Fluid handling – Processes – Cleaning – repairing – or assembling
Reexamination Certificate
2001-03-21
2003-06-24
Watson, George L. (Department: 3753)
Fluid handling
Processes
Cleaning, repairing, or assembling
C137S015170, C137S015180, C138S093000, C138S094000, C138S097000
Reexamination Certificate
active
06581620
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to valves. More particularly, this invention relates to apparatus and processes for repairing or replacing gate valves, quarter turn ball valves, quarter turn cylindrical plug valves, butterfly valves, and full bore diaphragm valves.
BACKGROUND OF THE INVENTION
Through passage of time and extended usage seatings of closing members of gate valves, ball valves, cylindrical plug valves, butterfly valves, and full bore diaphragm valves tend to degrade, become obstructed by debris, or misalign. Also, through time and use, valve actuator seals and bearings tend to wear and degrade. Where such undesirable degrading of valve components occurs, the valve must be removed and replaced, or removed and disassembled for maintenance. Where such a valve controls fluid flow emanating from a fluid bearing tank or pipe, removal of the valve is commonly achieved by initially purging fluid upstream of the valve. Yet, in many instances, the volume of fluid contained upstream is too great to conveniently purge. Oil storage tanks commonly pose such a problem. The problem also arises where the upstream fluid is borne by a pipeline under pressure. The volume of upstream fluid may be limitless where the valve in need of repair controls pipeline flow.
The instant inventive apparatus and method advantageously eliminates the valve repair step of purging upstream fluid by providing a novel and inventive plugging tool adapted for extension upstream through the bore of the valve to be repaired or replaced, and by providing novel method and process steps directed to utilization of such tool.
BRIEF SUMMARY OF THE INVENTION
A major structural element of the inventive tool utilized in the present inventive method, comprises a rigid tube having a rearward end, a forward end, and a hollow bore extending from the rearward end to the forward end. The dimensions of valves upon which the inventive tool is to be used determines a minimum length for such rigid tube. For example, where the inventive tool is to be utilized upon a valve having an eighteen inch bore, the rigid tube would need to be at least eighteen inches long. However, upon full insertion of the tool through the bore of a valve, it is preferred that one foot to eighteen inches of tube length remain protruding rearwardly from the downstream end of the valve; such protrusion providing contact surfaces for firm, two handed grasping of the tube. Preferably, the outside diameter of the tube is approximately one inch, further facilitating firm manual grasping.
For strength and durability, the rigid tube may comprise a steel pipe. However, where volatile flammable fluids are present, the rigid tube may be composed of brass or PVC plastic, reducing spark ignition hazards.
A second major structural element of the inventive valve repair or replacement tool comprises an elastic air bladder having a port, the port being fixedly attached to the forward end of the rigid tube for communication of air between the hollow bore of the tube and the interior space of the bladder. The elastic bladder is preferably composed of vulcanized rubber or other suitable synthetic elastomere.
Preferably, the port of the elastic air bladder comprises an outwardly extending annular flange or collar whose inside diameter is closely fitted for slidable mounting over the forward end of the rigid tube. Such port configuration advantageously provides an outer annular surface for application of a compression band such as a common hose clamp, a crimp ring, a magniform ring, or a heat shrink ring. Such compression band attaching means secures the port upon the forward end of the rigid tube. Alternately, a spirally threaded metal fitting may be molded into the elastic air bladder as an integral part of its port. Such spirally threaded attaching means may threadedly engage with spiral threads cut into the forward end of the rigid tube. Further alternately, wire frapping may comprise the attaching means. Also alternately, the port may be adhesively bonded to the forward end of the rigid tube. Suitably, though less desirably, the linkage between the port and the rigid tube may comprise a simple friction joint.
A third major structural element of the present inventive valve tool comprises air flow control means operatively connected to the rigid tube. Necessarily, the air flow control means permits injection of air into the rearward end of the rigid tube for forward flow therethrough, the air emitting from the forward end of the rigid tube and inflating the elastic air bladder. The air flow control means must further function to alternately permit and resist rearward air flow within the rigid tube, allowing the elastic air bladder to remain in an inflated state until deflation is desired. A preferred air flow control means comprises a spring assisted check valve of the type commonly utilized upon pneumatic tires. Such check valve may be installed in axial alignment in line with the rearward end of the rigid tube; such installation avoiding expansion of the profile of such tube. Suitably and alternately, the air flow control means may comprise a manually openable and closeable quarter turn ball valve, plug valve, or butterfly valve. Where such a valve is utilized as the air flow control means, the valve is necessarily selected to have exterior dimensions small enough for passage through the bore of valves upon which the tool is used.
Where the air flow control means comprises a simple rearwardly extending check valve, air may be injected into such valve for inflation of the elastic air bladder by means of a common bicycle pump. However, it is difficult for a single operator to manipulate both the valve tool and a bicycle pump; and bicycle pumps inject air at an undesirably slow rate. The preferred source of compressed air is an air line extending from an air tank or extending from a reciprocating piston air compressor. Ideally, the distal end of such air line comprises quick attaching and detaching means such as a floating ball and sleeve coupling. Preferably, the rearward end of the rigid tube is sized and channeled for engagement with such coupling.
For enhancement of control of the valve tool and of air flow, it is also preferred that the distal end of such air line comprise a manually operable quarter turn ball valve or cylindrical plug valve. Utilization of such valve conveniently avoids causing the steps of attaching and detaching the coupling to occur simultaneously with steps of injecting air and interrupting air injection.
Preferably, the elastic air bladder is durable, having a blow out pressure greater than the air driving capacity of the air injection means. However, for purposes of additional safety, it is preferred that the distal end of such air line further comprise a pressure relief valve, such valve being adapted for diverting injected air to the outside atmosphere prior to inflation of the elastic air bladder to its blow out point.
The present inventive method of utilizing the inventive valve tool comprises an initial step of closing a gate valve, a ball valve, a cylindrical plug valve, a full bore diaphragm valve, or a butterfly valve. Upon closure of such valve, any structure attached to the downstream end of such valve such as a flexible hose, a rigid pipe, or a tank, is removed from such valve, exposing the downstream end of the bore of such valve.
The next sequential step of the inventive method comprises opening the valve. An occasion for utilization of the inventive tool and method arises where the upstream end of the valve is attached to a fluid bearing tank such as an oil tank, or to a fluid bearing pipe. Upon opening of the valve, such fluid begins to emit onto the ground; or preferably, into a catch basin provided by the operator.
The next immediate sequential step of the inventive method comprises insertion of the forward end of the valve tool into or through the bore of the valve. Necessarily, the outside diameters of the elastic air bladder in its deflated state, and the rigid tube are fitted for passage through such bore. T
Babcock Dennis
Lyon Randal
Davis & Jack, LLC
Jack Kenneth H.
Watson George L.
LandOfFree
Method and apparatus for repairing or replacing valves does not yet have a rating. At this time, there are no reviews or comments for this patent.
If you have personal experience with Method and apparatus for repairing or replacing valves, we encourage you to share that experience with our LandOfFree.com community. Your opinion is very important and Method and apparatus for repairing or replacing valves will most certainly appreciate the feedback.
Profile ID: LFUS-PAI-O-3100371