SA520420090B1 - pyramidal wall sections - Google Patents

Abstract

Solar panel assemblies and wall sections using such assemblies are described. In a solar panel assembly, there is a mounting post and three or more triangular shaped panels. Each triangular panel is a solar panel that is responsive to a first spectrum of light and transparent to a second spectrum of light. The solar panel assembly also includes hinges that connect the triangular shaped panels to the mounting post. At least the three triangular panels can move between flat configuration and inverted pyramid configuration. In another embodiment of a solar panel assembly, the triangular shaped panels form a first solar panel layer, the assembly also including one or more additional solar panels.

Description

Pyramidal wall sections Full description

Invention background

The various embodiments generally relate to modular wall devices and ji forms specifically relate to wall sections that can be used to construct walls of a pyramidal-shaped structure ‏

This section aims to provide a background or concept. The description may include concepts that may be followed but not necessarily conceived or pursued. Unless otherwise repeated; What is described in this part is not considered to be art prior to the description and claims nor is it recognized as prior art by being included in this part.

The ability to quickly create structures can be critical to an effective response

0 for emergencies. in addition to; The presence of lightweight, space-saving materials allows for rapid deployment in remote locations. General description of the invention

The following brief description is representative only and is non-restrictive. The problems mentioned earlier in Sarg are overcome by achieving other benefits with avatars.

in the first aspect; One embodiment provides a solar panel assembly The solar panel assembly comprises a mounting post and at least three triangular shaped panels at Least three triangular shaped panels each triangular panel is a photosensitive solar panel solar panel responsive to the first spectrum of light and transparent to the second spectrum of light The solar panel group also includes

0 Lat least three hinges attaching each triangular plate; The hinge is attached to the triangular plate of the anchor shaft. At least the three triangular panels can move between a flat configuration (eg JO) along a single (plane) and an inverted pyramid configuration.

In an additional embodiment of the solar panel array; The triangular panels form at least the first solar panel layer, and the solar panel assembly also includes one or more additional layers of additional solar panel layers, each layer being one of the layers of the solar panels The snap-in is sensitive to its light spectrum. In another Cala one of the embodiments provides an eis wall section containing a shell defining a plurality of pyramidal shapes and each pyramid having Lat least three triangular sides The wall galleries includes at least one solar panel array as previously shown placed in a pyramidal shape with 0 attached to it. The angle of the three triangular sides shall be at least Led related to the base range between 5° and 85°. On the AT side one embodiment provides a solar panel array. The solar panel assembly includes a mounting pole and at least three triangular panels. Each triangular panel is a solar panel that is sensitive to the first spectrum of light and transparent to the second spectrum of light. 5 The solar panel assembly also includes an energy storage component. At least the energy storage component and triangular panels specify an inverted pyramid configuration where the energy storage component is in the first portion of the pyramid configuration The inverted triangular panels are located at least in the second, exterior facing portion of the inverted pyramidal composition (eg where 0 component is the point of the pyramid shape and the formed panels are Portion nearest the base. BRIEF EXPLANATION OF DRAWINGS Aspects of the embodiments described are made clearer by the following description” vie read in conjunction with the enclosed figures. Figure 1 shows the pyramid mold core according to one of the embodiments. Figure 2 shows a carbon fiber sheet the size of a pyramidal die core.

Figure 3 shows a sheet of creon fiber after it has been vacuum formed into a pyramidal die core. Figure 4 shows a male conductive frame. Figure 5 shows a shear dia of the male conductive frame. Figure 6 shows the outer shell section of the anther. Figure 7 shows details of the oad ball socket outer shell of the panel rack plug. Figure 8 shows the first insulating layer of the male connector frame. Figure 9 shows the first conductive layer of the male conductive frame. Figure 10 shows the contact details of the first conductive layer. Figure 11 shows a second insulating layer for the male conductive frame. Figure 12 shows the SUD second conductive layer, the male connector. Figure 13 ea of the alle shows the bird bone section of the male connector frame. Figure 14 shows an alternate cross-section of the male connector frame. Figure 15 shows the connector details of the male connector frame. Figure 16 shows the male frame connector tabs for the first connection layer of the male frame. Figure 17 shows the male frame's connecting tabs for the second conductive layer of the ASU 0 frame. Figure 18 shows the frame, which is positioned with the core of the pyramid die. Figure 19 shows the GE keyhole "in a carbon fiber plate. Figure 20 shows close-up details of the QE keyholes". Figure 21 shows a sheet of creon fiber fitted to wrap around the frame. Figure 22 shows the outside edges of the carbon fiber sheet 'pulled up' revealing the 'foot print' of the housing. Figure 23 shows two holes cut in the carbon fiber sheet. Figure 24 shows details of the 76016 vents. Figure 25 presents the clamp base.

Figure 26 presents four slide action slides Figure 27 shows the slide action parts placed on the clamp base. Figure 28 shows the inline clamps positioned on the base of the clamp. Figure 29 presents the inline clamp hardware Figure 30 shows the clamp fixture in position with the handles down and open. Figure 31 shows the matrix clamps with eV knobs and locks against the shal parts of the slide. Figure 32 shows the clamping procedure in front of the carbon fiber plate in the head of the bolt on the male -A- conductive 0 frame .boss on the male -A- conductive frame (age) Figure 33 shows close-up details of the area affected by the clamping action . Figure 34 shows close-up details of the area where the carbon fiber wraps over the top of the male camouflage frame and back on itself. Figure 35 shows a fully wrapped carbon fiber plate On top of itself Figure 36 shows the circular cutouts in the top layer of the creon fiber sheet Figure 37 presents the locking post Figure 38 reveals the underside of the locking post Figure 39 shows all four locking posts in position.

Figure 40 shows a wrap cut to reveal the -post slots Figure 41 shows a wrap cut to expose the strap heads using the -ball socket detents Figure 42 shows one set of three oval slots cut In 5 the second layer of creon fiber sheet. Figure 43 details a profile of the oval holes above the "pin hole" holes. Figure 44 shows a complete male sidewall and al heads. Figure 45 shows a male (protruding) sidewall oriented to project projecting grooves. Figure 46 shows the reverse (upper) side of a male sidewall.

Figure 47 shows a cutaway view of a solar panel prepared to be inserted into a male side wall. Figure 48 shows a view cut along the diagonal edge. Figure 49 shows a solar panel in position in a male side wall. Figure 50 shows sectional details of the column of two solar panels in the male lateral mural. Figure 51 shows a column of solar panels fixed in position in the key way. Figure 52 shows the details of the solar panels installed in a position. Figure 53 shows a unit consisting of four solar panels in a relative position. Figure 54 shows a solar dagl module solar panel module locked in position in a male side wall. Figure 55 shows connection rack. Figure 156 shows cut-off view of Jalal connection. Figure 56b shows extracted circuits Fig. 57 shows a connection rack oriented for connection to a male sidewall Fig. 58 shows a connection rack locked in a male sidewall position Fig. 59 shows sectional details of a rack-mounted detent socket Connection Figure 60 shows cross-sectional details of a connector on the solar panel post that is bolted to the latch fits Figure 61 shows cross-section of the coupling bracket Figure 62 shows cross-section details of a ball socket snap fits Fig. 63 View of ball joints locked in a ball snap fits -ball snap fits Figure 64 presents the remaining connection racks. Figure 65 shows all connection racks locked in position.

Figure 66 shows a second detached solar panel module ready to be installed in position. Figure 67 shows the second solar panel module installed in position. Figure 68 shows a complete assembly of a male solar panel part from the solar panel side. Figure 69 shows a close-up of a solar panel. Figure 70 shows an enlarged detail of the clapboard sheathing. Figure 71 shows the female gall -B- wall section from the junction holder side. Figure 72 shows details of the combined female connector ends 000601017. Figure 73 shows the details of the connector ends of the female first conductive layer. Figure 74 shows the details of the female second insulative layer. Figure 75 shows the details of the Joa gall end of the second conductive layer. feminine. Figure 76 shows the details of the female first layer insulated connector terminals. Figure 77 shows the details of the second insulated female insulating layer. Figure 78 shows the details of the female second layer insulated connector terminals. Figure 79 shows parts of the wall - a - male and - b - female in relative position. Figure 180 shows the details of the terminals of the male -A- connector and the terminals of the female connector -B-. Figure 80b shows a zoomed-in view of the O-ring groove 0. Figure 80c shows an angle cross-section revealing the O-ring groove 0 and the ring 0. Figure 81 shows the A-male and B-female parietal segments fixed in position in typical matrix. Figure 82 shows an alternate view of the i-male and -b-female wall segments fixed at position 5 in a typical array. Figure 83 shows sectional details of the two parts -a- and -b-joining that form a shaft opening. Figure 84 shows sectional details of the laterally enlarged parts =F and -B. Figure 85 shows a 2D sectional view of the a-and-b-joint laterally magnified with 0 cui columns from the ga posterior wall.

Figure 86 shows an alternate view of the laterally enlarged A-and-B linkage and mounting shaft. Figure 87 shows link A and B connected to each other. Figure 88 shows a mounting shaft installed in the shaft hole. Figure 89 shows a circular view of the anchor shaft installed in the shaft hole. Figure 90 shows a typical array from the side of the solar panel. Figure 91 shows a view of a typical matrix and posterior parietal part. Figure 92 shows a typical matrix view with a wall portion of an in-situ capacitor. Figure 193 shows the body of a magnetic securing post. Figure 93b shows an enlarged view of a magnetic securing post. Figure 93c shows a magnetic post with locking magnet Figure 93d shows a magnetic post with a rectangular cross-slot width. Figure 94 shows a view of a magnetic mounting post in ready-to-assemble view. Fig. 195 shows a magnetic insertion tool. Fig. 95b shows a bracket for the magnetic post in position on the magnetic insertion tool 5. Figure 95c shows another view of the magnetic post on the magnetic insert. Figure 96 shows a cut-out view of a cross-section of an A-and-B coupling and an insert with a magnetic post loaded on it. Figure 97 shows a small steel retaining disk and a lia steel recess in the shaft hole. Figure 98 shows a small steel retaining disc that is bolted into the steel bore. Figure 99 shows a magnetic mounting pole fixed in position. Figure 100 shows a typical matrix attached to a sample structural support .backing 5 Figure 101 shows eh capacitor wall section Figure 102 shows the cathode contact side of a capacitor cell .cell Figure 1103 shows the anode contact side of a capacitor cell 0.

Figure 103b shows a rotating capacitor cell. Figure 1104 shows an insulated cover sectioned LED sg reveal a honeycomb anode and an LED canode. Figure 104[b shows Sectional close-up of the insulated casing. Figure 104c shows an enlarged view of a capacitor cell. Figure 104d shows a detailed cross-sectional area of a section of the insulated jacket and a honeycomb-shaped anode. Figure 104e shows an insulated cover that exposes the anode conductive posts through the capacitor cover holes. Figure 1105 shows an insulated cover separated from a honeycomb anode. Figure 105b shows the reverse side of the insulated cover bosses attached to an anode. Figure 105c shows a sectional view of the LED and cathode channel 15 LED. Figure 105d shows a sectional view of the tapered cover bosses on an insulated case. Figure 105e shows sectional details of a single capped bonding head and LED cathode channel. Figure 105f shows a honeycomb-shaped anode separated from the insulated housing. Figure 105g shows the LED detector in an enlarged view of Figure 105f. Figure 106 shows an LED indicator. Figure 1107 shows a capacitor cell casing and a honeycomb stacked cathode. Figure 107b shows the honeycomb-coupled condenser cell envelope and the cathode. Figure 107c shows sectional details of a cathode conducting column. Figure 107d shows a partially assembled capacitor cell. Figure 107e shows sectional details of the capacitor cell. Figure 107g shows the AT view of the CES cell. Figure 1108 shows sectional details of the top of the capacitor cell. Figure 108b shows another view of the top of the capacitor cell.

Figure 109 shows an enlarged view of a capacitor cell. Figure 110 shows a capacitor rack removed from a complete (male) capacitor wall. Figure 111 shows a capacitor holder. Figure 112 shows the capacitor holder circuit. Figure 113 shows the connection of the circuit to the cathode. Figure 114 shows holes on the terminal of the cathode conducting column. Figure 115 shows details of the cathode conduction column and the capacitor holder. Figure 116 shows an example of a solar panel wall in a pyramidal wall frame. Figure 117 shows the back side of a pyramidal wall frame. Figure 118 shows the AA-shaped base of the pyramidal wall frame. Figure 119 shows the corners of the pyramid frame added to the frame. Figure 120 shows upper parts of the female half inserted at the bottom of the frame. Figure 121 shows a frame with one parietal part -a- on the male side and two parietal parts -b-5 on the female side. Figure 122 shows a frame with two female half parts. Figure 123 shows the frame with the remaining parts. Figure 124 shows the frame with a wall capacitor. Figure 125 shows the frame with the frame cover. Figure 126 shows the frame with the capacitor shield. Figure 1126 shows the capacitor shield Figure 127 shows the frame with multiple capacitor shields. Figure 128 shows another view of a pyramidal wall frame. Figure 129 shows the bottom of the pyramidal wall frame with a frame casing. Figure 130 shows the assembly with a solar panel wall. Figure 131 shows the frame with the corners of the pyramidal frame. Figure 132 shows a pyramidal wall frame with an upper casing. Figure 133 shows a moderately angled pyramid with a rhombus or diamond shaped base.

Figure 134 shows a shallow angled pyramid with a diamond-shaped base. Figure 135 shows a steep pyramid with a diamond base. Figure 136 shows the geometry of inverted pyramids with uneven length sides. Figure 137 shows the airflow on the underside of the panels and its internal reflectivity. Figure 138 shows an enlarged view of the intersecting panel assembly. cross panel assembly Figure 139 shows a flattened cross panel assembly introducing 0 with a second set of 1 for cross panel assembly. Figure 140 shows an enlarged view of the cross plate mounting post. Figure 141 shows a cross section of the cross plate mounting post. Figure 142 shows the top side of a transparent honeycomb monolith and its hinge. Figure 143 shows a screenshot of the part of its hinge. Figure 144 shows sectional view of the cross-panel assembly in the flattened position. In the cross panel mounting post. Figure 147 adds the second layer of wiring in the cross panel mounting post. Figure 148 shows the hinges in the folded position and the exposed leads of the wiring of the first layer of panels Aadt. Figure 150 shows a plan view of a transparent -honeycomb panel. Figure 151 shows sectional details of the connection end of a honeycomb panel.

Figure 152 shows more details of the solution cell stacking panel connection; With a clip display of the conductive contacts. Figure 153 shows a fully assembled plank folded crosswise; Which brings out the electric side of one board. Figure 154 shows a screw conveyor to handle plastic pellets for 3D printing. Figure 155 shows a robotic 3D printing system. Figure 156 shows details of an enlarged view of a robotic arm. .robotic arm and extruder ($l -vacuum forming process Figure 159 shows sectional view details of the die holes; tubes and mold in vacuum forming construction ask 15 Figure 160 thermoplastic sheets for vacuum forming and forming Figure 161 shows a vacuum/thermoformed sheet lifted from Mold Figure 2 shows an enlarged view of a thermoformed pyramid wall assembly Figure 2 shows the back of the thermoformed pyramid wall assembly Figure 163 shows the back of the thermoformed pyramid wall assembly Figure 164 shows the front side of a thermoformed pyramid wall assembly Figure 165 shows the construction 060000 injection mold for pyramidal wall part. Figure 166 gia shows a pyramidal wall ejected from the mould. Figure 167 shows the back side iad a pyramidal wall molded injection molded (Rally). Figure 168 shows two parts of a pyramidal wall plate 'back to back' Figure 169 shows details of the connection features between the panels. Figure 170 gia shows Separated from sandwiched walls with foam sills inserted between them. Figure 171 ein shows a single diamond pyramid wall over a wall socket 0, mounting screws and an alignment template.

Figure 172 shows a close-up of an enlarged view of a sectional wall socket assembly. Figure 173 shows a close-up of a sectional wall socket set aligned with the pyramidal wall. Figure 174 adds a sectioned Aligning Template lyase. Figure 175 removes sectioning from a scaled image. Figure 176 shows a cut-out and magnified view of a full Pyramid Wall 0 section, wall sockets, and alignment model. Figure 177 eda removes the pyramidal wall and shows a telephoto shot. Figure 178 shows an enlarged view of transverse slabs with a column for stacking the slabs in the form of 83 Flower 'or 'Petals' in a cell. Figure 179 adds the second plane of the group panels. Figure 180 shows an enlarged view of a flower-shaped column. Figure 181 shows details of a sectional view of a flower-shaped column. Figure 182 shows details of a cross-section view of a flower-shaped column casing; 5 head and shaft mounting sockets. Figure 183 shows the first level of internal wiring in a flower-shaped column where it attaches to the hinges; In addition to serial connection to other levels of panels. Figure 184 shows the internal wiring in a flower-shaped column (with the column body removed). Figure 185 shows panels connected by wire; With column structure and panels removed in lead 0 for clarity. Figure 186 shows a completed stacked "flower" group; With the cross panels in the flat position. Figure 187 shows the cross panels folded into a pyramidal shape; Which makes the flower-shaped painting cell complete. Figure 188 shows an alternate stacking setup with horizontal panel and column joints. Figure 189 shows a sectional view of a complete stack of panels i) with the cross panels laid flat. Figure 190 shows a removal of a sectional view of the stacked panels.

Figure 191 shows an alternate sectional view of stacked horizontal panels and cross panels folded upwards in a pyramidal shape. Figure 192 shows fully assembled and folded horizontal flower-shaped panel cells. Fig. 193 shows a sectional view of a concave, translucent casing over a slab portion containing a horizontal flower petal-shaped group. Figure 194 shows variations in the geometries of the transparent envelope including the flat concave +00; cspherically concave coval concave lenticularly concave teardrop concave Fig. 195 shows the geometric variations of the transparent cover including 0 € concave with the lens; The concave spherically convex Ly S concave oval convex and concave lenticularly concave teardrop convex . The figure shows 196 replacement horizontal petal cells without a center post, one plate and joint removed for display, concave transparent casing spherically. Figure 197 shows an enlarged view of the locking hub assembly of the 5 petal cell. Figure 198 shows a sectional view of the locking hub. Figure 199 shows the wiring inside the pivot and the connections to the hinges. Figure 200 shows a fully assembled horizontal flower plate assembly with a concave translucent casing. Figure 201 shows an enlarged view of a supercapacitor cell. Figure 202 shows the positive and negative wires in the cell. Figure 203 shows wire-connected carrier and casing cut cell 56000060 .cell Figure 204 shows insertion of positive, honeycomb layers 5 Figure 205 shows all positive layers Figure 206 shows width Side view of all positive and negative layers, as well as the angle view up and down. Figure 207 shows a complete alkali supercapacitor module upside .down 30

Figure 208 shows an enlarged view of a chybrid capacitor and lower column of a post-less flower panel cell. Figure 209 shows a sectional view of a supercapacitor unit with variations of the flower panel cells on top. Figure 210 shows the same unit with a sectional casing and a concave polygon over a single cell. Figure 211 shows a fully assembled tractor vehicle with a pyramidal wall system. Figure 212 shows an enlarged view of a vehicle's rim, upper and lateral pyramidal parietal parts, and details of the anterior and posterior parietal portion. Figure 213 shows an enlarged view of the front and rear translucent ribbed wall casings with the addition of 0 cab. Figure 214 shows an enlarged view of the transparent, polygonal top and side casing. Figure 215 shows an enlarged view of the transparent ribbed top cover. Figure 216 shows a section view of the trailer front end of a sectioned tractor Jrailer 5 Figure 218 shows the front end of a complete tractor with a pyramid wall system. Figure 219 shows an enlarged view of a Jala sound wall section "JH frame" - Figure 220 shows an assembled acoustic wall -assembled sound wall section Figure 221 shows an acoustic wall section with a separate view; reveals foam or Filled interior grains Figure 222 shows an extension of a stretch of sound wall barrier Figure 223 shows a pyramid structure Figure 4 shows an enlarged view of one triangular sidewall of a 5-gram structure Figure 225 shows wall details Triangular profiles positioned to engage with base slots. Figure 226 shows a triangular sidewall completed from another angle; ready for insertion into the base slots and onto the base.

Figure 227 shows two sides of a completed triangular sidewall that is meshed into the base holes and ready to be attached to a base. Figure 228 shows a triangular sidewall inserted into an ohn base completed; With the frame members in position. Figure 229 shows a completed pyramid structure with the casing inserted. Figure 230 shows a building with sides covered by parts of the pyramidal wall and the bases of the pyramidal structure on the roof. Figure 231 shows the pyramidal wall structures assembled Wis on the roof. Figure 232 shows a building with parts of the pyramidal wall on its sides and four pyramidal wall structures on its roof. Figure 233 shows a free-standing pyramidal structure on a two-axis tracking system. Figure 234 shows a Sly construction with sides and roof covered with a single layer pyramidal wall system. Figure 235 shows sectional details of a wind skirt surrounding the pyramidal wall portion. Detailed Description: This patent application is a partial continuing application claiming precedence from the US Non-Provisional Patent Application No.: 484.762/15; Filed April 11, 2017 Claiming Precedence from US Patent Provisional Application No.: 321.287/62; filed on April 12; 6. The respective statements are incorporated by reference in their entirety. The indefinite embodiment shown in the figures dlls of the manufacturing steps and set involved in making a diamond wall segment (Say dimensions) illustrates the description of the various elements of this embodiment with specific measurements. In other embodiments the dimensions of the elements lly Gy can be modified on a say (JB) To produce smaller or larger diamond wall segments. In other embodiments; (Sa) the machining steps and assembly are re-arranged and the different steps can be combined and/or omitted. The pyramid shape has several benefits including strength and an increased surface area ©590726. One of the main ideas behind the pyramid wall system is three points:

1) Create a modular system that is lightweight, inexpensive and energy sustainable -self-sustaining Gly

2) Increasing its capacity for energy storage and the efficiency of its solar panels. The hierarchical installation of solar panels gives 38 7 more than the surface area of exposure.

solar energy.

3) The inside/outside exposed pyramid pattern reduces the wind resistance on the sidewall of the towing vehicle; Similar to the idea of tapping on a golf eal ball used to extend the flight (Saag .6*1600 flight), reduced drag alone would result in savings of at least 711% in annual fuel costs per vehicle. ‏

The pyramidal wall system is adaptable to structural frameworks that form many different geometries (Lo (polyhedral) in that; but not limited to terrestrial (pyramids with three sides and a base) » right pyramids) 4 sides and base); cubes, rectangular cubes, crectangular cuboids, etc. Wall parts may be further subdivided to form the boundary edge of the frame to support each face

5 Hulk.

The core of the pyramid mold 100 is shown in Figure 1 and is the basic shape used to produce the carbon fiber housing and can be 3D printed3 0 in thermoplastic using a process called Fused Filament Fabrication (FFF) Wiad is called Fused Deposition Modeling

.(FDM) 0 In this process; Plastic filament is fed into an extruder (gill a) that melts and feeds through a nozzle The filament may have composite fibers added as well for extra strength and aug dimensional stability Convert data from a 3D model to code code The path of the extruder head specifies the speed of the ¢path the flow rate of the material and the temperature.

dual gantry setup 25 allowing the servo motors to be placed on a level build plate at various points along axis 6; 7 and 7. There may be two or more extruder heads, each of which is independently controlled.

The core of the pyramid die 100 may be partially hollow with an inner grid; or filled annealed and/or LoS coated for rigidity. "base area 110 ,foot print" from housing in the form of (ale

30 just under 29" x 18" diagonal and 2" thick. It supports (= ile gana from bl headers) on

The shape of a pyramid of 120 which is less than 5” in height from each base to its tops. (Sarg) Manufacture the entire mold core 100 in one piece. Figure 2 shows the carbon fiber plate 200 used to make the housing. Creon fiber or equivalent has several advantages over traditional materials and construction methods 5 6l0m0. It is lighter, stronger and more Durability of wood or metal and can be machined into shapes not available with these materials.The thickness may range from 1 mm to 1.75 mm.The SL Creon 200 sheet can be cut into a pattern according to where the seams are located and/or holes are provided at Figure 3) A sheet of Creon 200 fiber has been vacuum shaped to the core shape of a pyramid molding 100. Figure 4 shows a male connection frame 400. This frame creates a 400 wireless module and 0 dap reduces long-term damage by being bolted to the composite housing This frame is 0. referred to as a male connection-a-frame, follows the perimeter of the walls of the pyramid, and as shown in Figures 5-17, the frame 400 is 3D printed with double materials, the first being thermoplastic insulators that form the outer shell. outer shell (500); in addition to the first and second insulating layers (al) that alternate between conductive layers (the second material may be conductive); Such as thermoplastics of unfused graphene as one unlimited example. It forms a duly in addition to the 1300 "Birdbone" core (which is a hollow, lightweight internal structure that allows airflow). The 1300 Birdbone core is a structural component that provides increased strength at a fraction of the weight. It provides the core that The bird allie is like a 1300 Gan Air Wad (eg; 0 inert gas flow) which allows a positive ion current to flow as low pressure gas crosses the grid increasing the current flow.As shown below; the core is shaped like Allie Bird 1300 also lass the connectors to the 1800 solar panel parts. Laie Space between rear wall portions to the rear is limited In an AT embodiment Unlimited Shaft/hole assemblies may be part of outer shell 500 when space is not limited Column holes 510 will be replaced by a raised cylindrical shaft with a closed channel cut out From the side, the channel profile has a “1” cross-section with a radial inner face. (See Figures 40” 83” 87; 88 and 97 for the original 510 shaft 0 holes.) The 1660 mounting shafts can be replaced with cylindrical coupling heads.

Shoulder to create a column in the form of "7" to be fixed inside these channels. (See Figures 36-39 85' 87 and 88 for the original 1660 anchor posts). In this unlimited embodiment; The 400 frame is greatly simplified by removing aperture features that cut into different layers of conductors and insulators (see Figure 14). The rivet heads are in a “520 V” shape and have a 530 protrusion along the sides which aids in alignment and clamping. Four sets of 540 ball socket wrenches connect the plate dels plugs to the first and second contact layers. Each corner along the long diameter contains open rectangular slots 550 between the conductor tongues 560 of the first conductive layer 900 and the conductor tongues 0 of the second conductive layer 1200. The frame 400 is then placed over the raw creon fiber material 0 200 Figure 5 shows a raised cross-section 500 of the frame 400. Figures 6-13 isolate the different components and features of this cross-section. Figure 6 shows the part of the outer casing 600 that has a half profile in the "7" shape of this cross-section. Shown here are the 540 Ball Socket Connection Heads and the 700 Ball Socket 5 Tool Mounting Tool. They may be made of insulating thermoplastics. Figure 7 shows the details of a single 700 bolt-on ball socket tool used to install the 2150 ball joints of the plate carrier plugs (see Figure 61). They have a ball bore with three emergency holes to help align with the ball plug and then engage the ball plug when in position. Figure 8 shows the first insulation layer 800 which is the same material as the outer shell. They can be distinguished because they follow the circumference of the first conductive layer (see Fig. 9). In this unlimited embodiment; Material is approximately 1/32 inch thick. Figure 9 shows the first conductive layer 900 Ally can be printed with non-fused/embedded graphene thermoplastic (or equivalent) This layer 900 contacts with a negative charge; 5 and terminated in a conical bowl 1000 and may be approximately 1/32 inch thick in this unlimited embodiment. Figure 10 shows details of the conical bowl 1000 of the plug end. This electrical contact is made for the first coupling layer 900 when the ball joint 2150 (see Fig. 61) is in position with the ball socket fitting 700 inside the ball socket coupling heads 540.

Figure 11 shows the second insulating layer 1100( lly) being the same material as the outer sheath 0 and the first insulating layer 800. This second insulating layer 1100 is sandwiched between the first and second conductive layers 900 1200, in an unlimited embodiment and approximately 1/32 inch thick. Figure 12 Second conductive layer 1200. This layer 1200 is the same material as the first conductive layer 900 except that it connects to the positive Lind and terminates in a conical bowl 0. It can be thought of as a "bird-bone" core shell 1300 (shown in Figure 13) but Distinctive because it follows the perimeter of the second insulating layer 1100. In accordance with this indefinite embodiment; the second conductive layer 1200 is approximately 1/32 in. thick. The bird-bone ohn 1300 according to Fig. 13 of the same sale is the two conductive layers

The first 0 and the second 900 1200 and carry a positive charge. Sang that the shape of this heart is 1300 hollow and organic; Jie is made from bird bone in order to be lightweight and to provide some structural stiffness as well as to allow air to flow.

Figure 14 shows an alternate cross-section of the framing layers at the end facade. starting from position 1400; The bird bone 1300 is positively charged; The center is surrounded by 1400

5 The second conduction layer is 1200 (o (positively charged), then the second insulating layer 1100; then the first conduction layer 900 (negatively charged), then the first insulating layer 800 and the cover at the end 600 from the outside. Column openings 510 are shown Top image (note that in this example the second insulation layer 1100 is not continuous, eg due to limited space).

Figure 15 shows a sectional view of a male-A-400 connection frame with open rectangular holes 550 at the corners. These holes are holes in the core shaped like the “bones” of the connector lal 1300 to allow the flow of low pressure gas between the parts of the plate when they are connected. Figure 16 shows Jian's width of conductor tongues 560 for the first conductive layer 900. With the outer boundary of this layer and these tongues being the first insulating layer 800. Figure 17 shows the width

5 Insulated for the connector tongues 570 for the second conducting layer 1200. The outer boundary of this layer and these tongues is the second insulation layer 1100.

Figure 18 shows a male-to-male frame 400 in place on the formed vacuum.

formed and carbon fiber sheet 200 carbon fiber sheet and as shown in Figure 19 one set of

Three 1500 keyholes cut in the first layer of the formed blank;

0 and carbon fiber plate 200. Figure 20 shows details of the "bolt hole" profiles.

0. The narrow part of each hole 1500 is attached to the shoulder of the column 1810 on the back galleries of the solar panel 1800; when it is put in place. There are four groups of 1,500 holes per pyramid head and four pyramid heads assembled per creon fiber housing. Figure 21 shows the outer edges of the Creon 200 fiber sheet being prepared to wrap around and over the 400 frame. Figure 22 shows the outer edges of the CF 200 sheet; This shows the 110" base area" of the housing to allow the 1600 clamp to be installed. Figure 23 shows two 1700 holes cut in the 200 Creon fiber sheet at an angle along the diagonal (opposite angle not shown). These cuts are intended to allow the installation of the 550 open rectangular holes; And the tongues of Mosul 560 and 570. Figure 24 0 shows the details of the 1700 holes. Figure 25 presents the base of the 1610 clamp. Figure 26 presents the four working parts of the 1620 bracket. Figure 27 shows the movement parts of the 1620 bracket placed on the base of the clamp 1610. Figure 28 shows the array clips 1630 in position on the base of the clamp 1610. 29 INCLUDED INSTALLATION HARDWARE 1640. One of the four clamps has a device already fitted 5 in place. Figure 30 shows the clamp 1600 in position with the handles down and open. Figure 31 shows the 1630 matrix clamps with the handles facing up; It closes against the movement parts of the slide 1620. Figure 32 shows details of the procedure for securing the clip in front of a Creon fiber plate 200 in a 520 7-shaped attachment head on the male connection frame-A-400. Figure 33 shows close-up details of the affected area Le fixation shal This includes a carbon fiber plate 0 200 and a connecting head in the form of a 520 7. Close-up detail is shown in Fig. 34 of the area where the crone fiber plate 200 wraps over the top of the male frame 400 and back on itself in the second layer. Figure 35 shows a carbon fiber sheet 200 completely wrapped on top of itself to complete the second layer. Figure 36 shows the 1650 circular cutouts in the top layer of the 5 200 carbon fiber plate but not in the first layer. This configuration is to accommodate 1660 anchor bars to be bolted. Figure 37 presents the anchor post 1660. Figure 38 shows the underside of the anchor post 1660. These four faces 1670 and/or the visible faces of the circular cutouts 1650 have a glue she placed there to attach the supports 1660. Figure 39 shows four anchor heads all 0 1660 in position.

Figure 40 shows the casing cut to show the shaft holes 510 and Fig. 41 shows the casing cut to show the ball socket attachment heads 540 with the ball socket tool riveted 700. Figure 42 shows one set of three sectional 1820 oval holes in the second layer of the blank (Saal) and 200 crayon fiber sheet. Figure 43 shows the details of the profile of the oval holes 1820 on top of the “bolt hole” holes 1500. These holes are 1820 Linge with holes 1500 in the first layer and provide Cig in front of the shaft head 1810 on the back for the solar panel 1800 when in position. There are four sets of holes 1820 1500 per pyramid header 120 and a set of pyramid header 120 dan per Creon housing.

Figure 44 shows a complete Male 1900 sidewall (excluding solar panels) and Jal headers in the form of 520 7. Figure 45 shows a male 1900 sidewall (without solar panels) Kase to show the protrusion in the form of 530 7.

Figure 46 shows the top side (inside) of a male 1900 sidewall (without solar panels) prior to the introduction of the 1800 solar panels.

Figure 47 shows a single 1800 solar panel constructed to be inserted into a male 0 side wall with a face cutout that slides into the adjacent face. A sectional view of Fig. 47 is shown in Fig. 48 but along the long diagonal edge (normal at the plane dividing the short diagonal edges). Figure 49 shows a single 1800 solar panel in position in a male 0 side wall in the same sectional view as in Figure 48.

Figure 50 shows sectional details of two solar panel columns 1810 and one solar panel column 0 inserted into the wide gall of the “bolt raceway” hole 1500 and its shoulder accommodated at one end of the oval hole 1820. Figure 51 shows a solar panel column 1810 fixed in position with its shoulder lef The narrow part of the hole for the "keyway" 1500 ging pushed in front of the opposite end of the oval hole 1820. Figure 52 shows the details of both columns 1810 (in addition to strengthening

5 tabs 1830 behind the solar panel 1800 fixed in position.

Figure 53 shows a Solar Panel 2000 module of dxf (4) Solar Panel 1800 in relative position and Figure 54 shows a Bang Solar Panel 2000 fixed in position in a 1900 male side wall. Figure 55 shows the connection bracket 2100 used to attach the Solar Panel Module 2000 and its connection to a layer The first connection is 900 and the second connection layer is 1200. These carriers are 2100

Useful because they eliminate visible wires and can be easily replaced if damaged. Since they are arranged in parallel; Individual carriers of the 2100 can be replaced without interrupting current flow. Figure 156 shows a cross-sectional view of the junction rack 2100. The dala structure shows the junction 60, the positive circuit of the junction rack 2120 and the negative circuit of the junction 2130; the positive electrode 2160 and the negative electrode 2170. Figure 56b shows two renderings of the de-circuits for greater clarity. And they are the Linge circuit of the solar energy carrier 2120 and the anode 2160 and in the north latitude; and in the right view the negative circle of sunmount 2130 and negative pole 2170 in one of the unfinished examples; The 2100 junction rack will consist of 0 2120 2130 metal junction circuits completely molded to a thermoplastic body. In another unrestricted example; 3D components may be with double extrusion heads. And in the process; The 2110 chassis is printed using insulating thermoplastic; while a second subject will manufacture the conductive circuits 2120 2130; It may be using non-fusible graphene thermoplastics similar to the male 400 frame. In the example of an unconstrained AT; The 2110 body is 3D printed or molded into a shawl and bolted 5 to a jumper wire. Figure 57 shows Connection Bracket 2100 oriented for connection to the male sidewall 1900. Figure 58 shows Connection Bracket 2100 bolted into position with the male sidewall 1900. Figure 59 shows sectional details of one of the eight (8) 2190 receptacle ports on dela Connect 0. Bulkhead 2190 for fixing an enlarged tongue of the conductive pole onto Solar Panel 0 column 1810. In this photo, Solar Panel 1800 and its column 1810 are slid to show the bore of the bulkhead socket 2190. Figure 60 shows sectional details (according to Figure 59); Where the enlarged tongue of the connection pole on the solar panel post 1810 is exposed while it is screwed into the bulkhead socket 2130. Figure 61 shows a Jalal section of the connection 2100. In the lower hall are details of the 5 ball joints 2150 that insert into the mounting ball socket tool 700 (see Figure 7). This tool installs the 700 into a housing; Positive electrode shown 2160 to the positive circuit of sun mount 2120 and negative electrode shown 2170 to the negative circuit of solar mount 2130. Figure 62 shows cross-section details of the mounting ball socket tool 700 (with the mounting bracket 2100 concealed) and the solar panel poles 1810 visible.

Fig. 63 shows a rendering (similar to Fig. 60); But it does reveal ball joints 2150 securing the spherical socket securing tool 700 and a piece of connecting dala 2100 visible to solar panel pole 1810 in position.

Figure 64 presents the remaining three (3) 2100 connection mounts to complete the back side of a part

solar panel. Figure 65 shows all four (4) 2100 connection racks installed in position. Figure 66 shows a second unit of four (4) gol (4) Solar Panel 2000s separated and ready to be installed in position. Figure 67 shows a second unit of four (4) solar panels 2000 in position. Figure 68 shows complete assembly of the male 2300 solar panel portion Solar panel shown.

Figure 69 shows an 1800 solar panel and the area to be detailed with a clear coat of 1840 (as shown in Figure 70). This coating consists of wave refraction steps typical of the outer surface of the 1800 plate. In one unlimited embodiment; The cells on the 1800 photovoltaic (PV) solar panel are 3D printed with multiple extrusion heads; Each of them is intended for different materials. And by printing the first documents, an insulating support. The second prints with a connection path to a layer

5 positive bottom cell using conductive ink. The third prints the positive 'pure 0' semiconductor layer and the fourth prints the negative semiconductor layer. The second extruder can be resubmitted and the conduction path of the top negative layer is printed.

at different levels of construction; and in the daly embodiment is unrestricted; Printing is stopped to insert components; reboot; Then encapsulate the parts that are integrated into an integrated circuit

0 or IC This IC may be a junction box consisting of two segments and shutoff valves in parallel to prevent backflow of current and allow electric current to flow in the event of damage to an individual cell and in another unrestricted embodiment; A single Bye fully integrated circuit sub-assembly can be 3D printed using multiple extrusion heads; Each contains a separate Bale in the same way cells are printed.

Figure 70 shows enlarged details of the transparent cwave patterned 1840 refraction steps on the LLL shell as indicated in Figure 69. These steps increase the surface area exposed to sunlight. and in one unlimited incarnation; This housing is produced as an injection molded component using an optical quality polymer, then alia, and then the edges are bonded to the top layer.

0 A for cell and solar panel completion 1800. In an embodiment of AT unlimited; The cover is triple printed

dimensions using a different process; Jie's Stereolithography (SLA) fabrication technique is then polished to stabilize 1840 refractive steps.

Figure 71 shows a parietal-b-female ea 2400 from the dela-connecting side. Figure 72 shows details of the terminals of the 2410 combined female connector. Figure 73 shows details of the terminals

Connector to female first layer 2430. (female first)

insulative layer (not shown).

Figure 74 shows details of the 2440 female second insulation layer and its reinforced frame; and a 2450 connection shield on the right side. Figure 75 shows the details of the second female connection layer for terminal 2460.

10 Figure 76 shows details of the terminals of the insulated female first layer 0 connector. Figure 77 shows details of the second female insulated layer 2440 and its reinforced frame; and a 2450 connection shield on the right side. Figure 78 shows details of the terminals of the 2460 female second layer insulated connector.

Figure 79 shows mural parts - A - male 2300 and mural parts - B - female 2400

5 in a relative position from the connector side.

Figure 180 shows details of the male-A connector terminals (combined 550; 560 and 570); and connector terminals (gil) -b- 2410 cut holes 1700 at coupling tubes, coupling heads 7 520, 7 530 projection, 0 580 annular projection. Figure 0b shows a close-up of the 0 580 annular projection. This is used to lock parietal parts bie

0 and prevent moisture from penetrating either side. The surfaces of the projection can be coated with glue to strengthen the lock. Figure 80c shows a cross-section of a tube which reveals the annular protrusion as 580 0 and the annulus as 590 0.

Figure 81 shows male wall segments 2300-a- and female-b-2400 latched into position in a typical matrix 2500 from the side view of the connector. Figure 82 shows a display

5 replacement Sal two wall males - a - sly - b - 2300 2400 held in position in a typical matrix 2500 from the side width of the connector (La) from the beginning to the bottom face).

Figure 83 shows sectional details of the connection of the A- and B-parts 2510 that make up the shaft hole 510. Figure 84 shows sectional details of the side amplifier connection of the A- and B-parts 2510

Figure 85 shows a 2D cross-sectional view of a laterally enlarged A-F-B-2510 with post 1660 of ga wall support routed for connection to the typical array 2500. Figure 86 shows an alternative view of the assembly in Figure 85; naturally relative to the surface dividing the short diagonal edges. Figure 87 shows a joint T=F-B-2510 linked l and the anchor post 1660 is routed to insert into the column hole 510 and join the support wall portion to the modular matrix 2500. Figure 88 shows the anchor column 1660 installed in the column hole S10 From the width of a natural section to the plane dividing the short diagonal edges and by Fig. 9 is the width of a section rotated 90° from the direction of Fig. 88. Figure 90 shows a typical array 2500 from the side of the solar panel.

Figure 91 shows Gils' view of a typical Matrix 2500 and the retaining wall portion. And in this unlimited embodiment; This support wall shall be a 2900 capacitor wall portion. Figure 92 shows a profile along the long diagonal of a typical matrix 2500 with Sa las capacitor 2900 in position.

In order to prevent wall parts from moving backwards (such as the typical matrix 2500 ag

5 Condenser wall 2900) is partially non-slip and a magnetic mounting column 3000 is used. The 3010 columns 3000 is made of thermoplastic and has a remote 0 NdFeB mounting magnet attached to it.

Figure 193 shows the 3010 frame of the 3000 magnetic mount. Figure 3b shows an enlarged view of the 3000 magnetic mount. Above is the 3010 frame of the 3000 magnetic mount

0 magnetic 3000 and in the lower gill is a rare earth mounting magnet 3020 NdFeB Figure 93c shows a magnetic mounting pole 3000 assembled with a rare earth mounting magnet 3020 NdFeB attached to the south pole 3030 aie out. Figure 93d shows the magnetic fixing column 0 with the rectangular hole clarity 3050.

Figure 94 shows a view similar to Figure 92 with the magnetic mounting post in view

5 3000 ready to set. Figure 195 shows a magnetic insertion tool 3040. The body of the tool has a rectangular shape to prevent the magnetic mounting shaft 3000 from oscillating and sliding into the rectangular hole through 0 the shaft body 3010. The tool 3040 also has a shoulder stopper 3060 toward one end to prevent the shaft 3000 from sliding backwards during include it. Figure 95b shows an anchor shaft

0 Magnetic 3000 slides into position in front of the 3060 Shoulder Stopper on the 3040 Magnetic Inserter

Figure 95c shows the underside of magnetic mounting post 3000 on magnetic insertion tool 3040 showing the south ball 3030 of magnetic mounting 3020. Figure 96 shows a sectional view of the cross-section of the coupling -- f-b- 2510 and insertion tool 3040 with magnetic mounting shaft 3000 loaded on it ; and ready to enter.

Figure 97 shows a similar view to Figure 96; With a small solid mounting disc 0 used to hold the magnet in a solid bore 3080 in the shaft hole 510. Figure 98 shows a small lida mounting disc 3070 connected to the ball bore 3080. Figure 9 shows a magnetic mounting pole 3000 held in position with the south pole 3030 For the 3020 mounting magnet magnetically attached to the 3070 small bolt mounting disc.

Figure 100 shows a typical 2500 array mounted to a structural support sample (hana oa 2900 capacitor wall section). gia 101 JSE shows a capacitor wall section (male) full 0. The capacitor holder is 3200 shown here in Figure 111. Lithium-ion batteries charge and discharge electricity 5 through a chemical reaction. Capacitors store energy are charged via a charge static charge inside the cell© 61. In this unlimited embodiment, the solar energy collected through the pyramid wall system will be stored in the pyramid-shaped condenser cells 3100 as detailed in Figures 102-109 These (LAY) called "supercapacitors 0" or "ultra-capacitors" or EKA! double layer capacitors are particularly well suited to complement battery technology. .technology These "supercapacitors" have a number of advantages over batteries including: life span twenty (le), weight cial, efficiency 7298, charge/discharge capacity of over 5 million cycles; use of non-toxic materials; Non-overheating and the ability to operate even at - 0 degrees Celsius. However; The Sa of conventional supercapacitors vacuums only in the range of seconds to minutes, making them unsuitable for applications that require continuous power. They cost approximately twenty times more than comparable lithium-ion batteries and have about a third of the storage capacity This capacity (tals) is directly related to the surface area of the electrodes

electrodes in a capacitor according to DE electrodes in a variety of dense patterns using sale superconductive material .superconductive in one of the unlimited embodiments; The 3100 capacitor cells will contain electrodes layered in a honeycomb grid with a conductive thermoplastic core material covered with graphene or equivalent nano-particles 83031 surface area alg inserting a superconductive gel electrolyte between the layers. And the increased surface area increases storage capacity. The gel electrolyte also increases cenergy density, which extends the discharge time to match batteries.

Conventional batteries have a high energy density that allows them to be used in applications that require power for several hours. But it can also take several hours to charge. Supercapacitors have high energy densities; Which means they can be charged and discharged in a matter of seconds to minutes. This is useful when power is needed quickly (microseconds to minutes) to avoid data disruption during power outages and/or in large quantities (regenerative braking of vehicles).

Wey 5 batteries are often used for applications requiring long Gopi ad) but degrade significantly over time (limited to a few thousand charge/vacuum cycles); Especially under heavy load. By converting the load's surges into a supercapacitor; Battery life can be extended. In a [JA] non-cia embodiment lithium-ion batteries can be inserted through pyramidal cells to switch with capacitors.

20 Figure 102 shows the cathode conduction side of a capacitor cell 3100. Four of these LAY 3100s may be located in the wall portion of capacitor 2900.

Figure 1103 shows the connection side of the anode CES Adal 3100. Shown here is: the insulated shell of capacitor 3110; The two connecting columns of anode 3130 one of the enlarged Ao heads 3165 that protrudes from the CES cell shell 3160 to hold the capacitor carrier 3200 (see

5 Fig. 110); One of the two conductive poles of cathode 3170; 3180 Capacitor Cover Knobs and 3190 Sass Socket (LED) Use the 3180 Capacitor Knobs to remove the Sas Al cell Determine its status by displaying the LED through a port hole in one of the 3180 knobs that leads to the 3190 (LED) Socket Figure 103b A 3200 capacitor cell being cycled to be subdivided into subsequent renderings and showing the same features Jie Fig. 1103 with a single enlarged connecting head

30 or more 3165

Figure 1104 shows an isolated Ble 3110 cut to reveal a honeycomb-shaped anode 3120; 3105 LED and 3125 cathode channel 180. In one unlimited embodiment; This channel 3125 is made with the insulated housing 3110 and more specifically the LED pole with a thermoplastic insulating resin. and in the embodiment of AT Unlimited; The 3110 insulated shell is 3D printed with similar material; Printing paused. A wire was inserted and the process resumed. and in the unrestricted AT embodiment; Channel 3125 is hollow and coated (or printed) with graphene or another conductive Lgl particle material. Figure 104b shows sectional detail of Figure 1104 centered on the 3105 LED, cathode channel 3125 LED, and a bonding header of cathode channel 3145 that protrudes near the edge of the honeycomb-shaped cathode 3150 and connects to cathode channel 3125 (LED). Honeycomb 3150 in Figures 5107-1107 Figure 104c shows an enlarged view of capacitor cell 3100 with insulated jacket removed 3110; honeycomb stacked anode 3120 and 3150 (LED) and honeycomb housing 3160 and honeycomb stacked cathode 3150 in position. Figure 104d Detailed area and shal section of insulated housing 3110 and honeycomb stacked anode 3120. Sectional area shows 3105 LED, LED cathode channel 5, and junction cavity 3115 LED shaped into honeycomb anode 3120 For the anode housing 3105 LED Figure 104e shows the insulated jacket 3110 connected to the stacked 0 honeycomb anode 3120 with the poles connecting the anode 3130 through the holes of the capacitor housing 3140 (shown in Figure 1105). 3110 separated from the honeycomb anode 3120 with anode connecting columns 3130 and capacitor shell openings 3140 protruding. Figure 105b shows the reverse side of the insulated jacket 3110 attached to the honeycomb 5 stacked anode 3120. These two components 3110 and 3120 (lie) are installed as detailed in Fig. 5 — 105f. Figure 105c shows a sectional view of Fig. 105b; with an LED detection 5 and the cathode channel 3125 LED Figure 105d shows a sectional view of Figure 105” revealing the taper jacket bonding heads 3195 on the insulated jacket 3110. The 3195 bonding heads are attached to the anode 3120 and 0 prevents the anode 3120 from touching the cathode 3150 by installing pressure inside overlaid spaces

beehive shape. Figure 105e shows a detailed cross-sectional rendering according to Figure 105d showing a single covered bonding head 3195 and a sectional view of the cathode channel 3125 (LED) normal to its axis. Figure 105f shows a honeycombed anode 3120 separated from the tapered casing bonding heads 3195 on the insulated jacket 3110. Lad shows the 3175 tongue holes in the 3110 housing which are used to secure the 3185 LS tabs (shown in Figure 1107) onto the 3160 capacitor cell shell to be screwed together. Figure 105g shows similar to Figure 105f and shows the addition of the LED 3105 in the display Figure 106 shows a close-up view of the 3105 LED Figure 1107 shows the Casall dda housing 3160 and honeycomb stacked cathode ae 3150 0 as well as the cover tabs 3185 to be inserted into the tab holes 3175 on the insulated jacket 3110. The hierarchical shape of the 3160 enclosure has the same 3D 'base area' as the Jie 2000 solar panel module which allows for a consistent modular design between these two types of wall segments. Figure 107b shows the ASW 3160 enclosure and a separate stacked honeycomb 5 3150 cathode » With one (of two) conducting poles of cathode 3170 visible; In addition to each of the casing holes 3135 of the poles 3170 and two Jal enlarged bulbous bosses 5. The headers of the 3165 strap have the same shape as the conductive tip 1810 on the solar panels 1800; The 3165 hitches provide a zero-current-carrying CES 3200 rack mount feature. Figure 107c shows sectional details of the cathode conducting column 3170. Figure 107d shows an assembled capacitor cell 3100 with the segmented insulated jacket 3110. Most notably the anode 3120; outer edge of cathode 3150, cell envelope 3160 of LED channel 5 of cathode LED 3105, and header of cathode channel 3145 for connection to end of channel 3125. Figure 107e shows sectional details from Figure 107d highlighting cathode channel 5 LED and header of cathode channel 3145. Figure 107f and akin to Fig. 107e show the insulated jacket 5 3110 raised slightly to show the head of the cathode channel 3145. Figure 1108 shows a sectional detail of the top of the capacitor cell 3100 with the insulated jacket 0 under the tongue 3175 and raised DL above the tongue of the jacket 3185 to show routing before being screwed into position . Figure 108b shows a view similar to Figure 1108 with the insulated jacket 3110 cual in position with the tongue hole 3175 and the cover tongue 3185 in relative position.

Figure 109 shows an enlarged view of the components in a Ley 3100 ES cell including: Condenser cell housing 3160 Cathode stacked honeycomb 3150 Anode stacked honeycomb 3120’ LED indicator 3105 Isolated housing capacitor 3110 Figure 110 shows capacitor 3200 holder Removed from gia full (male) capacitor wall 2900 Figure 111 shows dela capacitor 3200 isolated. The ESA Bracket 3200 has a similar construction to the Lad 2100 Lad Bracket except that there are four (4) bolt-on heads instead of eight (8), which serve to provide a recessed socket barrier in front of the oversized bolt-on heads 3250 in the 3160 capacitor cell shell. Figure 112 Carrier circuit Cie 3205 with input electrode 3210 0 and output electrode 3220 to frame. Capacitor carrier circuit 3205 is located inside CES Jala 3200. Figure 113 shows a 3230 contact circuit called by the cathode. Cathode 3170 where the circuit contact 3230 is in place Figure 115 shows details of see Connection of cathode 3170 and a section of the capacitor holder 3200 showing the enlarged lead head 3165 in the cell shell of the capacitor 3160. 5 and when the Jala capacitor 3200 capacitor rack is in Its position; the cathode connecting rod 3170 aligns and touches the circuit connection 3230. U-shaped electrical conduits and three-sided base (3) 3410 or its top shell 4400 can connect the solar panel wall 3300 to the capacitor wall 3500. These tubes may have two passes and le valves in parallel to prevent backflow of current 0 - from capacitors 3100 to solar panels 1800. In one unlimited embodiment; Matching bulkhead/receptacle connections (analogous in Figures 61-63) provide an electrical connection between wall segments through base 3410 and/or sleeve 4400. They can be connected in parallel to allow continuity of electrical connection if the gia is damaged from the wall. In the AT embodiment Unshielded; Mie connection can be provided to draw power from panel subdivisions.By embodiment of AT unshielded; 5 port is used per wall.Fig. 116 shows an example of a 3300 solar panel wall in a pyramid wall frame 3400. In addition to the 520 V-shaped coupling heads and the 530 projection jointing the Ge parts laterally, dowel pins can be placed across these connections ?normally on the coupling bracket side to prevent collapse when normal force is applied to the 3300 wall face. 0 shown here there is a typical full array 2500 ( das ) parts of male solar panels

2300 female semi-parts (right side) 3700 female half ein 3800 (left side); and one half female (ef) 3900 and one half female (bottom) 4000. Figure 117 shows the back side of the 3400 pyramid wall frame. One and a half board. Figure 118 shows the TA-shaped base and the three (3) sides 3410 of the Pyramid Wall Frame 3400. Figure 119 shows 3420 pyramid frame corners added to the frame as a cosmetic shield for 1 of the missing quarter panels. 080665. Figure 120 shows two female top half segments 3900 inserted into the bottom of frame 3400. Figure 121 shows one male side of parietal segment —B- 2900 added in the middle and two female sides of parietal segment-B- 2400 on the A) side of them. Figure 2 shows one female half ga (right side) 3700 and half female gia 3800 (left side) added to either side. Figure 123 shows the rest of the added parts: two wall parts - love - 5 for the female side 2400, three wall parts ~~ for the male side 2900, and two parts for the female half (bottom) 4000. Figure 124 shows the wall of the condenser 4100 in its position. Figure 125 shows the frame cover 4200 with the Pala for in-situ installation. Figure 1126 shows the Hala 4300 Ea shield to be positioned. Figure C126 shows 0 Preserving Knobs 4310 with clear window 4320 to see the power failure signals on the 5 180 indicators. Figure 127 shows the capacitor shields 4300 in position with one removed for clarity. Figure 128 shows the side opposite the frame of Pyramid Wall 3400; This exposes the connector side to the wall of the 4100 condenser. Figure 129 shows the housing of the 4200 frame added to the bottom. Figure 130 shows the Solar Panel Wall 3300 to be added to the 4100 series. 5 and Figure 131 shows the angles of the Pyramid Frame 3420 to be added to the frame. Figure 132 shows the upper sheath 4400 to be added in order to complete the upper all and to close the framework of pyramid wall 3400. Various embodiments of the pyramid wall system use an array of pyramidal-shaped recesses that contain elements to collect and store solar energy. The base of these pyramids may be regular or irregular polygons, and the sides may be unrestricted. It maintains reflection between panels

On the same power outlet as if it were flat. This allowed for installations where surface area is limited. The angle of each side relative to the base of the pyramid can range between 5 degrees and 85 degrees in the pyramidal wall system, and the combined area of the sides of any pyramid with a polygonal base is always greater than the area of the base. and when the angle between the sides and the base becomes greater or more acute; The difference increases in area. However; There is the trade-off between the panels arranged to form pyramids at a low, sharp angle. The steeper the angle; The less base area aly the internal reflection; But the more sensitive the system is to track (needs overhead lighting for maximum efficiency). The lower the angle; increased legroom and decreased internal reflectivity; But be less sensitive to the system

tracks.

Figure 133 contains images of a moderately angled pyramid with a thombus or its diamond shaped base, with NA as cross-sectional width showing the angle of its sides. The next is the area of its base or the area of the foot print and the bottom part is the area of its sides -area of its sides

The pyramid wall system is about balancing this trade off with a base and sides

5 in the shape of a rhombus (diamond) to form compound angles as shown in Figure 133. It is 33.6 degrees from the long diagonal to the horizontal. The increased surface area of the 4520 sides of the 4500 base is 62.2 mm allowing a reduction of 738 from the 4510 base area; While maintaining the same AL output, this reduced space 4510 can accommodate irregular sides, corners, or obstructions in jie wall or roof designs, windows, chimneys,

0 vents or outlets on the contrary; This installation of a pyramid wall system would allow a 62 7 increase in energy over a similar flat plate system covering the same base area as the 4510

The pyramid wall system is not limited to the geometry described in Figure 133 and alternative constructs allow for surface angles; As low as 5 degrees from 4550 (GE) for constructions that

5 have height restrictions or other engineering requirements as shown in Figure 134. The surface area is greater than the base area 4540 In this installation 4530 the limit is at (71.4); It does not use tracking and is more adaptable to traditional panel setups.

Other fixtures allow sharper angles; up to 85 degrees from the horizontal 4580; Construction

0 where there is a limitation in mounting surface area. The surface area increased over the base area by 4570

and in this structure 4560 is 72.100 as shown in Fig. 135. Arrays of such sharp hierarchical structures can be implemented Cun the base area area is very constrained; Vertical space is not an issue and the track system is tightly positioned. and in other combinations not limited to this system, a steeper side angle with a terrible base may be used; This increases the surface area by 7149. Such assemblies have the same triangular panels 4520 as in Figure 133; With the short sides forming a terrifying circumference at the open base area of the pyramid. Such as the most learned system in the tracking system. in other unlimited incarnations; The sides of the pyramid may be uneven. Portions that have limited access to sunlight may have elongated sides or a length retracted for better capture

0 incident light. The matrices may combine upturned pyramids of equal and unequal size.

Figure 136 shows two examples. The first embodiment 4585 is symmetric along the X axis but sides 4586 and 4587 have unequal surface areas. The other embodiment is 4590 symmetric along the oY axis but sides 4591 and 4592 Leg! have unequal surface areas.

Both embodiments 4585 4590 have the same area and base area geometry 4510 LS (shown in Figure 133) and a similar increase in surface area between their sides 4586 4587; 1 and 4592. Embodiment 4585 has an increment of 759.8 and embodiment 4590 has an increment of 6. The asymmetry is not limited to one axis; The sides may not be equal along axis 3 and 7. The geometry of the base area is not limited to a specific number of aspects; Nor are the lengths

0 sides are equal.

The fried pyramids have sides diverging from the roofs of the buildings; As shown in Figure ¢137 allowing natural airflow 4595 to cool the cells increasing efficiency while reducing heat.

The internal reflectivity of 4596 is shown as a schematic representation in Figure 137. This allows

5 The reflectivity between the plates by placing them in a smaller space while maintaining the same power output or lie A ball was added to the top of the inverted pyramid cavity to show the geometry direction; And it is already a group of 4 fried pyramids.

Panels can have solar cells on both sides in northern climates; To take advantage of the snow reflection. Single-sided Load panels can show an increase in power. And in

0 coastal climates; Single-sided and double-sided panels can take advantage of cell inversion

A pyramid wall system is not limited to the number of “cells” or “modules” of an inverted pyramid. It can be as small as one or extended indefinitely. The cells or units of a pyramid wall are scalable. In some embodiments unlimited solar panels can be used The panels can be inserted into the inverted pyramid spaces in several ways: * Solar panels can be assembled flat and hinged, creating a cross-ply sputtering that is linked or fit into the inner faces of the pyramids. 0 solar panels may be flexible; shaped as a flat cross and 4D folded into a pyramid shape to attach or clamp the inner faces of the pyramids. * Solar panels may be single-sided or double-sided and manufactured using traditional manufacturing methods or through additive manufacturing; Also known as 3D printing. Say 5 manufactured Wha or WS using specific 3D printing methods such as Fused Filament Fabrication (FFF) and Fused Deposition Modeling (FDM) 408 Stereolithography (SLA) ) and Selective Laser Sintering (SLS) and Direct Metal Laser Sintering (DMLS) and in one of the unlimited embodiments; This may include process dalled SLA 20 resin with oxygen and UV light increases print speed up to X25 to 0. This ultra-fast additive method is geared toward full production. They may be transparent in the visible spectrum and made of inorganic materials (Jie perovskite) or organic salts. They may use graphene or an equivalent superconducting material to create transparent nanowires to form transparent contacts all around and along the edges. They might use graphene or an equivalent superconducting material, 5, to coat conventional electrical connectors; lly may be opaque. In the latter case; The density of the conductive pattern throughout the board and coverage along the edges may be affected. Sheet joints can be laid in a dense geometric pattern such as (but not limited to) a compact edad cell shape to increase joint surface area and efficiency. Sheets and their joints can be made by chemical etching; laser engraving using other traditional manufacturing methods; 3D printing 0 with a conductive material or with any combination thereof. And the solar panels can be installed in the mounting pole

Allows a conductive path through a central location. And pole wire seams may have fully embedded/molded wires. They may contain ducts, ducts, or estrous ducts; Formed or 3D printed with electrodes inserted to create the wire layers. The layers may contain 3D printed conductive electrodes. The channels or raceways in the mounting posts may be sprayed or electroplated with a sale conductive or superconducting material Jie graphene or equivalent. They may be coated with a conductive or superconducting gel.

0 Layers of wire can be produced in any combination described herein and stacked for multiple sets of panels. Sag extends the mounting pole structure by adding slots to allow stacking of multiple panel arrays. Translucent panels can be stacked for visible light (or specific wavelengths).

(wavelengths 0) within the space of the pyramid so that each layer is positioned to absorb a specific range of wavelengths. The layers of a sheet may be flat and parallel to each other or flat and oriented independently / at an angle / placed on top of each other. The layers of a sheet may be curved to form any Geometric or non-geometric shape They may be concentrically overlapping or independently oriented/at an angle/laid together They may be overlapping and balanced like the petals of a flower If the panels are

5 has opaque edge connections; It may extend only partly along the sinuses and skirt the upper part so as not to obscure the panels beneath. otherwise; Transparent contacts can be used along the perimeter of the breadboard.

* The plates may have a transparent outer surface that acts as any type of conventional simple lens, lenticular lens or lens Jiu [8806. This may be

0 lenses are of a variety of shapes and have a variety of galls including focusing, defocusing, and redirecting light, with a clear Fig. 69 solar panel in the form of a dase 1800. Fig. 69 highlights the Wiad area. die from this tablet 1840. And in one of the unlimited embodiments; Figure 70 shows details of this particular region ely solar cell cover, which is a typical graduated wave with refractive steps.

25 © Surfaces of | For panels on specific areas covered with anti-reflective and/or polarizing compounds.

0 The inside faces of the pyramids may be covered (or lined 00) with electroluminescent paint, electroluminescent tape or light-emitting diodes (LED). It is an LED

0 from individual components in an array, strip, or plate. This allows for nighttime use

nighttime use if transparent/semi-transparent cells are used. These lighted faces provide a self-sustaining light Wid of Gb drawing power from through an inverter connected to electrical storage Jie supercapacitors and/or batteries in pyramid wall modules in one of the unlimited embodiments of Figure 138; A set of transverse formed sheet is shown in enlarged form 4600. Four sheets are placed on the triangle shape 4610 flat. At the smallest inner edge of each of these panels is a 4620 hinge set in position. At the bottom center of the assembly is the mounting post axle 4630 which has the bottom ALL of the bore to hold the hinges in position to allow anchor bolts 4640 to secure the baseboard assembly into the 0 space of the inverted pyramid. With the 4650 barbell structure, the upper part has a groove to hold the hinges in position; Which allows it to rotate one degree comfortably. It may be attached to axle 4630. Figure 139 shows the holes 4660 in the anchor shaft frame 4650. The additional plates 4570 are positioned so that they slide into position. Figure 140 shows; The 4650 crankshaft structure is surrounded by disassembled components. This 4650 chassis has several purposes: it encloses all 5 4610 4670 centrally located 0 panels, houses the internal wiring, and a countersink doffer to bond the 4600 panel assembly into an inverted pyramidal cavity. Underneath the 4650 mount shaft housing is the 4530 mount axle; which will be placed in the cavity of the inverted pyramid. The outer poles 4680 protrude from the 4650 axis structure just above the 0. Anchor Bolt 4640 sits atop the body abe 4650 and Protective Access Shell 0 4655 with head mounts 4656 atop the Bile and in one of the unlimited embodiments; The protective access shell 4655 may generally have a pyramid shape and a reflective coating to reflect light back to the 4610 4670 solar panels. Figure 141 shows the Win view of the mounting pole; Win enlarged components and feature details. This includes mounting hub 4630; 4650 Post Structure (5 internal wiring hidden for clarity); protective access casing 4655 gals fixing head 4656 to casing 4655; the header fixture 4657 sockets into the 4650 mounting post housing and the 4660 holes for the second matrix of 4670 panels. The 4650 mounting post structure may be extended with additional 4660 holes added to allow stacking of multiple 4670 panel arrays. In this unlimited embodiment; Figure 142 shows the translucent plate 4610 with section width 0 - of its hinge 4620 and Figure 143 shows the section width of hinge 4620. Connecting terminal (Sarg)

Negative on wire 4621 to socket on chassis mount post 4650; (Sas) The positive connection on pole 4622 is connected to the joint structure 4620 and the connection of positive pole 4623 is connected to the panel lead. Figure 144 shows the details of the cross-sectional section where panel 4610 and its hinge 4620 are connected and positioned (UE) The positive pole is located 4622 is inside a recess in the mounting post housing 4650. There is also a second plate 4670 in position in the recess in the mounting post housing 0. Two internal wire electrodes 4680 are exposed. The mounting axle 4630 is ready to be installed in position. Figure 145 shows the details of a cut-out cross-section where the Folding the 4610 flap and hinge

0 4620 in place. And by showing the positive connection on pole 4622 and the second plate 4670 for reference;

The pivot is now 4630 in position.

Figure 146 shows the hinges 4620 in the flat position. The bung highlights the hinges of the four negative connections on the poles 4621 that go into the mounting post housing 4650 as well as the four positive connections 4622. The first layer shows the wires 4681

5A Connecting electrodes to the second layer of wire 4682 in the cutout plate mounting post. These wire layers may be embedded/molded as wires in the mounting post or have 3D printed contact electrodes. or may have molded, formed, or 3D-printed channels in the base of the mounting post with electrodes inserted and coated with conductive material spray-coated, electroplated, and coated with conductive or superconducting gel, or may be of any combination thereof.

Figure 147 presents the second layer of wire 4682 for attaching the second layer of plates and electrodes 4680. (Sarg. Stacking these layers of wire for multiple sets of plates. Figure 148 shows the hinges in the folded position exposing the negative and positive electrodes 4680 which will connect across the mounting hub.

Figure 149 shows three 4610 backboards laying flat; and a fourth backboard 4611

5 folded to reveal behind according to one unspecified embodiment; (Sag) to be coated with electrophoretic paint, electrical tape or LED detectors for night use. These panels are transparent or semi-transparent to visible light. The back side Wad has a 4612 snap header to help secure the 4610 4611 panels to the Inverted Pyramid Housing, according to an unlimited embodiment, with its inner face coated with electroluminescent paint, electrical tape, or LED detectors (also shown

0 second layer for 4670 boards.

Figure 150 shows the 4610 transparencies and their connection network. and in one unlimited incarnation; These contacts are in the form of a honeycomb stack; To increase conductive surface area and efficiency. The 4610 panels and their connections can be made using conventional manufacturing methods, 3D printed with a conductive material, or a combination of the two.

Figure 151 highlights the cut-out detail of the 4610 board with the spall highlight on the 4613 honeycomb grid of connections. Shows positive flange contact 4614 and positive hinge socket 4617. Wad shows negative flange connection 4615 and negative hinge socket 4616

Figure 152 also shows a close-up of the 4614 4615 connections and connectors. The honeycomb grid 0 4613 connects to the flange on both sides. Details are shown as follows: positive edge contact part 4614; and housing geometry for positive hinge socket 4617, negative flange contact 4614, and sectional width for negative hinge socket 4616. Figure 153 shows a complete and folded set of cross-panels 4600 and note that the outer layers where electroplating tape or the 4611 LED detectors will be placed on the transparent or semi-transparent 5 panels . (Ka) Manufacture of composite wall shal using a variety of processes. (Sarg) Vacuum forming of pyramidal wall sections over formwork using composite panels. These parts may range from small typical “A” and “W” interlocking parts to complete wall panels (shown previously). Lal pyramid wall parts can be made through additive manufacturing; also known as 3D printing. (Sag made in part or US using specific 3D printing methods such as fused filament manufacturing ( FFF), fused deposition modeling (FDM), stereo lithography (SLA) fabrication technology, laser sintering (SEY) (515) and direct laser metal sintering (01015). SLA resin with oxygen and UV can increase printing speed up to X25 to 70100. This ultra-fast additive method 5 is geared toward full production.Pyramid wall parts may be 3D printed for Fused Filament Manufacturing (FFF) Fused Deposition Modeling (FDM) in layers using cut freon fibers with a thermoplastic base or continuous strands of fibers with a thermoplastic base. The creon shredded fibers and thermoplastic base may be in the form of granules, filaments, or a mixture thereof.

The pyramidal wall system can form a group of alkali hollow pyramids. Jie's 3D printing technology uses traditional Fused Filament Fabrication (FFF) or FDM using an extruder head that follows a full horizontal path before moving to the next level. While improving machine speed and material yield can make these parts faster; The extruder in conventional printers is limited to three degrees of freedom. It allows the integration of robotic arms in the 3D printing process for extruders that dam six degrees of freedom; Which allows mew to move non-orthogonally to suit the geometry of the parts. And speeds up the manufacturing process. 1 The robotic arms may move on a conventional linear rail or a linear gantry system or move autonomously 0 The robotic arms may move in curvilinear motion on a track a simple curved track a compound curve track or a .three dimensionally curved path might work | Root arms can be used as single units or as multiple arms moving in concert or independently. The pyramid wall system may be 3D printed for Fused Filament Fabrication (FFF) 5 Wis Deposition Modeling (FDM) or WS by extruders on robotic arms; Including traditional Fused Filament Fabrication (FFF) / Fused Deposition Modeling (FDM) or other production methods. Both conventional FFF 3D printing and robotic 3D printing combinations can be used when multiple materials and extruder diameters are used. These options allow large format 0 prints made with large diameter extruders and detailed characteristics made with smaller diameter heads. in one of the infinite incarnations; Figure 154 shows a flexible helical screw conveyor 4700 for handling granulated plastics for use in robotic 3D printing. It defines: Control Board 4710 for System » Rack 4720 Channels 4730 Electric Motor 4740 Shows Feeder 4750 5 (connected via hose to one of your 3D printer extruders). Also shown is a helical nail casing Gp 4760 and a sectional view of the flexible screw 4770. Coming this screw 4770 granules to feeder 4750. Shown is granular plastic 4780 feeding to the casing flexible screw 4760 which is connected to the main hopper 4790. This hopper 4790 stores material for printing with Removing the 4785 hinge bowl door for added clarity.

Figure 155 shows a partial construction of a 4800 robotic 3D printing system. Production systems may use multiple robotic arms for printing; In addition to gantry extruders as in traditional FFF or FDM printing. The 4810 linear bridge or rails allow the movement of the 4820 linear guide to be controlled. The 4830 robotic arm may repeatedly position the FU head (detailed in Fig. 156) to multiple degrees for more freedom of movement. The 4840 gravity hose feeds granules to the GL at the end of the Robotic arm The removed vat door 4785 is shown in Figure 154. Lad shows completed wall portion 4850 such as that created with the 4800 robotic printing system Figure 156 shows sectional detail for an enlarged view of Robotic Arm 4830 and extruder. 4830 Chopper Feeding Tube 4840 Chopper Feeding Tube Stepper Motor and Tube Coupler 4860 Heating Cartridge 4870 Thermistor (heat sensor 4880) Hot Extruder Tip and Nozzle 4890 Sag Use Filament Instead of or in conjunction with Feed Pan chopper fed .pelletized plastic in embodiments (AT unspecified); molds or shapes for composite packaging can be 3D printed using FFF (ie or FDM) additive manufacturing processes and can be made by Wal SLS “SLA” or .DMLS as shown (Kary libs) The 100 pyramid die core is made by 3D printing processes Jie Fused Filament Fabrication (FFF) or Fused Deposition Modeling (014). Molds can be made using a CNC milling machine or a router and Lal can make molds by casting a variety of materials (including but not limited to plastic and concrete Concrete between back wall portions Pyramid wall portions may be made of vacuum formed thermoplastic sheets Pyramid wall portions may also be injection molded, round moulded, cast and/or extruded Flat wall portions can be made of Through any of the aforementioned operations (eg 5; additive manufacturing or molding) to be stacked for storage and transportation (Sarg transportation thereafter Gyn parts distribution by incorporating a fine diye hinge. Or they may take finished form in the form of a die Lad may be formed in the 4D process using an outside stimulus such as heat, electricity or a chemical reaction Alternative materials for composite formwork packaging include: fiberglass and 0 Kevlar

Alternative materials for 3D printing (FFF) / (FDM) include fiberglass, kevlar fiber (stranded 65 or shredded), thermoplastics (separately) concrete; cement; wood pulp pulp 000 Composite wood with binder adhesive and AL materials for recyclables These materials can be fed with filaments or combinations thereof and extruded through the 3D printer nozzle Alternative materials for different molding processes include: Wood/lumber composite Recyclables (including plastics) and thermoplastic composites embedded Cement or concrete Walls can be plastered or extruded from plastic or wood Made of sheet metal 0 or sealed into a shape Any of the following may be manufactured Components in an entire pyramid wall system using any or a combination of the processes described herein.In one unbounded embodiment, shown in Fig. 157, the construction of the void/formation (hall 4900. Fig. 4910 is shown as the inner faces of the pyramids Alkali in a 5 wall plate which has a network of vacuum tubes 4920 attached to its back side. J<all 158 shows construction 4900 comprising the upper portion of formation 4910, a network of vacuum tubes 4920, and a shag-tube portion of Figure 4910 showing openings connecting to the void passage. Details of the rendering of this part in Figure 4910, the vacuum tubes 4920, the sectional vent 4930, and a portion of the vacuum tubes that align with the vents in Figure 4910 are shown in Figure 159. Figure 160 shows the construction of thermoforming 4900 with the heated thermoplastic sheet 5 above it. Figure 161 shows a hierarchical array 4950 of a thermoplastic sheet component removed from Figure 4900. Fig. 162 shows an enlarged view of a hierarchical matrix of thermoplastic 4990 and its components. In the lower gall are the hierarchical array 4950. Above that is the core of the support frame of the matrix 4960 (default 5 or birdbones) and connection seams / gallls (dle) of the upper support frame with 4970 sockets and mounting plugs 4980. Figure 163 shows the back side of a wall part Completed 4990. The front side of this parietal part and the inner face of the thermoformed pyramidal matrix 4950 are shown in Fig. 164. In one unlimited embodiment, shown in Fig. 165, a conventional 0 injection molding 5000 (without a side procedure) is used to create a gga complete wall. Display gia of a segment of channels

Molten plastic starting with casting 5010 and counters 5020 running the entire length of the mold. The posts are then connected to gates 5030 which terminate at points in the core of die 5040 (in an orientation similar to holes 4930 in the thermoforming images as in Figure 159). Say then allows the plastic to flow from the gates into the mold cavity 5050 while the upper support plate 5060 and lower support plate 5070 keep the mold closed 5000. Figure 166 shows a completed wall portion 5100 extruded from the mold; with the mold 5040 inverted and the upper support plate 5060 Mold cavity 5050 and bottom support plate 5070 shown open.Fig. 167 shows the back side of edad a single ein 5100 wall with fully cast features.In another embodiment any of the features on the cast may be removed;with 0 wall portion fully assembled of multiple segments.In stand-alone segments, sections of a partitioned wall may be connected back-to-back using fasteners.Posts and sockets where posts are installed may axis align in sockets to secure them.Alternatively, sockets may have semi-circular sections so that columns can slide These standalone compartments have a space that can be filled with closed cell foam, 5 pellets of a variety of materials (including recycled plastic or paper) or cement.These fillers can be used for thermal insulation, sound absorption, or both. A web can be inserted between the parts and reinforced with Jie closed cell foam materials. The web can be made by traditional manufacturing methods including additive manufacturing; Wad is known as 3D printing. Wa or WS can be fabricated using specific Jie 3D printing methods Fused Filament Fabrication (FFF), Fused Deposition Modeling (FDM), Stereo Lithography Fabrication (SLA) and Selective Laser Sintering (SLS) direct laser metal sintering (DMLS) and in one embodiment Unlimited” the oxygen and UV curing SLA resin process increases print speed up to X25 to 22100. This additive method is ultra-fast and geared toward full production. The lattice can also be printed on the inside face of a standalone wall section ¢standalone wall sections with .sections joined later Gay. and in a position to allow confined formation of an independent hierarchical wall 5200. In one of the unlimited embodiments; Figure 9 shows a wall-retained Dae segment 5200 showing successive portions of the rear at position 0 and hierarchical matrix 4950. Detail of this portion includes a 4970 socket on one side with a drain port

5. Plug 4980 is shown in front of the socket with Mie Drain 4985 along the port on the socket. (Kang) Mie used drainage for water and moisture and as a heating vent. Figure 170 shows a separate view of a section of a freestanding pyramidal wall 5200. In this unfinished embodiment, closed cell foam 5210 is shown partially filling the cavity between wall segments.

As shown in Figure 64; Attach the 2100 solar panel mounting brackets to each of the four groups of four panels into a single socket in the frame. (Example Jad in Figure 101 (the 3200 capacitor/battery mounts connect each battery/capacitor in the same way).

The cross coupling/complementary coupling method (gad) is a single-sided pyramid wall to make

0 poles centered forming an electrical axis connecting the poles of the solar panels. This pivot then connects to a recess in a wall socket that is bolted to the support surface or wall. A fixture protrudes from the axle which is secured by inserting a screw inserted into the recess of the wall socket. The cavity contains electrical connections which then draw power from the hub and transmit it to the wiring harness or electrical conduits in alignment fixtures/bolt dies/fixtures. The parts can be cut into combinations

5 Alignment/Mounting Templates/Fixtures Same profile as the wall socket. Notches are provided in the sectional sections to accommodate the plug in the wall socket.

Alignment Fittings/Mounting Moldings/Temporary Fittings can also be used to align the mounting template and also to align wall sockets prior to being bolted or bolted to the wall. The mold will not have conduits or wires built in. It is possible to align the wall socket and then remove it.

as a permanent fixture; Alignment assemblies/mounting dies/fixtures may or may not include electrical conduits or built-in wiring. They may be fully supported by plugs after being installed or screwed into the wall. Alignment fittings/mounting template/fixtures may be installed or attached independently to provide additional gal pyramidal wall support.

Wall sockets can be machined to alignment fittings/mounted moldings/fixtures. direct it; cut it off

5 Laser cutting or shaping water through various methods, including injection molding. It can be formed by additive manufacturing; Wiad is known as 3D printing. They can be made Gia or WS using specific 3D printing methods Fused Filament Fabrication (FFF) and Fused Deposition Modeling (FDM) Stereo Lithography Fabrication Technology (SLA) Selective Laser Sintering ( SLS) and direct laser metal sintering (DMLS).

— 5 4 — Electrical connections in wall sockets and conduits in alignment fittings/mounted moldings/fittings may be over molded wires; 3D printed conductive material or track for insulated wires. The tubes may be covered with a superconducting material such as graphene or its equivalent and/or filled with a superconducting gel or any combination thereof.

Wall sockets and alignment fittings/mounting dies/as permanent fixtures may have cus holes to allow surface mounting. Instead of that; Wall sockets and alignment fixtures/mounting templates may be installed using anchoring tools (such as screws); bonding compound or combination thereof.

a Fig. 171 3 ey single diamond shaped pyramid wall 4900 above the wall socket

0 5300 and alignment assemblies / mounting templates / as 5400 assemblies. In one of the unlimited embodiments; The 5400 can be used to temporarily position 5300 wall sockets as they are installed on walls; surfaces or other surfaces using anchors or bonding compounds. In a non-edie embodiment, the 5400 die is permanently mounted for reinforcement and/or to provide an electrically conductive path between the board parts, capacitors, and/or batteries.

as 1 5 Fig. 72 1 Detail of an enlarged view of a wall socket 3 00 5 segmented. The structure of the socket 5310 with electrode connectors 5315 is shown. A cylindrical knurling section of the pyramidal wall shaft is shown; and a cylindrical jamming discharge area 5316 and a hole through a threaded copper wire insert 320 5 . The drainage area allows moisture and heat to drain from the ventilation opening. and align 1 to insert 0 to accept screw 4640 and install pyramid wall post; which includes de sane solar panels.

20 in an unlimited embodiment; The 5330 concrete anchor bolts (eg Jill tapcon screws used to fix fixtures to concrete) will be used to secure the wall socket to the wall or ceiling. Figure 173 presents the ga wall pyramid function as the wall socket. The pole of the solar panel 4680 of the array is aligned Panel in wall ey dl with sus 5340 in wall socket.

25 Figure 174 adds detail for an alignment template / mounting template / assemblies. dy is this unlimited embodiment; Channel 5410 is visible and aligned with the channel of the wall socket lad solar panel. This conduit 5410 may be a route for insulated wire, molded wire, or 3D printed conductive materials. The 5410 channels may be coated with a superconducting material such as graphene or its equivalent and/or filled with superconducting gel or any combination thereof.

Figure 175 gia shows the completed Pyramid Wall System 4990 as it attaches to the 5310 Wall Socket. The Alignment/Fixing/Mounting Template 5400 aligns each wall socket and can either be removed after being aligned or permanently installed using electrical conduits. Figure 176 details an enlarged view of a pyramid wall 4990, some wall sockets 5300, and an alignment template/fixture/fitting template 5400. Figure 177 shows a removal of a pyramid wall and shows a close-up of the image. The 5300 Wall Sockets are positioned to be flush with the Alignment Template/Mounting/Mounting Template 5400. The 5420 mounting holes can be used to secure the mounting template to a surface. The holes can be left as is or modified with countersunk countersunk holes for the anchors. in one of the infinite incarnations; A pyramid wall system can take advantage of space 0 within the pyramid space to lay layers of semi-transparent or translucent cells/panels to absorb specific wavelengths of visible and/or invisible light. This is illustrated in Figure 139 and highlighted in Figures 142 150; 151 1525 where a second layer of "transparent" cells is inserted. The first layer of solar panels can be single-sided or double-sided and fixed to the inner faces of the pyramid housing. They may use graphene or an equivalent superconducting material to create transparent 5 nanowires or to cover conventional electrical contacts. (Sarg) Arrangement of plate joints in a dense geometric pattern such as (but not limited to) a closely packed honeycomb shape to increase joint surface area and joint efficiency. Both the first and subsequent layers of the plate may be transparent in the visible spectrum and made of inorganic materials such as perovskite Or organic salts. They may be stacked Jie petals around a 0 column or 'stalk'. The stacking may be flat and with sides offset pyramids around a stem or the sides may be curved and/or overlapping Jie petals. The seams of the slab may be flat and parallel With each other or flat and independently oriented / inclined / laid on each other The layers of the slab may be curved to form any geometric or non-geometric shape They may be concentrically staggered or independently oriented / at an angle / laid with each other They may be staggered 5 and balanced, like flower petals.Individual panels can be divided into two or more parts and positioned independently.Layers of panels can be coated with anti-reflective and/or polarizing compounds.Can be made by conventional manufacturing methods or through additive manufacturing, commonly known as 3D printing. (Sarg manufactured by Wis or plainly GS) uses specific 3D printing methods such as fused filament fabrication (FFF), fused deposition modeling (FDM), stereo lithography (SLA) 0 fabrication technology, and selective laser sintering ( 515) and direct laser metal sintering

.(DMLS) and in one of the unlimited embodiments; The process cures the SLA resin with oxygen and UV and increases the print speed up to X25 to 12100. This ultra-fast additive method is geared toward full production. The panels and their connections can be made using conventional manufacturing methods, 3D printed with a conductive material, or a combination of the two. Solar panels can be installed in a mounting pole that allows a conductive path through a central location. The stabilizer bar can be manufactured by traditional manufacturing methods such as injection molding or 3D printing with any of the various methods described above or a combination thereof. and in one unlimited incarnation; Transparent superconducting capacitors can be used between layers of transparent cells for storage. Note: Some of the components in the images are used to describe this stacked panel. The "flower" construction is identical to that of the cross panel set. Others are similar to those in Figures 138 to 141. But there are cases where the individual parts are now grouped together. So; For clarity they have been renumbered. Figure 178 shows an enlarged view of panels 4610 and hinges 4620 around a 5-column flower assembly 5600. These panels form a cross-panel assembly similar to that shown in Figures 138–153, with the difference that the flower-column assembly allows multiple sets of panels to be stacked. In the lower gall of this enlarged view is the connecting axle of the flower-shaped column 5610. This axle is used to fix and stabilize the panels in the recesses of the pyramidal wall. Fig. 179 presents a second layer of panels 4670. ‎mags Fig. 180 Magnified view 0 of the flower-column assembly 5600. Including column-base or axle 5610; column structure 5620; anchors 5630 and coupling sleeve 5640. In the HAT embodiment is unlimited; It is used to mount the solar array in the pyramid wall part and in the wall socket. They may be reflective coated and contain electrode tracks or channels that may be fully molded, embedded, or 3D printed with electrodes. and may have a different shape than the diamond shown; Jie is circular; 5 an oval or any regular or irregular polygon; It may taper and may be sized differently to account for space constraints. Fig. 181 shows a view of a section for a flower-shaped column 5600. AIS The shaft axle 5610 is below the column housing 5620 with anchor bolts 5630 in position in the countersunk hole in the chassis. The inlet casing 5640 is directly above it.

Figure 182 shows a snapshot of the characteristics in a gin cut-out view of column structure 5620 and entrance casing 5640. The grooves of plate 5622 along the outer gall of column structure 5620 are positioned for different planes of slabs. Flexible Bolt Head Fixing Sockets allow the Ol head fixture 5641 on the inlet sleeve 5640 to lock into position and protect the fasteners. The 5642's inlet housing bores allow the tool to be installed for a quick configuration. Figure 183 shows the first level of wire 5650 for connection to cross-panel hinges 0. It follows the same circuit, variety of materials, and manufacturing processes as the wire layers described for cross-panel 0 in Figures 148-146. An exception is serial connection 5651 to connect multiple levels of panels in a cell. Figure 184 shows the negative and positive electrodes 5682 that connect to the mounting hub. And Level 2 for Wire 5683 through Layer 7 for Wire 5688 is marked on one side only for clarity. Figure 185 shows the stacking of Level 2 4670 panels through Level 7 panels 5. They are marked on one side only for clarity. Figure 186 shows a stacked completed flower group 5700 with cross panels 4610 in the flat position; and column axis in the form of a flower-shaped magnifier 5610. Figure 187 shows a completed flower-shaped assembly 5700) folded into a pyramidal shape; their outer surfaces are covered with electrophoresis, electroluminescent tape, or light-emitting diodes (LEDs) Plates may be transparent or semi-transparent for lengths different wavelengths according to the requirements of the electrolytic coatings or LEDs detectors In one of the unlimited embodiments; each sheet may form a single flat layer around the mounting shaft; its exposed face is parallel to the base area of the pyramid. Each layer may be curved and overlapped concentrically around the shaft Mounting Each layer may be evenly spaced or spaced a different distance along the mounting shaft Each layer may be pitched independently of each other or in any combination thereof Tabs with electrical connections may be installed in the mounting shaft holes; their visible edges The poles are attached to the solar panels They can be fixed with anchors Flexible head fixture Bonding agents or any combination thereof Panels can be coated with anti-reflective and/or polarizing compounds

Figure 188 presents a horizontal slab with a first layer of 5800 with its face oriented parallel to the base of the pyramid or to the base area. (Sarg) Lay the clearance hole flanges in the horizontal plate over the recesses of plate 5622 in the flower shaft. The tabs 5805 that fit into the recesses can be screwed or bolted to the horizontal plate of the first layer. Subsequent plates Nf can be assembled and worked toward the top. Figure 189 shows a cross-section Ping assembly first on top of the sectional panels, which is the sixth panel 5850 with the connecting tabs 5855. The fifth panel is 5840 and its connecting tabs 5845. Then the fourth panel is 5830 with the connecting tabs 5835. Then the third panel is 5820 with the connecting tabs 5835. Jointing tabs 5825. Then second plate 0 with jointing tabs 5815. Finally top layer plate 5800 and its jointing tabs 0 5805. Figure 190 shows a completed horizontal flower stack 5900 with cross plates 0 shown flat and projecting a horizontal platen for the first layer 5800. Figure shows 191 Showing replacement part for panels and increasing surface area of their installation. Highlighting Column Hub 5610; Column Structure 5620; Anchor 5630 and Protective Access Shell 5640. Figure 192 Shows Horizontal Flower Stacking 5900 Folded in Pyramid Shape. Exterior Surfaces 4611 are Electroplated » Electrical tape or LED detectors in another embodiment not specified; Flower-shaped stacking may be non-horizontal. In an Unlimited Numerous Embodiment » The translucent sheeting can be used for various purposes within the pyramid wall system. They can be used to protect from the weather; To provide an aerodynamic 0 surface and/or to assist in the collection or scattering of light. The geometry of the lids may be flat, indented, or raised and come in a variety of shapes. It may cover individual cells; Small breadboard parts or large arrays. It may be standardized or mixed depending on the use. Coverings can be made from a number of different materials that are transparent to different wavelengths of light, all and invisible. These include but are not limited to glass; transparent polymers; 5 transparent inorganic polymers; Clear ceramic epoxy resin (GAY) and assemblies thereof. These materials can be treated with transparent silica coatings; transparent epoxy or transparent nano coating for protection. Coverings forming Gy Bala for solar panels may also provide protection for structures in windy areas. They may reduce drag when used To protect solar panels on moving vehicles.Data from wind tunnel tests and computer analysis will determine such dynamics

— 0 5 — Computational Fluid (CFD) specific geometry of the casing part; In addition to arranging these parts across a large matrix. Since the pyramid wall system may be exposed to severe weather conditions; Humidity and heat ventilation outlets can be inserted into various components in wall parts. Side walls may include; corners and flanges on the covers. The covers may serve a dual function as the solar cells are transparent in the visible spectrum and are made of inorganic materials such as perovskite or organic salts. They may use graphene or an equivalent of a superconducting material to create transparent nanowires or to cover conventional electrical connections.The plate connections can be arranged in a densely engineered pattern such as (but not limited to) a 10 Jad cell-stacked shape to increase conductive surface area and efficiency (as shown previously). The function of the hoods may be like any type of conventional simple lens spherical lenses or Fresnel lenses These lenses may be of a variety of shapes and have a variety of purposes including defocusing and redirection of light Figure 69 shows the original coil of the solar panel on Waveform 1800. Figure 69 also highlights a particular region of this plate 1840. In an unbounded embodiment, Figure 70 details this sampled region and shows a solar cell envelope with a gradient wave pattern, and the refraction steps. to reflection and/or polarization. The covers can be made as individual units for the individual cells of the pyramid. (Sag) Manufactured as small sample 0 parts or complete panels. Sample parts or complete panels may have spaces intended for mounting over individual pyramid cells with separation features added for individual units. With this method, only damaged units must be replaced. Covers can be manufactured by methods traditional used to produce transparent plastic sheets (Lo in cau) « casting; enlarged diaphragm ‘ injection molding and thermoforming 0.5 Separate parts may be designed as molded features or added by a secondary manufacturing process such as waterjet cutting; Laser trimming or cutting blades. Covers can also be made through additive manufacturing; Lal is known as 3D printing. Ua or GS can be manufactured using specific 3D printing methods Jie Fused Filament Fabrication “dada” (FFF) “Fused Deposition (FDM)” Stereo Lithography Fabrication Technology (SLA) 0 Selective Laser Sintering (SLS) and direct laser metal sintering (DMLS) in one

unlimited avatars; The process that cures the SLA resin with oxygen and UV light increases print speed up to X25 to 122100. This ultra-fast additive method is geared toward full production (as described previously). Separate parts can be made into 3D printed parts as a design feature with a single sale 5. Load can form separate parts from the bulges/recesses created after removing the 3D printing backing material. Instead of that; Waterjet cutting, laser trimming or cutting blades can be added as a secondary manufacturing process. Note: This pial shows examples of sheaths on horizontal petal combinations; With or without poles. But they can be used in any form of solar panel; As well as in 0 capacitor sets and batteries. Figure 193 shows a sectional view of a spherical envelope; concave 6010 and stacked flower-shaped horizontal 5900. In this infinity embodiment; The access shell 5645 is cut out for clearance and mounting and the casing 6010 fits a 4-cell cavity in the gia wall 4990. A center screw (not shown) can be used to install the casing along with a flex head fixture in the corners. 15 Figures 194 and 195 show shell variations in several unbounded embodiments as examples of a single cell. Figure 194 shows (flat 6000 spherical-concave 6010 6020 oval-shaped 6030 drop-shaped 6030 concave spherical 6040 lens 6040 spherical-convex 6050 ovoid-convex 6070 tear-drop convex 20 not limited to The advantage of the lens is on spherical-concave contrast, nor on any of these variations.The shape may be a lens of any variation of a conventional plain lens or a Fresnel lens.The material used in any of the housings may be an optically clear composite;WIA transparent solar; translucent capacitors or any combination thereof.In one of the unlimited embodiments; eliminates an alternative version of the horizontal flower-shaped stacking of a column anchor for stacking. This allows for simpler construction of the panels and more exposed area.The layers of the panel may be flat and parallel to each other or flat and oriented independently / Slanted/laid on each other The layers of the sheet may be curved to form any geometric or non-geometric shape They may be concentrically staggered or oriented independently/angled/laid together The seams of the sheets may be coated with anti-reflective and/or polarizing compounds

The angles of the plates may provide electrical conduction via electrodes along the inner edges of the pyramid cell or the edges between the sides of the folded cross plates. A simplified version of the truncated stabilizer bar may draw current from the inner edge electrodes to the central location (not shown). Figure 196 shows an alternate version of the horizontal flower stacking 6100. The flower column and flower stacking 6100 are not shown with one cross plate 4610 and hinge 4620 removed to show different features. as Jal in the crossed boards; flower; and stacking versions in the form of roses [cai] and the back side of the 4610 cross plates can be electroplated; Electrical tape or LED detectors in this unlimited embodiment; Six overlapping plates are shown: 6110 6120 « 6130 0 6140 6150 and 6160 press fit into the sides of the cross plate. The electrical connections may be at the outer corners of the horizontal panels with the edges of the 4610 cross panels providing a series connection. The cross plates may have the characteristics of recesses on the inner face to hold the horizontal plates when folded into position or may be joined (or a mixture of GE) and the plates may be flat or curved and may be positioned in various directions within the cavity of the pyramid; not necessarily 5 parallel to the area of Base/for the base of the pyramid Above the pyramid cavity is a spherical concave housing for reference Figure 197 shows an enlarged view of a 6200 cut-out mounting pivot The 6210 pivot base resembles the pivots in other cross plate and flower designs The 6220 pivot body has the same function as the cross plate and columns of the flower design It provides a path for the wires as in other 0 designs and support for the hinge contacts.But it is much less bop because it is not needed to support the flower petals.The 6230 stabilizer backs on top of the hub body, which has a countersunk through-hole for its placement.The poles are shown Electrical 6250 of the wire route. Figure 198 shows the gla view of the cut off mounting axle 6200. The axle base 0 overlaps the axle body 6220 and the mounting sall is shown mounting through both. B5 the inner wires are removed for clarity. Figure 199 shows the removal of the axle base The chassis and the internal wiring of the 0 base section stand out. Two hinged structures are hidden to eliminate image noise. The inner contact electrodes 0 are shown connected to the hinge connections. in one of the infinite incarnations; Figure 200 shows a fully 0 horizontal stacked flower panel assembly with the 6300 concave clear coat.

An overview of supercapacitors and batteries has been described previously. To recap: Supercapacitors are designed for fast charging; While batteries are designed to provide long-lasting power. AB capacitors called La "CBW capacitors are lightweight and have a high energy density, which means they can be charged and discharged over oda seconds to minutes. They maintain their high efficiency over many years; millions of cycles and a range Batteries have a wide range of temperatures, but are expensive and have limited storage space.Conversely, batteries have a high energy density, which means they can be charged and discharged over a period of minutes to several hours.They are less expensive and have more storage space than supercapacitors.With Therefore, their life cycle is much shorter. Their operating temperature is limited and they degrade quickly under heavy loads Jie intermittent solar power. The life of the 0 battery can be extended by shifting the load height to supercapacitors. With more supercapacitors stored, they will supplement the used batteries The storage of capacitors is directly related to the surface area of their electrodes, so dense honeycomb stacking has been introduced to increase energy storage.5 The density of layers within a supercapacitor and the number of layers may vary. These layers are covered with graphene or equivalent nanoparticles. creating additional surface area; Which leads to higher storage capacity. The electrode pattern may be an assembly of any geometry; And it doesn't have to be a beehive-shaped stack. The pattern on each layer can also be combined with the pattern on subsequent layers to create a specific 3D geometry for an optimal surface area. Nor are 0 layers limited to being parallel to the base area/base of the pyramid. Nor are they restricted to being parallel to each other or flat. They may be curved.

A superconducting gel electrolyte is inserted between the layers, which increases the energy density; which extends the grouting time to match the cabal) see Figs. 101-115. Until the advent of additive manufacturing; Also known as cola 3D printing, the complex geometries 5 painted for these supercapacitors were neither easy nor expensive. With the increase in the speed of this process; Parts can

to go directly from prototype to manufacturing; Which leads to further lower costs. Wha or WS can be manufactured using specific 3D printing methods such as fused filament fabrication (FFF), fused deposition modeling (FDM), stereo lithographic fabrication (SLA), selective laser sintering (SLS), and sintering. Direct Metal Laser (DMLS) and in one of the 0 infinity embodiments; The process that cures the SLA resin with oxygen and ultraviolet light

violet to sab) Print speed up to 7625 to 22100. This super fast additive method is geared toward full production. Layers of supercapacitors can be fabricated with chemically etched metal sheets or foils to increase the surface area/capacity. Jie can use traditional manufacturing methods: injection molding; Thermoforming or blow molding of various components in a condenser cell. Traditional manufacturing methods can be used in conjunction with 3D printing to create these components. An alternative hybrid installation combining supercapacitor layers and solar panel layers in a single pyramidal cell can be used where space, weight and/or cost limitations exist. The lower gall 0 of the pyramid space (BES) will operate while the upper gall will be solar panels. Other unconstrained installations may replace batteries for capacitors in the same space. Note: Jas batteries may replace or supplement EB storage In any of the various embodiments Figure 201 shows an enlarged view of a 6400 supercapacitor cell. Casing 3110 Casing or Cover 3160 and Connecting Bracket 3200. These components have a different geometry than that in Figure 201. Figure 202 isolates the following components: Positive Series Pole 6421; 6421 and 6423 connect in series to each honeycomb layer, according to their charge pag Connect the positive electrodes 6422 and the negative electrodes 6424 to the poles on the supercapacitor housing 6430 securing the head fixture with dela connect the 6440 supercapacitor. Figure 203 Wl WSs Be 6430 halved to detect the 5 negative electrodes 6424 which are the flexible head fixture in the supercapacitor connection carrier. And negative serial column 6423 is shown for reference. The holder has internal wires to draw current into two of its poles which lock the flex head tool into the sockets on the pyramid wall frame. These electrodes are connected to the conductive elements of the avian bone frame in the pyramidal wall.

Figure 204 shows the insertion of positive honeycomb layers 6425. Figure 205 shows in this indefinite embodiment; Eleven positive layers 6425. Figure 206 shows (gaa] ten negative honeycomb layers 6426 to show a complete pyramid of compact honeycomb shape 6420. Top and bottom angle views show details in Pyramid 6420 grid.

Figure 207 shows a complete 6500 supercapacitor unit. In the uncapacitor embodiment shown here the unit is inverted and attached to a similar unit. By other unrestricted embodiments; The opposite part may be Ble for a pyramidal wall plate. This wall ga may contain multiple versions of the panels

solar.

Figure 208 shows a hybrid supercapacitor/column-less flower plate cell 6600. The cell envelope of the 6410 is shown above. Below that are four overlapping panels 6110 6120 0 and 6140. Below that is a sectional view of the FW 6430 condenser housing and lattice pyramid; On half honeycomb 6420. This installation allows solar energy to be collected and stored on a pyramidal wall on one side. This can be for applications where vertical space or

5 depth or weight where limited.

Figure 209 shows a sectional view of a full supercapacitor unit 6500. In the lower part; Hermann 6420 shows two closely packed honeycomb nets. They are connected at the top and form a pyramidal wall housing with three solar panel installations. First » Venus is a horizontally aligned 5900. In an indefinite embodiment; This cell in the housing of the pyramidal wall contains the concave shell

0 ball bearing 6010 in one corner. Next to this is the Lule 5700 flower assembly and next to it a hybrid super capacitor / column less flower plate cell 6600.

Figure 210 shows the same 6500 supercapacitor unit with the segmented top jacket. And in this unlimited embodiment; A typical casing contains at least one spherical concave 0 and 2 flat 6000 casings. For weather protection; and specific access to light or dynamics

5 aerobic; Cover pattern combinations may range from 6000 to 6070 or any geometry based on usage.

The pyramid wall system has uses for both mobile installations and the trucking industry. Mobile power installations for emergency or shelters may be distributed in remote locations; Its containers consist of hierarchical wall segments that are mounted in one or more ea.

0 and may unfold and follow the sun or form a fixed structure. in the trucking industry; Tractors can

Vehicles (GAY) use a pyramid wall system to offset fuel costs (Gs or JUS) and tractor trailers take advantage of the many advantages of a pyramid wall system including; These include but are not limited to the following: 1) Engineered ferrule poles that increase rigidity and strength compared to traditional wall and roof surfaces of the same size. This force can be increased by the structure of the bird's bone.

2) Installing solar panels within this geometry results in increased energy harvesting compared to panels laid flat on the same base area.

3) The rapid charging ability of advanced supercapacitors reduces time at refueling stations; while supercapacitor/battery combinations allow controlled discharge of power to vehicles

0 hybrid or all-electric.

4) Drag reduction from ribbed caps can save at least $711 in annual fuel costs. Additional features such as perforations (see Figure 215) can further reduce drag.

5) A pyramid wall system may supply power to refrigerated units; While it can provide the inner part of the cell installed for the thermally insulated wall enclosed parts.

6) The luminous electrical enclosure, the electrical tape or the light emitting diodes (LED) can provide a night illumination and/or signaling system through panels and/or holes. The LED detectors may be individual components in an assembly; in a strip or In a plate. They Load can use this lighting feature to augment the signals. Mans them their low power consumption by drawing a gia capacitor battery from the pyramid wall system without an external source. Sae dling Methods described earlier Jie cover the back side

From the last layer of slabs or inner faces of the pyramids. in one of the infinite incarnations; The upper faces of the pyramids can be painted on the sides of the vehicle for downward illumination.

7) The sides of the container may be modified to accommodate sections of the pyramid wall or be constructed entirely from sections of the pyramid wall. Single-sided wall panels may include solar cells or any combination of solar panel concentrators.

8) Portions of the pyramidal wall may have translucent coverings for weather protection and a variety of spherical shapes and characteristics as shown in Figures 195-193 in accordance with Figure 200. These coverings form side panels of independently placed shapes formed for minimum drag. Some hoods may have simple lens properties; Either conventional, Jud, or spherical lens on the pyramidal cell site. in addition to; The recesses of the pyramid may have uneven sides

0 in order to achieve the maximum possible solar energy harvesting; based on its location within a wall. And can

Form the covers individually or make them into a complete side plate. It may be followed by a subsequent process to allow individual parts to be replaced in the event of damage or to be re-installed. Casings may have drag-reducing 'holes' on the front and rear edges. These holes can also be individually machined or made into a complete sidewall panel with interchangeability. Drag-reducing covers can be used on existing trailers without pyramid wall parts.

Figure 211 shows a fully assembled tractor vehicle 6700 with pyramid wall system. Polygonal covers are configurable and can be used without solar panels; Electrical storage such as batteries or capacitors. Wad can also use ribbed covers on the sides of a conventional vehicle

Without pyramidal wall parts.

Figure 212 shows a stand-alone vehicle frame 6710 and three wall segments 4990 a slicer shot of the inner faces of a 4950 pyramid array and a segmented shot of the back side of a wall segment showing a top frame with 4970 sockets and 4980 anchor plugs The wall segments can be made in different sizes and screwed together to make a full vehicle side or they can be made as a single panel ; With or without conductive properties or electrical properties.

Figure 213 presents the 6720 'Two Terminals' and transparent polygonal 6730 sheaths. Other non-limited embodiments may include solar cells and capacitor/battery terminal walls.

Figure 214 presents two transparent sidewalls with polygons 6740 and a transparent polygonal top wall (Sass .0). Fitting and modifying polygon patterns on these walls ply on inputs from windflow tests and 3D model simulations such as CFD (070).

Figure 215 shows sectional views; Enlarged and detailed for many features on the 6750 sheer corrugated upper wall. Including circular corrugated panels » flat panels, corrugated panels and triangular hollow locks. And they are intertwined over these small and large air "holes". an enlarged width of a polar rim narrowed to three small holes; Air 6760 and three large air holes 6770. And there is a side view to the left and above. This shows the side view.

5 for small hole 6760 and large hole 6770 left over. to the right is a sectional view of the posterior end of the slab showing crescent polygon 6025. and an earlier enlargement of three large holes 6770. The base area shall be aligned with the crescent polygon; In one unlimited embodiment the choice of pattern may be dependent on empirical data.

In the lower left galle is a detailed view of the upper polygonal wall. A flat 0 casing 6000 and a spherical concave casing 6010 were noted as well as a triangular bore plug 6005.

For flat casing and triangular bore lock 6015 for spherical concave casing. and in one unlimited incarnation; These bore locks will be for the tip feature to mount the shell; For example; The 6005 lock is part of the 6000 shell; and after lock 6015 gia of shell 6010; etc. Figure 216 shows a cross-sectional view of the tractor vehicle and shows a sample of the solar panel/supercapacitor wall. The normal sectional view ial shows the section of the capacitors and the cells of the flower plate wall. The Al) covers are translucent to show a more detailed ela view of the capacitor/floral assembly. Peripheral view from back to front showing alternating holes 6760 and large holes 6770. In one embodiment of Unlimited; Solar panel mounting may be a 5700 stacked pink kit as shown in the terminal view. Below that and to the right is the 6420 honeycomb grid 0 pyramid as part of a supercapacitor. This shows a cross-section of a supercapacitor pink plate/matrix. To the right is a detailed view of the vehicle part. The specific wrappers were removed to reveal the matrix features (petals and column in flower 5700 and agglutinating honeycomb features in grid 6420). Figure 217 shows a view from the front of a towing vehicle. Magnified view reveals some 5 translucent wall coverings on IA asymmetrical pyramidal wall; Where the upper sides are shorter than the lower. Cover 6720 is shown for reference. An enlarged area detail of the side panel is shown with dll) many 6000 flat caps. Immediately behind this is a die of asymmetrical panels. and in one unlimited incarnation; The 4585 pyramidal structure is used with uneven sides (limited at the top) to better capture incoming light from the lower rows of the vehicle. 0 and the panels sides and covers will be customizable. Figure 218 shows an angled view of a 6700 Pyramidwall System tractor vehicle. Customizable aerodynamic features are shown in the context of the entire vehicle. Acoustic walls are designed with the purpose of reflecting sound waves; distribution or absorption. They have been used extensively in the US as Noise Barriers 5 for highways. Residential and commercial developments have seen an increase in these barriers as well. They have been used to dampen sound in concert halls and in studios where they can muffle certain frequencies. They are They create anechoic chambers in laboratories that completely absorb and isolate all sound waves.Efficiency, cost and aesthetics are the most important design factors, with the trade-off between cost and effectiveness.

The ple form is mirrored by the less effective road Vly wall shape that enables any over long stretches of highway. In rural areas, reflective walls may be sufficient; However, they generally transmit noise to the areas in front of it. Competing reflective walls on opposite sides may increase noise in an area. The following diffuse walls are the most effective; But it may have a more elaborate shape and a higher cost. Walls and walls in the shape of the letter “8” with irregular geometric features fall into this category; and they suppress the voice in front of him; And not just reverse it on the other side. Absorbent walls are generally the most effective and most expensive. These include acoustic foam walls; fixed cell foam; granules; Earth and small rocks. Many 0 acoustic walls contain a mixture of all three types of barriers. A pyramidal wall system is a GE Genk filter in one of these sound wall categories: Diffusion and Absorption. Its unique shape distributes sound by reflecting it within the matrix of alkaloid pyramidal faces. in one of the infinite incarnations; 11-shape beams are fixed to concrete forms (eg Sonu tubes) which are then bolted to the bases. (Kang then incorporated the installation of 5 sono tubes/bases into the floor; with a horizontal floor level support providing a base and spacing between the sono tubes. The back wall portions are to the rear; as shown in Figures 168-170; independent panels can form Used to create an absorbent wall The back wall segments slide back down between channels in the girders in an H shape starting at the starting ga which has 0 rows of virtual panels at the bottom More segments are added until you reach the top which Contains space to install weather wrap The wrap is added before the material is pushed into the 'gap hole' between front and back These materials are Jodi has these materials including but not limited to: Spray foam insulation Closed cell foam; Acoustic foam; Recycled materials including Plastic and wood pulp. The grid may be printed on the inner face of one of the sections of the freestanding wall, with the parts joined (Ga) to provide greater reinforcement. The plugs and plugs may contain outlets for moisture and heat. The previously mentioned materials. In particular dng, any part of the wall shal made of composites shall be placed according to the size or the lightest weight even if it is made of concrete. The sound wall composed of parts of the pyramidal wall may contain empty pyramidal spaces.

Pyramid spaces may have solar panels on one side; and concentrator/battery combinations on opposite side or hybrid concentrator/solar panels on one side. electroplating; Electrical tape and LEDs on the outer face of the inner solar panels or the inner faces of the pyramid cells for nighttime use. LED detectors may be individual components in a matrix, strip or sheet. And the capacitor/battery combinations can make these optical properties self-effective. Sections of the pyramidal wall attached to the beams may be joined in an H-shape to form a continuous extension of the wall of sound. Parts of the sound wall may be curved. in one of the infinite incarnations; The concave faces of the pyramids may follow the form of a curved support in a design based on acoustic criteria. And it might be

0 The curve is in the form of an "8" or compound.

The inner faces of the pyramids may be uneven or asymmetrical; sly on acoustic standards. Solar parameters may be a factor in shaping the faces of the inner pyramid as well.

Figure 219 shows a view of the ial Soundwall 6800. In the lower left-hand side image are the 6820 bases ready to be grounded. Sono concrete pipes exist

5 6830 directly on top and will be implanted on top of it. and the Floor Wall Support 6840 is placed directly over the Sono 6830 tubing; The ends of the opening between the columns are covered. wing connecting beams 6810 H-top tubes Sono 6830; With the rebar stack (not shown) affixed to it and all the way up to the bases.

Four shal of pyramidal wall from back to back 5200 is shown above

0 The girders in the form of 6810 11 shall be ready for sliding. The detail at the bottom left shows part of a virtual slab 5220 at the bottom of the pyramid wall back to back 5200. The render file is shown as 6810 in this detail destination. Above that on the right are the details of the 4950 Pyramid Arrays (back and front) and the 6850 wall cladding ready to install the 5200 Pyramid Wall parts.

Figure 220 gia shows the completed soundwall 6800. Figure 221 gia shows the completed soundwall 6800 with a separate transverse view (in one unfinished embodiment) of the fixed cell foam 5210. In other assemblies; This entry may be plastic pellets; La including recyclables plastic, paper / pulp or concrete. Figure 222 shows a series of Wall of Sound 6900. These segments may be of indefinite length; they are curved

0 or oblique; Depending on the design criteria.

The pyramid wall system can be applied to structures of different sizes and shapes. They may also form free-standing structures for use as stand-alone units of various sizes and shapes. They may form arrays of indefinite length. They may use affiliate systems or be fixed. The cells of a single pyramid in the structure may have unequal sides and be unlimited in size and number. The base of this structure may be a regular or irregular polygon with an unlimited number of sides. The sides of the pyramidal wall structure may be flat or curved. png Next join the cells of the pyramid in a typical fashion within a pyramid-shaped frame to create the structure of the pyramidal wall. in one of the infinite incarnations; The convoluted surfaces of the pyramidal wall structure show a 7119.6 percent increase in the surface area above the base of the pyramid, or base area. An embodiment other than 0 is specified; For a pyramidal wall structure he may use only slabs for the base of the pyramid with the sides removed. A wind shield can be added around the perimeter of these staples to help keep the pressed boards on the roof while air sapping. Ventilation holes can be added for moisture and thermal ventilation. Figure 223 shows a stand-alone pyramid wall structure 7000. This may be a stand-alone unit and can be used on top of a building or in an array on a solar panel farm. Figure 224 shows an enlarged view of the triangular lateral wall of the pyramidal wall structure. This lateral mural may have a similar construction to Pyramid Wall 4990. However; It can be divided differently; So it contains a unique number. In an infinite embodiment, nine-point wall 7110, eight and seven-point 7120, six and five-point 7130, four- and three-point part 7140, two-point and one-point part 7150 are placed to be joined. There is a slotted base gia 7210 directly below it and the 0 will connect to it base 7220. Figure 225 shows the details of the portion of the slotted base 7210 and base 7210 to be connected. Figure 226 shows a pak 7100 Abe sidewall ready to be attached to the ley 7210 slotted base part 7220 base. Figure 227 shows two reference views of the 7100 triangular sidewall assembled in gia slotted base 7210 and base 7220 awaiting assembly. Figure 228 5 shows a compilation of al 7220 bases; A sidewall Abe 7100 in one of the four slotted base 0's and two frame members 7230 are ready for the assembly. and in one unlimited incarnation; Frame members can install panels within the hierarchical structure; This is to allow full exposure of the slab edges and sides to the sun. Figure 229 shows the completed pyramid wall structure 7000 with its cover magnification 7240.

Figure 230 shows a complete building with its sides covered by single-sided pyramidal wall segments 4990. At the top are base 7220 and slotted base 7210. Figure 231 shows complex pyramidal wall construction 7300. Frame members 7230 are shown enlarged with shell 7240 directly above them. Panels can be stacked one row at a time or one side at a time. Figure shows

233 Construction of a fully assembled pyramidal wall 7300. And in the embodiment of the Unlimited; dal structures of a pyramidal wall are displayed on a surface. These structures are not limited in size; shape or quantity.

Figure 233 shows the structure of a dependent pyramid wall 7400. In the indefinite embodiment; The pyramid structure may follow the sun by two degrees for more freedom of movement. The elements of the base 7420 are linked to the axial element 7410. (Say that the element 7410 moves in one direction and the pyramid structure can be moved in

0 is a second orthogonal direction.

in an indeterminate embodiment (not shown); The back wall panels can be used to accommodate capacitors/batteries inside the pyramid structure. They may be in arrays in a solar farm and the shape of the individual LAY ply may vary depending on the overall performance of the solar array.

Figure 234 shows the construction of a flat pyramidal wall 7500. In enlarged view over the roof portions;

Windshields are positioned so that they are installed. and in the indefinite embodiment, the panels are replaced; sides; Al-Qaeda; Pyramid Wall Sheath Slotted Base Frame 4990 is bolted with wall sockets (5300) and alignment template/fixture template/fixtures (5400). The perimeter of these panels is stabilized by a 7510 wind cap. This helps reduce stress on the fasteners and tie-downs by taking advantage of the downdraft over the buildings.

Figure 235 shows a detailed sectional view of windcap 7510 windcap openings 5 and pyramid wall segment 4990. As in any installation of a pyramid wall system; Electroplating can be used »; Electrical tape or light emitting diodes (LEDs) with reflectors in this system; either on the backs of the panels, or on the inner faces of the pyramids. LED detectors may be individual components in an assembly; In Japs or in a plate. Transparent covers may be used

5 weatherproof and/or weatherproof.

As described above, various embodiments provide a method and device for creating a parietal part. These parietal segments can then be used to quickly create hierarchical structures.

The various processes described here are simply typical and do not involve any particular command. Furthermore it; Operations can be used in any sequence on demand and can be used in part. And can

0 Combine the different processes described by the individual steps into a single process. in addition to; may be done

— 3 6 — Break down some of the processes described as individual steps so that they are performed as multiple steps. As used here (Sarg) the terms shape, shapes, image and step are used interchangeably. For example Jad and in some embodiments; (Sag) the work of forming the void shown in Figure 3 in a complete vacuum chamber and the steps may vary. In other embodiments ' and can be installed The slab is cut and cut in different steps before the step of forming the final blank and processing takes place. Ag another embodiment The different shapes can be rearranged to occur as another sequence of steps. In one of the indefinite embodiments of the slab being shaped into the shape of the pyramids, after the final folding and cutting step. (Sang) A leakage net is placed on top of the material for the wick resin. The net may be Gaal along the outer gall; two plastic connectors for a discharge hose are placed loosely on opposite sides. A slightly oversized vacuum bag may then be placed (on For example; plate one side of Bale (transparent packing) over the material and secure it with vacuum packing tape. A slit may be made over each connector. One hose may be allowed to draw the resin from the reservoir. The other is connected to the hose which is connected to a vacuum pump. Initially; may The tank is clamped and the entire vacuum may be pulled through the bag. The hose may be sealed at the end of the pump as well. 5 After ensuring that there are no leaks; The clamp at the end of the tank can be opened and the resin can be drawn through the infusion grate. Then the hoses can be sealed again. The molding plate may be allowed to discharge cured within the next 24 hours to make the final housing. One embodiment provides a method for collecting and storing solar energy using hierarchical cavities and associated elements in individual modules or arrays. It uses the inversion method between 0 panels to keep the power output the same as if it were laid flat. This allows for installations where the installation area is limited. The angle of each side, axel sae al, ranges between 5 degrees and 85 degrees. They may be dorsal or 'dali base' and these are 1 for regular or irregular polygonal pyramids ie rhombus or prism. However, the number of sides is indefinite and the sides of the pyramid may be unequal. The shal which is exposed may be restricted To sgn the sun lly, its sides are uneven to capture the best falling light.The pyramids have sides far apart from the Shall surfaces, which allows natural air flow to cool the cells »which increases efficiency while reducing heat.The pyramidal wall system is not limited to a number "LAT" or "modules" are hierarchical and cells or modules are scalable. Another embodiment provides a method for arranging solar panels; Solar panels can be assembled 0 flat and detailed; This creates a cross-shaped pattern that is related or fitted to the inner faces of the pyramids.

— 6 4 —

Solar panels may be flexible; It is shaped as a flat cross and 'four-dimensional' folded into a pyramidal shape to adhere or fit into the inner faces of the pyramids. Solar panels may be single-sided or double-dig manufactured using traditional manufacturing methods or 3D printing. They may be transparent in the visible spectrum and made of inorganic Jie or perovskite materials to organic salts. They may use graphene or its superconducting equivalent sale to create transparent nanowire connectors or to coat conventional electrical contacts. Sarg Arrangement of panel joints in a dense geometric pattern such as (but not limited to) a closely spaced honeycomb pattern to increase joint surface area and efficiency. Panels and their joints can be made using fabrication methods

traditional; or 3D printing with a conductive material, or a mixture of the two.

Solar panels can be installed in a mounting pole that allows a conductive path through a central location. Post-wire mounting seams may have over-molded/embedded wires. They may contain molded ducts or ducts; Formed or 3D printed with electrodes inserted to create the wire layers. The layers may contain 3D printed conductive electrodes. Channels or ducting in anchor posts may be sprayed or electroplated with a super conductive or sold

5 conductivity such as graphene or its equivalent. They may be coated with a conductive or superconducting gel.

Layers can be produced | For wiring in any combination described herein and stacked for multiple panel sets. The mounting post structure can be extended by adding holes to allow stacking of multiple panel arrays. Transparent panels of visible light (or specific wavelengths) can be stacked within the space of the pyramid; Each layer is positioned to absorb a specific range of wavelengths. It may be layers

The plate is flat and parallel to each other or flat and oriented independently / diagonally / laying on top of each other. The curved layers of the board form any geometric or non-engineering shape. They may be concentrically overlapping or independently oriented/tilted/laid together. They may be overlapping and balanced; Like flower petals.

The plates may have a transparent outer surface that acts as any type of conventional simple lens, spherical lens, or Fresnel lens. These lenses may be of a variety of shapes and have various purposes including ally focusing and light redirection. All-transparent or semi-transparent z-panels may have electroplating outer faces, electrical tape or LED detectors and the LED detectors may be individual components in an assembly, in a strip, or in a plate. This would be for night use if transparent cells were used. 0 These faces will be self-powered; It draws power through an inverter connected to storage

Electrolytics such as supercapacitors and/or batteries in pyramid wall units. Electroluminescence may be powered by a capacitor or a solar panel. An additional embodiment provides hollow wall sections formed over moldings using composite sheets. (Say) These parts can be made from small interlocking shal "a" cores and complete wall panels. Wall parts can be made through additive manufacturing; also known as 3D printing. They can be made using Wha or GS methods Specific 3D Printing Jie Fused Filament Fabrication Daddy (FFF) Fused Deposition (FDM) Stereo Latographic Fabrication (SLA) Sly Laser Sintering (SLS) Direct Metal Laser Sintering ( DMLS) (An ultra-fast additive process geared towards full production uses SLA and/or SLA resins cured 0 with oxygen and UV light). FFF / FDM printed wall parts may be 3D using cut carbon fiber With a thermoplastic base or continuous fiber electrodes with a thermoplastic base The shredded Creon fiber and thermoplastic base may be in the form of granules, electrodes or a combination thereof Pyramid wall system 30 7014 / FFF may be printed Wis or GS by Gu 5 devices on the robotic arms, allowing non-orthogonal motion to match part geometry and speed up manufacturing dle. The robotic arms may travel in single or multiple units on a conventional linear rail or linear bridge system. The robotic arms can move in a curvilinear motion; Single or multiple arms move independently or on a compound curve path. Production systems may use combinations of robotic arms as well as bridge extruders as in conventional FFF 20 or FDM printing. Molds or templates for composite packaging can be 3D printed using SLA FDM (FFF) additive manufacturing processes (ie 515 or 01115). Molds can be made using an ONC milling machine or router. Molds can be made by casting a variety of materials ( including but not limited to plastic and concrete) between back wall portions. Pyramid wall portions may be made of vacuum formed, injection molded or molded thermoplastic sheets (Sa shal wall printing flat; with movable hinge for transition to shape; Either manually or with an external trigger To be stacked for storage and transportation Alternative materials for packaging include: fiberglass and Kevlar Alternative materials for 0 3D printing include Fused Filament Manufacturing (FFF) / Fused Deposition Modeling (FDM) on Fiber

Plexiglas and Kevlar (electrodes or strands); thermoplastic (by itself); concrete; cement; wood pulp; the installation of wood with a binder; and recyclable materials. These materials can be fed into granules, electrodes, or combinations thereof and extruded through the nozzle of the 3D printer. Alternative materials for different molding processes include: “wood pulp / wood composition”; recyclables (including plastics) » compact thermoplastic composites; cement or concrete.

The walls may be made of plastic or wood.

The walls may be made of sheet metal.

Any of the components of the pyramid wall system may be manufactured entirely or in combination with any of the processes described herein.

Another embodiment provides a way to connect parts of the pyramidal wall back to back. In did) separate wall sections can be connected back to back using fasteners. The shafts and sockets can be axis aligned as the shafts are inserted into the sockets to be installed. Yau plugs may otherwise have semicircular holes for the shafts to slide through.

These standalone compartments have space that can be filled with proven cell foam or pellets

5 A variety of materials (such as recycled plastic or paper) or cement. This filler can be used for thermal insulation; sound absorption or both. (Sag) Inserting a 3D printed grid between the parts and strengthening it with materials such as fixed cell foam. The grid may be printed on the inner face of one of the parts of the independent wall, with the parts joined later.

Plugs and plugs can have drainage ports aligned for moisture and heat.

Another embodiment provides a way to connect sections of a single-sided pyramidal wall with a wall. The one-sided part of the pyramidal wall contains central poles that form an electrical hub connecting the poles of the solar panels. This pivot then connects to a recess in the wall socket that is bolted to the wall or support surface. By protruding from the pivot, the fixture is secured by inserting a coiled wire embedded into the recess of the wall socket. The cavity contains electrical connections which then draw power from the hub

5 and slides them into the wiring harness or electrical conduits into an alignment template/fitting/fitting template. And the cutting parts shall have an alignment die/fixture/fitting die having the same profile as the wall socket. Notches in the sectional sections provide accommodation for the plug in the wall socket.

Alignment template / mounting template / mounting can also be used as a temporary mounting template; To align the wall socket before it is installed or attached to the wall. The mold may not contain electrical conduits or wires

0 is included by itself. It will be in order to align the wall socket and then be removed.

May be alignment template / mounting template / installation; As a permanent fixture with or without built-in electrical conduits or wires. It may be fully supported by sockets after they are installed or attached to the wall. Alignment template/fixing template/mounting may be installed or mounted independently to provide additional support for the pyramid wall.

Wall sockets and alignment template / mounting template / installation can be machined; Guidance; Cutting by laser, cutting with water, or shaping it through various methods, including injection molding. It can be formed through additive manufacturing; Also known as 3D printing. It can be partially or completely made using specific 3D printing methods such as Fused Filament Fabrication (FFF) Fused Deposition Modeling (2014) Stereo Lightgraphic Fabrication (SLA) Selective Laser Sintering (SLS)

0 Direct Laser Metal Sintering (DMLS). Electrical connection points in wall sockets and conduits in alignment mould/fixing mould/mounting may be a route for insulated wires; Overmolded wire or 3D printed with conductive materials. The tubes may be covered with a superconducting material such as graphene or its equivalent and/or filled with superconducting gel or any combination thereof. Wall sockets and alignment/mounting template as a permanent device may have mounting holes to allow mounting to the mounting surface. It can be fixed with a bonding compound or a combination thereof. in one of the infinite incarnations; A pyramid wall system can take advantage of the space within the pyramid space to lay layers of translucent or translucent cells/panels to absorb specific wavelengths of visible and/or invisible spall. (Sarg) The first layer of 0 solar panels is single-sided or bifacial and fixed to the inner faces of the pyramid housing. They may use graphene or an equivalent superconducting material to create transparent nanowires or to cover conventional electrical contacts. The panel connections can be arranged with a densely engineered pattern such as (but not limited to) a compact cell-shaped form (DAS) to increase conductive surface area and efficiency. Both the first and subsequent layers of the plate may be transparent in the visible spectrum and made of inorganic materials such as perovskite or organic salts. Jie stacking flower petals around the shaft or "stalk". The stacking may be flat and have the sides of offset pyramids around the stem or the sides may be curved and/or overlapping like the petals of a flower. The seams of the board may be flat and parallel to each other or flat and oriented independently / inclined / placed on each other The layers of the slab may be curved to form any geometric or non-geometric shape They may be staggered 0 concentric or oriented independently / with an angle inclination / placed on each other They may be staggered

balanced; Like flower petals. Individual panels can be divided into two parts or AST and positioned in such a way that the layers of panels can be coated with anti-reflective and/or polarizing compounds. They can be made by traditional manufacturing methods or through additive manufacturing; Lad 5 is known as 3D printing. Can be made Wis or GS using specific 3D printing methods Jie Fused Filament Fabrication (FFF) Fused Deposition Modeling (FDM) Stereo Lithography Fabrication Technology (518);_Selective Laser Sintering (SLS) and direct laser metal sintering asl (DMLS). Full Production Panels and their connections can be made using conventional manufacturing methods, 3D printed using a conductive material, or a combination of the two Solar panels can be mounted on a mounting pole to allow a conductive path through a central location The mounting pole may be manufactured using traditional manufacturing methods such as injection molding or 3D printing gl of various methods previously described or combinations thereof. The conductive tracks that form the connecting seams of the mounting post may contain embedded/over molded wires. They may contain housing dies; fabricated; 3D printed channels or holes with Glad is an entry for creating wire layers. The layers may contain 3D printed conductive electrodes. The channels or holes in the mounting posts may be sprayed or electroplated 0 with conductive Sale or superconducting material Jie graphene or equivalent. They may be coated with a conductive or superconducting gel. in one of the infinite incarnations; Transparent superconducting capacitors can be used between layers of transparent cells for storage. Cross panel assembly/flower assembly can contain 5 column flower-shaped installation/assembly that allows stacking of multiple panel groups. The flower column joint can be used to fix and secure panels in pyramidal wall recesses. A group of columns in the form of a flower on the base of the column or gna includes the frame of the column; Mounting anchors and access casing. and in one unlimited incarnation; It is used to mount the solar array into a pyramid wall portion and into a wall socket. They may be reflective coated and contain electrical tracks or channels and may be over-molded 0 fused or 3D printed with electrical wires. And it may have a different shape

of the diamond shape shown; Jie is circular; oval; any regular or irregular polygon; It may taper and may be sized differently to account for space constraints. The flower shaft is located below the shaft body with a mounting bracket positioned in the countersunk hole in the body. The slab recesses along the outer gall of the column structure place the different levels of slabs. Flex head fixture sockets allow the flex head fixture to be installed on the access housing to hold it in position and protect the fastener. And access shell holes allow access to the tool for quick release. The first level of wire connects to the hinges of the cross panels. The negative and positive poles are connected across the mounting axis. Multiple levels of wires connect multiple levels of stacked 0 panels. Completed flower assembly folds into pyramid shape; The outer surfaces are covered with electrical coatings, electrical tape or photodiode detectors (1150). LED detectors may be individual components in an assembly; in strip or in plate. The panels may be transparent or semi-transparent to different wavelengths depending on electroplating requirements or LED detectors 15 in other unconstrained embodiments; Each slab can form one flat layer around the installation column, where its apparent faces are parallel to the area of the base of the pyramid. Each layer may be curved and overlapped concentrically around the anchor shaft. Each layer may be evenly or differently spaced along the anchor shaft. Each layer can be italicized independently of each other or in any combination of them. Tabs with electrical connections may be installed in the mounting post holes; and its visible edges to connect the electrodes on the solar panels. can be installed with anchors; Couplings, Couplings, or any combination thereof. The panels can be coated with anti-reflective and/or polarizing compounds. In this unlimited embodiment; The slab of the horizontal first layer shall have an exposed ang directed 5 parallel to the base of the pyramid or the base area. The edges of the clearance hole in the horizontal plank will be placed above the recesses of the plank in a column in the form of a flower. The connecting tabs are placed in the grooves to be attached or fixed to the horizontal board of the first layer. Subsequent panels Yl can be assembled and worked upwards. The first to be assembled on top of the transom panels may be the lower panel with attached tabs. alg Groups successive layers up to the top layer panel and its attached tabs. ag after that

Folding assembly into an ap shape and outer surfaces covered with electrostatic Bnd (eS) coating or LED detectors in an unlimited number of embodiments The translucent coverings can be used for various purposes within a pyramid wall system. They may be to protect against weather; to provide a surface aerodynamic or to aid the gathering or scattering of light The geometry of the covers may be flat, indented or raised and of various shapes They may cover individual cells small panel parts or large arrays They may be uniform or mixed depending on the application Coverings may be made of a number of materials Various types of transparent materials that are transparent to different wavelengths of visible and invisible light, including but not limited to glass, transparent polymers, polymers

0 inorganic transparent; clear epoxy resin; Translucent ceramics and assemblies thereof. And can

Treating these materials with transparent silica layers; Clear epoxy or clear nano coating for protection. The covers that form the Gy Bala for solar panels may also provide protection for structures in windy areas. They may reduce drag when used to protect solar panels on moving vehicles. Data from wind tunnel tests and computer analysis will determine such dynamics

5 Computational fluids (CFD) specific geometry ial shell; In addition to arranging these parts across the large matrix.

Since the pyramid wall system can be exposed to harsh weather conditions; Humidity and heat ventilation outlets should be inserted into various components in wall parts. may include side walls; coming edges; columns; dale Mounting on pyramidal wall, channels and flanges on caps.

The covers may perform a dual function cus the solar cells are transparent in the Gall spectrum and are made of inorganic materials such as perovskite or organic salts. They might use graphene or an equivalent superconducting material to create transparent nanowires or to coat conventional electrical contacts. The panel joints can be arranged in a die-cut (but not limited to) honeycomb structure; To increase conductive surface area and efficiency.

The hoods may function as any type of traditional simple lens, aspherical lens, or Fresnel lens. These lenses may be of a variety of shapes and have various purposes including focusing, defocusing, and light redirection. and in one unlimited incarnation; The solar cell envelope may have steps of refraction with a graduated wave pattern.

Covers may be coated with anti-reflective and/or polarizing compounds.

The covers can be made as individual units for the individual cells of the pyramid. Sags can be manufactured as small modular parts or complete panels. Sag sections or complete panels may have spaces intended for mounting over single pyramid cells with added separation features for individual units. With this method, only damaged units must be replaced. Sags can be manufactured by conventional methods Used to produce clear plastic sheets including extrusion, moulding, inflated film, injection molding and thermoforming Separate parts may be designed as molded features or added by a secondary manufacturing process such as waterjet cutting, laser trimming or blade cutting Lads can be made Through additive manufacturing, also known as printing

0 3d. Ua or GS can be manufactured using specific 3D printing methods Jie Molten Filament Manufacturing (11:7); Molten Deposition Modeling (2014); Stereo lithography (SLA) fabrication technology Selective Laser Sintering (SLS) and Direct Metal Laser Sintering (DMLS) and in one of its unlimited embodiments; The process that cures the SLA resin with oxygen and UV light increases the print speed up to X25 to 122100. This additive method is super

5 The speed is geared towards full production.

Separate parts can be made into 3D printed parts as a design feature using a single material. (Sag) Separate parts are also machined from the bulges/recesses created after the 3D printing backing material is removed. Yay this can be added as a secondary manufacturing process by Jie waterjet cutting, laser trimming or cutting blades.

The caps can be used to create the horizontal petal; With or without poles. In addition to that; Can be used in any form of solar panel; Plus sets of capacitors and batteries.

Shaft access casing may be flower cut for clearance depending on casing geometry. A center screw can be used to secure the Supa shell with the mounting features of a snap

5 flexible head in bases.

The single pyramid LAT casing has several variations. Many of the Unlimited incarnations include a flat wrap; spherical concave casing; concave-oval shell; lenticular spherical concave shell; spherical concave housing with lens; Convex casing (gS) ellipsoidal casing and drop-shaped convex casing. The advantage of the lens is not limited to the concave contrast

0 spherical; Nor any of the differences in these formats. The shape of the lens may be any simple lens shape

Conventional or Fresnel lens. The material used in any of the caps may be a clear solar WIA clear composite, clear capacitors, or any combination thereof. in another unrestricted embodiment; An alternate version of the Horizontal Flower Stack removes the stacking stabilizer bar. This allows for simpler panel construction and a larger exposure area. The slab layers may be flat and parallel to each other or flat and independently oriented/inclined/laid on top of each other. The layers of the board may be curved to form any geometric or non-engineering shape. They may be concentrically overlapping or independently oriented/at an angle/laid together. The layers of the panels can be coated with anti-reflective and/or polarizing compounds. The bases may jig be electrically conductive through wires along the inner edges of the pyramid cell 0 or the edges between the sides of the folded cross plates. A simplified version of the truncated stabilization pole can draw current from the inner edge electrodes to the central location (not shown). The flower-shaped stack without pole has overlapping panels that fit into the cross panel sides. The electrical connections may be at the outer faces of the horizontal panels with the 5 cross edges of the panels providing a serial connection. The cross panels may have recessed features on the inner face to hold the horizontal panels when folded into position or they may be joined or fitted of both. The plates may be flat or curved and can be placed in different directions within the cavity of the pyramid; It is not necessarily parallel to the area/base of the pyramid. aig Use a pivot base to support cross plate hinges. The hub structure provides the same wire path as other designs and supports the hinge connections. They have a low profile dus not used to support flower petals. The mounting bracket is connected through the axle body; which has a through hole slot for putting it on. The electrodes of the electrical wires are connected from the wiring path through the base of the hub. The axle base interlocks with the axle body and fixings and the 5 internal connecting wire poles connect to the hinge connections. The back of the cross plates may be coated with electroplating, electroplating, or LED detectors Supercapacitors are designed for fast charging; While the batteries are designed to provide long lasting power. AB capacitors, also called "supercapacitors"; Lightweight and high 0 energy density; This means that they can be charged and discharged over a matter of fractions of a second to minutes. And it keeps

on high efficiency over many years; millions of cycles and a wide range of temperatures; But they are expensive and have limited storage space. And on the contrary; Batteries have a high energy density; This means that they can be charged and discharged over the course of several minutes to several hours. They are less expensive and have more storage space than supercapacitors. However; Its life cycle is much shorter. They also have a limited operating temperature and degrade quickly under heavy loads ie intermittent solar power. Battery life can be extended by switching the load path to supercapacitors. With the increase in supercapacitor storage; Batteries in die uses will complement electric cars; This greatly speeds up charging times. The storage of capacitors is directly related to the surface area of their electrodes. Therefore, 0 dense honeycomb stacking was introduced as a means of increasing energy storage. The density of layers within a supercapacitor and the number of layers may vary. These layers are covered with graphene; or equivalent nanoparticles; which creates additional surface area; Which leads to higher storage capacity. The electrode pattern may be a collection of any geometry; And it does not have to be compact in the form of a beehive. And the pattern on each layer can combine with the pattern on the 5 subsequent layers to make a specific 3D geometry to get the perfect surface area. The layers are not limited to being parallel to the base area/base of the pyramid. As Lgl are not constrained parallel to each other or flat. It may be curved. A superconducting electrolyte gel is inserted between the layers, which increases the energy density; Which extends the spare time to match the batteries. until the advent of additive manufacturing; Wail is known as 0 3D printing; The complex geometries of these supercapacitors were either unusable or too expensive. With the increase in the speed of this process; Parts can go directly from prototype to manufacturing; Which further leads to lower costs. Can be made Wa or all using specific 3D printing methods Jie Fused Filament Fabrication (FFF) Fused Deposition Modeling (FDM) Stereo Lithography Fabrication Technology (SLA) 5 Selective Laser Sintering ( SLS) and direct laser metal sintering (01415). In one unlimited embodiment, a process that cures the SLA resin with oxygen and UV light increases print speed up to X25 to 76100. This ultra-fast additive method is geared towards full production Supercapacitor layers can be fabricated with chemically etched metal sheets or foils to increase 0 surface area/capacity.

Jie can use traditional manufacturing methods: injection molding; Hall forming or blow molding of various components in a condenser cell. Traditional manufacturing methods can be used in conjunction with 3D printing to create these components.

An alternative hybrid installation combining the supercapacitor and plate layers can be used

Solar panels can be installed in a single hierarchical cell where there are limitations on space, weight and/or cost. And it will work

the lower part of the pyramid space as a condenser; where the upper gall will be for the solar panels. Other non-restrictive installations may substitute batteries for existing capacitors in the same space.

Note: Batteries may replace or supplement capacitor storage in any of the various embodiments.

Components of a supercapacitor cell include: a honeycomb pyramidal llll shell; Super capacitor housing and super capacitor delivery bracket. The electrical connection points include: positive serial pole; positive electrical wires; Negative serial pole and negative electrical wires. The poles provide a serial connection to each layer of a By (Jad) cell-shaped compact cell of its charge. The positive poles and negative poles will be connected to the posts on the supercapacitor shell that will fit

5 with supercapacitor connection bracket. The holder has internal wires to draw current to two of its poles which fit into sockets on the pyramid wall structure. These electrodes then connect to the conductive elements in the framework of the avian bones of the ga pyramidal wall.

in one of the infinite incarnations; Multiple positive honeycomb layers combine with Alle honeycomb layers to complete a honeycomb pyramid lattice. And in one

0 unlimited avatars; The module is glia and is accompanied by an identical module. and in other unlimited incarnations”; The opposite part may be a pyramidal parietal plate. The wall portion may contain multiple versions of the solar panels and casings; Including hybrid super capacitive cell/flower cell less. This installation allows solar energy to be collected and stored on a pyramidal wall on one side in uses where the vertical space is; depth or limited weight. may include

5 Other Combinations Stacking in the form of a horizontal flower, a traditional flower, or any combination thereof.

An alternative hybrid installation combining supercapacitor layers and solar panel layers in a single pyramidal cell can be used where space, weight, and/or cost limitations exist. The lower part of the pyramid space will act as a condenser; Lai will be the top of the solar panels. This installation allows solar energy to be collected and stored on a pyramidal wall on one side. 0 This can be for uses that are vertical space; Depth or weight in them are limited.

Other unlimited installations may substitute batteries for capacitors located in the same space.

In another embodiment a pyramid wall system has uses for both mobile installations and the trucking industry. An integrated mobile phone installation may be distributed in emergency situations; Shelters in Sites Band) and its enclosures consist of parts of the pyramid wall that are installed in Sn

one or more. It may unfold and follow the sun or form a fixed structure. in the trucking industry of Jal; Tractors and other vehicles can use an ISA or GIS pyramid wall system to save fuel costs. Tractor vehicles benefit from many features of a pyramid wall system including; For example but not limited to the following:

1) The unique geometries result in increased rigidity and strength compared to walls and surfaces

0 conventional of the same size. This force can be augmented with a bird bone lattice.

2) Installing solar panels within geometries increases energy harvesting compared to panels placed flat on the same base area.

3) The rapid charging capability of advanced supercapacitors reduces time at refueling stations; While super capacitor/battery combinations allow controlled discharge of energy to vehicles

5 Hybrid or fully electric.

4) Reducing drag from ribbed covers can save at least $9,611 in annual fuel costs. Additional features such as eyelets can further reduce drag.

5) A pyramid wall system may supply power to refrigerated units; While the inner part of the cell fixed to the confined wall parts can provide a thermal Wie.

6) It can provide the luminous electrode; Electrical tape or light emitting diodes (LED) night lighting and/or signage through panels and/or perforations. LED detectors may be individual components in an assembly; in a strap or in a plate. Lal can use this lighting feature to boost their signals. Their reduced power consumption allows them to draw a gia capacitor battery from a pyramid wall system without an external source. (Sag) that the luminous layer is a layer from the side

5 The back of the last layer of panels or the inner faces of the pyramids. and in one unlimited incarnation; The upper faces of the pyramids can be painted on the sides of the craft for downward illumination.

7) The sides of the container may be modified to accommodate sections of the pyramid wall or be constructed entirely from sections of the pyramid wall. The individual side wall panels may include solar cells or any combination of solar panel concentrators.

8) Portions of the pyramidal wall may have translucent coverings for weather protection and a variety of polygon shapes. These covers can form side panels in independently positioned shapes and mount for maximum traction. Some coatings may have simple lens properties; either traditional; dug or lenticular sly on the position of the pyramidal cell. in addition to; The recesses of the pyramid may have uneven sides in order to maximize solar energy harvesting; based on its location within the wall. Covers can be individually molded or made into a complete profile sheet. A subsequent process will follow to allow individual parts to be replaced in the event of damage or their assembly. The casings may have a “pl” to reduce drag on the front and rear edges. These agi can be formed individually or made into a complete sidewall panel with 0 interchangeability. Drag reducing casings can be used on existing trailers with no other features. For pyramid wall sections Concealed covers are configurable for a fully assembled tractor vehicle with a pyramid wall system and can be used without solar panels or with electrical storage such as batteries or capacitors Lal (Kay) Ribbed covers can be used on the sides of a conventional vehicle without the pyramid wall shal. 5 In one Unlimited embodiment, a stand-alone vehicle frame, three sidewall pieces along the vehicle, and two sidewall shawls Dl assemble the ends of the vehicle. One; with or without connecting or electrical features. Added Ribbed Coverings; Two Clear Sides; One Clear Top; Ribbed Coverings; Two Ends » Clear Ribbed Coverings. Polygonal patterns can be superimposed on this wall and optimized 0 based on input from wind tunnel tests and model simulations 3D Jie computational fluid dynamics (CFD) volume may also be fitted; Position the air holes along the front and rear edges of the vehicle sly to the desired application. The area can be aligned with the polygon; Which in one of the infinite embodiments may be a choice of pattern based on empirical data. Sly Triangular locking recesses for various shaped covers 5 around the edges of the vehicle. in one of the infinite incarnations; These bore seals are a feature of the casing installation. in one of the infinite incarnations; A pyramid mount with uneven sides (eg (Jha abbreviated above) can be used to capture incident light from the vehicle's lower rows. 0 Panel sides and coverings can also be customizable.

Any of the described operations that are part of the detected Wa embodiments may be useful automated operations. Various incarnations of Wiad are attached to a device or Al to perform these operations. A device can be custom built for the desired purpose; Or the device could be a general purpose computer that is selectively activated or installed by software program stored in the computer. day og particular; Many general-purpose devices that use one or more processors coupled to one or more computer-readable media can be used with written computer programs Gy of the teachings given here or it may be more appropriate to build a more specialized device to perform the required operations.

The previous description was directed at specific incarnations. However; 0 other changes and modifications can be made to the described embodiments; while achieving some or all of its advantages. Modifications can be made to the previously described systems and methods without departing from the concepts disclosed here. Accordingly; The invention should not be considered limited by the disclosed embodiments. Furthermore it; Various attributes can be used for the described embodiments without the corresponding use of other features. And therefore;

This description should be read merely as an illustration of various principles; It is not a limitation of the invention.

Claims (8)

Protection elements: It includes a solar panel assembly 1. A mounting post, three triangular shaped panels at least ¢ and each triangular shaped panel includes a A solar panel that responds to the first spectrum of light and is transparent 5 to the second spectrum of light; And at least three “0” hinges, where for each “triangular shaped panel,” a hinge is attached to the triangular shaped panel with the mounting column “post,” where At least three triangular panels are installed for movement between a flat configuration 0 and a cinverted pyramid configuration where each triangular shaped panel includes nanowires that form connections throughout and along the edges of the triangular shaped panel Pde gana 2. for solar panel assembly according to claim 1; Where the three 5 hinges are at least one of: cball and socket hinges where the mounting post includes ¢socket connectors cball and socket hinges where the mounting post includes ball connectors ball connectors and 20 Jiving hinges 3. solar panel assembly of claim 1; Where each triangular shaped panel is fitted to be ada, or occluded in a pyramidal shaped cavity. 4. Ug solar panel assembly for protection element 1; Where each panel is alg triangular shaped panel of: single-face and double-face. 5. Wy solar panel assembly for protection element 1; where is the spectrum — 9 7 — 6. Collection | for Gag solar panel assembly for protection element 1; The nanowires include at least one of: graphene and a superconductive material. .material 5 de gana.” Gag solar panel assembly for protection element 1 where the wires are 0 8. ls solar panel assembly for protection element 1; Each triangular shaped panel includes a geometric pattern of conductors. 9. Wy solar panel assembly for protection element 8; Where the geometric pattern of the conductors is a 'honeycomb' 15 stacked pattern 0. 1 solar panel assembly [Gua] The cul column includes wire layers providing Ble conductivity. 1. Solar panel assembly includes: 0 mounting post, at least three triangular shaped panels; Each triangular shaped panel includes a solar panel that responds to the first spectrum of light and transparent to a second spectrum of light ¢ and three hinges at least 0, where each panel has 1 of 1 triangular panels triangular shaped panel 5 hinge hinge linked to the triangular shaped panel to the mounting post where at least three triangular panels are installed for movement between a flat configuration and a hierarchical installation An “inverted pyramid configuration” in which at least the three triangular shaped panels comprise a first solar panel ~~ 30 layer; The solar panel assembly additionally includes 1 solar panel at least one additional solar panel layer; Each of at least one additional solar panel is responsive to a different associated spectrum of light; Cus the mounting post includes a set of slots installed to hold individual solar panels for at least one additional solar panel layer. 5 2. A solar panel assembly of claim 11 wherein the first solar panel layer and at least one additional solar panel layer are: flat and arched; And where the first solar panel layer and at least one additional solar panel layer 0 are relatively parallel. 3. solar panel assembly of claim 11; Cua The first solar panel layer and at least one additional solar panel layer are back-to-back and offset with respect to each other. 15, bide sans .4, for solar panel assembly according to claim 1; Where the inverted pyramid configuration determines the area of the base (footprint), where the base area of the footprint is one of: a regular polygon, an irregular polygon, or in the shape of a diamond. or rhombus .thombus 20 5. solar panel assembly of claim 1; where the three triangular panels are at least one of the following: either equal or unequal with respect to each other: 25 16. solar panel assembly of claim 1; Where the three triangular slabs include at least four slabs, and the inverted pyramid configuration determines one of: the base area of the footprint is terrible and the base area of the footprint is in the shape of a diamond -diamond 7. Solar panel assembly according to Claim 1; The mounting post includes a reflective cover. 8. A solar panel assembly that includes: at least three triangular shaped panels; Each triangular shaped panel includes a solar panel that responds to the first spectrum of light and an energy storage component. Where the energy storage component and the dia shaped panels 01 00T define at least the three as an inverted pyramid configuration 076160 The energy storage component with the first part of the 0 inverted pyramid configuration and the triangular shaped panels aD panels on JN in an outward-facing ob portion of an inverted “pyramid configuration” where at least three triangular shaped panels are installed to provide power for the energy storage component; 5 Where each triangular shaped panel includes nanowires forming connections all around and along the edges of the triangular shaped panel 9. 1 Gig solar panel assembly for 18 Gua protection element The energy storage component includes at least one of the following: ¢super-capacitor 0 capacitor and battery de gana 0. The solar panel assembly includes: a first layer comprising at least three panels of the first layer; Each first layer panel includes a triangular-shaped solar panel that is first spectrum responsive to light; and a second layer 5 comprising at least three panels of the second layer; Where the third spectrum of light includes at least part of the first spectrum of light; Where the first layer and the second layer are placed with an inverted pyramid configuration 111761160 and 0 where the second layer overlaps at least Gia with the first layer. 1. The solar panel assembly according to Clause 20 additionally includes a Cua cmounting post. The first layer is stacked around the inverted pyramid configuration. The dad is installed at the first length of the mounting post. Stacking the second layer around the mounting post at a second length from the top of the inverted pyramid configuration, the first length being shorter than the second length. 2. Group 1 for solar panels according to Clause 20, where A group of solar panels has a group of layers comprising the first layer 0 and the second layer on (JY) where each layer is a group of layers Is at least one of: Jae oriented independently angled; centrally placed; And parallel to the base area of the inverted pyramid configuration 3. A solar panel assembly that includes: 'mounting post' A mounting post At least three z-shaped triangular panels placed in an inverted pyramid configuration Around the mounting post Each panel includes a triangular shape triangular shaped panel on 0 solar panels solar panel first responder to light spectrum; and at least one energy storage component; where each of at least three triangular panels is positioned at an angle between 5° and 85° with respect to the horizontal line and where at least one of the three triangular panels is installed to supply power to at least one energy storage component 5; Each triangular shaped panel contains nanowires that form connections all around and along the edges of the triangular shaped panel. 4. Collection | For solar panels solar panel assembly according to Claim 23 where the inverted pyramid configuration 0 specifies the base area (footprint) where the area of — 3 8 — The base footprint is one of: “regular polygon” or “irregular polygon” or “diamond” or “rhombus” .thombus 5. group | For solar panel assembly according to claim 23 where the three panels are triangular in shape and at least one of the following: are flat or not flat with respect to each other. de gana 6. A solar panel assembly according to claim 23 where at least three triangular panels are curved. 0 | 27. A solar panel assembly according to claim 26 where the three triangular panels are at least one of the following: convex or concave. 8. Collection | for solar panel assembly in accordance with claim 23; Where the mounting column includes a reflective surface de gana 9. Solar panel assembly according to Clause 23 where at least the three triangular panels are photovoltaic solar panels. 0. solar panel assembly according to Claim 1; It also includes at least 0 als (LED) light-emitting diodes. 1 de gana .1 for solar panel assembly according to claim 30; where at least one LED light-emitting diode spall is powered by a solar panel assembly 1 de gana 2 solar panel assembly according to claim 18 (also includes At least one light-emitting diode (LED) de gana 3.3 for a solar panel assembly of claim 32 wherein a light-emitting diode (LED) light-emitting diode is actuated at least one by a storage component — 4 8 — energy. 1 de gana .4 for solar panel assembly according to claim 20; It also includes at least one SU light-emitting diode (LED) light-emitting diode. 1 de gana .5 for solar panel assembly pursuant to claim 34; whereby at least one light-emitting diode LED is driven by a solar panel assembly 0 36. 1 solar panel assembly per claim 23 also includes At least one light-emitting diode (LED) is on. 7. 1 solar panel assembly in accordance with claim 36; Where at least one light-emitting diode (LED) is powered by an energy storage component 5. 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LAH A NEI ss I AA A A RET Cy Ek . ns 4 £99 gl Ee, : 2 A: Aaa ime Ryda YANTRA RE L: Aaa oh Haj Yala Aala 8 11 La oe TedW R LO Wah TYE SS ا ا ا ا ا ا ا ا ا ا ا ا , ا, ا, ا, ا, ا, ا, ا, ا, ا, ,,,,,,,,, No, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no, no! ا ا ا ا ا ا ا ا ا ا ا “م Foie I LON ele Ue en TET el Ue en TET el Ue en TET el Ue en TET el EY RT Ire 8a The Saudi Authority for Intellectual Property Sweden Authority for Intellectual Property pW RE .¥ + \ A 0 § Um 5 + < Ne ge “Benaj > Aye Ki Jada Li Days TEE Bbha Nase eg + Ed - 2 - 3 .++ .* provided that the annual financial fee is paid for the patent and that it is not null and void due to its violation of any of the provisions of the patent system, layout designs of integrated circuits, plant varieties and industrial designs, or its implementing regulations. »> Issued by + BB 0.B Saudi Authority for Intellectual Property > > > “+ PO Box 1011 .| for ria 1*1 uo ; Kingdom | Arabic | For Saudi Arabia, SAIP@SAIP.GOV.SA