Not applicable.
Not applicable.
The present invention relates to valve assemblies mountable to a surface such as a counter top or a wall. More particularly it relates to structures that permit insetting of the usual valve control stem so that the overall design can have a lower/inset profile once a handle is attached to the valve stem.
U.S. Pat. No. 6,014,985 discloses a valve mounted to a counter top in a conventional manner. There is an elongated cylindrical valve body with threads on its outer radial periphery, a mounting collar that threads down on the body periphery to a desired position where the collar abuts the counter top, and a valve control stem projecting up through the collar.
However, once a control handle is linked to the valve stem the final design will have the handle considerably upward/outward from the support surface. This places some ornamental constraints, and in any event may be problematic functionally when the valve is mounted through a vertical wall in a compact shower enclosure.
Apart from ornamental and space constraints, it is important that whatever assembly is used adequately seal the opening through the support surface. For example, one wants to prevent water from a shower leaking out the wall opening behind the enclosure. This is a complicating factor in designing valve assemblies.
Traditional valve assemblies often rely on caulk which can be ornamentally undesirable in some cases. Other traditional assemblies incorporate o-ring seals at positions where the seal may wear.
Hence, a need exists for a valve assembly that provides a lower profile appearance for a given type of handle, while also providing a watertight assembly.
The present invention provides a valve assembly mountable through a mounting surface having an opening there through. The valve assembly has an elongated valve body having an internal bore mounting a control valve such that a valve control stem projects out of the valve body. The valve body also has a radially outer threaded periphery.
There is also a collar having a flange extending essentially radially outward and a skirt extending axially away from the flange. The skirt has threads adjacent a position axially remote from the flange which are suitable to mate with the radially outer threaded periphery of the elongated valve body.
A handle is mounted to the valve control stem to control movement thereof. The collar is suitable to mount the valve body to the mounting surface, with the flange facing an outward facing surface of the mounting surface while the skirt extends into the opening.
In preferred forms the flange is in the form of a circumferential ring or a plurality of tabs, the handle has a handle arm and an ornamental escutcheon for hiding the collar, and the collar has a threaded portion for coupling to the ornamental escutcheon. For example, the collar's upper portion may have internal or external threads for coupling to the ornamental escutcheon.
In another preferred form there is an o-ring between the collar and the valve body (preferably in a recess). Also, the control valve may be threaded into the internal bore of the valve body, and the control valve may be in the form of a valve cartridge.
It should be appreciated that these assemblies permit the elongated valve body to be hung down farther lower/inward relative to the supporting wall, with the result that the control stem (and thus the control handle) project out less far. This has a sleeker ornamental appearance, and also helps maximize available room in compact shower stalls.
Nevertheless, means are provided to provide a watertight assembly. Further, the assembly is such that it can be easily taken apart for servicing or maintenance. Moreover, the specified parts of the assembly central to these advantages do not add significant additional cost to the final product.
These and still other advantages of the present invention will be apparent from the detailed description and drawings. What follows are merely example preferred embodiments of the present invention. To assess the full scope of the invention the claims should also be looked to.
The drawings depict valve assemblies mounted on conventional counter tops. However, the present invention is mountable on horizontal plumbing fixtures themselves (e.g. through a top rim of a bathtub or sink), or on a vertical wall. Hence, the term “mounting surface” should be interpreted accordingly.
Referring now to
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With additional reference to
The supply hose receptacle 38 leads to an angled, cylindrical supply passageway 48. The supply passageway 48 is angled towards the center of the valve body 26 and terminates in a flared opening at a central chamber 50. The chamber 50 is formed by a central bore 52 formed in the upper portion 36. The bore 52 is partially threaded to mate with the valve cartridge 29 (described below). A delivery passageway 54 extends from the chamber 50 to the lower portion 34 of the valve body 26 where it terminates at the deliver hose receptacle 40.
A standard valve cartridge 29 is used to control the flow of liquid from the supply hose 42, coupled to the supply hose receptacle 38, to a delivery hose 56, coupled to the delivery hose receptacle 40. The central bore 52 of the valve body 26 includes a beveled opening 58 adjacent internal threads for engaging external threads on the valve cartridge 29.
The valve cartridge 29 is threaded into the bore 52 until an annular flange 60 compresses an o-ring 64 located between the annular flange 60 and the beveled opening 58 of the valve body 26. This sealing interface is to prevent fluid from flowing out the valve body 26 past the valve cartridge 29 and leaking from the valve assembly 18.
A gasket 68 is forced into engagement with a valve seat 70 of the valve body 26. The sealing interface between the gasket 68 and the valve seat 70 is to prevent fluid from flowing from the supply passageway 48 to the delivery passageway 54 when the valve cartridge 29 is in the closed position.
The valve cartridge 29 includes a knurled valve stem 66 extending upwards. The valve stem 66 is inserted into a mating knurled bore (not shown) of the handle 74. Rotating the attached handle arms 74 therefore rotates the valve stem 66 and an attached valve disk 76, metering the flow of water through the valve body 26.
The circular valve disk 76 has an hourglass shaped cross-section that rotates about a stationary hourglass shaped plate 78. When the valve disk 76 and the plate 78 are aligned, the valve cartridge 29 is wide open, and when the valve disk 76 and the plate 78 are completely offset, the valve cartridge 29 is closed and no fluid flows through the cartridge. Both the valve disk 76 and the plate 78 are preferably made of ceramic, but may be made from any suitable material such as plastic. The present invention is applicable to many other types of valves as well, including, for example, gate valves and globe valves.
Opening the valve cartridge 29 allows fluid to flow from the upstream, higher pressure supply hose 42 and into the supply passageway 48. Fluid passes from the supply passageway 48, into the chamber 50, and flows through the delivery passageway 54 into the delivery hose 56. The remaining end of the delivery hose 56 is coupled to the mixing tee 22 via, preferably, a quick-connect fitting assembly 80. The fitting assembly 80 includes a female nylon coupler 82 into which a male nipple (not shown) is secured. Alternatively, the mixing tee 22 and delivery hoses 56 may be plumbed by any conventional manner.
The mixing tee 22 has a threaded central outlet bore 86 to which the neck 24 is threaded. Fluid flows through the neck and out the spout 20 into the basin 21. The neck extends through an aperture formed in the mounting surface 12 and is secured into the spout 20. The spout 20 is placed on the mounting surface 14 of the mounting surface 12 and coupled to the mounting surface 12 by an installation washer 88 slid over the neck 24 and a nut 90. The nut 90 engages mating threads on the outside of the neck 24 and sandwiches the mounting surface 12 between the spout 20 and the washer 88.
Returning to the valve assemblies 18 and
The diameter of the upper portion 36 is slightly less than the diameter of the lower portion 34, allowing a portion of the collar 30 to extend beyond the threaded upper portion 36 of the valve body 26 and engage the seal 94. This engagement prevents fluid from flowing between the collar 30 and the valve body 26, and under the faucet 10 of the example embodiment.
The collar 30 is a generally cylindrical sleeve having a lower portion 96 and an upper portion 98. The lower portion 96 includes a partially threaded bore 100. The bore 100 mates with the exterior threads on the smaller diameter upper portion 36 of the valve body 26. The lower portion 96 has a non-threaded, lip 102 for interfacing with the valve body 26. As the collar 30 is mated with the valve body 26, the seal 94 located in the recess 92 of the valve body 26 is compressed by the lip 102 of the collar 30. If the valve cartridge 29 were to leak, the fluid would accumulate in the bore 100 of the collar 30 versus flow around the valve body 26 and under the faucet 10. Once the bore 100 is full, the fluid would breach the upper portion 98 and flow onto the mounting surface 14 of the mounting surface 12 where it is easily acknowledged and corrected.
Turning to the upper portion 98 of the collar 30, an annular flange 104 is shown protruding outwardly. The annular flange 104 is configured to be larger than an opening 106 formed in the mounting surface, here the mounting surface 12, so that the flange 104 rests on the mounting surface 14 and supports the valve body 26 and valve cartridge 29. The upper portion 98, above the flange 104, includes a lip 108 having a threaded outer surface for securing mating threads of the handle fitting 32 (e.g., handle 74 or bonnet 110).
It is important to note that the bonnet 110 does not support the valve body 26 or valve cartridge 29. Instead, the collar 30 engages the mounting surface 12 by inserting a portion of the collar 30 into the opening 106 formed in the mounting surface 12 until the flange 104 engages the mounting surface 14. In the example embodiment, the collar 30 extends through the mounting surface 12 and beyond the bottom surface 16. However, depending upon collar 30 size and mounting surface 12 thickness, the collar 30 may not extend fully through the mounting surface 12.
The bore 100 further includes a stop, here a groove 112, establishing a limit on how far the valve body 26 can be threaded into the collar 30. Overall, the collar 30 allows the valve body 26 and coupled valve cartridge 29 to be mounted beneath the mounting surface 14 of the example embodiment allowing for use of a sleeker, smaller handle fitting 32.
The flange 104, while illustrated in the example embodiment as an annular flange extending around the entire perimeter of the collar 30, may instead be a series of tabs or any similar structure used to engage the mounting surface 12.
During installation of the valve assembly 18, a cylindrical spacer 114 is slid over the valve body 26 and collar 30 until it abuts the bottom surface 16 of the mounting surface 12. An installation nut 116, or fastener, is then threaded onto the mating threads of the valve body 26, forcing the flange 104 of the collar 30 and the spacer 114 to sandwich the mounting surface 12. A spacer 114 and nut 116 are shown in the loosened position on the left valve assembly 18 of
Where the mounting surface 12 is slightly thicker than the collar 30, the spacer 114 is not required as the installation nut 116 abuts the bottom surface 16 of the mounting surface 12 directly. Alternatively, the lower portion 96 of the collar 30 may also include external threads as shown in
The valve body 26 and collar 30 are preferably machined from brass, but may be made of any suitable material, including plastic. The o-ring 64, gasket 68, and seal 94 may be made from rubber, silicone, plastic, or any other suitable material.
With reference to
The support ring 118 is then threaded onto the valve body 26. A pair of screws 124 are partially threaded into a pair of threaded holes 126 spaced one hundred and eighty degrees apart formed through the support ring 118. Once the valve body 26 and collar 30 are aligned as desired, the screws 124 are tightened, urging the metal washer 122 and protective fiber washer to engage the bottom surface 16 of the mounting surface 12. This interaction helps to prevent the valve assembly 18 from rotating away from the desired orientation during installation and use of the faucet 10.
It should be appreciated that a preferred embodiment of the invention has been described above and depicted in the enclosed drawings. However, many modifications and variations to the preferred embodiments will be apparent to those skilled in the art, which will be within the spirit and scope of the invention. For example, the collar 30 may include internal threads on the upper portion 98 for engaging the bonnet 110 or handle 74.
Therefore, the invention should not be limited to just the described embodiments. To ascertain the full scope of the invention, the following claims should be referenced.
The invention provides a low-profile valve assembly for engaging a mounting surface of a mounting surface.
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