1. Field of the Invention
The present invention relates to provers and, more particularly, to a sensor for detecting the rate and quantity of leaks about the translating shaft extending from the prover.
2. Description of Related Prior Art
U.S. Pat. Nos. 7,650,775 and 8,161,791 are owned by Flow Management Devices, LLC, the present Assignee. As the present invention is related to an important addition to provers of the type described in these two patents, both patents are incorporated herein by reference.
A purpose of a prover is to determine the quantity of fluid flowing therethrough. As a result, the measurements relating to such quantity of fluid must be extremely precise. To achieve this end, fluid flows in one end of a cylinder, which cylinder includes a piston rectilinearly translatable from a location proximate one end of the cylinder to a location proximate the other end of the cylinder. After translation of the piston, the fluid flows out of the other end of the cylinder. The piston is supported upon a shaft extending from each end of the cylinder and is supported by sealed bearings, seals and bearings, or the like. Leakage of fluid through the seals will have an impact upon the fluid flow measurements being undertaken. Such leakage is unacceptable if in excess of a small quantity per time.
If leakage beyond an acceptable quantity/rate occurs, the seals attendant the translating shaft must be replaced. Such replacement is not only expensive in terms of time to effect the repair but more importantly, the downtime of the prover is generally far more critical and fiscally devastating.
Some leakage through the sealed bearings attendant the shaft is likely to occur over time. When the leakage per time exceeds a predetermined amount, repair must be undertaken to maintain the integrity of the measurements provided by the prover.
None of the known prior art is capable of determining the quantity of leakage per time, other than in a very gross manner as a function of accumulation of the fluid on a surface beneath the leaking bearing.
The present invention includes a housing disposed at the outlet end of a cylinder and surrounding the shaft extending from a prover. Sealed bearings or bearings and seals are disposed about the shaft at the end of the cylinder. Leakage of fluid through the sealed bearings in communication with the interior of the prover is collected within an annular cavity about the shaft in the housing. A conduit extends from the annular cavity to a collection chamber. A liquid level sensor within the collection chamber provides a mechanical or an electrical signal reflective of the amount of fluid collected therein. This signal may be used to trigger an alarm, interface with communication or monitoring equipment or otherwise provide an indication of the level of fluid within the collection chamber. If an alarm occurs, appropriate maintenance and repair operations can be undertaken. A valve in fluid communication with the collection chamber accommodates draining of the collection chamber from time to time.
It is therefore a primary object of the present invention to provide an indication of the amount of fluid leakage through bearings supporting a shaft of a prover.
Another object of the present invention is to provide a collection chamber for collecting leakage of fluid through sealed bearings supporting the shaft of a prover.
Yet another object of the present invention is to provide a simple mechanical device for collecting fluid leaking through sealed bearings of a translatable shaft.
Still another object of the present invention is to provide a determination of whether the rate of leakage of a fluid through sealed bearings surrounding a translating shaft is within acceptable limits.
A further object of the present invention is to provide an electrical signal when fluid leakage through a sealed bearing supporting a shaft of a prover reaches a predetermined amount.
Yet another object of the present invention is to provide a method for monitoring the leakage rate of a fluid through a sealed bearing supporting a translating shaft of a prover.
A still further object of the present invention is to provide an electrical or visible signal when the quantity of fluid leakage through a sealed bearing supporting a translating shaft of a prover reaches a predetermined amount.
These and other objects of the present invention will become apparent to those skilled in the art as the description thereof proceeds.
The present invention will be described with greater specificity and clarity with reference to the following drawings, in which:
Referring to
Should such fluid leakage be in excess of a relatively small quantity over a period of time, the accuracy of prover 10 may be compromised. Since it is essentially impossible for practical reasons to completely eliminate any fluid leakage, it becomes important to determine the quantity of leakage over time.
Housing 20, along with the bearings and seals disposed therein, accommodates rectilinear translation of shaft 16. As some leakage of fluid is likely to occur, it is important to determine both the quantity and rate of leakage of fluid from within cylinder 14.
Referring jointly to
Referring to
As particularly shown in
From time to time, it may be prudent to empty chamber 50. A pipe 62, or the like, is in fluid communication with chamber 50 and conveys the fluid to a valve 64. Preferably, the valve includes a manually operated lever 66 for opening the valve and draining fluid from within chamber 50 through outlet 68. It is to be understood that outlet 68 may be connected to a pipe or the like for conveying the discharged fluid to a collection point.
While it is shown that housing 20 is cylindrical and attached to end plate 18 by bolts 22, the housing may be of other configuration. Moreover, it may be partially inserted within end plate 18 or it may be located on the interior surface of the end plate. Similarly, collection chamber 32 may be located anywhere in proximity to the prover as a function of practicality and convenience for an operator.
Under some circumstances, the collection chamber may be located within or as a part of housing 20. Similarly, the sensor may be located within the housing and provide a visible signal or an electrically generated signal. Necessarily, the capability for draining the collection chamber must be provided. The illustrated and described conduit may be simply a passageway, such as passageway 40, within the housing interconnecting the annular cavity with the collection chamber.