GB2371096A - A pump seal flushing system for a vehicle fluid pump - Google Patents

Abstract

A pump seal flushing system for a vehicle fluid pump which includes a pump seal flushing ring 120 which comprises a generally planar surface 122 having inner and outer peripheries 128,126, the inner periphery 128 defining a passageway 124 for receipt of a pump seal. An annular cavity 130 is formed in the planar surface 122 about the inner periphery 128 of the passageway 124, the annular cavity having inner and outer walls 136,132 connected at a junction 134. The inner wall 136 of the cavity 130 has a plurality of openings 138 formed therein for fluid communication with a seal cavity. A fluid passageway 140 is formed integrally with the planar surface 122 and has inlet and outlet openings, the outlet opening being in communication with the annular cavity 130.

Description

PUMP SEAL FLUSHING SYSTEM

Technical Field The invention relates generally to a pump seal flushing system. More specifically, the present invention relates to a pump seal flushing system that includes a device that provides more uniform distribution of fluid around a pump seal face to reduce the risk of erosion and fatigue of the pump seal.

Background Art Vehicle coolant pumps, generally referred to as water pumps, incorporate a spring loaded face seal that is subjected to high temperatures, fast rotational speeds, and significant sealing forces. These seals are necessary to prevent leakage of fluid around a moving member, such as a rotating shaft. Common pump seals suffer from a variety of disadvantages, including high incidence of wear, failure due to thermal fatigue, and clogging due to particle accumulation. Failure of the seals obviously results in the undesirable transfer of fluid past the seal.

Current seals can wear in a variety of ways. One common way is due to uneven distribution of fluid surrounding the seal. This uneven distribution can result in the premature wear of the seal dramatically reducing its life. Additionally, if the seal is not sufficiently cooled, or is kept cool unevenly around its circumference, it can fail for this reason as well. While minimal leakage is not severe, and the seals can be replaced before seal wear causes catastrophic failure of the pump, longer lasting and more durable seals are desirable as they will decrease the overall cost of vehicle water pumps as well as allowing the length of their warranties to be increased.

Summary of the Invention

It is a general aim of the present invention to provide an improved sealing mechanism for rotating members. It is another aim of the present invention to provide an improved sealing mechanism which is more durable and longer lasting than present sealing mechanisms.

It is also an aim of the present invention to provide a device that controls the supply of flushing fluid to a sealing mechanism by redirecting it evenly around the seal through multiple flush port locations, thereby providing more uniform cooling of the seal. It is a further object of the present invention to provide a device that minimizes the potential for "hot spots"on an associated seal.

It is another aim of the present invention to provide a device that minimizes the risk of erosion of the seal.

In accordance with these and other aims of the present invention, there is provided pump seal flushing system, comprising: a generally planar surface having an inner periphery and an outer periphery, said inner periphery defining a shaft passageway therethrough; an annular cavity formed in said generally planar surface, said annular cavity including an outer wall and an inner wall connected at a junction; a plurality of openings formed in said inner wall for communicating a fluid into communication with a seal cavity; a fluid passageway formed integral with said planar surface and having an inlet opening and an outlet opening, said outlet opening in communication with said annular cavity to transfer fluid thereto.

Optionally, the inlet opening of said fluid passageway is disposed generally at the outer periphery of said generally planar surface.

The plurality of openings may be generally circular in shape and may be located in a single plane.

Optionally, the plurality of openings are uniformly distributed around said retaining wall.

A curved surface may be positioned at the junction to connect the inner wall with the outer wall and the inner surface may be generally tapered.

Also disclosed herein is a pump seal flushing ring for a water pump is provided.

The pump seal flushing ring includes a bottom annular surface, having an inner periphery and an outer periphery. The inner periphery defines an opening therein. The bottom annular surface is located distally with respect to a top annular surface. The top annular surface has an inner periphery and an outer periphery. A peripheral retaining wall extends between the outer periphery of the bottom annular surface and the inner periphery of the top annular surface. The peripheral retaining wall has an inner surface which defines a seal receiving cavity therewithin for receiving a portion of a pump seal. The peripheral retaining wall tapers gradually away from the seal receiving cavity as it extends from the bottom annular surface to the top annular surface. The peripheral retaining wall has a plurality of openings formed therein which are uniformly spaced about the periphery of the peripheral retaining wall.

Also disclosed herein is a mechanical pump seal device for a water pump. The device includes a top portion and a bottom portion. The bottom portion, includes a seal head portion comprised of an inner peripheral surface and an outer peripheral surface. An annular cavity is formed between the inner peripheral surface and the outer peripheral surface. The bottom portion also has a generally circular passageway formed therein for receipt of a rotatable shaft there through. The general circular passageway is bounded by an inner surface of the inner peripheral surface. A generally sloped retaining wall extends between the top portion and the bottom portion. The retaining wall has a plurality of openings formed therein which are distributed about the periphery of the retaining wall.

Other aims and features of the present invention will become apparent when received in light of the detailed description of the preferred embodiment when taken in conjunction with the attached drawings and appended claims.

Brief Description of the Drawings Figure 1 is a cross-sectional view of a pump housing incorporating a pump seal flushing ring in accordance with a preferred embodiment disclosed herein; Figure 2 is an exploded view of a pump seal flushing ring with a pump seal according to a preferred embodiment disclosed herein; Figure 3 is a perspective view of a pump seal flushing ring and pump seal assembly according to a preferred embodiment disclosed herein; Figure 4 is a perspective view of a pump seal flushing ring according to a preferred embodiment disclosed herein; Figure 5 is an end view of the pump seal flushing ring of Figure 4; Figure 6 is a side view of the pump seal flushing ring of Figure 4; Figure 7 is a perspective view of a integral pump seal flushing ring and seal head according to another preferred embodiment disclosed herein; Figure 8 is an end view of the integral pump seal flushing ring and seal head of Figure 7; Figure 9 is a cross-sectional view of the integral pump seal flushing ring and seal head of Figure 7; Figure 10 is a perspective view of a pump seal flushing ring according to another preferred embodiment disclosed herein Figure 11 is an end view of a pump seal flushing ring according to another preferred embodiment disclosed herein; and Figure 12 is a cross-sectional view of the pump seal flushing ring of Figure 10.

Best Mode (s) of the Invention

Figure 1 is a cross-sectional view of a portion of a fluid pump 10, such as a vehicle water pump, incorporating a flushing ring 12. The fluid pump 10 has a flushing ring 12 surrounding a pump sealing member 52 (or"seal") that separates the pump 10 into a first portion 14 and a second portion 16. The first portion 14 receives fluid from a fluid source and delivers it to a delivery site. The second portion 16 contains the mechanism for driving the pump 10 via a shaft 18 that extends through the flushing ring 12. The shaft 18 extends through the flushing ring 12 and is rotatable about an axis 19.

The pump 10 is preferably a water pump for use in a vehicle engine. However, the pump 10 may be used in a variety of automotive and non-automotive applications for pumping a variety of different fluids. Moreover, the pump may be utilized in any centrifugal pump application. The pump seal flushing ring 12 is preferably located at the junction between the first portion 14 of the pump 10 and the second portion 16 of the pump 10 to lubricate and cool a sealing mechanism that prevents fluid from flowing between the first portion 14 and the second portion 16.

Figures 2 through 6 illustrate the pump seal flushing ring 12 in accordance with a preferred embodiment disclosed herein. The directional

terms and"bottom","up"and"down"are used herein for directional purposes only and are not intended to be descriptive of actual location or orientation during use. The pump seal flushing ring 12 has a bottom annular surface or bottom portion 20 and a top annular surface or top portion 22. The bottom annular surface 20 is preferably located closer to the second portion 16 of the pump 10 than the top annular surface 22 when the ring 12 is installed in its operating position. The bottom annular surface 20 is preferably generally circular in shape and has an inner periphery 24 and an outer periphery 26. The inner periphery 24 defines a generally circular passageway 28 formed in the bottom annular surface 20.

The top annular surface 22 is preferably generally circular in shape and has an inner periphery 30, an outer periphery 32, and an opening 34 formed therein which is defined by the inner periphery 30. A retaining wall 36 extends between the bottom annular surface 20 and the top annular surface 22. The retaining wall 36 has an inner surface 38 and an outer surface 40. The inner surface 38 of the retaining wall . 36 defines a seal receiving chamber 42 for receipt of a pump seal therein.

The retaining wall 36 is preferably integral at a first end 44 with the outer periphery 26 of the bottom annular surface 20 and at a second end 46 with the inner periphery 30 of the top annular surface 22. The retaining wall 36 is preferably tapered and

gradually slopes away from the axis 19 as it extends from the bottom annular surface 20 to the top annular surface 22. It should be understood that the retaining wall 36 may extend between various portions of the flushing ring 12 and may be perpendicular, sloped towards the seal receiving chamber 42, curved, or any other conventional configuration.

The retaining wall 36 has a plurality of holes or orifices 48 formed therein. The plurality of holes 48 may be formed in any size and shape and any number of holes may be utilized. The holes 48 are preferably uniformly spaced around the seal receiving chamber 42 to communicate fluid evenly to a pump seal 52 positioned in the chamber 42. The number and size of the openings 48 are preferably provided in order to provide uniform flow of the flushing fluid around the periphery or circumference of the rotating shaft and sealing mechanism. A peripheral flange portion 50 extends generally upward from and perpendicular to the outer periphery 32 of the second annular surface 22.

As shown in Figures 2 and 3, the pump seal 52 is disposed within the seal receiving chamber 42. The pump seal 52 has a seal head 54 for contacting the bottom annular surface 20, a middle sealing portion 56, and an upper rotatable bearing portion 58 for engaging the driving shaft 18, as is well known. The pump seal 52 is thus positioned within the seal receiving cavity 42 and through the opening 28 in the bottom annular surface 20 such that no fluid passed to the pump seal

52 will leak from the first portion 14 of the pump 10 to the second portion 16 of the pump 10.

The use of a pump seal flushing ring 12 helps minimize the wear and failure of the pump seal 52. By uniformly distributing high pressure fluid through a plurality of holes 48 uniformly disposed about the retaining wall 42, the high pressure water will act evenly on all portions of the seal 52 such that it will wear uniformly and prolong its life. The holes 48 are preferably disposed such that one of the holes 48 is not in direct alignment with the flow of high pressurized fluid from the fluid source. Further, the configuration of the pump seal flushing ring 12 will remove particles preventing them from damaging the pump seal 52. Additionally, by supplying fluid to all portions of the pump seal 52, it will keep all portions of the pump seal 52 cool, minimizing the risk of failure due to"hot spots". The generally cone shaped configuration of the flushing ring 12 forces liquid to move in a certain direction and thus be evenly distributed around the face of the pump seal 52.

The flushing ring 12 is preferably constructed of a stainless steel material and preferably is formed by known stamping methods. The flushing ring 12, however, may be formed by any known forming method. Further, the flushing ring may be formed of any ferrous material or polymer.

Figures 7 through 9 illustrate an alternative preferred embodiment of a pump seal flushing ring 60. The alternative flush ring 60 includes a bottom portion 62, a top portion 64, and a middle portion 66 disposed between the bottom portion 62 and the top portion 64. The bottom portion 62 includes an outer peripheral wall 68 and an inner peripheral wall 70 which are joined by a bottom surface 72. The outer peripheral wall 68 extends upward from and generally perpendicular to the bottom surface 72 and into engagement with the middle portion 66. The inner peripheral wall 70 defines a shaft passageway 74 therewithin and has an axis 75 located at its centerline. The inner peripheral wall 70 has a first portion 76 that extends generally upward from and perpendicular to the bottom surface 72 and a second portion 78 that is offset away from the axis 75 with respect to the first portion 76 of the inner peripheral wall 70.

The middle portion 66 includes, a middle surface 80 and a retaining wall 86. The middle surface 80 extends generally outwardly from the outer peripheral wall 68 into contact with the retaining wall 86. The middle surface 80 has an inner surface 82 that contacts the outer periphery wall 68 of the bottom portion 62 and an outer surface 84 that is in communication with the retaining wall 86. The retaining wall 86 slopes upward and generally outward away from the axis 75 which passes through the middle point of the shaft passageway 74. The retaining wall 86 terminates in an upper surface 90 which has an inner portion 92 in communication with the retaining wall 86 and an outer portion 94 in communication with an upwardly extending flange 96. The upper surface 90 and the flange 96 form the top portion 64 of the flush ring 60. A plurality of holes 98 are formed through the retaining wall 86 and are preferably uniformly spaced about the retaining wall. Again, as with the prior embodiments, the number and shape of the holes may vary.

The flush ring 60 shown in Figures 7 through 9, is for receipt of a pump seal in a seal cavity 88, with a portion of the seal disposed within the passageway 74. The inner peripheral wall 70 is formed as an integral part of the pump seal flush ring 12 and replaces the seal head 54 in the prior embodiment. The bottom portion 62 of the flushing ring 60 communicates directly with the seal to be positioned in the seal cavity 88.

Figures 10 through 12 illustrate another alternative pump seal flush ring 120. The flush ring 120 includes a generally planar surface 122 with a passageway 124 formed therein for receipt of a pump seal. The planar surface 122 has an outer periphery 120 and an inner periphery 128 which defines the passageway 124. An annular cavity 130 is formed in the planar surface 122 about the inner periphery 128 of the passageway 124.

The annular cavity 130 includes a downwardly extending wall 132, a curved bottom portion 134 disposed at the bottom of the wall 132 and an inwardly and outwardly sloping retaining wall 136, connecting the curved bottom portion 134 with the planar surface 122. The retaining wall 136 has a plurality of holes 138 formed through for passage of fluid into communication with the seal disposed in the passageway 124.

A fluid passageway 140 is formed integral with the planar surface 122 and is in fluid communication through an opening 142 with the cavity 130 for passing fluid thereto. As shown, the opening 142 of the passageway 140 is not in direct alignment with one of the plurality of holes 138 so that the fluid will travel around the annular cavity and pass through the plurality of holes 138 in a uniform fashion. The passageway 140 is integrally formed as part of the flushing ring 120 to provide a selfcontained flushing system. The fluid in the annular cavity 130 is forced through the plurality of holes 138 and into contact with the pump seal through the holes formed in the retaining wall and in contact with the seal.

While particular embodiments of the inventor have been shown and described, numerous variations and alternate embodiments will occur to those skilled in the act. Accordingly, it is intended that the invention be limited only in terms of the appended claims.

Claims (8)

1. A pump seal flushing system, comprising : a generally planar surface having an inner periphery and an outer periphery, said inner periphery defining a shaft passageway therethrough; an annular cavity formed in said generally planar surface, said annular cavity including an outer wall and an inner wall connected at a junction; a plurality of openings formed in said inner wall for communicating a fluid into communication with a seal cavity; a fluid passageway formed integral with said planar surface and having an inlet opening and an outlet opening, said outlet opening in communication with said annular cavity to transfer fluid thereto.

2. A pump seal flushing system as claimed in claim 1, wherein said inlet opening of said fluid passageway is disposed generally at said outer periphery of said generally planar surface.

3. A pump seal flushing system as claimed in claim 1 or claim 2, wherein said plurality of openings are generally circular in shape.

4. A pump seal flushing system as claimed in any one of the preceding claims, wherein each of said plurality of openings are located in a single plane.

5. A pump seal flushing system as claimed in any one of claims 1 to 3, wherein said plurality of openings are uniformly distributed around said retaining wall.

6. A pump seal flushing system as claimed in any one of the preceding claims, wherein a curved surface is positioned at said junction to connect said inner wall with said outer wall.

7. A pump seal flushing system as claimed in claim 6, wherein said inner surface is generally tapered.

8. A pump seal flushing ring substantially as herein described with reference to the accompanying drawings.

8. A pump seal flushing system substantially as herein described with reference to the accompanying drawings.

Amendments to the claims have been filed as follows

1. A pump seal flushing ring, comprising : a planar surface having an inner periphery and an outer periphery, said inner periphery defining a shaft passageway therethrough; an annular cavity formed in said planar surface, said annular cavity including an outer wall and an inner wall connected at a junction; a plurality of openings formed in said inner wall for communicating a fluid into communication with a seal cavity; a fluid passageway formed integral with said planar surface and having an inlet opening and an outlet opening, said outlet opening in communication with said annular cavity to transfer fluid thereto.

2. A pump seal flushing ring as claimed in claim 1, wherein said inlet opening of said fluid passageway is disposed generally at said outer periphery of said planar surface.

3. A pump seal flushing ring as claimed in claim 1 or claim 2, wherein said plurality of openings are circular in shape.

4. A pump seal flushing ring as claimed in any one of the preceding claims, wherein each of said plurality of openings are located in a single plane.

5. A pump seal flushing ring as claimed in any one of claims 1 to 3, wherein said plurality of openings are uniformly distributed around said inner wall.

6. A pump seal flushing ring as claimed in any one of the preceding claims, wherein a curved surface is positioned at said junction to connect said inner wall with said outer wall.

7. A pump seal flushing ring as claimed in claim 6, wherein said inner wall is tapered.