초록 ▼

A rotationally adjustable valve is disclosed whereby the user is able to control the flow of fluids from complete shutoff to maximum flow by rotating the body of the valve, said rotation being axial to the flow of the fluid. Additionally, the user is able to attach high and low pressure test probes

A rotationally adjustable valve is disclosed whereby the user is able to control the flow of fluids from complete shutoff to maximum flow by rotating the body of the valve, said rotation being axial to the flow of the fluid. Additionally, the user is able to attach high and low pressure test probes directly to the valve, as it is rotatably adjusted, so that additional equipment is not required next to the valve. An embodiment of this invention includes the use of an adjustable Cv disk to set the maximum flow of the valve, rather than just create a simple 180° on/off, very similar to a current 90° ball valve that this device will replace. All of the problems associated with the ball valve have been minimized including creating a linear relationship between the percentage open of the valve and the percentage of maximum flow of the valve.

대표청구항 ▼

1. An Axially Aligned Rotationally Adjustable Flow Control Valve capable of complete shutoff for controlling the flow of fluids comprising; an inlet section having an external circular surface and a internally circular hollow bore having a central axis, said inlet section having a distal end adapted

1. An Axially Aligned Rotationally Adjustable Flow Control Valve capable of complete shutoff for controlling the flow of fluids comprising; an inlet section having an external circular surface and a internally circular hollow bore having a central axis, said inlet section having a distal end adapted to interface with a piping structure, a securement means and a conically divergent outlet described about said distal end of said inlet section; and,an outlet section, having an internally circular hollow bore having a central axis coincident to said central axis of said inlet section, having a distal end adapted to interface with a piping structure, a securement means, a proximally located secondary flow control means positioned within a securement enclosure, where said enclosure contains a sealment means, and where central axis of said secondary flow control means is coincident to said central axis of said hollow bore, and an angular displacement guide externally distally located on exterior flange of said outlet section and,a central body section having an external circular bore and an internally circular hollow bore throughout the length of said section, said central body section hollow bore having a coincident central axis common to said hollow bore of said inlet section and said outlet section, a circular venturi sensing means proximally located and appurtenant to said conically described distal end of said inlet section, a pressure differential measurement means perpendicularly related and in communication with said circular hollow bore, a distally located primary flow control means, a primary flow control sealment means positioned within a securement enclosure, where axis of rotation of said primary flow control is coincident to said central axis of said inlet and said outlet sections, a set of leakage prevention O-Rings located near terminating ends of said central body, said rings interfacing with said external surface of said inlet and outlet sections to prevent leakage as said internal bore of said central body rotates about said external bores of said inlet and outlet sections, a proximally located external boss, said boss containing a threaded bore extending to said internal hollow bore through which a set screw is tighten to prevent rotation of said central body about said inlet and outlet section and a distally located external angular displacement index. 2. An Axially Aligned Rotationally Adjustable Flow Control Valve capable of complete shutoff for controlling the flow of fluids as in claim 1 where one face of the external interface between said distal end of said central body and proximal end of said outlet section contains an equally spaced series of detents and the other interfaced end contains indents corresponding to said detent, said indents and detents creating a tactile response to the rotation of said central body about said outlet section. 3. An Axially Aligned Rotationally Adjustable Flow Control Valve capable of complete shutoff for controlling the flow of fluids as in claim 1 where said differential pressure measurement means consisting of a low pressure port in fluid communication with said circular venturi sensing means and a high pressure port in fluid communication with said circular hollow bore said central body, said ports adapted to receive standard industry pressure probes. 4. An Axially Aligned Rotationally Adjustable Flow Control Valve capable of complete shutoff for controlling the flow of fluids as in claim 1 where said securement means of said inlet portion and said outlet portion consists of a snap ring and associated snap ring grooves located on the external bore of said portions, said snap ring also interfacing with a snap ring groove corresponding located on said internal hollow bore of said central body. 5. An Axially Aligned Rotationally Adjustable Flow Control Valve capable of complete shutoff for controlling the flow of fluids as in claim 1 where said circular venturi sensing means is one of a) a smooth bore cylinder where axis of said cylinder is coincident upon said central axis of said central body and b) a smooth bore cylinder where axis of said cylinder is coincident upon said central axis of said central body, into which an averaging piezometer ring has been incorporated thereinto. 6. An Axially Aligned Rotationally Adjustable Flow Control Valve capable of complete shutoff for controlling the flow of fluids as in claim 1 where said primary flow control means is a primary flow control circular disk with at least 1 circular segments emanating from the center of the disk, said circular segments having a radius less than the radius of said circular disk and no part of any said circular segment is in contact with any part of another said circular segment and where said circular disk has at least 2 tabs emanating from the outside diameter of said circular disk. 7. An Axially Aligned Rotationally Adjustable Flow Control Valve capable of complete shutoff for controlling the flow of fluids as in claim 1 where said secondary flow control means is one of a) is a secondary flow control circular disk having at least 1 circular segment of equal radius and chord of said circular segment of said primary flow control disk and where said circular disk has at least 2 tabs emanating from the outside diameter of said circular disk and b) is a secondary flow control circular disk with a defined maximum flow rate as described by a crescent shaped arc where the major arc has a defined diameter less than the diameter of said secondary flow control disk and a minor arc of lesser diameter is tangentially placed against said major arc, where the surface area of the opening between said arcs defines the maximum flow and where said circular disk has at least 2 tabs emanating from the outside diameter of said circular disk. 8. An Axially Aligned Rotationally Adjustable Flow Control Valve capable of complete shutoff for controlling the flow of fluids as in claim 1 further comprising a rotational stop, said rotational stop prevents the operator from rotating said central body more than 180 degree in relation to said inlet and outlet sections. 9. An Axially Aligned Rotationally Adjustable Flow Control Valve capable of complete shutoff for controlling the flow of fluids as in claim 1 further comprising a rotational stop, said rotational stop prevents the operator from rotating said central body more than 330 degrees, in relation to said inlet and outlet sections.