Component Composite Molded Concrete Fencing Systems, Light, Medium, and Heavy Weight, for Franchised Contractor Installations or Retail Component Sales

Abstract

Light, Medium, and Heavy Weight, Concrete Fencing Systems with precast attached footers or rebar only footers, fencing connections are safety pinned. New lightweight versions of concrete fencing with reinforced connections for hung installation and/or center panel section footer rest in configurations including imitations of existing pre-manufactured 6′×8′ wooden fencing panels, also improved heavyweight concrete fencing including lightweight material saving hollow core construction and a rebar pin fence component safety connection method. Concrete less footer setting are accomplished by cast concrete auger blade post bottoms. Concrete billet connection system allows lifting capabilities for fencing post and panel sections. New capabilities for usage of the fencing as an electrical raceway with precise access holes and boxes.

Description

BRIEF DESCRIPTIONS OF DRAWINGS

Page 1 FIG. 1

Side View Square Concrete Composite Fence Post, 4″ to 6″ square by 5′5″ to 13′ H, 4″ square by 8′6″ L shown in this drawing, with safety pin connections for concrete, vinyl, metal, or wood, fencing.

1. Steel Wire, Knurled, Nylon Coated, Galvanized, or Stainless

2. Pass-Through Fence Connection Junction Holes 2″×3″ to 4″×6″ for Fence Section Tab Insertion, two to four places with three places shown. Also, Fence Connection Weight Bearing Rectangular Reinforcement Flange shown as the outer circle square in the female version with the male version shown in FIG. 4, item 11.

3. Grooves for Fence Section Boards

4. 45 Degree Angle Surface Area on Four Sides

5. Four Sided Post Top, continuous poured all-in-one

Page 1 FIG. 2

Side View 4′×4′ to 8′×10′ and 1″ to 4″ Thick Square Concrete Composite Fence Sections

6. Steel or Aluminum Wire, Knurled, Nylon Coated, and Galvanized, ⅛″ up to ⅝″ in diameter
7. Steel or Aluminum Wire, Knurled, Nylon Coated, and Galvanized, ⅛″ up to ⅝″ in diameter
8. Coated or Completely Constructed of White or Colored Cement, Portland Type M, Portland and Latex Paint, or PVC Mixtures, applied to some or all components of the fencing system

Page 1 FIG. 3

Front View Square Concrete Composite Fence Posts, 4″ to 6″ square and 5′5″ to 13′ L, 4″ square by 8′6″ L shown in this drawing.

9. Pin Holes for Galvanized Steel or Aluminum Bolts or Driven Pins

Page 1 FIG. 4

Front View 4′×4′ to 8′×12′ Square Concrete Composite Fence Sections, Continuous Poured All-in-One

10. Nylon Mesh or Welded Wire, 1 sheet in center or imbedded as necessary on both sides with various surface textures such as stockade fence, board and baton, reverse board and baton, weathered wood grain, brick, shakes, flat field stone, split field stone, irregular fitted stones, custom designs, art work, insignias, words, symbols, trademarks

11. Fence Connection Weight Bearing Rectangular Reinforcement Flange

12. Indented Groves for board simulations, various sizes and textures, also, Adjustable Fence Section Length Mold for custom sizing of odd length fence section completion of property line odd length measurements
13. Pin Holes for galvanized steel or aluminum bolts as tapered driven pins centered on three male fence attachment tangs
14. Steel Wire, Galvanized, Aluminum Wire, or Steel Rebar, with or without knurling and nylon coating, ⅛″ up to ⅜″ in diameter.

Page 1 FIG. 5

Fence Post Cut-Away Intersection for Fence Sections

15. Tapered Concrete Molded Pin Hole, depth close to complete post penetration
16. Aluminum Cast Molded Pin or Steel Pin, concrete coated, horizontally driven

Page 2 FIG. 6

Side View Square Concrete Composite Fence Post, 4″ to 6″ square by 5′5″ to 13′ H, 4″ square by 8′6″ L shown in this drawing

17. Double Auger Point for adjusting vertical soil depth and Post Position for adjusting horizontal position
18. Fence Post Ground Contact Section, continuous augured poured concrete footing or augured hole with all-in-one precast column and footer combination with the top section of the post. Circular Buried Concrete Post Base Section, 2.5° to 3.5° deep by 5″ to 8″ wide.

Page 2 FIG. 7

Fence Post, 8″ to 12″ square, hollow core, lightweight core, or bead expanded styrene foam mixture core, shown with inserted and removable concrete cap to facilitate access to electrical connection

19. Fence Post Ground Contact Section, 8″ to 18″ diameter, continuous augured poured concrete footing or augured hole with all-in-one precast column and footer combination with top section of the post, 3.5′ to 5′ deep by 11″ wide flat bottom.

Page 2 FIG. 8

Side View Square Concrete Composite Fence Post, 4″ to 6″ square by 5′5″ to 13′ H, 4″ square by 8′6″ L shown in this drawing.

20. Fence Post Ground Contact Section, continuous augured poured concrete footing or augured hole with all-in-one precast column and footer combination with the top section of the post. Circular Buried Concrete Post Base Section, 2.5° to 3.5° deep×5″ to 8″ wide and flat bottom

Page 2 FIG. 9

Fence Post, 8″ to 12″ square, hollow core, lightweight core, or expanded styrene foam mixture core, inserted or removed concrete cap to facilitate access to electrical connection, shown with two types of caps, one being non-overhanging and the other being overhanging, also shown with two holes, one top and bottom, for electrical stub-outs

21. Fence Post Ground Contact Section, 8″ square, continuous augured poured concrete footing or augured hole with all-in-one precast column and footer combination, post square flat bottom, 4′ to 6′ deep
22. Fence Post with three section decorative block receiver for fencing sections union 11″×8″

Page 3 FIG. 10

Side View Concrete Composite Fence Section, sizes vary from 4′ H×4′ L to 6′ H×8′ L and ¾″ to 1½″ thick panels, 2″ to 3¾″ top, bottom, and center beam areas, with radius corners as necessary.

23. Individual Reinforcement Wires, ⅛″ to 3/16″ in diameter
24. Welded Steel Square Mesh Galvanized Reinforcement Wire, typical FIGS. 10 through 17 as necessary.
25. Nylon or Plastic Square Mesh, both sides, ⅛″ to ¼″ from exterior surface

Page 3 FIG. 11

Side View Fence Section shown with center support section in place, 1½″ to 2½″ panel thicknesses, and 2″ to 3¾″ top, bottom, and center beam areas, as shown in Item 26 with or without coatings as shown in FIG. 13, item 30.

26. End View Center Fence Section Support with molded all-in-one self aligning tapered pins, one to three places as needed along fence section, reinforced with welded wire horizontal vertical mesh
27. Reduced Stone Size, 8A to 22A, concrete or lightweight aerated concrete composite construction or expanded styrene foam bead with fiberglass fibers with or without single or double sided center molded all-in-one strength beam, poured or injection molded

Page 3 FIG. 12

Side View Fence Section with single sided center molded strength beam

28. 1″ to 6″ Square Welded Wire Steel Mesh or ¼″ to 1″ Square Nylon Mesh, one side with center offset indicated by dots, also 2″ square galvanized welded wire shown as dotted line

Page 4 FIG. 13

Side View Concrete Composite Fence Section, 2″ to 6″ thick by 6′ to 7′ high, wall constructed of stones of reduced sizes 8A to 30A mixed with cement and sand, lightweight concrete composite, with or without expanded styrene foam bead and fiberglass fibers

29. Expanded Styrene Foam Bead and Concrete Mix Center Section or Solid Expanded Styrene Foam Core or Regular Concrete Center

30. White or Regular Type M Concretes for spray-on or dip coating mixtures, thicknesses ⅛″ to 1¼″, with or without fiberglass fibers, manufactured in textures described in this patent

Page 5 FIG. 14

Top View 11″ to 15″ Square Fence Post as shown in FIG. 9 showing with weight and material reducing 4″ diameter hollow core center, square or round, for use in conjunction with vertical fence section tangs as shown FIG. 1, items 2 and 13, with four galvanized rebar no. 4 to no. 6.

Page 5 FIG. 15

Fence Post, 8″ to 18″, Alternative Attachment System, triple horizontal tang with a single vertically installed galvanized rebar Pin, ⅜″ to 9/16″ in diameter.

31. Vertical Tang Retention Pin, length should extend through all three horizontal fence attachment tang areas by a minimum of 4″.
32. Horizontal Fence Attachment Tang, continuous pour molded, with entire fence panel section and 3/16″ to ⅜″ reinforcement wire, 45 degree angled for strength improvement, indented into fence post as shown in FIG. 1, item 3, top tang indicated as item 32, bottom tang located directly below and attached to opposite side fence section.
33. Fence Post, 8″×8″, as shown in FIGS. 7 and 9, except with horizontal rod section attachment method instead of vertical pin attachment method as shown in FIGS. 7 and 9.

34. Wire Loop Concrete Reinforcement

35. Fence Post Vertical Reinforced with knurled wire or cross checked rebar, four places as shown in FIGS. 1, 3, 6, 7, 8, 9, 14, and 16

Page 3 FIG. 16

Top View 8″ to 12″ Square Concrete Composite Fence Post as shown in FIG. 7 with weight and material reducing hollow core, square, round, or solid core when used in conjunction with FIG. 15 for horizontal tang fence section connections.

36. Center Location Concrete Hole for insertion of rebar down rod for fence post connection as shown in FIG. 15, item 31, also shown in FIG. 21, item 59, FIG. 26, item 74, and FIG. 28, item 77.

Top View Center Fence Section Support with molded all-in-one self aligning tapered pins, one to three places as needed along fence section.

37. Concrete Reinforcement Welded Wire Horizontal Vertical Mesh

38. Molded All-in-One Self Aligning Tapered Pins, one to three places as needed along fence section as shown in FIG. 11, item 26.

Page 4 FIG. 18

Front View of Residential Concrete Composite Fence Section, lattice type in top half with horizontal simulated solid board bottom construction shown with two posts installed in the ground. Also, other fence types patent protection claimed herein include; Concrete Wall Simulated Types with various textures as described in FIG. 4, item 10, and various types of fence presently manufactured in other materials such as PVC and wood.

39. Side View Center Fence Section Support as Shown in FIG. 11 Item 26 and FIG. 17

40. Ground Line

Page 5 FIG. 19

Top View Concrete Composite Fencing System with fencing section to fence post connection using circular concrete billets and metal cross pin precast holes. The system has fencing section heights of 6′, 8′, 12′, and 16′, and corresponding widths of 8″, 12″, and 18″. The fence posts have widths of 12″, 16″, and 24″. The footer diameters are 8″ to 30″ and the depths are 3′6″ to 8′.

41. Metal cross precast pin hole with pin inserted tapered for use with plastic roofing cement adhesive.
42. Precast Concrete Reinforcement Wires or Rebar imbedded in fencing wall section, also shown in the side view, FIG. 23.
43. Precast Circular Concrete Fencing Connection Billet, 3″ to 12″ in diameter, length 24″ to 48″, shown inserted through fence post, also shown inserted through fence post in three places in FIGS. 20, 21, and 22.
44. Rebar, No. 4 to No. 6, in four places, galvanized, extending through the bottom, or use as either inserted rebar into jobsite poured ready mix concrete ground footer hole as shown in FIG. 31, item 74, or manufactured in a precast concrete footer attached version as shown in FIGS. 20, 21, and 22.
45. Precast Fence Post Main Body Section, prefabricated molded with two molded recesses for fence section insertion.
46. Precast Electrical Wire Holes for underground UF style wiring, both sides for the purpose of lighting, switching, security devices or anything electrical.
47. Precast All-in-One Circular Fence Post Foundation for auger dug fence lines as shown in FIGS. 20, 21, and 22, also used as an auger circular soil line, 8″ to 36″ in diameter, for use with precast fence posts with re-bar only basis for use with site delivered ready mixed concrete as shown in FIG. 31, item 74.
48. Re-bar No. 3 or No. 4 for reinforcement of concrete billet.
49. Precast Concrete Fence Post with a hollow center for reduced weight and material saving and for electrical wiring raceway extending through the entire post with or without precast footer foundation included.

Page 5 FIG. 20

Side View Concrete Composite Fencing System with fencing section to fence post connection showing circular prefabricated round hollow core fencing section and a concrete billet and pin section-to-post connection method.

50. Fencing Post Removable Precast Concrete Cap with center precast hole for electrical wiring for fixtures and security devices or rout iron spike, also shown at the bottom is a vertical wiring stub out.
51. Precast concrete angle for post footer strength increase.
52. Billet Fence Section Precast Metal Cross Pin Hole filled with pin.
53. Billet Fence Section Precast Metal Cross Pin Hole that is empty.
54. Bottom View of Molded All-in-One Attached Concrete Footer Section showing a hollow center section and the edges of precision soil depth adjusting precast slots shown in four places and in side view of FIG. 20, item 55.
55. Side View of Molded All-in-One Attached Concrete Footer Section showing a hollow center section and the edges of precision soil depth adjusting precast slots shown in four places and in the top view of FIG. 20, item 54.
56. UF Underground Wiring Access Hole, two places, one each side.

85. Optional Secondary Dual Pin Billet Fence Section to Post Connection Method

Page 5 FIG. 21

Heavyweight Fence Post showing a side view of a straight through three place concrete billet connection using a rebar rod connection method, also shown is a top view in FIG. 19.

57. Segment of Rebar Welded onto Main Rebar Shaft to prevent gravitational fall of rebar for insertion through concrete billet fence section connectors.
58. Side View Concrete Billets Joining Section with holes for rebar similar to page 3, FIG. 15, except in this situation, a circular concrete billet is split in two in the joining area that produces a 45 degree angle on each end to produce a stronger connection on the opposing side billet face.
59. Concrete Rebar No. 4 to No. 6 inserted through three concrete connection billet areas through removal of concrete top half.

Page 5 FIG. 22

Side View of Composite Concrete Fence Post

60. Concrete Billet Filled, Precast Composite Concrete Fence Post Core Holes

61. Vacant Circular Molded Precast Concrete Core Holes, 4″ to 12″ in diameter equally spaced for connection with concrete wall sections in FIG. 23.

Page 5 FIG. 23

End View Concrete Fencing Wall Section with No. 3 to No. 6 rebar, horizontal rebar shown in twelve places as dots, vertical rebar shown in two places 2′ on center as dotted lines, also shown in a side view as FIG. 20 in the right portion of the drawing 62. End View Concrete Billet shown with four No. 3 to No. 5 rebar and a 4″ or 8″ hollow center hole in the billet for weight reduction in the 8″ and 12″ wide billet versions

Page 5 FIG. 24

Front View Wall Section showing various textures and installed billets, also shown is wall weight rest block footer and the soil line.

63. Concrete Billets inserted in both ends at top for the purpose of crane lifting wall sections into place.
64. Concrete Billet installed position for incidence of adjusting wall height to compensate for falling ground line. Actual installation requires billet lowering in three places. Billets insertion position can be changed to a one lower or two configurations as shown in FIGS. 22 and 23.
65. Precast Molded Concrete Wall Finishes, both sides, same or different, shown with smooth wall finishes such as splatter stucco and skip coats.
66. Brick and Custom Size Square Precast Stone Imitation, all same or staggered sizes and colors, with or without various offset textures.
67. Imitation Board Wood Textures including Reverse Board and Batten

68. Shingles, Wood Shake Imitation, Composite Shake Imitation, or Imitation Slate Textures

69. Wall Weight Rest Block Footer, also shown in the bottom of FIG. 11 on page 3.

Page 5 FIG. 25

Front View Concrete Composite Fence Post without precast footer section for use where local codes require poured footing or where rocky soil conditions discourage the use of an auger, footer depths 3′6″ to 10′.

70. Electrical Junction Boxes that precast into concrete for use with lighting, security electronics, or underground power feeds.
71. Concrete Reinforcement Rebar No. 5 or 6, four places, for use with site poured footer construction.

Page 6 FIG. 26

Top View Intersection of Two Concrete Composite Fence Sections, also a fencing post showing a three place concrete billet connections with a rebar down rod as a safety wall retainer connection for additional strength during flood, and flood erosion, high wind, vehicular collision, earthquake, etc.

72. Precast Concrete Holes Plug, three places per side, located on two sides, for hole covering after connecting billet insertion.
73. Precast Holes in Concrete Fence Post, three places per side, 12 places per post per post for concrete billet connector insertion.
74. Center Connection Pin for joining fence sections, also shown in FIG. 28, item 77, and FIG. 27, as the vertical center rod of the drawing.
75. Extra Clearance Fencing Section to Fence Post Connection Area for irregular building lot angle adjustment, use wet mortar fill for excess seam void elimination.

Page 6 FIG. 27

Side View Concrete Composite Fence Post as shown in FIGS. 19 through 22.

76. Corner Fence Post Concrete Composite Billet Connection Intersection, three places, with top inserted rebar connecting rod through all three connections as shown in FIG. 28 and top view of FIG. 74.

Page 6 FIG. 28

Enlarge View of Corner Fence Post Concrete Composite Billet Connection Intersection as shown in FIG. 27, item 76, and FIG. 26, item 74.

77. Concrete Rebar Billet Connection down Rod with welded on cross piece at top for placement retention.
78. Single Rebar Bent Circular and imbedded in concrete billet around rebar down rod as shown in FIG. 26, circling item 74 from two directions.
79. Circular Rebar, same as item 78.

Page 6 FIG. 29

Concrete Composite Fence Post for Picket Fence shown for two connection 4′ high picket fence, also shown in FIGS. 6 and 8 in a three place fence connection.

Page 6 FIG. 30

Side View of Picket or Stockade Fence, precast concrete, molded all-in-one concrete composite fence section, 8′ to 12′ long by 4′ to 6′ high.

Page 6 FIG. 31

Side View of Picket or Stockade Fence Section showing two or three piece beam and picket connection area, two piece shown.

80. Fence Connection Tab with fence section retaining cross pin.
81. Pickets Connection Area, precast concrete, also available in non-connecting version for see through picket and stockade fences.
84. Picket or Stockade Fence Boards with or without see through gaps in spacing widths ¼″ to 12″, in board widths 4″, 6″, 8″, 10″, or 12″, or Reverse Board Batten Face Boards.

Page 6 FIG. 32

Imitation Wood Split Rail Type Concrete Precast Fencing System with safety connections, two fence rails, top and mid height, for insertion into fence post shown to the left.

Page 6 FIG. 33

End View of Fence Rails as described in items 82 and 83.

82. Irregular Square Shape Weathered Wood look Precast Concrete Fencing Rails, 8′ to 12′ long or per local code, 4″ to 6″ solid core.
83. Irregular Octagon Shape Weathered Wood Rail Precast Concrete Fencing Rails, 8′ to 12′ long or per local code, 4″ to 6″ solid core.

Page 6 FIG. 34

Front View and Side View of a Precast Concrete Billet Hole Plug with various textured surfaces to match fence post surface, attachment by mortaring in place, shown in FIG. 26, item 72.

PURPOSE AND USEFULNESS

A fencing system is described herein that is constructed of concrete with composite additives adding sufficient strength to make a viable and competitive product in the residential and commercial fencing market place. Increased weight of the total fencing structure will improve wind resistance and longevity as compared to fencing materials in production today. The new fencing system will use Styrofoam beads where necessary particularly in the thinner lighter weight models for do-it-yourself installations and hollow core and aerated products in the thicker versions using crane erection. Strengthening materials in the new fencing material compositions will include; type M cement with epoxies and resins, fiberglass strands, imbedded nylon mesh screen, cross checked textured galvanized wire or rebar, sand, and 8A to 22A lime stones. The new concrete compounds will be used in molding ornamental fence imitation textures such as; pickets, stockade, lattice, shadow box, stockade fence, board and baton, reverse board and baton, weathered wood grain, brick, shakes, flat field stone, split field stone, irregular fitted stones, custom designs, art work, insignias, words, symbols, and trademarks, including all fencing components and accessories. Also included is a new high strength method of attaching the fence sections together with the post, improving wind and hazard resistance ability of the fence structure. Hollow core fence posts and panel sections in thicker versions will help to reduce weight and conserve materials. Also, the new fencing components could be treated with a new cost reducing paint formula replacing existing titanium with type Portland cement and an ultra thick structural reinforcing coating of the same composition including fiberglass strand may be available.

BACKGROUND OF THE INVENTION

Previous invented fencings have been made from wood since the invention of the saw mill in picket form since 1829 or earlier as method of restricting the passage of persons or animals and as boundary marker of property lines. In recent times, chain links with galvanizing provided longevity, durability, and security. Solid bar iron fences appeared as decorative security fences. Square tube decorative fences are another consumer option. More recently, wood panel fencing became popular for its economy and for its privacy and lattices. Lately, PVC fences have become popular, although expensive, their long term durability and professional appearance have become popular. Heavy duty concrete fencing has become popular for security around commercial properties, residential subdivisions, and estates. This newly invented product fills the void between lightweight residential fencings of vinyl or wood and heavy crane placed concrete fence sections.

SUMMARY OF THE INVENTION

The preferred method of construction of the new fencing product is constructed in a factory where production cost can be kept to a minimum. Also the construction configuration of the fencing products allows for rapid assembly easy on site. The new concrete panels will be stronger that existing fencing materials and potentially have a longer life that even PVC. The fencing can be constructed in any of the present available fencing configurations. The new fencing system should provide reduced cost to the consumer than present PVC fencing systems.

Claims

1. claimed are the inventions of new and improved designs and configurations for light, medium, and heavy weight, reinforced concrete fencing and components consisting of the following;

(a) Attachment tapered horizontal tapered driven pins and vertically installed rebar rods for a connection method of connecting concrete composite fencing components and sections as shown in FIG. 5, FIG. 3, FIG. 4, FIGS. 6 through 9, FIGS. 29 through 33, and FIG. 20, items 52 and 53.

(b) Tapered Drive Pin Hole in Post Fence Panel Sturdy Safety Attachment Method as shown in FIG. 5, FIG. 3, FIG. 4, FIGS. 6 through 9, FIGS. 29 through 33, and FIG. 20, items 52 and 53.

(c) Vertically Inserted Concrete Rebar Drop Rod Pin Safety Fence Section Retention Method as shown in FIG. 16, item 36, FIG. 15, item 31, FIG. 21, items 57 and 59, FIGS. 19 and 27, FIG. 27, item 76, FIG. 26, item 74, and FIG. 28, item 77.

(d) Safety pin connection fencing system for concrete, vinyl, metal, or wood, as shown on page 1, FIG. 1 through 6, FIG. 8, FIGS. 10 through 13, FIG. 18, and FIGS. 29 through 33.

(e) Round based pointed fencing sections with augur point depth adjusting molded all-in-one concrete blade as shown in FIG. 6, FIG. 20, items 54 and 55, and four place depth adjusting concrete blades fence posts base bottom as shown in FIGS. 21 and 22.

(f) Lighter weight thinner dimension concrete composite fences as shown in FIGS. 1 through 6, FIG. 8, FIGS. 10 through 13, FIG. 18, and FIGS. 29 through 33.

(g) Light to medium weight simulated wood concrete composite fencing posts and sections as shown in FIG. 1 through 33.

(h) Reinforced concrete and concrete composite hollow core fencing components as shown in FIG. 7, FIG. 9, FIGS. 14 through 16, FIG. 19, item 49, FIG. 22, items 60 and 61, FIG. 23, and item 62.

(i) Concrete round footer with square posts fencing system, rebar reinforced, solid and hollow core, as shown in FIG. 1, FIG. 3, FIG. 6, FIG. 7, FIG. 9, FIG. 14, FIG. 16, FIG. 18, FIG. 19, FIGS. 20 through 22, FIG. 26, FIG. 27, and FIGS. 29 through 33.

(j) Decorator Round Close Boar Augered Residential/Commercial No Onsite Ready Mix Pour Concrete Fence Posts with molded all-in-one straight or expanded bases as shown in FIGS. 6 and 7, items 18 and 19, FIGS. 1 and 3, FIGS. 14 and 16, FIG. 18, FIGS. 20 through 22, FIG. 19, FIG. 26, FIG. 27, and FIG. 29.

(k) Decorative triple expanded connection area colonial style concrete wood imitation fence posts with improved strength connection areas as shown in FIG. 9.

(l) Molded concrete fencing and posts reinforced with various combinations of thick or thin steel wire, welded wire, and/or wire and rebar, as shown in this patent application, FIGS. 1 through 33.

(m) Triple reinforcing beam type fencing sections and posts, for strength and weight reduction improvement, as shown in FIGS. 10, 11, and 12

(n) Wire and/or welded wire reinforced concrete residential decorative privacy fencing and posts as shown by dotted lines and dots in FIGS. 1 through 33.

(o) Circular Reinforced Concrete Pinned Billet Adjustable Fence Connection Method as shown in FIGS. 19 through 28.

(p) Reinforced weight bearing reinforcing insertable fence connection square areas with matching protrusions and receptacles as shown in FIG. 4, item 11, and FIG. 1, item 4.

(q) Thin concrete fencing in thicknesses less than 4″ as shown in FIG. 1, FIG. 3, FIG. 6, FIG. 8, FIGS. 10 through 13, FIG. 18, and FIGS. 29 through 33.

(r) Precast Multiple Circular Rounded Core Fencing System Walls and Fence Posts for the purpose of lightweight material saving and high strength improvements as shown in FIGS. 19 through 27.

(s) Removable Cast Concrete Access Caps as shown in FIG. 20, item 50, also shown in FIGS. 7 and 9.

(t) Precast Auger Pointed Fence Posts as shown in FIG. 6, item 17.

(u) Fencing with electrical wire raceways, boxes, and preformed stub out holes and top fixture mounting holes as shown in FIG. 25, item 70, FIG. 22, item 61, FIG. 20, items 50 and 56, and FIG. 19, items, 41, 46, and 49.

(v) Lattice and Picket Board Fencing in a lightweight narrow width 6′×8′ or wider sections as shown in FIG. 18.

2. claimed are the inventions of new and improved construction methods for light, medium, and heavy weight, reinforced concrete fencing and components consisting of the following;

(a) Unique Molded Concrete Fencing Components including Imitation Wood and Stone Shapes, Sizes, and Textures, including; pickets, stockade fence, shadow boxes, board, board and baton, reverse board and baton, weathered wood grain, stucco, brick, slate, shake shingle, flat field stone, split field stone, hand huned weathered round and split rail, irregular square rail, irregular fitted stones, custom designs, insignias, art work, words, symbols, and trademarks, including all matching mass production molded components and accessories.

(b) Light, medium, and heavy, weight store shelf available reinforced concrete and concrete composite fencing.

(c) Concrete composite fencing reinforced with nylon mesh imbedded surface reinforcement as shown in FIG. 4, item 10.

(d) Lightweight foam core fencing sections as shown in FIG. 13, item 29.

(e) Franchise Territory Sales of Concrete or Vinyl Safety Pin Fencing System Components

3. claimed are the inventions of new and improved installation methods and materials for light, medium, and heavy weight, reinforced concrete fencing and components consisting of the following;

(a) Fiberglass Fiber Reinforced Concrete Composite Fence Sections and Posts

(b) White and/or colored cement mixtures sprayed or brush painted with or without latex, polyurethane, or oil based paint, as a replacement for titanium in paints, used in the production of concrete composite fencing products as described in FIG. 13, item 30, for use in all fencing products shown in FIGS. 1 through 33.

(c) Sprayed exterior white or colored concrete with or without latex, polyurethane, or oil based paint, used in the production of fencing for a weather resistant coating for use in all fencing products shown in FIGS. 1 through 33.

(d) Styrofoam bead molded concrete mixture filled lightweight concrete fencing components as shown in FIG. 1 through 33.

(e) Portland cement and common sand latex based paint and the usage of the product spray finishes for concrete fencing systems as described in FIG. 13, item 30, and all FIGS. 1 through 33.

(f) Concrete fencing sections, residential and commercial, light, medium, and heavy, weight, that are elevated with centered stability footers as shown in FIG. 11, item 26, FIG. 18, item 39, and FIG. 24, item 69.

(g) Portland Type M or its predecessor as necessary for strength as the replacement for titanium usage as an ingredient in latex paints, polyurethane paints, and oil based paints, and the usage of these products as coatings for these concrete fencing components including ultra thick coatings for aerated concrete fence constructions as described for FIG. 13, item 30.

(h) Site poured precast concrete fencing posts as shown in FIG. 25, item 71, also shown in FIG. 8, item 20.

(i) The usage in fencing systems of Galvanized steel or aluminum knurled wire regular or cross checked or nylon coated cross checked reinforced concrete fencing components as shown in FIG. 7, item d, in the non-provisional patent application Ser. No. 12/717,492.

(j) Installation labor time reducing and purchase cost reducing fencing system when compared to existing fencing systems with or without considering concrete longevity as opposed to wood.

(k) Concrete mixtures containing reduced sizes of crushed limestone, sizes from 8A to 30A, to create stronger concrete mixes for use in all presently know uses of concrete as described in FIG. 13.