WO2004109791A2 - Structure curb and cap assembly for mounting a satellite dish - Google Patents

Abstract

The invention is directed to a curb and cap mounting assembly for installation on the roof or wall of a structure. The assembly comprises a curb member that includes a planar flashing portion with a central housing portion extending upwardly forming an enclosed space. The central housing portion has top and bottom openings. A cap member includes a planar top portion and a peripheral edge portion extending downwardly therefrom, the cap member is sized to fit over the top opening of the central housing portion and is reversibly fastened thereto. The cap member has a plurality of linear fasteners secured to the planar top portion. The curb and cap mounting assembly receives a communications cable from interior the structure through the bottom opening of the central housing portion into the enclosed space therein. The cable extends through the top opening of the central housing portion of the curb member and under the downward extending peripheral edge portion of the cap member and extends exterior the assembly. A communications antenna mounts to the cap member planar top portion linear fasteners. The antenna is connected to the cable to deliver communications signals interior the structure. The cable can be prewired to the curb and cap mounting assembly until the owner desires to install the satellite dish.

Description

STRUCTURE CURB AND CAP ASSEMBLY FOR MOUNTING A SATELLITE DISH

CROSS-REFERENCE TO RELATED APPLICATIONS, IF ANY This application claims the benefit under 35 U.S. C. §119 (e) of co-pending provisional application Serial No. 60/476,283, filed 4 June, 2003, and co-pending utility application Serial No. 10/683,492, filed 14 October, 2003. Application Serial No. 60/476,283 and Serial No. 10/683,492 are hereby incorporated by reference.

STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH OR DEVELOPMENT Not applicable.

REFERENCE TO A MICROFICHE APPENDIX, IF ANY Not applicable.

BACKGROUND OF THE INVENTION

1. Field of the Invention.

The present invention relates to a device for mounting a satellite dish. More particularly,

the present invention relates to a structure curb and cap assembly for mounting a satellite dish. Most particularly, the present invention relates to a structure curb and cap assembly for mounting a satellite dish that prevents water from penetrating the structure, yet is readily accessed for future mounting of a satellite dish once the structure curb and cap assembly is installed.

2. Background Information.

It is common practice to mount communications antennas to the roof of a building to receive various communications signals. Roof mounting is convenient in that the antenna is out of the way and positioned high above the ground to avoid interference from other structures or trees. In order to hold the antenna in place, it is often necessary to fasten a base to the roof to support the antenna. In recent years, the use of satellite dishes to receive television and other communications signals has become very popular. The satellite dish must have an extremely

stable base to provide constant support so the dish can be aligned to receive the signals from a satellite. To obtain a stable base for the satellite dish, it is preferred to secure the satellite dish mountmg base directly to the roof structure and into the underlying support structure. Such fastening can lead to water leakage if care is not taken to completely seal any holes that are made. A cable leads from the satellite dish into the dwelling to bring the communications signals to

televisions or computers therein. Although the cable can be fastened to the roof and enter the dwelling through a vertical wall, it is preferred that the cable penetrate the roof near the satellite dish to present a more aesthetically pleasing look. However, penetrating the roof with the cable opens another route for water to enter the structure.

Some examples of inventions involving mounting of antennas or satellite dishes for which

patents have been granted include the following.

Agner, in U.S. Patent No. 2,465,565, describes a fishpole holder that includes a bolt carrying a semi-spherical head, associated with a centrally positioned slotted cup. The cup is pro¬

vided with arms terminating with horizontally disposed offset upper and lower forks, whereby the vertical angle of a pole seated in the forks may be varied indefinitely. The armed cup may also be horizontally swivelled in a complete circle to position the line end of a pole at a desired fishing point, it being understood that the equipment is to be attached to either the gunwale or seats of a boat. The semi-spherical head has depending therefrom, a rectangular shank that is carried by an anchored bracket, the same being attached to a boat, and under general conditions, the shank is pivoted within a socket of the bracket and adjustably secured to the bracket socket irrespective of the particular means for securing the bracket to a selected part of a boat.

In U.S. Patent No. 2,681,195, Bradt et al. disclose an antenna bracket, including a principal supporting member which is U-shaped, having a vertically extending leg and an arm extending at right angles to the leg. Secured to the upper portion of the leg is the bight portion of a U-shaped member which has depending therefrom screws for working engagement into the tile, shingle, or other pitch type or equivalent roof forming a part of the building. Also welded to the leg are vertically spaced rings, which have fitted therein screws which, in combination with lock nuts, provide means for securely holding the mast of the antenna in an adjusted position

relative thereto. Threadedly engaged in a nut, welded to the arm, is a threaded jack screw which is provided with a handle at one end. The upper end of the screw is provided with a swivel joint,

for pivotally mounting an angular end thrust plate, which when the arms of the U-shaped member are positioned at either side of the fixed roof and when the handle is turned actuating the clamping screw, will engage the gable of the building in a secure manner without digging into the wood. As can be readily seen, the screw in engagement with the nut provides ready means

for attaching a ground line to the antenna.

Chabot, in U.S. Patent No. 2,695,149, describes a bracket for mounting an antenna mast

to the roof of a building without necessitating the use of nails, screws or other fasteners which penetrate the roof or other parts of the building to thus avoid damage thereto. The invention provides a mounting bracket for an antenna mast embodying an upper clamp adapted to overlie the edge of a roof and a lower clamp positioned under the edge of the roof with means for adjusting and tightening the clamp and providing means for supporting the lower end of an an¬

tenna mast on the upper and lower clamps.

In U.S. Patent No. 3,094,303, Belger discloses an antenna bracket that is designed to be mounted on the eave, rather than on or near the peak of the roof as are most conventional antenna-supporting devices. The bracket assemblage includes a lower horizontal leg, which is formed of an inverted U-shaped metal channel, and of a length to underlie a substantial portion of the eave and projects outwardly there beyond. On roofs wherein the cornice depends slightly below the underside of the eave, the lower bracket leg may have an elongated filler member

secured on its upper surface and positioned between the leg and the undersurface of the eave, the filler abutting the depending end of the cornice to promote the rigidity of the bracket. Alternatively, it is contemplated that said lower bracket leg could be bent or deflected around the depending edge of the cornice and positioned directly against the undersurface of the eave, thus eliminating the necessity for the filler.

As best-appears in FIGS. 3 and 4, the outer end of the lower bracket leg is prodded with

a pair of spaced, upstanding arms which are welded or otherwise rigidly and permanently secured thereon, and which arms are provided with a series of vertically spaced, aligned apertures. The upper leg of the bracket assemblage is also formed of metal channel and includes a straight,

horizontal section which is spaced above and parallel to the lower leg, and a rigid inner section which is angled upwardly to conform generally to the slope of a conventional gable-type house roof. Welded or otherwise pertinently rigidly secured to the outer end of the upper bracket leg are a pair of spaced depending arms which are adapted to fit with the aforementioned upright arms on the lower bracket leg, and which depending arms are provided with vertically-spaced,

aligned apertures.

Seppelfrick, in U.S. Patent No. 4,181,284, describes an improved antenna bracket for mounting masts for antennas to the exterior wall of buildings having various roof and overhang dimensions. The mounting bracket can be made of parts having standard dimensions and can support an antenna, mast, and rotor, without guy wires or additional support against the roof of

the building. In U.S. Patent No. 4,510,502, Hovland et al. disclose a lightweight mounting structure combination for small dish antennae. The structure includes an upright mast for supporting the dish antennae. The mast has an upper end for attachment to said dish and a lower end for anchoring to a rigid-type structure. The structure also has a bent strut having a lower end for anchoring to a rigid-type structure and an upper end for attachment to said mast. In addition, a second strut is provided having a lower end for anchoring to a rigid-type structure and an upper end for attachment to said mast. Further included is means for anchoring the respective lower ends of the mast, bent strut and second strut to the rigid-type structure and for attaching the

respective upper ends of the bent and second struts to the mast. The means includes a bracket, a threaded bolt having a shank portion for extending through the bracket and respective end, and a nut threaded on said bolt for drawing the bracket and respective end tightly together. The bolt,

nut, bracket and respective end cooperate to indicate to one tightening the nut and bolt when a

predetermined extent of tightness is attained, the predetermined extent of tightness being characterized by the respective end having undergone a predetermined extent of deformation such that relative movement between the bracket and respective end is minimized. A bolted joint

connection and a method for installing a dish antenna mounting structure are also provided.

Klingensmith et al., in U.S. Patent No. 4,595,165, describe a mounting structure for satellite dish antennae and method and means for anchoring the structure to the roof or sidewall of a typical residential building, such as a house, are disclosed. The mounting structure includes a mast for supporting the dish antennae. The anchoring means includes a bar having a back portion and sides which define an open-ended channel. The sides of the bar are further provided with integral adjoining lips which extend the length of the bar. Also included in the assembly is a clamp provided with holes through which bolt means may be inserted to tighten and secure the clamp about the mounting structure's mast to the bar's lips. When so tightened, the clamp tightly engages the external surface of the mast to prevent it from torsional movement relative to the clamp.

In U.S. Patent No. 4,649,675, Moldovan et al. disclose an apparatus for mounting an

antenna on a flat roof without penetrating the waterproof membrane of the roof. The apparatus is comprised of a rigid base having a planar lower surface adapted to overlie the flat roof, ballast means carried by the base to stabilize the base, and antenna support means connected to and extending upwardly from the base.

Gasque, Jr., in U.S. Patent No. 4,723,128, describes a roof mount for securely attaching dish antennae to roofs of houses typically supported by a plurality of spaced rafters having a two- piece frame attached to a selected portion of a roof, with one piece on top of the roof supporting

the dish and its adjusting mechanism and the other piece of the frame underlying the first frame beneath the roof. A plurality of fasteners penetrates the roof and both frames and draw the frames toward each other to clamp them about the selected portion of the roof and provide steady support for the antenna.

In U.S. Patent No. 5,142,293, Ross discloses a satellite antenna assembly that includes

a nonpenetrating roof mount having a pair of rectangular ballast trays for respective placement

on portions of a pitched roof forward and rearward of the crown of the roof. A hinge structure interconnects the ballast trays and overlies the crown of the roof. The ballast on the trays is

concealed by covers that simulate a skylight. A satellite antenna is mounted, at one of the four corners of the ballast tray located on the rear portion of the pitched roof, on a simplified antenna support and adjustment structure that facilitates variation of the polar orientation and elevation

of the antenna.

Burns etal., in U.S. PatentNo.5,456,433, describe an antenna roof mounting, comprising a substantially solid planar foundation that may be secured to a roof substrate; a substantially closed geometric superstructure affixed to and vertically raised upon the foundation; and a mast for an antenna affixed to the superstructure.

In U.S. Patent No. 5,617,680, Beatty discloses a satellite dish, mounted on a bracket,

which in turn is mounted over an uneven surface of a roof or a wall of a house. The bracket has an elevated bridge portion for supporting a mounting foot of the satellite dish. The bridge portion is integrally connected to and supported by two narrow leg portions which in turn are integrally

connected to and supported by two narrow foot portions. The bridge portion is elevated from two foot portions by the leg portions in order to clear the uneven surface of the roof or wall of the

house.

Pugh, Jr. et al., in U.S. Patent No. 5,647,567, describes an adjustable satellite antenna mounting bracket that reinforces the eaves of a building roof. The antenna mounting bracket has a telescoping support having a rigid tubular form. The telescoping support has a back plate on

one end that is secured to the sidewall of the building adjacent to the eave of the building. On the

other end of the telescoping support is a base mount plate having a generally rectangular form adapted for accepting the base of a satellite antenna. The base mount plate that protrudes past the outer edge of the eave permits unobstructed reception of satellite signals. The telescoping support is braced by a brace. The brace cradles the telescoping support in normal conditions, but in the

event of severe weather, the brace maintains the position of the support. An extension lock fixes

the length of the telescoping support and acts to reinforce the eave.

In U.S. Patent No. 5,829,724, Duncan discloses an antenna-mounting structure for mounting an antenna to a vertical wall or on a sloped, peaked, or horizontal roof. A primary strut, which is tubular, has a straight, upper portion, a straight, intermediate portion, and a straight, lower portion. The upper portion has an outer, cylindrical surface, circular in cross-section, and is bent at an upper juncture between the upper and intermediate portions and at a lower juncture between the intermediate and lower portions. The upper and intermediate portions generally define an obtuse angle, and the intermediate and lower portions generally define an acute angle. A secondary strut has a proximal end, and a distal end is clamped at the proximal end of the secondary strut to the outer, cylindrical surface of the upper portion of the primary strut, above the upper juncture, so that the secondary strut can be adjustably oriented to project in any

direction from the upper portion of the primary strut, and so that the secondary strut can be pivotally adjusted to any angle within a range so that the distal end can be higher than, level with, or lower than the proximal end.

Fey, in U.S. Patent No. 5,873,201, describes a device supported by a roof structure utilizing a platform having first and second surfaces, where the second surface bears on the roof.

The platform includes a slot between the first and second surfaces which accepts a slidable element. An element is formed with a flange and extending legs which form a chamber within

the slot of the platform. The flange portion of the element is provided with an opening to accept a fastener which extends through the chamber into the roof. A filler material occupies the chamber and protects the fastener within the chamber.

In U.S. Patent No. 6,237,888, Coll discloses an antenna mounting system for mounting

an antenna mast to a building with a roof having a plurality of exposed rafters extending in spaced-apart parallel relationship, comprising a support member for holding the mast vertically

at a predetermined distance from an edge of the roof; a torsion-resistant attachment member for attaching the support member to one of the rafters; and first and second mast stabilizing arms for maintaining the mast in a stable, generally vertical position so as to resist wind effects. The first mast stabilizing arm being adapted for attachment to the one rafter by the attachment member,

and the second mast stabilizing arm being adapted for attachment to another rafter spaced from the one rafter. The first and second mast stabilizing arms cooperate with the support member to provide a structurally rigid antenna mounting system. The antenna mast mounted to rafters with such a system can withstand a wind load of up to about 100 mph.

Kruse, in U.S. Patent No. 6,276,649, describes a triangular planar member that defines,

through its thickness, four generally circular screw holes. The four holes may be disposed in relative relation to one another so as to generally define the corners of a rectangle. At the corners of the triangular planar member are corner couplers such as suction cups. The suction cups attach the adapter to the smooth surface. The holes in the adapter are utilized to accept screws in order

to adapt, via the triangular planar member, a screw-mounted device to the smooth surface onto which it is either not possible or not desirable to screw-mount the device directly. In an optional embodiment of the present invention, the triangular planar member defines one hole and three slots for greater adaptability in terms of the types of devices it may receive.

In U.S. Patent No. 6,460,821, Rhudy et al. disclose a DSS Uni-Mount, which is a 1/4"

aluminum plate that is designed to mount a standard DSS (small dish) mounting arm to the gable

end or hip edge of most residences or structures. This device virtually eliminates the need for roof penetrations in order to mount a DSS satellite dish. The top of the DSS Uni-Mount is fabricated at a roof angle of 5 on 12 and is designed for application to the gable end of a structure. It accommodates roof pitches from 4 on 12 thru 8 on 12. The bottom is cut at 90 degrees to the sides thus enabling mounting to flat or hip portion of the roof line by inversion of the unit. A total

of eight 3/8" diameter holes are drilled thru the Uni-Mount in strategic places to allow the

installer to match the DSS mounting arm holes with the DSS Uni-Mount plate. Lag bolts and machine bolts are then screwed thru and to the DSS Uni-Mount in order to secure the DSS mounting arm to the gable or eaves of the roof line. The plate also accommodates the mounting of a dual grounding block, which enables electrical grounding of both the satellite antenna/mounting arm bracket and coax cable at a common junction point. While the invention is amenable to various modifications and alternative forms, specifics thereof have been shown by way of example in the drawings and will be described in detail. It should be understood, however, that the intention is not necessarily to limit the invention to the particular embodiments described. On the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention, as defined by the appended claims.

SUMMARY OF THE INVENTION

The invention is directed to a curb and cap mounting assembly for installation on the roof or wall of a structure. The cap portion of the assembly is a flat top cover with down turned

edges, and includes suitable hardware for mounting the base of a satellite dish on the flat top. The curb and cap mounting assembly comprises a curb member that includes a planar flashing

portion with a central housing portion extending upwardly from the flashing portion and forming an enclosed space. The central housing portion has top and bottom openings. A cap member includes a planar top portion and a peripheral edge portion extending downwardly therefrom.

The cap member is sized to fit over the top opening of the central housing portion and is

reversibly fastened thereto. The cap member has fastening means secured to the planar top

portion. The curb and cap mounting assembly is secured to a structure by the planar flashing portion and receives a communications cable from interior the structure through the bottom opening of the central housing portion into the enclosed space therein. The cable extends through the top opening of the central housing portion of the curb member and under the

downward extending peripheral edge portion of the cap member and extends exterior the assembly. The mounting assembly is adapted to mount a communications antenna to the cap member planar top portion fastening means. The antenna is connected to the cable to deliver communications signals interior the structure. The cable can be prewired to the curb and cap mounting assembly until the owner desires to install the satellite dish on the structure.

Also disclosed is a method of mounting a satellite dish to a structure that prevents passage of water into the interior of the structure.

BRIEF DESCRIPTION OF THE DRAWINGS

Figure 1 is an elevational perspective view of one embodiment of the curb and cap mounting assembly of the present invention.

Figure 2 is a bottom perspective view of the one embodiment of the curb and cap mounting assembly of the present invention.

Figure 3 is an exploded perspective view of the one embodiment of the curb and cap

mounting assembly of the present invention.

Figure 4 is an elevational perspective view of the another embodiment of the curb and

cap mounting assembly of the present invention.

Figure 5 is an elevational perspective view of the Figure 4 embodiment of the curb and cap mounting assembly of the present invention.

Figure 6 is an elevational perspective view of yet another embodiment of the curb and cap

mounting assembly of the present invention.

Figure 7 is an elevational perspective view of yet another embodiment of the curb and cap

mounting assembly of the present invention.

Figure 8 is a cross sectional view along line 8-8' of the curb and cap mounting assembly

of Figure 1.

Figure 9 is an elevational perspective view of one embodiment of the curb and cap

mounting assembly of the present invention with a satellite dish mounting base secured thereto. DESCRIPTION OF THE EMBODIMENTS

Nomenclature:

10 Curb and Cap Mounting Assembly

20 Curb Member

25 Planar Flashing Portion

27 Apertures in Flashing

30 Central Housing Portion

32 Vertical Sidewall

34 Notch in Sidewall

36 Enclosed Space of Central Housing

38 Fastener Apertures

40 Top Opening in Central Housing

45 Bottom Opening in Central Housing

50 Cap Member

55 Planar Top Portion

60 Peripheral Edge Portion

65 Fastener Apertures

70 Fasteners of Planar Top Portion

72 Apertures of Planar Top Portion

75 Gasket Member of Cap Member

Construction:

The invention is directed to a curb and cap mounting assembly for installation on the roof or wall of a structure. The cap portion of the assembly is a flat top cover with down turned edges, and includes suitable hardware for mounting the base of a satellite dish on the flat top. The curb and cap mounting assembly comprises a curb member that includes a planar flashing portion with a central housing portion extending upwardly from the flashing portion and forming

an enclosed space. The central housing portion has top and bottom openings. A cap member includes a planar top portion and a peripheral edge portion extending downwardly therefrom. The cap member is sized to fit over the top opening of the central housing portion and is reversibly fastened thereto. The cap member has fastening means secured to the planar top portion. The curb and cap mounting assembly is secured to a structure by the planar flashing portion and receives a communications cable from interior the structure through the bottom

opening of the central housing portion into the enclosed space therein. The cable extends

through the top opening of the central housing portion of the curb member and under the downward extending peripheral edge portion of the cap member and extends exterior the

assembly. The mounting assembly is adapted to mount a communications antenna to the cap

member planar top portion fastening means. The antenna is connected to the cable to deliver communications signals interior the structure. The cable can be prewired to the curb and cap

mounting assembly until the owner desires to install the satellite dish.

Referring to Figures 1-3, several views of one embodiment of the curb and cap mounting

assembly 10 are shown. The curb and cap mounting assembly 10 comprises a curb member 20,

that includes a planar flashing portion 25 having a central housing portion 30 extending upwardly

from the flashing portion 25 and forming an enclosed space 36 therein. The central housing

portion 30 has a top opening 40 and a bottom opening 45, best seen in Figure 3. The central

housing portion 30 of the embodiment of Figures 1-3 includes five sidewalls 32 extending from

the flashing portion 25. Preferably, the sidewalls 32 extend vertically from the flashing portion

25 and form a uniform top opening 40 for contacting the cap member 50. Most preferably, one of the vertical sidewalls 32 includes a notch 34 adjacent the central housing portion top opening

40. The sidewalls 32 include a plurality of fastener apertures 38 for securing the cap member 50

thereto.

The cap member 50 has a planar top portion 55 and a peripheral edge portion 60

extending downwardly therefrom. The cap member 50 is sized to fit over the top opening 40 of

the central housing portion 30 with a plurality of fastener apertures 65 positioned on the

peripheral edge portion 60 in register with the fastener apertures 38 of the central housing portion

30. The cap member 50 fits tightly to the central housing portion 30. Threaded fasteners (not

shown) inserted into the fastener apertures 38, 65 allow the cap member 50 to be reversibly

fastened to the curb member 20. Preferably, the downwardly extending peripheral edge portion

60 of the cap member 50 flares outwardly from the central housing portion 30 at an end opposite

the planar top portion 55. This feature facilitates shedding of water by the cap member 50. The

cap member 50 includes a plurality of linear fasteners 70 secured to the planar top portion 55 for

attachment of the base of a communications antenna. Preferably, the linear fasteners 70 extend

upwardly from the planar top portion 55 opposite the central housing portion 30, as illustrated

in Figure 5.

Most preferably, the cap member 50 includes a section of peripheral edge portion 60 that

is spaced apart from the central housing portion vertical wall 32 having the notch 34 therein. In

order to seal the notch 34, a flexible gasket member 75 is secured interior the cap member 50

such that the gasket member 75 contacts and seals the notch 34 to prevent entry of water interior

the curb member 20. The notch 34 provides a path for a communications cable from interior the

assembly 10 to exterior the assembly 10. The gasket member 75 is selected from a foam material

or a screen material, the screen material fabricated from either metal or plastic. The curb and cap mounting assembly 10 is secured to a roof or wall of a structure by the

planar flashing portion 25 by well-known techniques that prevent entry of water into the

structure. Preferably, a plurality of apertures 27 are present in the flashing portion 25 for

receiving fasteners (not shown) to secure the flashing portion 25 to the structure. The assembly

10 receives a communications cable from interior the structure through the bottom opening 45

of the central housing portion 30 into the enclosed space 36 therein. The cable extends throμgh

the top opening 40 of the central housing portion 30 and is positioned in the notch 34 of the curb

member vertical sidewall 32 and extends exterior the curb and cap assembly 10. The gasket

member 75 interior the cap member 50 contacts the cable in the notch 34 to form a water-tight

seal. A communication receiver is secured to the upward extending fasteners 70 of the cap

member 50 and is connected to the cable to deliver communications signals interior the

structure. A communication receiver base mounted to the cap member 50 of the mounting

assembly 10 is shown in Figure 9.

The upwardly extending linear fasteners 70 of the cap member 50 can be permanently

secured to the cap member 50 by welding or braising. Alternatively, the fasteners 70 can be

removably mounted in apertures 72 in the cap member planar top portion 55. In the later

embodiment, a fastener 70, such as bolts with threaded nuts, is positioned in each of the apertures

72 with the fastener heads either interior or exterior the cap member 50, and the nut on the

opposite side. In this embodiment, one or more elastomeric washers may be provided for each

fastener 70 to seal out water from interior the curb and cap mounting assembly 10.

Although the cap member 50 is described as having linear fasteners 70, other fastening

means for securing the satellite dish base or plate to the cap member planar top portion 55 are

contemplated. Various brackets or clamps secured to the planar top portion 55 can be adapted to securely fasten the base or plate of the satellite dish thereto.

The curb and cap mounting assembly 10 of Figures 1-3 is mounted to a roof or wall of

a structure with the point of the central housing portion 30 positioned at the highest elevation of

the central housing portion 30 to divert water around the assembly 10. Although the curb and cap mounting assembly 10 of Figures 1-3 is shown with the central housing portion 25 and cap

member 50 having five sidewalls 32, embodiments having greater or fewer numbers of sidewalls

32 are contemplated. Figures 4 and 5 disclose an assembly 10 with four sidewalls 32, providing

a rectangular central housing portion 30 and a matching cap member 50. Figure 6 discloses an

assembly 10 with three sidewalls 32, providing a triangular central housing portion 30 and a

matching cap member 50, and Figure 7 discloses an assembly 10 with one sidewall 32, providing

a circular central housing portion 30 and a matching cap member 50. In Figures 4, 6 and 7, the

linear fasteners 70 and the fastener apertures 72 are omitted for clarity. Each of these

embodiments of the curb and cap mounting assembly 10 preferably comprises a central housing

portion 30 that includes at least one vertical sidewall 32 extending from the flashing portion 25.

Most preferably, the at least one vertical sidewall 32 of the central housing portion 30 includes

a notch 34 adjacent the top opening 40 of the central housing portion 30, for routing the

communications cable from interior the assembly 10 to the exterior for connection to a

communications satellite dish.

In a further embodiment of the invention, the curb and cap mounting assembly 10

includes a hinge member that connects the cap member 50 to the curb member 20. The hinge

member is preferably secured between the central housing portion 30 of the curb member 20 and

the cap member 50. Most preferably, the hinge member is positioned and fastened interior the

central housing portion 30 and beneath the cap member 50 to protect the hinge member from the elements. The hinge member does not replace the fasteners that reversibly secure the cap member 50 to the central housing portion 30 of the curb member 20, but allows the cap member

50 to pivot away from the central housing portion 30 while maintaining the cap member 50 in close proximity to the curb member 20.

The invention also includes a method for mounting a communications antenna to a structure. The method includes the steps of first providing a curb and cap mounting assembly comprising; (i) a curb member including a planar flashing portion with a central housing portion extending upwardly from the flashing portion and forming an enclosed space, the central housing portion having top and bottom openings; and (ii) a cap member having a planar top portion and a peripheral edge portion extending downwardly therefrom, the cap member sized to fit over the top opening of the central housing portion and reversibly fastened thereto, the cap member

having a plurality of fasteners secured to the planar top portion. Next, the curb and cap mounting assembly is secured to a structure by the planar flashing portion. Then, a communications cable is routed from interior the structure through the bottom opening of the central housing portion into the enclosed space therein, then through the top opening of the central housing portion of the curb member and under the downward extending peripheral edge portion of the cap member,

and exterior the assembly. Next, a communications antenna is mounted to the cap member planar top portion fasteners. Finally, the communications antenna is connected to the cable to deliver communications signals interior the structure.

While the invention has been particularly shown and described with reference to preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the

invention.

Claims

We claim:

1. A curb and cap mounting assembly for a dish antenna comprising:

(a) a curb member including a planar flashing portion with a central housing portion extending upwardly from the flashing portion and forming an enclosed space, the central housing portion having top and bottom openings; and

(b) a cap member having a planar top portion and a peripheral edge portion extending downwardly therefrom, the cap member sized to fit over the top opening of the central housing portion and reversibly fastened thereto, the cap member having fastening means secured to the planar top portion;

(c) whereby, the curb and cap mounting assembly secured to a structure by the planar flashing portion receives a communications cable from interior the structure through the

bottom opening of the central housing portion into the enclosed space therein, the cable

extendable through the top opening of the central housing portion of the curb member and under the downward extending peripheral edge portion of the cap member and extending exterior the assembly, the mounting assembly adapted to mount a communications antenna to the cap member planar top portion fastening means, the

antenna connected to the cable to deliver communications signals interior the structure.

2. The curb and cap mounting assembly of claim 1 , wherein the central housing portion includes at least one vertical sidewall extending from the flashing portion.

3. The curb and cap mounting assembly of claim 2, wherein the at least one vertical sidewall of the central housing portion includes a notch adjacent the central housing portion top opening.

4. The curb and cap mounting assembly of claim 3, wherein a section of the cap member peripheral edge portion is spaced apart from the central housing portion at least one vertical sidewall having the notch therein.

5. The curb and cap mounting assembly of claim 3, further including a gasket member secured interior the cap member, the gasket member contacting the notch in the at least one vertical sidewall adjacent the central housing portion top opening.

6. The curb and cap mounting assembly of claim 5, wherein the gasket member is selected from

the group foam material and screen material.

7. The curb and cap mounting assembly of claim 1, wherein the downwardly extending peripheral edge portion of the cap member flares outwardly from the central housing portion at an end opposite the planar top portion thereof.

8. The curb and cap mounting assembly of claim 1 , wherein the cap member planar top fastening

means includes a plurality of linear fasteners secured thereto.

9. The curb and cap mounting assembly of claim 8, wherein the linear fasteners of the cap member extend upwardly, opposite the central housing portion.

10. The curb and cap mounting assembly of claim 9, wherein the upwardly extending linear fasteners of the cap member are threaded studs rigidly fastened to the planar top portion thereof.

11. The curb and cap mounting assembly of claim 9, wherein the upwardly extending linear fasteners of the cap member are threaded bolts mounted in apertures in the planar top portion thereof.

12. A curb and cap mounting assembly for a dish antenna comprising:

(a) a curb member including a planar flashing portion with a central housing portion extending vertically from the flashing portion and forming an enclosed space, the central housing portion having top and bottom openings; and

(b) a cap member having a planar top portion and a peripheral edge portion extending downwardly therefrom, the cap member sized to fit over the top opening of the central housing portion and reversibly fastened thereto, the cap member having a plurality of

upward extending linear fasteners protruding from the planar top portion opposite the

central housing portion;

(c) whereby, the curb and cap mounting assembly secured to a structure by the planar flashing portion receives a communications cable from interior the structure through the bottom opening of the central housing portion into the enclosed space therein, the cable extendable over the vertical central housing portion of the curb member and under the

downward extending peripheral edge portion of the cap member and extending exterior

the assembly, the mounting assembly adapted to mount a communications antenna to the

cap member upward extending linear fasteners, the antenna connected to the cable to deliver communications signals interior the structure.

13. The curb and cap mounting assembly of claim 12, wherein the central housing portion includes at least one vertical sidewall.

14. The curb and cap mounting assembly of claim 13, wherein the at least one vertical sidewall of the central housing portion includes a notch adjacent the central housing portion top opening.

15. The curb and cap mounting assembly of claim 14, wherein a section of the cap member peripheral edge portion is spaced apart from the central housing portion at least one vertical sidewall having the notch therein.

16. The curb and cap mounting assembly of claim 14, further including a gasket member secured interior the cap member, the gasket member contacting the notch in the at least one vertical

sidewall adjacent the central housing portion top opening.

17. The curb and cap mounting assembly of claim 16, wherein the gasket member is selected from the group foam material and screen material.

18. The curb and cap mounting assembly of claim 12, wherein the downwardly extending

peripheral edge portion of the cap member flares outwardly from the central housing portion at an end opposite the planar top portion thereof.

19. The curb and cap mounting assembly of claim 12, wherein the upwardly extending linear fasteners of the cap member are threaded studs rigidly fastened to the planar top portion thereof.

20. The curb and cap mounting assembly of claim 12, wherein the upwardly extending linear fasteners of the cap member are threaded bolts mounted in apertures in the planar top portion thereof.

21. The curb and cap mounting assembly of claim 12, wherein the curb member and cap member are fabricated from corrosion resistant sheet metal material.

22. A curb and cap mounting assembly for a dish antenna comprising:

(a) a curb member including a planar flashing portion with a central housing portion with at least on sidewall extending vertically from the flashing portion and forming an enclosed space, the central housing portion having top and bottom opemngs; and

(b) a cap member having a planar top portion and a peripheral edge portion extending downwardly therefrom, the cap member sized to fit over the top opening of the central housing portion and reversibly fastened thereto, the cap member having a plurality of upward extending linear fasteners protruding from the planar top portion opposite the

central housing portion;

(c) whereby, the curb and cap mounting assembly secured to a structure by the planar

flashing portion receives a communications cable from interior the structure through the bottom opening of the central housing portion into the enclosed space therein, the cable extendable over the vertical central housing portion of the curb member and under the

downward extending peripheral edge portion of the cap member and extending exterior the assembly, the mounting assembly adapted to mount a communications antenna to the

upward extending linear fasteners, the antenna connected to the cable to deliver communications signals interior the structure.

23. The curb and cap mounting assembly of claim 22, wherein the at least one vertical sidewall of the central housing portion includes a notch adjacent the central housing portion top opening.

24. The curb and cap mounting assembly of claim 23, wherein a section of the cap member peripheral edge portion is spaced apart from the central housing portion at least one vertical sidewall having the notch therein.

25. The curb and cap mounting assembly of claim 23 , further including a gasket member secured interior the cap member, the gasket member contacting the notch in the at least one vertical sidewall adjacent the cenfral housing portion top opening.

26. The curb and cap mounting assembly of claim 25, wherein the gasket member is selected from the group foam material and screen material.

27. The curb and cap mounting assembly of claim 22, wherein the downwardly extending peripheral edge portion of the cap member flares outwardly from the central housing portion at an end opposite the planar top portion thereof.

28. The curb and cap mounting assembly of claim 22, wherein the upwardly extending linear fasteners of the cap member are threaded studs rigidly fastened to the planar top portion thereof.

29. The curb and cap mounting assembly of claim 22, wherein the upwardly extending linear fasteners of the cap member are threaded bolts mounted in apertures in the planar top portion thereof.

30. The curb and cap mounting assembly of claim 22, wherein the curb member and cap member are fabricated from corrosion resistant sheet metal material.

31. A curb and cap mounting assembly for a dish antenna comprising:

(a) a curb member including a planar flashing portion with a central housing portion with at least one sidewall extending vertically from the flashing portion and forming an enclosed space, the central housing portion having top and bottom openings, the at least one vertical sidewall of the central housing portion including a notch adjacent the central housing portion top opening; and

(b) a cap member having a planar top portion and a peripheral edge portion extending downwardly therefrom, the cap member sized to fit over the top opening of the central housing portion and reversibly fastened thereto, a section of the cap member peripheral edge portion spaced apart from the central housing portion at least one vertical sidewall having the notch therein, the cap member having a plurality of upward extending linear

fasteners protruding from the planar top portion opposite the central housing portion;

(c) whereby, the curb and cap mounting assembly secured to a structure by the planar flashing portion receives a communications cable from interior the structure through the bottom opening of the central housing portion into the enclosed space therein, the cable extendable over the vertical central housing portion of the curb member and under the downward extending peripheral edge portion of the cap member and extending exterior the assembly, the mounting assembly adapted to mount a communications antenna to the

cap member upward extending linear fasteners, the antenna connected to the cable to deliver communications signals interior the structure.

32. The curb and cap mounting assembly of claim 31 , further including a foam gasket member secured interior the cap member, the foam gasket member contacting the notch in the at least one

vertical sidewall adjacent the central housing portion top opening.

33. The curb and cap mounting assembly of claim 31, wherein the downwardly extending peripheral edge portion of the cap member flares outwardly from the central housing portion at an end opposite the planar top portion thereof.

34. The curb and cap mounting assembly of claim 31, wherein the upwardly extending linear fasteners of the cap member are threaded studs rigidly fastened to the planar top portion thereof.

35. The curb and cap mountmg assembly of claim 31, wherein the upwardly extending linear

fasteners of the cap member are threaded bolts mounted in apertures in the planar top portion thereof.

36. The curb and cap mounting assembly of claim 31, wherein the curb member and cap member are fabricated from corrosion resistant sheet metal material.

37. A method for mounting a communications antenna to a structure comprising the steps:

(a) providing curb and cap mounting assembly comprising:

(i) a curb member including a planar flashing portion with a central housing portion extending upwardly from the flashing portion and forming an enclosed space, the central housing portion having top and bottom openings; and (ii) a cap member having a planar top portion and a peripheral edge portion

extending downwardly therefrom, the cap member sized to fit over the top opening of the central housing portion and reversibly fastened thereto, the cap member having a plurality of linear fasteners secured to the planar top portion; (b) securing the curb and cap mounting assembly to a structure by the planar flashing portion;

(c) routing a communications cable from interior the structure through the bottom opening of the central housing portion into the enclosed space therein, then through the top opening of the central housing portion of the curb member and under the downward extending peripheral edge portion of the cap member, and exterior the assembly;

(d) mounting a communications antenna to the cap member planar top portion linear fasteners; and

(e) connecting the communications antenna to the cable to deliver communications

signals interior the structure.