CA2652611A1 - Temporary winter protection panel system - Google Patents

Description

My invention relates to temporary winter protection during building construction periods. The inventions are used mainly in winter months where heating may be applied to the inside of a building or the inside of a temporary scaffold so work may proceed during cold months.
The inventions are not limited to being used during winter as they also have security advantages all year round and protection against rain during summer months if desired.

The concept of the invention is the same through all the possible uses. The concept is to replace current industry methods of winter protection where single use wood posts and plastic tarps are used to either enclose a scaffold or block off an opening in a building. This is done with telescoping tubes and panels. One objective of the invention is to have a horizontally and vertically adjustable panel which blocks openings in buildings by being fixed to a wall by outlying corners of the covered hole. Another use of the hard panel winter protection is, to be affixed to the top of a temporary scaffold where it will act as a temporary roof. This roof unit is fixed to a wall which the scaffold is assembled in front of.
Where there is no wall taller than the scaffold that the panel can be connected to and the scaffold is used as a means of access to erect a freestanding wall there shall be connected to the end of the panel at the top a wall panel, which will seal off the front of the scaffold from the elements at the other side of the constructing wall.

Previously when winter protection is applied to the top and front of scaffold sections wood posts which are nailed together are used as the skeleton of the protective barrier. The thin industry popular poly tarp is used as a sheeting barrier to keep out the elements.
Installation of the tarp and wood post system is timely and extremely expensive, sometimes not being worth the hassle. The wood posts are often single use because of breakage or awkward one use sizes. Tarps also indefinitely rip to the point of being concluded useless. This inventive system replaces the use of tarps at the top of a scaffold and front over a freestanding wall with adjustable paneling. The system may also be reused over and over.

The objective of the inventive system within scaffold is to replace wood post tarp sheeting at the top of a scaffold and over a freestanding wall. The invention will be much easier, faster to install and cost effective therefore productive. The invention can also be used in place of most configurations where tarps generally used to be the only answer.

A prime objective feature is the fact that these adjustable panels will not blow around in the wind, this means there is no tugging on a scaffold when big winds pass. This system is also more streamlined and aerodynamic than tarps as the panels will not move with the wind. Also possible to incorporate into the paneling design to further make a scaffold section more aerodynamic are dimples, which may be stamped to allow a smoother airflow over and around the scaffold shell. These dimples should not be stamped too deep so not to interfere with the underlying panel for adjust ability.

Another objective is that these panels are adjustable by angle length and width, they can be completely retracted to take less space for storage purposes.

Another objective is the wall panel which is used when draped over a freestanding wall is secured to the top of the scaffold panel section. This wall section may be secured to concrete ground by driving a screw through holes in connected base plates to further secure a scaffold section against wind loads. When top of scaffold sections are are used in conjunction with a scaffold erected in front of a taller wall, the top angled panel section may also be anchored to the wall to secure the scaffold section against wind loads. These panels may be constructed of metal or even plastic which will also insulate heat within the scaffold and keep out rain and snow better than tarps.

The secondary objective application of the adjustable paneling may be used as a hole covering over window openings, doors, or other unfinished building exteriors during construction periods.
Previously wood and tarps were used to block out the elements where exteriors are open. This system is costly and usually not reusable. This system also provides very little security against intruders, and even very little insulting properties.

The objective of the invention is to be an adjustable opening blocker which shall block out the elements and also retain heat better than any tarp or wood hole covering. The panels may be constructed of metal or plastic for rigidity and insulating purposes. These panels being constructed of metal or plastic will also better prevent intruders from entering a building which is being constructed.
This will in turn be better protection against thieves and also intruders which may face dangerous environments when entering an under construction building. These products of the invention may also lower insurance costs for contractors who use these hole coverings because of less stolen property and possibly less injury to unauthorized intruders.

Other important objects and advantageous features of any invention will be apparent from the following description and accompanying drawings, wherein for present purpose of illustration only, specific embodiments of the invention are set forth in detail.

In the drawings:

Figure 1 is a perspective view of a front of scaffold, over wall adjustable panel.
Figure 2 is a perspective view of a top of scaffold adjustable panel.
Figure 3 is a detailed perspective view of a front of scaffold, over wall adjustable panel linked to a top of scaffold adjustable panel.
Figure 4 is a perspective view of a front of scaffold, over wall adjustable panel linked to a top of scaffold adjustable panel connected to a scaffold section.
Figure 5 is a perspective view of the back of an adjustable hole cover panel in the closed position.
Figure 6 is a perspective view of the back of an adjustable hole cover panel in the open position.
Figure 7 is a perspective view of the front of an adjustable hole cover panel in the open position.
Figure 8 is a detailed perspective view of the front of an adjustable hole cover panel in the open position.

In Figure 1 the numeral 1 shall represent an upper panel shown in the drawing as a rectangular prism may take any shape, 2 is also a panel, the lower panel, which is depicted in the drawing as a rectangular prism which may take any shape. 1 and 2 panels would generally be made of metal or heavy duty plastic, and under such manufactured instances the center of the said panels may be sealed or contain a form of insulation. If the said panels do not contain an insulating material or are not sealed at the center they shall be a thin sheet of such claimed materials which shall be strong enough to not collapse under their own weight. 5 is a cylindrical tube of any diameter or desired length. The said cylindrical tube shall have 6 a slot at one side. Sliding through this slot shall be 4 an extrusion of 3 the inner cylindrical tube which telescopes within 5 the larger cylinder. The dimensions of the extrusion 4 upon 3 shall be slightly smaller than the dimensions of the slot 6 within 5, small enough to allow a smooth telescoping motion. The exterior diameter of 3 the smaller telescopic tube shall be the same as the inner diameter of 5 the larger telescopic tube to allow a smooth telescoping motion.

The telescoping cylinders 3 and 5 and their male and female connections 6 the slot and 4 the extrusion, shall be connected on both sides of panels 1 and 2. Whereas the top panel shall be connected to 4 the extrusion upon 3 the inner telescopic tube. The extrusion 4 shall extrude past the exterior diameter of 5 the larger telescopic tube through 6 the slot enough to allow a secure connection to 1 the top panel along its entire side length. This panel 1 shall be connected on both vertical sides to 4 the extrusion so to not impede a telescoping movement of 3 the inner tube within 5 the larger telescopic tube. The lower panel 2 shall be connected on both vertical sides to 5 the larger telescopic tube. The panel should be connected as close as possible to 6 the slot so to create the best seal possible. 2 the panel should be connected in such a manner so not to impede telescoping movements of 1 the upper panel and its connected tubes 3 on both vertical sides which slide in and out of 5 the larger telescopic tube.

At the bottom end of 5 the lower, larger telescopic tubes shall be inserted an industry normal swiveling adjustable jack for the use of keeping the entire unit in a level manner with the scaffold to which it is applied. This swiveling, adjustable jack may also be anchored into a concrete surface so to secure a scaffold section against wind loads. At the top of the unit connected at the top and back of 3 the inner telescopic tube shall be a connecting piece which shall allow a secure connection to the top of scaffold unit.

In Figure 2 is a drawing of a top of scaffold unit where the numeral 1 shall represent an upper panel shown in the drawing as a rectangular prism may take any shape, 2 is also a panel, the lower panel, which is depicted in the drawing as a rectangular prism which may take any shape. 1 and 2 panels would generally be made of metal or heavy duty plastic, and under such manufactured instances the center of the said panels may be sealed or contain a form of insulation.
If the said panels do not contain an insulating material or are not sealed at the center they shall be a thin sheet of such claimed materials which shall be strong enough to not collapse under their own weight.
5 is a cylindrical tube of any diameter or desired length. The said cylindrical tube shall have 6 a slot at one side. Sliding through this slot shall be 4 an extrusion of 3 the inner cylindrical tube which telescopes within 5 the larger cylinder. The dimensions of the extrusion 4 upon 3 shall be slightly smaller than the dimensions of the slot 6 within 5, small enough to allow a smooth telescoping motion. The exterior diameter of 3 the smaller telescopic tube shall be the same as the inner diameter of 5 the larger telescopic tube to allow a smooth telescoping motion.

The telescoping cylinders 3 and 5 and their male and female connections 6 the slot and 4 the extrusion, shall be connected on both sides of panels 1 and 2. Whereas the top panel shall be connected to 4 the extrusion upon 3 the inner telescopic tube. The extrusion 4 shall extrude past the exterior diameter of 5 the larger telescopic tube through 6 the slot enough to allow a secure connection to 1 the top panel along its entire side length. This panel 1 shall be connected on both vertical sides to 4 the extrusion so to not impede a telescoping movement of 3 the inner tube within 5 the larger telescopic tube. The lower panel 2 shall be connected on both vertical sides to 5 the larger telescopic tube. The panel should be connected as close as possible to 6 the slot so to create the best seal possible. 2 the panel should be connected in such a manner so not to impede telescoping movements of 1 the upper panel and its connected tubes 3 on both vertical sides which slide in and out of 5 the larger telescopic tube.

Connected at the bottom of the upper most point of 5 the larger telescopic tubes at both sides of

2 the lower panel shall be 10 a swiveling hinge. At the lower end of the, said hinge on both sides shall be 13 a telescoping cylinder which shall telescopic within 11 a telescopically larger cylinder. This shall allow the entire unit to be angularly adjustable. The larger telescoping tube 11 shall be open at the bottom on only one side of the unit to directly fit around a scaffold frames male connection. At the other side of the unit shall be connected to 11, 14 a round ring which shall directly accept the male scaffold frame connection. This ring 14, shall be short enough to allow 11 the tube at the adjacent side of the next paneling unit to accept the scaffold male connection and still allow it to engage with drilled holes within the said scaffold connection to accept a locking pin. At the bottom end of 5 shall also be connected at both sides 10 a swiveling hinge. Connected at the other end of the said hinge shall be 12 a short tube. On one side of the unit the said tube shall directly accept the male scaffold connection.
where at the other side shall be connected 14 a round ring which shall directly accept the male scaffold frame connection. This ring 14, shall be short enough to allow 12 the tube at the adjacent side of the next paneling unit to accept the scaffold male connection and still allow it to engage with drilled holes within the said scaffold connection to accept a locking pin.

At the top end of 3 the inner telescopic tube shall be connected 15 on one side of the unit a plate which enables the unit which is anchored to the top of a scaffold to be anchored to a wall when the said scaffold is erected in front of an already erect structurally sound wall. When the scaffold which the unit is not erected in front of an already erected structurally sound wall, and where the said scaffold is used to build a freestanding wall and where the said unit is anchored to the scaffold and a wall panel (depicted in Figure 1). The said unit shall have 9, hook plates to connect with connections upon the wall panel unit. These hooks may be any shape so to hold the connections upon the wall unit against any downward, or any horizontal movement.

At the very top of 1 the upper panel may be connected 16, a flap which shall seal from the elements the gap within the connections between the upper panel and the lower wall panel. At the end of the said flap shall be 17 a weight which shall prevent this flap from moving in windy conditions.
When the said material of choice for the top panel of the wall unit is a magnetically attractive metal then 17 may be a magnetic strip which shall better seal the gap between the panel unit from the elements against intruding wind.

In Figure 3 the numeral 1 shall represent an upper panel shown in the drawing as a rectangular prism may take any shape, 2 is also a panel, the lower panel, which is depicted in the drawing as a rectangular prism which may take any shape. 1 and 2 panels would generally be made of metal or heavy duty plastic, and under such manufactured instances the center of the said panels may be sealed or contain a form of insulation. If the said panels do not contain an insulating material or are not sealed at the center they shall be a thin sheet of such claimed materials which shall be strong enough to not collapse under their own weight. 5 is a cylindrical tube of any diameter or desired length. The said cylindrical tube shall have 6 a slot at one side. Sliding through this slot shall be 4 an extrusion of 3 the inner cylindrical tube which telescopes within 5 the larger cylinder. The dimensions of the extrusion 4 upon 3 shall be slightly smaller than the dimensions of the slot 6 within 5, small enough to allow a smooth telescoping motion. The exterior diameter of 3 the smaller telescopic tube shall be the same as the inner diameter of 5 the larger telescopic tube to allow a smooth telescoping motion.

The telescoping cylinders 3 and 5 and their male and female connections 6 the slot and 4 the extrusion, shall be connected on both sides of panels 1 and 2. Whereas the top panel shall be connected to 4 the extrusion upon 3 the inner telescopic tube. The extrusion 4 shall extrude past the exterior diameter of 5 the larger telescopic tube through 6 the slot enough to allow a secure connection to 1 the top panel along its entire side length. This panel 1 shall be connected on both vertical sides to 4 the extrusion so to not impede a telescoping movement of 3 the inner tube within 5 the larger telescopic tube. The lower panel 2 shall be connected on both vertical sides to 5 the larger telescopic tube. The panel should be connected as close as possible to 6 the slot so to create the best seal possible. 2 the panel should be connected in such a manner so not to impede telescoping movements of 1 the upper panel and its connected tubes 3 on both vertical sides which slide in and out of 5 the larger telescoping tube.

At the top end of 3 the inner telescopic tube shall be connected 15 on one side of the unit a plate which enables the unit which is anchored to the top of a scaffold to be anchored to a wall when the said scaffold is erected in front of an already erect structurally sound wall. When the scaffold which the unit is not erected in front of an already erected structurally sound wall, and where the said scaffold is used to build a freestanding wall and where the said unit is anchored to the scaffold and a wall panel. The said unit shall have 9, hook plates to connect with 7 the connections upon the wall panel unit. These hooks may be any shape so to hold the connections upon the wall unit against any downward, or any horizontal movement.

At the very top of 1 the upper panel may be connected 16, a flap which shall seal from the elements the gap within the connections between the upper panel and the lower wall panel. At the end of the said flap shall be 17 a weight which shall prevent this flap from moving in windy conditions.
When the said material of choice for the top panel 1 of the wall unit is a magnetically attractive metal then 17 may be a magnetic strip which shall better seal the gap between the panel unit from the elements against intruding wind.

In Figure 4 the numeral 1 shall represent an upper panel shown in the drawing as a rectangular prism may take any shape, 2 is also a panel, the lower panel, which is depicted in the drawing as a rectangular prism which may take any shape. 1 and 2 panels would generally be made of metal or heavy duty plastic, and under such manufactured instances the center of the said panels may be sealed or contain a form of insulation. If the said panels do not contain an insulating material or are not sealed at the center they shall be a thin sheet of such claimed materials which shall be strong enough to not collapse under their own weight. 5 is a cylindrical tube of any diameter or desired length. The said cylindrical tube shall have 6 a slot at one side. Sliding through this slot shall be 4 an extrusion of 3 the inner cylindrical tube which telescopes within 5 the larger cylinder. The dimensions of the extrusion 4 upon 3 shall be slightly smaller than the dimensions of the slot 6 within 5, small enough to allow a smooth telescoping motion. The exterior diameter of 3 the smaller telescopic tube shall be the same as the inner diameter of 5 the larger telescopic tube to allow a smooth telescoping motion.

The telescoping cylinders 3 and 5 and their male and female connections 6 the slot and 4 the extrusion, shall be connected on both sides of panels 1 and 2. Whereas the top panel shall be connected to 4 the extrusion upon 3 the inner telescopic tube. The extrusion 4 shall extrude past the exterior diameter of 5 the larger telescopic tube through 6 the slot enough to allow a secure connection to 1 the top panel along its entire side length. This panel 1 shall be connected on both vertical sides to 4 the extrusion so to not impede a telescoping movement of 3 the inner tube within 5 the larger telescopic tube. The lower panel 2 shall be connected on both vertical sides to 5 the larger telescopic tube. The panel should be connected as close as possible to 6 the slot so to create the best seal possible. 2 the panel should be connected in such a manner so not to impede telescoping movements of 1 the upper panel and its connected tubes 3 on both vertical sides which slide in and out of 5 the larger telescopic tube.

At the bottom end of 5 the lower, larger telescopic tubes shall be inserted an industry normal swiveling adjustable jack for the use of keeping the entire unit in a level manner with the scaffold to which it is applied. This swiveling, adjustable jack may also be anchored into a concrete surface so to secure a scaffold section against wind loads. At the top of the unit connected at the top and back of 3 the inner telescopic tube shall be a connecting piece which shall allow a secure connection to the top of scaffold unit.

Connected at the bottom of the upper most point of 5 the larger telescopic tubes at both sides of 2 the lower panel shall be 10 a swiveling hinge. At the lower end of the said hinge on both sides shall be 13 a telescoping cylinder which shall telescopic within 11 a telescopically larger cylinder. This shall allow the entire unit to be angularly adjustable. The larger telescoping tube 11 shall be open at the bottom on only one side of the unit to directly fit around 18 a scaffold frames male connection. At the other side of the unit shall be connected to 11, 14 a round ring which shall directly accept 18 the male scaffold frame connection. This ring 14, shall be short enough to allow 11 the tube at the adjacent side of the next paneling unit to accept the scaffold male connection and still allow it to engage with drilled holes within 18 the said scaffold connection to accept a locking pin. At the bottom end of 5 shall also be connected at both sides 10 a swiveling hinge. Connected at the other end of the said hinge shall be 12 a short tube. On one side of the unit the said tube shall directly accept 18 the male scaffold connection. where at the other side shall be connected 14 a round ring which shall directly accept the male scaffold frame connection. This ring 14, shall be short enough to allow 12 the tube at the adjacent side of the next paneling unit to accept 18 the scaffold male connection and still allow it to engage with drilled holes within the said scaffold connection to accept a locking pin.

At the top end of 3 the inner telescopic tube shall be connected 15 on one side of the unit a plate which enables the unit which is anchored to the top of a scaffold to be anchored to a wall when the said scaffold is erected in front of an already erect structurally sound wall. When the scaffold which the unit is not erected in front of an already erected structurally sound wall, and where the said scaffold is used to build a freestanding wall and where the said unit is anchored to the scaffold and a wall panel. The said unit shall have 9, hook plates to connect with 7 the connections upon the wall panel unit. These hooks may be any shape so to hold the connections upon the wall unit against any downward, or any horizontal movement.

At the very top of 1 the upper panel may be connected 16, a flap which shall seal from the elements the gap within the connections between the upper panel and the lower wall panel. At the end of the said flap shall be 17 a weight which shall prevent this flap from moving in windy conditions.
When the said material of choice for the top panel 1 of the wall unit is a magnetically attractive metal then 17 may be a magnetic strip which shall better seal the gap between the panel unit from the elements against intruding wind.

In this drawing the numeral 19 represents the industry normal scaffolding frames where upon it are 21 brace locks which allow 20 braces to lock to 19 the scaffold frames.

In Figure 5 is a drawing of the said telescoping panel invention incorporated into an opening blocker where the said panels are telescopically adjustable. And whereas the numeral 5 shall represent the larger main telescopic cylinder.. Within this cylinder shall telescope in and out 3, a telescopically smaller than 5 cylinder. This cylinder shall have 4 an extrusion which shall protrude through a slot in 5 (this slot not seen in this drawing, this slot in depicted in Figure 7, and Figure 8 by the numeral 6).
Connected at one side to 4 the extrusion of 3 the smaller telescopic cylinder shall be 22, shown in this drawing as the lower 22 panel which is a hollow panel that shall be telescopically larger than 23 the inner telescoping panel. This smaller telescopic panel is connected to 4 the extrusion of 3 the other post which 22 is not connected to. 23 shall telescope horizontally within 22 to provide adjust ability. 22 and 23 shall be connected to 4 the extrusion is such a manner so not to impede the telescopic movement of

3 within 5.

Connected to 5 shall be 22 another telescopic panel which is telescopically larger than 23 for horizontal adjust ability. 23 the depicted upper small telescoping panel shall be connected to 5 the tube which 22 is not connected. Also connected to the larger telescoping panel 22 which is connected to 5 the larger telescopic cylinder shall be at one end 25, a tube which has 4 an extrusion which connects the tube to 22 the panel to add rigidity. Within this tube 25 shall be 26 a telescopically smaller cylinder which is connected to the end of 5 the larger cylindrical tube which is connected to 23 the smaller telescopic panel. 26 connected to 5 shall telescope within 25 along with 22, and 23 telescoping within each other in one telescoping adjustable movement.

Connected at the inner ends of 3 the two inner telescopic tubes shall also be 25, and 26 telescoping tubes where 25 again has 4 an extrusion which connects to the exterior of 22 being connected to 3. This again creates a unified telescopic movement.

connected with 25 and 22 the larger telescopic elements adjusting horizontally with 26 and 23 connected to 5 also telescope upon 3 with its connections also to its own 25 and 22 larger telescopic elements upon 23, 26, and 3 to give another plain of horizontal adjust ability.

Connected to 4 the extrusion of 3 both inner telescoping cylinders shall be 30 plates with selectively drilled holes so to be anchored to the exterior perimeter of the said blocked hole. With this same task shall be connected to 5 the larger telescopic tube 29 plates with selectively drilled holes so to be anchored to the exterior perimeter of the said blocked hole.

In Figure 6 the numeral 5 shall represent the larger main telescopic cylinder.. Within this cylinder shall telescope in and out 3, a telescopically smaller than 5 cylinder. This cylinder shall have 4 an extrusion which shall protrude through a slot in 5 (this slot not seen in this drawing, this slot in depicted in Figure 7, and Figure 8 by the numeral 6). Connected at one side to

4 the extrusion of 3 the smaller telescopic cylinder shall be 22, shown in this drawing as the lower 22 panel which is a hollow panel that shall be telescopically larger than 23 the inner telescoping panel.
This smaller telescopic panel is connected to 4 the extrusion of 3 the other post which 22 is not connected to. 23 shall telescope horizontally within 22 to provide adjust ability. 22 and 23 shall be connected to 4 the extrusion is such a manner so not to impede the telescopic movement of 3 within 5.

Connected to 5 shall be 22 another telescopic panel which is telescopically larger than 23 for horizontal adjust ability. 23 the depicted upper small telescoping panel shall be connected to 5 the tube which 22 is not connected. Also connected to the larger telescoping panel 22 which is connected to 5 the larger telescopic cylinder shall be at one end 25, a tube which has 4 an extrusion which connects the tube to 22 the panel to add rigidity. Within this tube 25 shall be 26 a telescopically smaller cylinder which is connected to the end of 5 the larger cylindrical tube which is connected to 23 the smaller telescopic panel. 26 connected to 5 shall telescope within 25 along with 22, and 23 telescoping within each other in one telescoping adjustable movement.

Connected at the inner ends of 3 the two inner telescopic tubes shall also be 25, and 26 telescoping tubes where 25 again has 4 an extrusion which connects to the exterior of 22 being connected to 3. This again creates a unified telescopic movement.

5 connected with 25 and 22 the larger telescopic elements adjusting horizontally with 26 and 23 connected to 5 also telescope upon 3 with its connections also to its own 25 and 22 larger telescopic elements upon 23, 26, and 3 to give another plain of horizontal adjust ability.

Connected to 4 the extrusion of 3 both inner telescoping cylinders shall be 30 plates with selectively drilled holes so to be anchored to the exterior perimeter of the said blocked hole. With this same task shall be connected to 5 the larger telescopic tube 29 plates with selectively drilled holes so to be anchored to the exterior perimeter of the said blocked hole.

In Figure 7 the numeral 5 shall represent the larger main telescopic cylinder.. Within this cylinder shall telescope in and out 3, a telescopically smaller than 5 cylinder. This cylinder shall have 4 an extrusion which shall protrude through 6 a slot in 5. Connected at one side to 4 the extrusion of 3 the smaller telescopic cylinder shall be 22, shown in this drawing as the lower 22 panel which is a hollow panel that shall be telescopically larger than 23 the inner telescoping panel.
This smaller telescopic panel is connected to 4 the extrusion of 3 the other post which 22 is not connected to. 23 shall telescope horizontally within 22 to provide adjust ability. 22 and 23 shall be connected to 4 the extrusion is such a manner so not to impede the telescopic movement of 3 within 5.

Connected to 5 shall be 22 another telescopic panel which is telescopically larger than 23 for horizontal adjust ability. 23 the depicted upper small telescoping panel shall be connected to 5 the tube which 22 is not connected. Also connected to the larger telescoping panel 22 which is connected to 5 the larger telescopic cylinder shall be at one end 25, a tube which has 4 an extrusion which connects the tube to 22 the panel to add rigidity. Within this tube 25 shall be 26 a telescopically smaller cylinder which is connected to the end of 5 the larger cylindrical tube which is connected to 23 the smaller telescopic panel. 26 connected to 5 shall telescope within 25 along with 22, and 23 telescoping within each other in one telescoping adjustable movement.

Connected at the inner ends of 3 the two inner telescopic tubes shall also be 25, and 26 telescoping tubes where 25 again has 4 an extrusion which connects to the exterior of 22 being connected to 3. This again creates a unified telescopic movement.

connected with 25 and 22 the larger telescopic elements adjusting horizontally with 26 and 23 connected to 5 also telescope upon 3 with its connections also to its own 25 and 22 larger telescopic elements upon 23, 26, and 3 to give another plain of horizontal adjust ability.

Connected to 4 the extrusion of 3 both inner telescoping cylinders shall be 30 plates with selectively drilled holes so to be anchored to the exterior perimeter of the said blocked hole. With this same task shall be connected to 5 the larger telescopic tube 29 plates with selectively drilled holes so to be anchored to the exterior perimeter of the said blocked hole.

In Figure 8 the numeral 5 shall represent the larger main telescopic cylinder.. Within this cylinder shall telescope in and out 3, a telescopically smaller than 5 cylinder. This cylinder shall have 4 an extrusion which shall protrude through 6 a slot in 5. Connected at one side to 4 the extrusion of 3 the smaller telescopic cylinder shall be 22, shown in this drawing as the lower 22 panel which is a hollow panel that shall be telescopically larger than 23 the inner telescoping panel.
This smaller telescopic panel is connected to 4 the extrusion of 3 the other post which 22 is not connected to. 23 shall telescope horizontally within 22 to provide adjust ability. 22 and 23 shall be connected to 4 the extrusion is such a manner so not to impede the telescopic movement of 3 within 5.

Connected to 5 shall be 22 another telescopic panel which is telescopically larger than 23 for horizontal adjust ability. 23 the depicted upper small telescoping panel shall be connected to 5 the tube which 22 is not connected. Also connected to the larger telescoping panel 22 which is connected to 5 the larger telescopic cylinder shall be at one end 25, a tube which has 4 an extrusion which connects the tube to 22 the panel to add rigidity. Within this tube 25 shall be 26 a telescopically smaller cylinder which is connected to the end of 5 the larger cylindrical tube which is connected to 23 the smaller telescopic panel. 26 connected to 5 shall telescope within 25 along with 22, and 23 telescoping within each other in one telescoping adjustable movement.

Connected at the inner ends of 3 the two inner telescopic tubes shall also be 25, and 26 telescoping tubes where 25 again has 4 an extrusion which connects to the exterior of 22 being connected to 3. This again creates a unified telescopic movement.

connected with 25 and 22 the larger telescopic elements adjusting horizontally with 26 and 23 connected to 5 also telescope upon 3 with its connections also to its own 25 and 22 larger telescopic elements upon 23, 26, and 3 to give another plain of horizontal adjust ability.

Connected to 4 the extrusion of 3 both inner telescoping cylinders shall be 30 plates with selectively drilled holes so to be anchored to the exterior perimeter of the said blocked hole.

Claims