 are installed in surface contact with the first horizontal flange 34 of the spacer element 30 inserted in the rear guide space therebetween.

In this way, when the installation of the plurality of inner glass 40 and the outer glass 45 is completed, the above-mentioned glass separation prevention in the front guide space formed by the front surface of the web 14 and the second flange blocks 18, 18a. The member 55 is fitted to prevent the outer glass 45 from being separated by the negative pressure.

The glass detachment preventing member 55 is implemented by, for example, the same material as the support beam 10 is manufactured.

The glass detachment preventing member 55 is vertically inserted into the front guide space formed by the front surface of the web 14 formed in the support beam 10 and the second flange blocks 18 and 18a as shown in FIG. 4. A second vertical web 56 and a second wide web 57 formed at right angles with the second vertical web 56 to have a “T” cross-sectional shape and recessed vertically downward at an end thereof. The horizontal flange 57 and the long width fastening groove 58a vertically recessed in the lower center and cross-joined so that the long width groove 57a of the second horizontal flange 57 is free from flow of adjacent outer glass 45 It consists of a combination of the thin-walled plate separation prevention plate 58 in close contact with the surface.

In order to prevent the separation of the outer glass 45 by the external pressure, in particular negative pressure, by using the glass separation preventing member 55 made in this way, first, the web 14 and the second flange block of the support beam 10 The second vertical web 56 is inserted into the front guide space formed by (18) and 18a. At this time, as shown in FIG. 5, the second horizontal flange 57 is in surface contact with the wing pieces 45a and 45b of the adjacent outer glass 45, and its long width groove 57a is interposed between the outer glass 45. By protruding to the surface of the glass separation preventing member 55 does not flow left and right with respect to the support beam 10 is not only stably coupled but also the second vertical web 56 and the second horizontal flange (57) While the surface contact with the second flange block (18) (18a) and the blade pieces (45a) (45b), it is free to move up and down along the front guide space.

Thereafter, the second horizontal flange 57 of the glass detachment preventing member 55 is moved vertically upward or vertically downward with respect to the support beam 10 to be set at a desired position, that is, a desired height, and then the separation prevention plate ( When the long width fastening groove 58a of 58 is inserted into the long width groove 57a of the second horizontal flange 57, the second vertical web 56, the second horizontal flange 57, and the release preventing plate 58 are interposed. In addition to maintaining stability by forming this one "H" cross-sectional shape, the departure preventing plate 58 of the glass escape preventing member 55 having this "H" cross-sectional shape is left with respect to the second horizontal flange 57. As shown in FIG. 5, without being flowed in the right direction, the outer glass 45 is prevented from being separated by negative pressure by being in close contact with the surface of the outer glass 45 in a stable bonding state. Of course, the above-described inner glass 40 also has its wing pieces 40a and 40b in close contact with the first flange blocks 16 and 16a of the support beam 10 so that no deviation from negative pressure occurs. do. Here, it is preferable to minimize the friction between the metal and the glass by interposing an impact absorbing member, such as silicon, not shown in the figure between the above-described release preventing plate 58 and the surface of the outer glass 45 which is in contact with the surface. .

Then, in this way, when the installation of the inner and outer glass 40, 45, the spacer element 30, and the glass separation prevention member 55 is completed, the left and right flanges 12 and 12a of the support beam 10 are completed. A shock absorbing member 70, such as a silicone sealant for absorbing shock, is filled from the top to the bottom of the support beam 10, as shown in FIG. 2, and between the inner glass 40 and the outer glass 45. Fill the silicone sealant 75 for waterproofing and finish.

In the above state, when external forces such as positive pressure, negative pressure and corner zone are concentrated on the inner and outer glass 40 and 45, the external force is applied to the support beam 10, the spacer element 30, and the bracket 20. By being sequentially transmitted and distributed to the building structure 50, breakage of the glass due to external force is prevented, and in particular, when negative pressure is concentrated, as described above, the outer glass 45 is prevented by the glass release prevention part 55. Departure is prevented.

In addition, to adjust the distance from the building structure 50 according to the curved surface of the wall or the height of the building structure 50 or the level of the flat structure already secured to the inner and outer glass (40, 45) to be airtightly fixed. First, when the first horizontal flange 34 formed in the above-described spacer element 30 is moved vertically or vertically downward, the first vertical web 32 of the spacer element 30 is the web 14 and the first. The height is adjusted with respect to the building structure 50 by moving vertically upward or vertically along the rear guide space formed by the flange blocks 16 and 16a.

After the height adjustment, the slot holes 34a of the first horizontal flange 34 formed in the spacer element 30 and the slot holes 22a of the horizontal strip 22 formed in the briquette 20 are used. When the spacer element 30 is properly moved in the horizontal direction with respect to the bracket 20, the first horizontal flange 34 of the spacer element 30 is brought into surface contact with the horizontal strip 22 of the bracket 20. By moving the bolts 36 in the forward and backward directions, the inner and outer glass 40 and 45 are moved regardless of the curved surface of the constructed wall or the height or flatness of the building structure 50. It is secured to the airtight at 50 and the external force can be dispersed.

On the other hand, as a comparative example, the conventional technique, that is, the fixing member holding the multilayer glass is fixed to the building structure through the square frame uniformly, so that many fixing members and the square frame must be used per unit area. Unlike the member and the square frame are installed in space apart from each other without being airtightly fixed according to the degree of bending of the wall, the present invention distributes the external force concentrated on the glass to the building structure and controls the distance between the building structure and the glass. It can be seen that the spacer element and the glass escape prevention member are respectively coupled to the support beam in a vertically movable manner.

In this result, according to the present invention, by dispersing the external force such as static pressure, negative pressure, corner zone, etc. concentrated on the glass evenly to the building structure, the glass is not only prevented from breaking, but also the glass can be released under pressure lower than atmospheric pressure. The distance between the glass and the building structure can be completely dispersed by controlling the distance between the glass structure and the building surface, regardless of the level of the curved surface of the wall or the flat surface of the building structure.

In addition, although specific embodiments of the present invention have been described and illustrated above, it is obvious that the present invention may be variously modified and implemented by those skilled in the art.

Such modified embodiments should not be individually understood from the technical spirit or the prospect of the present invention, and such modified embodiments should fall within the appended claims of the present invention.

10: support beam 12, 12a: left and right flange
14 web 16, 16a first flange block
18, 18a: second flange block 20: bracket
22: horizontal strip 24: vertical strip
30 spacer element 32 first vertical web
34: first horizontal flange 34a: slot hole
40, 45: inner and outer glass 50: building structure
55: glass separation prevention member 56: second vertical web
57: second horizontal flange 58: separation prevention plate

Claims (4)

The "H" cross-section support beams having left and right flanges and webs on the upper and lower frames installed on the walls of the building are vertically fixed, and the support beams are fitted with a plurality of inner and outer glass facing each other. In the laminated glass for building exterior walls filled with silicone sealant;
(1) are continuously projected along the longitudinal direction of the web to face the inner surface of the left and right flanges while being parallel to the front and rear surfaces of the web at predetermined intervals, respectively, to guide the front and rear surfaces of the web, respectively. First and second flange blocks forming a space;
(2) a bracket fixed to the building structure having a horizontal strip having a pair of slot holes and a vertical strip formed orthogonal to an end of the horizontal strip;
(3) coupled to the horizontal strip of the bracket so as to be horizontally moved and coupled to the rear guide space formed by the rear flange of the web and the first flange block so as to be movable vertically to the external strip that is concentrated on the glass A spacer element for dispersing and controlling the distance between the building structure and the inner and outer glass to be hermetically fixed; And
(4) a glass detachment coupled to the front guide space formed by the front face of the web and the front guide space formed by the second flange block so as to be movable vertically and in close contact with the surfaces of the adjacent outer glasses to prevent detachment of the glass due to negative pressure; Prevention member; Glass reinforcing device for a building exterior wall, comprising the.
The method according to claim 1,
The spacer element is
A first horizontal flange having a pair of slot holes and a rear guide formed at the rear of the web and the first flange block perpendicular to the first horizontal flange so as to be horizontally contacted and coupled to the horizontal strip of the bracket; Glass reinforcement device for building exterior wall, characterized in that the "T" shaped cross-section having a first vertical web inserted into the space to move vertically.
The method according to claim 2,
The glass separation prevention member,
A second vertical web inserted vertically into a front guide space formed by the front surface of the web and the second flange block;
A second horizontal flange formed with the second vertical web so as to have a "T" cross-sectional shape at right angles in the center thereof, and a long width groove recessed at an end thereof in a vertical downward direction; And
An anti-separation plate having a long width fastening groove recessed vertically in the lower center and cross-coupled so as not to flow in the long width groove of the second horizontal flange so as to be in close contact with surfaces of the adjacent outer glass; Glass reinforcing device for a building outer wall, characterized in that it comprises a.
The method according to claim 2 or 3,
And the first horizontal flange of the spacer element and the second horizontal flange of the glass detachment preventing member are interposed between the adjacent inner glass and the wing pieces of the outer glass to be in surface contact with each other.

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