Seal for a joint or juncture – Seal combined with indicator – sampler – or inspection feature – Wear – proper seating – or presence
Reexamination Certificate
1998-06-03
2003-07-22
Sandy, Robert J. (Department: 3676)
Seal for a joint or juncture
Seal combined with indicator, sampler, or inspection feature
Wear, proper seating, or presence
Reexamination Certificate
active
06595523
ABSTRACT:
FIELD OF THE INVENTION
This invention relates to seals which are positioned between two members to maintain a fluid tight sealing relationship between the two members and the seal. More particularly, this invention relates to mechanical seals of the type in which the seal maintains a fluid tight sealing relationship in conjunction with continuous external pressure applied to the seal.
BACKGROUND OF THE INVENTION
Machinery often includes members which move with respect to each other. Bearings have long been used to facilitate such movement. Bearings may be used to aid in transmitting forces from one member to another and to reduce friction. Rolling elements may often be used in bearings to reduce friction, such as in ball bearings. Bearings may often contain lubricant to reduce the friction created within the bearing.
Leakage of fluid from between mechanical parts has long been a problem. Contamination of the bearings or seals with foreign material such as dirt has also long been a problem. Both loss of fluid and contamination may lead to increased friction and wear within the structure, damaging the structure and perhaps damaging the machinery.
Seals composed of a soft polymeric material may be used with bearings to prevent lubricant leakage and contamination. The polymeric material contacts a moving surface in the bearing and provides a seal. Friction between the polymeric material and the moving surface gradually wears the surface of the polymeric material away. If the polymeric material becomes too worn, it may no longer form a fluid tight seal against the moving surface, and fluid leakage from the bearing and contamination of the bearing may again become problems.
In other instances, metal or polymeric seals may be placed between moving parts. This arrangement may be particularly useful when the movement is a reciprocal, rotating or oscillating movement. Non-limiting illustrations of such seals include a piston and cylinder structure, hatches, air locks, doors, covers, lids and caps. With regard to such seals as found in hatches, air locks, doors, covers, lids and caps, the interfitting members may be said to reciprocate with respect to each other, in the sense of opening and closing with regard to each other. However, when a seal is in fluid tight sealing relationship between such interfitting members, the seal may more properly be termed a static or stationary seal, since the interfitting members and the interposed seal are all stationary with regard to each other while the integrity of the sealing relationship is maintained. In certain types of members which are reciprocating with respect to each other, the seal may be made so that it always makes contact with the piston connecting rod and the connecting rod is electrically insulated from the piston barrel. Sealing integrity or effectiveness may also be compromised by cracking, breaking, loss of flexibility or deterioration due to such conditions as repeated flexing, bending and/or compression, or length of contact with various fluids or container contents.
Various methods have been developed to prevent or detect leakage past a seal. As shown in U.S. Pat. No. 4,761,023, one method involves monitoring the pressure of the fluid on the high pressure side of the seal, with a loss of pressure indicating leakage past the seal. Alternatively, as shown in U.S. Pat. No. 4,290,611, the fluid pressure on the low pressure side of the seal may be monitored, with an increase in pressure indicating fluid leakage. A third method, such as that shown in U.S. Pat. No. 4,178,133, uses colored fluid and visual monitoring of leakage past a seal. Still other methods involve manual maintenance procedures, wherein seals are inspected or replaced on a regular basis.
These various methods to prevent or detect leakage past a seal have not proven satisfactory due to a number of problems. A problem with monitoring fluid pressure is that it is only effective to detect leakage of the fluid. Often this is too late to prevent damage. It is desired that the seal be replaced before leakage has begun. Similarly, visual monitoring of fluid leakage can only indicate that leakage has begun, not that leakage is about to begin. A problem with manual inspection of a seal is that it requires an inspector who is not only trained but also diligent. Often seals are not inspected merely due to neglect or lack of diligence. Another problem with manual inspection is that it may require the machinery to be stopped during the inspection, which can be inconvenient. Scheduled seal replacement also has problems. Seals may wear more or less quickly depending on operating conditions, and scheduled seal replacement may occur too early (before the seal needs to be replaced) or too late (after the seal starts leaking).
An excellent solution to these problems has been provided by the inventions disclosed in my U. S. Pat. No. 5,540,448, issued Jul. 30, 1996, entitled SEAL WITH ELECTRICAL CONDUCTOR WEAR INDICATOR and in my U.S. Pat. No. 5,246,235, issued Sep. 21, 1993, entitled SEAL WITH EMBEDDED WIRE. However, it has recently been determined that some seals may not be able to be monitored by installing a circuit on the sealing surface or embedding the circuit in the seal, in the manner described in my two previous patents. This may be because the design and/or the function of the particular seal or the sealing environment in which the seal is located will not permit any extraneous material at or on the sealing surface of the seal without compromising the fluid tight sealing integrity of the seal. In certain applications, the tolerances of the sealing surfaces may be measured in wave lengths of light. In other applications, the composition of the material of the seal body may not be compromised, without also compromising sealing integrity. Examples of seal environments in which sensors may not be placed on the sealing surface are found in apparatus such as mixers, doubled-ended pumps, vertical pumps, reactors, clarifiers, agitators, vacuum pumps and other similar equipment subject to moderate shaft runout and end play.
Generally speaking, such seals require the application of continuous external pressure to maintain fluid tight sealing integrity. External pressure may be applied by the use of springs, air pressure, packing nuts, hydraulic pressure, or any other similar external force. Such seals may be found in conjunction with parts which are moving, reciprocating and/or stationary with respect to each other. For convenience, a seal of this type will be referred to herein as a “mechanical seal.”
The present invention is particularly adapted to work with mechanical seals, which require the application of continuous external pressure to maintain fluid tight sealing integrity. According to the present invention, the wear on the sealing surface of these mechanical seals may be monitored by placing a sensor or conductor on the seal, at a position opposed to the sealing surface, such as on the back or opposite side of the sealing surface. The wear on the sealing surface may then be monitored by measuring the amount of movement of the seal away from a predetermined starting point.
SUMMARY OF THE INVENTION
The present invention provides a mechanical seal for recognizing excessive seal wear and the need for seal replacement before fluid leakage past the seal occurs. The seal is placed between members or surfaces which may be moving (e.g., rotating, reciprocating, etc.) or static with respect to each other and forms a seal with the moving member or between the static members to prevent fluid leakage. The seal is in engaged contact with and between the surfaces to prevent passage of fluid between either of the members and the seal. The seal is more readily deteriorated than at least one of the members. The seal is designed and adapted to maintain a fluid tight sealing relationship with the members in conjunction with externally applied pressure, so long as the seal has not deteriorated beyond a specified degree. An electrical conductor for determining seal wear is comprised of two mating pa
Sandy Robert J.
Schwing Karlena D
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