KR102322744B1 - A panel assembly - Google Patents

Abstract

The present invention relates to a panel assembly adapted to absorb a blast shock. The panel assembly includes a panel adapted to be displaceably mounted to a frame, and a stretchable connection assembly adapted to be connectable to the frame for mounting the panel to the frame and extending from the panel, the extensible connection assembly comprising: adapted to elongate in a controlled manner in a longitudinal direction, the stretchable connection assembly comprising a control connected to the panel and a connection adapted to be connectable to the frame, the connection being slidably coupled to the control; The control is adapted to control the elongation of the connection from the control and is adapted to elongate in a controlled manner to control movement of the panel when the extensible connection assembly is subjected to a blast impact.

Description

Panel assembly {A PANEL ASSEMBLY}

The present invention relates to a panel assembly, for example a panel assembly for a building or building façade.

More and more modern buildings built in recent decades use panels as the cladding panels represent the appearance of the building of the time. In addition, the use of panels can speed up the completion of the building. The panel may be made of a material such as metal, glass, or the like.

However, buildings of this design can be easily affected by explosive forces, and their panels can be damaged and even cause damage to the occupants of the building. A glass panel may shatter under the impact of an explosive force and fragments or shattered pieces of the glass panel may destroy property and/or injure or kill a person near the glass panel. In recent years, there have been many instances where explosives are deliberately detonated to harm innocent people, such as by detonating a bomb.

With the development of technology, the intensity of such explosive power is increasing. Buildings and their façades may be subject to an increasing number of explosive impacts. Typically, to counter higher explosive detonation strength, the detonation load capacity of the structure must be increased. However, practical limitations of the building structure exist, limiting the capacity of the building to absorb high blast loads.

There have been numerous devices designed to absorb the impact of explosives on building panels. However, many of these devices are bulky and difficult to install. As such, panels with such devices can affect the facade of a building. The difficulty of installing the panels may result in the use of large equipment for installation of devices and panels in buildings.

Furthermore, the devices are not each adapted to the range of blast loads that can be absorbed by the device. Typically, to accommodate different levels of explosive load, a plurality of devices must be manufactured, each having a different blast load capacity. As such, it is expensive to manufacture and store a plurality of devices.

The present invention aims to overcome or reduce the problems as described above.

According to various embodiments, a panel assembly adapted to absorb a blast impact is provided. wherein the panel assembly includes a panel adapted to be displaceably mounted to a frame, and a stretchable connection assembly adapted to extend from the panel and adapted to be connectable to the frame for mounting the panel to the frame; a connection assembly adapted to elongate in a controlled longitudinal direction, the stretchable connection assembly comprising a control connected to the panel and a connection adapted to be connectable to the frame, the connection slidably coupled to the control wherein the control is adapted to control elongation of the connection from the control and is adapted to stretch in a controlled manner to control movement of the panel when the extensible connection assembly is subjected to a blast impact.

According to various embodiments, the control unit may include a clamp adapted to clamp the connection portion to limit movement of the connection portion inside the control unit.

According to various embodiments, the clamp may include a first plate having an upper engaging surface and a second plate having a lower engaging surface, the upper engaging surface of the first plate being the lower engaging surface of the second plate. It can be adjusted to face the fastening surface, and the connection part can be clamped between the first plate and the second plate.

According to various embodiments, the first plate may include a gripping portion on the upper fastening surface, the gripping portion being adjustable to grip the connecting portion.

According to various embodiments, the gripping portion of the first plate may include a groove extending along an upper fastening side of the first plate, and the connecting portion may be disposed inside the groove of the first plate.

According to various embodiments, the second plate may comprise a gripping portion on a lower fastening surface of the second plate, the gripping portion being adjustable to grip the connecting portion.

According to various embodiments, the gripping portion of the second plate may include a groove extending along the lower fastening portion of the second plate, and the connecting portion may be disposed inside the groove of the second plate.

According to various embodiments, the connecting portion may be extended through a control unit.

According to various embodiments, the stretchable connection assembly may extend from one side of the panel.

According to various embodiments, the panel assembly may include another stretchable connection assembly extending from another side of the panel opposite to one side.

According to various embodiments, a panel assembly may include at least two extensible connection assemblies extending from one side of the panel and at least two extensible connection assemblies extending from another side of the panel opposite the one side. .

According to various embodiments, the connections of two or more stretchable connection assemblies are connected to each other such that the connections form a single continuous connection and extend through the controls of the two or more stretchable connection assemblies.

According to various embodiments, the panel assembly further comprises another extensible connection assembly disposed between and extending from the panel, the at least two extensible connection assemblies and the other stretchable connection assembly. The connection of each possible connection assembly forms a single continuous connection through the control of each of the two or more stretchable connection assemblies and another stretchable connection assembly.

According to various embodiments, the extensible connection assembly is a third plate having a lower engagement surface facing an upper engagement surface of a second plate, wherein the upper engagement surface of the second plate is a lower engagement surface of the second plate. a third plate that may be opposite to; and another connection part clamped between the second plate and the third plate and between the upper fastening surface of the second plate and the lower fastening side of the third plate.

According to various embodiments, the connecting portion may comprise a cable.

According to various embodiments, the connecting portion may include an enlarged end at the end of the connecting portion.

According to various embodiments, the stretchable connection assembly may include a fastening end adapted to fasten a frame.

According to various embodiments, the panel assembly may further include a base plate adapted to engage the stretchable connection assembly, the base plate being mountable to the frame.

According to various embodiments, the base plate may include a receptacle adapted to receive the mating end of the extensible connection assembly when the panel assembly is mounted to a frame.

According to various embodiments, the fastening end may include a knob, and the receptacle may include an opening connected to the slot and a slot having a width, the opening being wider than the width of the slot, the opening being wider than the width of the slot. may be adjusted to receive a knob therethrough, and the slot may be adapted to prevent the knob from passing therethrough.

1 shows a schematic diagram of a panel assembly;
2 shows a schematic diagram of a panel assembly;
3 shows a schematic diagram of a panel assembly;
4A shows a schematic view of an extensible connection assembly in an installed configuration;
4B shows a schematic view of an extensible connection assembly in an elongate configuration;
4C shows a side view of the panel assembly in an installed state;
Fig. 4D shows a side view of the panel assembly of Fig. 4C in a displaced state;
5 shows a cross-sectional view of an extensible connection assembly;
FIG. 6 shows a cross-sectional view of the extensible connection assembly of FIG. 5 along line AA;
7 shows a cross-sectional view of an extensible connection assembly;
8 shows a cross-sectional view of an extensible connection assembly;
9 shows a top view of the plate.
FIG. 10 shows a cross-sectional view of the plate of FIG. 9 along line BB;
11 shows a cross-sectional view of the plate.
12 shows a cross-sectional view of an extensible connection assembly;
13 shows a cross-sectional view of an extensible connection assembly;
14 shows a cross-sectional view of the panel assembly.
15 shows a cross-sectional view of the panel assembly.
16 shows a schematic view of a panel assembly;
17 shows a schematic view of a panel assembly;
18 shows a schematic view of a panel assembly;
19 shows a top view of the base plate.
FIG. 20 shows a cross-sectional view of the base plate of FIG. 19 along line CC;
21 shows a schematic view of the base plate.
21A shows a cross-sectional view of an extensible connection assembly;
22 is a cross-sectional view of a panel assembly mounted on a frame.
23 shows a top view of an unassembled stretchable connection assembly;
24 shows a front perspective view of the plate.
25 shows a front perspective view of the stretchable connection assembly;
26 shows a front view and a rear view of two base plates.
27 shows a front view and a rear view of the base plate.

1 shows an exemplary embodiment of a panel assembly 100 adapted to absorb a blast impact. The panel assembly 100 has a panel 110 adapted to be displaceably mounted to a frame 120 . The panel assembly 100 is adapted to be connectable to the frame 120 to mount the panel 110 to the frame 120 and has an extensible connection assembly 130 extending from the panel 110 . The stretchable connection assembly 130 is adapted to elongate in a controlled manner in the longitudinal direction. The stretchable connection assembly 130 has a control portion 140 connected to the panel 110 , and a connection portion 150 adapted to be connectable to the frame 120 . A connector (150) is slidably coupled to the control (140), the control (140) being adjusted to control the elongation of the connector (150) from the control (140), the stretchable connection assembly (130) is adapted to elongate in a controlled manner, controlling the movement of the panel when subjected to a blast impact. The panel assembly 100 may be an energy absorbing system adapted to absorb the blast effect.

As shown in FIG. 1 , a panel assembly 100 can include a panel 110 having one or more extensible connection assemblies 130A connected to the panel 110 .

The panel 110 may have a front side 111 and a rear side opposite the front side (not shown in FIG. 1 ). The front side may be the panel 110 on the side facing the outside of the building when the panel 110 is installed in the building. Correspondingly, the rear side of the panel 110 may be the side facing the interior of the building. The panel 110 may include a top side 113 , and a bottom side 115 opposite the top side 113 .

The stretchable connection assembly 130 may have a control unit 140 and a connection portion 150 coupled to and extending from the control unit 140 . The connector 150 may be adjusted to be connected to the frame 120 . The panel 110 may be mounted to the frame 120 and may be displaceable or movable relative to the frame 120 due to the elongation of the stretchable connection assembly 130 . A stretchable connection assembly 130 may be connected to one side 112 of the panel 110 . The panel assembly 100 may include two or more extensible connection assemblies 130A, 130C wherein the panel assembly 100 is connected from the other side 114 of the panel 110 to the opposite side of the one side 112 . It may have another stretchable connection assembly 130C that extends. The stretchable connection assembly 130A can extend in a direction parallel to the front side of the panel 110 . Another stretchable connection assembly 130C can extend in a direction parallel to the front side of the panel 110 . The extensible connection assembly 130 may be an energy absorbing device. Upon receiving the initial blast impact, the panel 110 may receive blast energy, and the connection 150 may be pulled or stretched inside the control unit 140 until the blast energy is dissipated in the system. In this way, it is possible for the panel assembly to absorb the blast energy without being blown away or torn apart. Accordingly, damage to property and life can be avoided or minimized.

Referring to FIG. 1 , a panel assembly 100 includes two or more extensible connection assemblies 130A, 130B extending from one side 112 of a panel 110 , and an opposite panel 110 of the one side 112 . ) may have two or more stretchable connection assemblies 130C, 130D extending from another side 114 of the .

The frame 120 may include an upper portion 120A and a lower portion 120B spaced apart from the upper portion 120A. The upper part 120A may be vertically spaced apart from the lower part 120B. The upper portion 120A and the lower portion 120B may extend in a horizontal direction substantially perpendicular to the vertical direction.

The panel 110 may be disposed inside the frame 120 . Panel 110 may be disposed between upper portion 120A and lower portion 120B. The frame 120 may be mounted on a part of a building. Frame 120 may be part of a building. The top side 113 of the panel 110 may be the side facing the bottom 120A. The lower side 115 of the panel may be the side facing the lower portion 120B.

Typically, the blasting takes place from the outside of the building, ie against the front of the panel 110 . Accordingly, the panel 110 is inevitably disposed in the inward direction of the building. The inward direction may be a direction perpendicular to a vertical direction and a horizontal direction.

As shown in FIG. 1 , the panel assembly may include four stretchable connection assemblies 130A, 130B, 130C, 130D. Stretchable connection assemblies 130A, 130B may be disposed along one side of panel 110 and stretchable connection assemblies 130C, 130D may be disposed along another side of panel 110 . The stretchable connection assembly can extend in a vertical direction from an upper portion 120A of the frame 120 to a lower portion 120B. As shown in FIG. 1 , the stretchable connection assemblies 130A, 130C may face toward the upper portion 120A, ie, upward, of the frame 120 , and the stretchable connection assemblies 130B, 130D include the lower portion 120B. ), i.e., downward. The stretchable connection assembly 130 faces toward the frame 120 when the connection portion 150 of the stretchable connection assembly 130 extends from the control unit 140 toward the frame 120 . Stretchable connection assemblies 130A, 130B, 130C, 130D may be attached to frame 120 to mount panel 110 to frame 120B. Panel 110 may be spaced apart from top 120A and/or bottom 120B. Panel 110 may rest on lower portion 120B.

2 shows another exemplary embodiment of a panel assembly 102 . The frame 120 may include a first side 120C and a second side 120D spaced apart from the first side 120D. The first side 120C and the second side 120D may be arranged to extend in a vertical direction. The panel 110 may be disposed between the first side 120C and the second side 120D. Similar to previous embodiments, stretchable connection assemblies 130A, 130B, 130C, 130D may be attached to frame 120 to mount panel 110 to frame 120 .

Referring to FIG. 2 , the extensible connection assemblies 130E, 130F, 130G, and 130H may extend in a horizontal direction. The extensible connection assemblies 130E, 130G may face toward the first side 120C. The stretchable connection assembly 130F, 130H may face towards the second side 120D. Panel 110 may be spaced apart from second side 120C and/or second side 120D.

A stretchable connection assembly 130 may be disposed between the panel 110 and the frame 120 . The stretchable connection assembly 130 may extend from the panel 110 to the frame 120 .

3 shows an exemplary embodiment of a panel assembly 103 . The frame 120 may be a rectangular frame. Frame 120 has upper 120A and lower 120B and first side 120C such that upper 120A and lower 120B can be substantially perpendicular to first side 120C and second side 120D. ) and a second side portion 120D. Frame 120 may surround panel 110 . The panel assembly 103 may include two or more extensible connection assemblies 130 along each side of the panel 110 . For example, one side 112 of panel 110 may include two or more stretchable connection assemblies 130A, 130B. The panel assembly 103 can include at least eight stretchable connection assemblies 130A, 130B, 130C, 130D, 130E, 130F, 130G, 130H attached to the frame 120 . Correspondingly, stretchable connection assemblies 130C, 130D may be along another side 114 , and stretchable connection assemblies 130E, 130F may be along top side 113 of panel 110 . and extensible connection assemblies 130G, 130H along the bottom side 115 of the panel 110 .

4A shows an exemplary embodiment of a stretchable connection assembly 130 in an installed state. As shown in FIG. 4C , in the installed state, the connection part 150 must still be extended from the control part 140 . The extensible connection assembly 130 may be in an installed state when the panel assembly 100 is mounted on the frame 120 . As mentioned, the stretchable connection assembly 130 may include a control portion 140 adapted to control elongation of the connection portion 150 from the control portion 140 and a connection portion 150 coupled to the control portion 140 . can The connection part 150 can be extended from the inside of the control part 14 to an extended state (refer FIG. 4B). The connector 150 may be adjusted to be connected to the frame 120 . The stretchable connection assembly 130 can be adapted to connect the panel 110 to the frame 120 .

4B shows the connection 150 of the stretchable connection assembly 130 in an extended state. 4D shows that when the panel 110 of the panel assembly 100 is subjected to an explosive impact, the connecting portion 150 can be extended from the control unit 140 and displaced away from the source of the explosive impact. The control unit 140 may be adjusted to control the movement or elongation of the connection unit 150 from an initial state (shown by a broken line). The connecting portion 150 may be inclined toward the fastening point of the connecting portion 150 relative to the frame 120 upon extension.

5 shows an exemplary embodiment of a stretchable connection assembly 132 . The control unit 140 may include a clamp 160 adapted to clamp the connection unit 150 to control the movement of the connection unit 150 inside the control unit 140 .

Referring to FIG. 5 , the clamp 160 may include a first plate 162 having an upper fastening surface 164 and a second plate 172 having a lower fastening surface 176 . The upper fastening surface 164 of the first plate 162 may be adjusted to face the lower fastening surface 176 of the second plate 172 . The connector 150 may be clamped between the first plate 162 and the second plate 172 . The first plate 162 can be spaced apart from the second plate 172 when the clamp 160 clamps the connector 150 . The first plate 162 can be substantially parallel to the second plate 172 . The first plate 162 may be connected to the panel 110 . The first plate 162 can include a proximal end 163 and a distal end 165 opposite the proximal end 163 . The second plate 172 can include a proximal end 173 and a distal end 175 opposite the proximal end 173 .

FIG. 6 shows a cross-sectional view of the connecting assembly 132 extensible along line A-A of FIG. 5 . As shown in FIG. 6 , the first plate 162 may include a gripping portion 168 on the upper fastening surface 164 . The gripping portion 168 may be adapted to grip the connecting portion 150 . The gripping portion 168 can extend from the proximal end 163 (not shown in FIG. 6 ) to the distal end 165 (not shown in FIG. 6 ) of the first plate 162 . The gripping portion 168 may be a recess on the upper fastening surface 164 of the first plate 162 . The gripping portion 168 of the first plate 162 may include a groove 169 extending along the upper engaging surface 164 of the first plate 162 . As shown in FIG. 6 , the groove 169 may include a V-shaped cross-section. Groove 169 may include a hemispherical, rectangular cross-section. The gripping portion 168 may include ribs (not shown in FIG. 6 ) arranged along the upper fastening surface 164 . As shown in FIG. 6 , the connection part 150 may be disposed inside the groove 169 of the first plate 162 . Connection 150 may be recessed in groove 169 .

The gripping portion 168 may be adjusted to increase the contact area between the first plate 162 and the connecting portion 150 to increase the friction between the first plate 162 and the connecting portion 150 . The gripping portion 168 may extend along the connecting portion 150 to provide an appropriate amount of gripping force to the connecting portion 150 .

Referring to FIG. 6 , the second plate 172 may include a gripping portion 178 on the lower fastening surface 176 of the second plate 172 . The gripping portion 178 may be adapted to grip the connecting portion 150 . The gripping portion 178 may extend from the proximal end 173 to the distal end 175 . The gripping portion 178 may be a recess on the lower fastening surface 176 of the second plate 172 . The gripping portion 178 of the second plate 172 may include a groove 179 extending along the lower engagement surface 176 of the second plate 172 . As shown in FIG. 6 , the groove 179 may have a V-shaped cross-section. Groove 179 may include a hemispherical, rectangular cross-section. The gripping portion 178 may include ribs (not shown in FIG. 6 ) arranged along the lower engagement surface 176 . As shown in FIG. 6 , the connection part 150 may be disposed inside the groove 1769 of the second plate 172 . Connection 150 may be recessed in groove 179 .

The gripping portion 178 may be adjusted to increase the contact area between the second plate 172 and the connecting portion 150 to increase the friction between the second plate 172 and the connecting portion 150 . The gripping portion 178 may extend along the connecting portion 150 to provide an appropriate amount of gripping force to the connecting portion 150 . The gripping portion 178 of the second plate 172 may be directly opposite the gripping portion 168 of the first plate 162 .

Referring to FIG. 5 , the control unit 140 may include a fastening member 170 adjusted to fix the second plate 172 to the first plate 162 . The fixing member 170 may be a bolt adjusted to fix the second plate 172 to the first plate 162 . The second plate 172 may include a through hole 177 adapted to allow the fixing member 170 to pass through the second plate 172 . The first plate 162 may include a socket 161 adapted to engage the securing member 170 . The fixing member 170 may be inserted through the through hole 177 and fasten the socket 161 to fix the first plate 162 to the second plate 172 to clamp the connection part 150 . The fixing member 170 may be a screw, a bolt, or the like. The fixing member 170 may include a clip (not shown in FIG. 5 ) adapted to clip the first plate 162 and the second plate 172 to each other. The socket 161 may be a threaded hole, and the securing member 170 may include a threaded end adapted to engage the threaded hole.

Referring to FIG. 5 , the connection part 150 may have an elongated body 153 so that the connection part 150 can extend along the control part 140 .

Referring to FIG. 5 , the connection part 150 of the stretchable connection assembly 130 may be extended through the control unit 140 . The control unit 140 may include an inlet end 142 and an outlet end 144 opposite the inlet end 142 . The inlet end 142 may be the end at which the connecting portion 150 retracts into the control unit 140 , and the outlet end 144 may be the end at which the connecting portion 150 protrudes out of the control unit 150 . The inlet end 142 of the control unit 140 may be the proximal end 163 of the first plate 162 and/or the proximal end 173 of the second plate 172 . The outlet end 144 can be the distal end 165 of the first plate 162 and/or the distal end 175 of the second plate 172 .

The connecting portion 150 is connected to the groove 169 of the first plate 162 and the groove of the second plate 172 when the first plate 162 and the second plate 172 are fixed to clamp the connecting portion 150 . It may have an enlarged end 154 adapted to be larger than the gap formed between 179 . The enlarged end 154 may be larger than the cross-sectional area of the elongated body 153 of the connecting portion 150 . The connecting portion 150 may have a fastening end 156 opposite the enlarged end 154 . The connection portion 150 may have a knob on the engagement end 156 of the connection portion 150 so that the engagement end 156 can be adjusted to engage the frame 120 . Since the stretchable connection assembly 130 may include a connection portion 150 , it is understood that the stretchable connection assembly 130 may have an engagement end 156 adapted to engage the frame 120 .

When the fastening end 156 is connected to the frame 120 , when the panel 110 is displaced due to an explosive impact, the fastening end 156 can move away from the outlet end 144 of the control unit 140 . The connecting portion 150 can be displaced or slid through the control unit 140 in a displaced direction parallel to the first plate 162 and the second plate 172 . Accordingly, since the connecting portion 150 is displaced through the control unit 140 , the enlarged end 154 of the connecting portion 140 can move toward the first end 142 of the control unit 140 . As the connecting portion 150 continues to move in the displaced direction, the enlarged end 154 of the connecting portion 150 is moved to the inlet end ( 142), it is conceivable that it may be adjacent to or in contact with. It will be apparent to a person skilled in the art that since the control unit 140 is clamping the connecting portion 150 , the displacement of the connecting portion 150 can be slowed down in a controlled manner. As such, the displacement of the panel 110 due to the blast impact can be slowed down in a controlled manner. The length of the elongated body 153 of the connection 140 between the enlarged end 154 of the connection 150 and the inlet end 142 of the control 150 is the connection, which may be based on the calculated explosive impact amount and the predetermined clamping force. may be predetermined based on the required height of As shown in FIG. 6 , the first plate 162 may be connected to the panel 110 .

7 shows an exemplary embodiment of a panel assembly 107 . The first plate 162 may be integrally formed as part of the panel 110 . 7 , the panel 110 may have a gripping portion 116 formed along one side 112 of the panel 110 . One side 112 of the panel 110 may extend from the top side 113 (not shown) of the panel 110 to the bottom side 115 (not shown in FIG. 7 ). The gripping portion 116 may be formed on one side 112 of the panel 110 . The gripping portion 116 may extend from the vicinity of the top side 113 of the panel 110 to the vicinity of the bottom side 115 of the panel 110 . The gripping portion 116 may extend from a top side 113 of the panel 110 to a bottom side 115 of the panel 110 . The gripping portion 116 may be a groove 118 extending along one side 112 of the panel 110 . As such, one side 112 of the panel 110 may be the first plate 162 . The second plate 172 may be secured on one side 112 of the panel 110 . The connection part 150 may be clamped between one side 112 of the panel 110 and the second plate 172 . The connection 150 may be recessed inside the groove 118 along one side 112 of the panel 110 and the groove 179 of the second plate 172 . Similarly, an arrangement as described for one side 112 of a panel 110 is such that another side 114 of the panel 110 (as shown in FIG. 7 ) has one side of the panel 110 ( 112) can be arranged on another side 114 of the panel to be opposite.

The connecting portion 150 may include a flexible elongate member. The connection 150 may be a cable 146 . Connection 150 may be made of a metallic material, such as stainless steel. The connecting portion 150 may include a plurality of flexible elongate members. The connector 150 may include two or more cables. Connection 150 may include 3, 4 or 5 cables. Each flexible elongate member has a groove 169 of the first plate 162 (not shown in FIG. 7 ) or a groove 118 of one side 112 of the panel 110 and a groove of the second plate 172 . It can be placed in a recess inside the groove (179).

8 shows an exemplary embodiment of a panel assembly 108 . The extensible connection assembly 138 can include a third plate 182 having a lower engagement surface 186 opposite an upper engagement surface 174 of the second plate 172 . The upper fastening surface 174 of the second plate 172 may be opposite to the lower fastening surface 176 of the second plate 172 . The extensible connection assembly 138 is disposed between the second plate 172 and the third plate 182 , the upper fastening surface 174 of the second plate 172 and the lower fastening surface of the second plate 182 ( 186) may have another connection 190 clamped between them.

The stretchable connection assembly 138 can include a securing member 180 adapted to secure the first plate 162 , the second plate 172 and the third plate to each other. The third plate 182 may include a through hole 187 through which each fixing member 180 passes. The third plate 182 may be positioned on the second plate 172 . Another connection 190 can be clamped between the second plate 172 and the third plate 182 . The fixing member 180 may be inserted through the second plate 172 and the third plate 182 and be fixed to the first plate 162 . The fixing member 180 may be a bolt having a threaded end adapted to engage the socket 161 of the first plate 162 . As mentioned above, the first plate 162 may be integrally formed as one side of the panel 110 .

The connecting portion 190 may include a flexible elongate member. The connection 190 may be a cable 196 . Connection 190 may be made of a metallic material, such as stainless steel. The connecting portion 190 may include a plurality of flexible elongate members. Connection 190 may include two or more cables. Connection 190 may include 3, 4 or 5 cables.

The stretchable connection assembly 138 may include a fourth plate, a fifth plate, or as many plates as needed. It will be apparent to one skilled in the art that the stretchable connection assembly 138 can be configured to meet the blasting load requirements by varying the number of plates and/or the number of cables.

9 shows a top view of an exemplary embodiment of a first plate 162 . A second plate 172 (not shown in FIG. 8 ) and a third plate 182 (not shown in FIG. 8 ) may be similar to the first plate 162 as shown in FIG. 9 . The upper engagement surface 164 may extend from the proximal end 163 to the distal end 165 of the first plate 162 . As shown in FIG. 9 , the gripping portion 168 of the first plate 162 can extend from the proximal end 163 to the distal end 165 of the first plate 162 . The gripping portion 168 may include one or more grooves 169 extending along the upper engagement surface 164 from the proximal end 163 to the distal end 165 of the first plate 162 . The gripping portion 168 may include a pair of grooves 169 . The first plate 162 is distributed along the upper fastening surface 164 of the first plate 162 so that the fixing member 170 (not shown in FIG. 8) can fasten the plurality of sockets 161. It may include a plurality of sockets 161 . In the case of the second plate 172 (as shown in FIG. 8 ), the second plate 172 may include a plurality of through-holes 177 adapted to allow the fixing member 170 to pass therethrough. The same can be applied to the third plate 182 and subsequent plates.

As previously mentioned, the first plate 162 may be integrally formed as part of the panel 110 , the same gripping portion 168 being on one side 112 and/or another of the panel 110 . It may be formed on the other side 114 .

10 shows a cross-sectional view of the first plate 162 along the line B-B. Although the first plate 162 as shown in FIG. 10 has the gripping portion 168 along the upper fastening surface 164 of the first plate 162, a plate disposed between the two plates, such as the first It will be understood that the two plates 172 have gripping portions along opposite fastening surfaces of the plates. For example, as shown in FIG. 11 , the second plate 172 has a groove 179 along an upper engagement surface 174 and a lower engagement surface 176 of the second plate 172 . Naturally, gripping portions 168 along the upper fastening surface as described above for the first plate 162 can be found along the upper and/or lower fastening surfaces of each plate.

12 shows an exemplary embodiment of a stretchable connection assembly 230 . The first plate 232 of the stretchable connection assembly 230 may be integrally formed with the panel 210 . Groove 269 may extend along one side 212 of panel 210 . A cable 258 can be clamped between the first plate 262 and the second plate 272 . The extensible connection assembly 230 can include a biasing member 281 adapted to bias the second plate 1720 toward the first plate 262 and over the cable 258. The biasing member 281 The installation of the stylus provides a relatively constant clamping force on the cable 258. As shown in Fig. 12, the biasing member 281 is subjected to a force applied on the second plate 272 by the fixing member 270. The extensible connection assembly 230 can include a pair of washers 283 adapted to grip the biasing member 281 and separate the biasing member 281 from the second plate 272 . The fixing member 270 may be in the configuration of a bolt 270B and a nut 270N. The biasing member 281 may be a spring. Referring to Fig. 12 , the bolt 270B is a first plate 262 In this way, the first plate 262 may include a plurality of through-holes 277 through which the bolts pass.

13 shows an exemplary embodiment of a stretchable connection assembly 232 . The stretchable connection assembly 232 can include a third plate 282 disposed adjacent the second plate 272 . Similar to the embodiment of the stretchable connection assembly 230 in FIG. 12 , the third plate 282 can be biased against the second plate 272 by a biasing member 281 . A cable 296 can be clamped between the second plate 272 and the third plate 282 .

14 shows a cross-sectional view of an exemplary embodiment of a panel assembly 300 . The panel assembly 300 can include a panel 310 and an extensible connection assembly 332 such that the first plate 362 is integrally formed as part of the panel 310 . The panel 310 may include a window pane 311 and a window frame 313 surrounding the window pane 311 . The stretchable connection assembly 332 can be connected to the window frame 313 . 14 , the stretchable connection assembly 332 may be disposed within the window frame 313 of the panel 310 . Referring to FIG. 14 , the stretchable connection assembly 332 may be disposed on the window frame 313 , although it may be contemplated to the skilled person that the stretchable connection assembly 332 is near one side of the panel 310 . It will be obvious that there is As such, the extensible connection assembly 332 is disposed within the window frame 313 , but on one side 312 and/or another side 314 of the panel 310 (not shown in FIG. 14 ). A connection may be considered.

As shown in FIG. 14 , the first plate 362 may be integrally formed by the window frame 313 . The first plate 362 may include a gripping portion 368 . The gripping portion 368 may include a groove 369 extending in a vertical direction along the window frame 313 . The stretchable connection assembly 332 can include a connection portion 350 that extends along a longitudinal direction along the window frame 313 . The extensible connection assembly 332 can include a second plate 372 secured to the first plate 362 to clamp the connection 350 . Connection 350 may be connectable to frame 320 (not shown in FIG. 14 ) to displaceably mount panel 310 to frame 320 . The second plate 372 may be fixed to the first plate 362 by a fixing member 370 . The second plate 372 can be biased toward the first plate 362 by a biasing member 381 (not shown in FIG. 14 ) onto the second plate 372 using a fixing member 370 . have. The panel assembly 300 as shown in FIG. 14 may be suitable for mounting the panel assembly 300 to the frame 320 . Frame 320 may be a building structure or may be part of a building structure.

Panel 310 may be an opaque panel or a transparent panel. The panel 310 may be made of metal, glass, or the like. The panel 310 may be a window pane 311 having a window frame 313 surrounding the window pane 311 , whereby the window pane 311 may be attached to the window frame 313 .

15 shows an exemplary embodiment of a panel assembly 302 . 15 shows two panel assemblies 334A, 334B connected to each other. Each panel assembly 334A includes a window pane 311A coupled to a window frame 313A, and panel assembly 334B includes a window pane 311B coupled to a window frame 334B. The panel assemblies 334A, 334B may be connected to each other at the boundary between the window frame 313A and the window frame 313B. A stretchable connection assembly 330A may be disposed inside the window frame 313A and the connection portion 350A may be extended from the control unit 340A to be connected to the frame 320 (not shown in FIG. 15 ). Similarly, a stretchable connection assembly 330B may be disposed within the window frame 313B and the connection portion 350B to be extended from the control unit 340B to be connected to the frame 320 (not shown in FIG. 15 ). can

16 shows an exemplary embodiment of a panel assembly 304 . As shown in FIG. 16 , the panel 310 of the panel assembly 304 may include two or more extensible connection assemblies 336A, 336B along one side 312 of the panel 310 . As noted, each of the two or more stretchable connection assemblies 336A, 336B may include a control portion 340A, 340B and a connection portion 350A. Connection 350B may be made of connection 350 of each of two or more stretchable connection assemblies 336A, 336B such that connection 350 of the two stretchable connection assemblies forms a single continuous connection 350B. Connection 350B is extendable through controls 340A, 340B of two or more stretchable connection assemblies 336A, 336B. Referring to FIG. 16 , the continuous connection 350B may include a slack portion 359 between two or more extensible connection assemblies 336A, 336B. The slack portion 359 allows the continuous connection 350B to form two or more stretchable connection assemblies 336A, 336B when the continuous connection 350B is straightened due to displacement of the panel 310 when subjected to an explosive impact. It can be made to extend from each or both sides of the .

17 shows an exemplary embodiment of a panel assembly 306 . Panel assembly 306 is disposed between two or more extensible connection assemblies 336A, 336B and can include another extensible connection assembly 336C extending from panel 310, said two or more extensible connection assemblies 336C. Each connection 357 of a connection assembly 336A, 336B and another extensible connection assembly 336C is connected to each of the two or more extensible connection assemblies 336A, 336B and each of another extensible connection assembly 336C. A single continuous connection 357 may be formed through the control unit 340 . Referring to FIG. 17 , the panel assembly 306 may have three or more controls 340 along one side 312 of the panel 310 . The connection portion 357 includes three or more controls 340 such that the connection portion 357 may have opposite engagement ends for attachment to opposite portions of the frame 320 , such as to an upper portion 332 and a lower portion 324 . can be extended through

The panel assembly 306 is a spacer (not shown in FIG. 17 ) between the first plate 362 and the second plate 372 to provide a gap between the first plate 362 and the second plate 372 . may include. Spacers may be included in any embodiment of the panel assembly.

18 shows an exemplary embodiment of a panel assembly 308 . The panel assembly 308 can include a base plate 410 adapted to engage an extensible connection assembly 330 extending from the panel 310 . The base plate 410 may be mountable to the frame 320 .

19 shows an exemplary embodiment of a base plate 410 . The base plate 410 is an extensible connection assembly 330 (not shown in FIG. 19 ) when mounting the panel assembly 306 (not shown in FIG. 19 ) to the frame 320 (not shown in FIG. 19 ). ) may include a receiving portion 412 adapted to receive a fastening end 156 (not shown in FIG. 19 ) of the . The base plate 410 may include a through hole 414 adapted to pass a fastener, such as a bolt, to secure the base plate 410 to the frame 320 .

The receptacle 412 can include an opening 418 connected to the slot 416 and a slot 416 having a width. The opening 418 can be wider than the width of the slot 416, the opening 418 can be adjusted to receive a knob (not shown in FIG. 19) therethrough and the slot 416 is the knob through it. adjusted not to do so.

20 shows a cross-sectional view of the base plate 410 along line C-C in FIG. 19 . The receiving portion 412 is such that the base plate 410 is mounted on the frame 320 and the second side 412 opposite the first side 422 so that the panel assembly 308 (not shown in FIG. 20) is The second side can be adjusted to face the panel assembly 308 when mounted on the frame 320 . Slots 416 and openings 418 extend from a first side 422 of the base plate 410 to a second side 424 of the base plate 410 . A recess 426 may be formed on the first side 422 such that the base of the recess 426 may form a shoulder 428 . Referring to FIG. 20 , a shoulder 428 may surround a slot 416 . 19 , slot 416 may be a straight slot. Referring to FIG. 20 , the recess 426 is located inside the recess 426 of the knob when the fastening end 356 of the connection portion 340 of the extensible connection assembly 330 engages the base plate 410 . In and against the shoulder 426 , the depth of the recess 426 can have a depth that can be in fact the diameter of the knob (not shown in FIG. 20 ).

21 shows a front view of the base plate 410 . 21 , the receptacle 412 can include a hook 414 extending from the second side 424 of the base plate 410 . The engaging end 356 (not shown in FIG. 21 ) of the stretchable connection assembly 330 may include a complementary loop adapted to engage the hook 414 .

21A shows a cross-sectional view of an extensible connection assembly 339 . The controller 340 may include an elastic part 342 that elastically prevents the extension of the connection part 350 . The elastic part 342 may include a spring for fastening the connection part 350 , and when the connection part 350 is extended from the control unit 340 , the spring is compressed and the connection part 350 from the control unit 340 is extended. to slow it down. Connection 350 can include a fastening end 356 adapted to fasten a frame 320 (not shown in FIG. 21A) and a middle end 358 opposite the fastening end 356, the middle end ( 358 can be adjusted to press against one end of the elastic portion 342 so that the elastic portion 342 is against the middle end 358 of the connecting portion 350 of one end of the elastic portion 342 and the other end. can be pressed against the casing 341 of the control unit 340 of the

22 shows another cross-sectional view perpendicular to the cross-sectional view of panel assembly 300 in FIG. 14 . 22 is a side view along a plane through the front side and the rear side of the panel 330 . The panel assembly 300 is cut at the top and bottom to fit the panel assembly 300 in one page. 22 shows a panel 330 mounted to a frame 320 . The base plate 410 may be mounted on the frame 320 . The panel 330 may be mounted on the base plate 410 . The fastening end 356 of the connection part 350 may be fastened to the base plate 410 .

The subframe 420 may be mounted on a frame 320 accommodating the panel assembly 300 . The subframe 420 may be separated from the frame 320 by a packer 430 . Since the frame 320 can have a wavy surface against the panel 330 , a packer 430 can be used to fill the gap between the frame 320 and the panel 330 . Sealant 432 may be used to cover the gap between panel 330 and frame 320 . The base plate 410 can extend through the subframe 420 that provides access for mounting of the panel assembly 300 . The panel assembly 300 may be mounted on the subframe 420 before the connection part 350 is fastened to the base plate 410 . The window frame 313 may be mounted on a subframe 420 for placing the panel assembly 300 on the frame 320 . The panel assembly 300 may rest on the lower end of the frame 320B. The fastening end 356 of the extensible connection assembly (not shown in FIG. 22 ) can engage the base plates 410 mounted to the upper end 320A and the lower end 320B of the frame 320 . The knob of the fastening end 356 is inserted into the opening 418 (not shown in FIG. 22) of the base plate 410 and slides along the slot 416 of the base plate 410 to attach the connector 350 to the base plate. (410) can be fixed.

23 shows a top view of an unassembled stretchable connection assembly having a first plate 162 , a second plate 172 and a third plate 182 that are part of the panel 110 . The connector 150 and another connector 190 may be disposed between the first plate 162 and the second plate 172 and between the second plate 172 and the third plate 182 , respectively.

24 shows a front perspective view of the third plate 182 of the stretchable connection assembly 130 .

25 shows a front perspective view of the stretchable connection assembly 130 . As shown, the first plate 162 is formed as part of the panel 110 . Connection 150 and another connection 190 may be clamped between the first plate 162 and the second plate 172 and between the second plate 172 and the third plate 182 respectively. .

26 shows an exemplary embodiment of a base plate 440 . The base plate 440 may include a plurality of accommodating portions 412 . The plurality of receptacles 412 may include at least one of a U-shaped slot or a straight slot.

27 shows an exemplary embodiment of a base plate 442 . The base plate 442 can include a receptacle 412 having an L-shaped slot.

Claims (20)

A panel assembly adapted to absorb a blast shock, the panel assembly comprising:
a panel adapted to be displaceably mounted to the frame;
and an extensible coupling assembly adapted to extend from the panel and adapted to connect to a frame for mounting the panel to the frame, the extensible coupling assembly adapted to extend in a longitudinally controlled manner; connection assembly,
a control connected to the panel; and
A connecting portion adjusted to be connectable to the frame, comprising a connecting portion slidably coupled to the control unit,
wherein the control unit includes a clamp adapted to clamp the connection portion to limit movement of the connection portion within the control unit, the control portion being adapted to control elongation of the connection portion from the control unit;
A panel assembly adapted to elongate in a controlled manner to control movement of the panel when the extensible connection assembly is subjected to a blast impact. According to claim 1, wherein the clamp comprises a first plate having an upper fastening surface and a second plate having a lower fastening surface, the upper fastening surface of the first plate to face the lower fastening surface of the second plate A panel assembly adjusted and wherein the connection portion is clamped between the first plate and the second plate. The panel assembly according to claim 2, wherein the first plate includes a gripping portion on an upper fastening surface, and the gripping portion is adapted to grip the connecting portion. 4. The panel assembly of claim 3, wherein the gripping portion of the first plate includes a groove extending along an upper fastening surface of the first plate, and the connecting portion is disposed inside the groove of the first plate. The panel assembly according to claim 2, wherein the second plate includes a gripping portion on a lower engaging surface of the second plate, and the gripping portion is adapted to grip the connecting portion. The panel assembly according to claim 5, wherein the gripping portion of the second plate includes a groove extending along a lower fastening surface of the second plate, and the connecting portion is disposed inside the groove of the second plate. The panel assembly according to claim 1, wherein the connecting portion extends through a control unit. The panel assembly of claim 1, wherein the stretchable connection assembly extends from one side of the panel. The panel assembly of claim 1, wherein the panel assembly includes another stretchable connection assembly extending from another side of the panel opposite to one side. The panel assembly of claim 1 , wherein the panel assembly comprises at least two extensible coupling assemblies extending from one side of the panel and at least two extensible coupling assemblies extending from another side of the panel opposite the one side. . 11. The panel assembly of claim 10, wherein the connections of at least two stretchable connection assemblies are connected to each other and the connections form a single continuous connection and extend through the controls of the at least two stretchable connection assemblies. 11. The method of claim 10, further comprising another extensible connection assembly disposed between the at least two extensible connection assemblies and extending from the panel, each of the at least two extensible connection assemblies and the other extensible connection assembly A panel assembly wherein the connection forms a single continuous connection through the control of each of the two or more stretchable connection assemblies and another stretchable connection assembly. 3. The method of claim 2, wherein the extensible connection assembly comprises:
a third plate having a lower fastening surface facing the upper fastening surface of the second plate, wherein the upper fastening surface of the second plate is opposite to the lower fastening surface of the second plate; and
Another connection clamped between the second plate and the third plate and between the upper fastening face of the second plate and the lower fastening face of the third plate.
A panel assembly further comprising a. The panel assembly of claim 1, wherein the connecting portion comprises a cable. The panel assembly of claim 1, wherein the connecting portion includes an enlarged end at an end of the connecting portion. 2. The panel assembly of claim 1, wherein the stretchable connection assembly includes a fastening end adapted to fasten a frame. The panel assembly of claim 1 , further comprising a base plate adapted to engage the stretchable connection assembly, the base plate being mountable to a frame. 18. The panel assembly of claim 17, wherein the base plate includes a receiving portion adapted to receive a mating end of the stretchable connection assembly when the panel assembly is mounted to a frame. 19. The method of claim 18, wherein the fastening end includes a knob, and wherein the receptacle includes an opening coupled to the slot and a slot having a width, the opening being wider than a width of the slot, the opening receiving the knob therethrough and wherein the slot is adapted to prevent the knob from passing therethrough.
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