Information
-
Patent Grant
-
6234197
-
Patent Number
6,234,197
-
Date Filed
Monday, September 23, 199628 years ago
-
Date Issued
Tuesday, May 22, 200123 years ago
-
Inventors
-
Original Assignees
-
Examiners
Agents
-
CPC
-
US Classifications
Field of Search
US
- 004 321
- 004 323
- 114 197
- 137 4542
- 137 526
- 137 538
- 137 542
- 137 543
- 137 54321
- 137 557
- 137 587
-
International Classifications
-
Abstract
A plastic sewage holding tank in a boat, associated with a toilet, includes a vent check valve for providing vacuum relief. By mounting the vent check valve in the top of the tank, when the tank is being emptied by rapid pumpout implosion or other damage to the tank is prevented. The vent check valve may include a valve body with an interior surface mounting a quad sealing ring, with a valve element guided for reciprocal movement between a sealing position where an axially elongated substantially cylindrical peripheral surface of the valve element engages the quad ring, to an open position where the valve element is moved against spring bias away from the valve body. A spider, with a collar for guiding a shaft portion of the valve element, may mount a coil spring to provide a biasing action.
Description
BACKGROUND AND SUMMARY OF THE INVENTION
It has become increasingly common to provide sewage pumpout stations for boats at docks. In such installations, a pumpout pump is provided which is connected up to a sewage holding tank (typically of plastic) in the boat, and quickly pumps all of the sewage out of the tank. Most commercial pumps for these pumpout stations have a capacity of up 10 to about 40 gallons per minute (151 liters per minute), although capacities of as high as 170 liters per minute may be expected in the future. When such pumps are operated, it is difficult for the pump operator to know exactly when all the sewage has been pumped out of the holding tank, and the pump may stay in operation for a significant period of time, often up to about 30 seconds, after the tank has already been emptied. It has been recognized that this can exert a substantial strain on the holding tank, and can result in damage to the tank, or an implosion. Damage to the tank may result in leakage of sewage into the environment, obviously a highly undesirable event.
According to the present invention, an assembly is provided which solves the problem of possible holding tank damage as a result of rapid pumpout of the sewage from the tank at a dockside pumpout station. According to the present invention, vacuum relief is provided, typically in the form of a vent check valve, in the holding tank to prevent implosion or other damage to the tank associated with rapid pumpout through an outlet conduit and pumpout fitting. The vacuum relief means is capable of providing sufficient air flow into the holding tank so that if the holding tank is emptied by a 170 liter per minute pump remaining in operation for 30 seconds after the plastic holding tank has been emptied, no damage to the holding tank ensues.
The vent check valve utilized in the practice of the present invention preferably comprises a conventional vent check valve including a valve body, a reciprocal valve element, and a coil spring engaging the valve element and biasing the valve element so that it is in sealing relationship with the valve body. The coil spring has a spring constant sufficient to prevent the valve element from moving to an open position as a result of the boat hull being subjected to rough water.
The holding tank also typically includes an indicator of the fullness (e.g. at least an indicator of three-quarters fullness of the tank), and a gas vent, which typically is connected to a gas filter. Also, the tank outlet conduit can include in addition to a first branch which has a dockside pumpout fitting, a second branch connected to a pump within the boat, which in turn is connected to a seacock for discharge in open water where environmental regulations permit.
The vent check valve also typically provides means for guiding movement of the valve element with respect to the valve body from a sealing position engaging the valve body and preventing passage of fluid (ambient air) from outside the holding tank through the valve to inside the tank, to an open position allowing passage of fluid (air) from outside of the holding tank through the valve to inside the tank.
The valve body element may include an interior surface mounting a first sealing ring (such as a quad ring), and the valve element includes an axially elongated substantially cylindrical peripheral surface, the peripheral surface engaging the sealing ring in the sealing position. Typically the valve element includes a top and a bottom, with the peripheral surface extending between the top and the bottom. The top has a tapered peripheral edge portion of a smaller diameter than the cylindrical peripheral surface, and the bottom includes an annular ledge having a larger diameter than the substantially cylindrical peripheral surface, and for engaging the valve body to stop movement of the valve element, under the bias of the biasing means, in the sealing position.
The valve body may have an outer peripheral substantially cylindrical surface having at least one sealing ring (such as an O-ring, or a pair of O-rings) mounted thereby, and an external diameter. The holding tank comprises a top surface having a tubular element therein having an inner surface with an inner diameter slightly greater than the external diameter of the valve body outer peripheral surface. The valve body outer peripheral surface is disposed within the tubular element with the O-rings in sealing engaging the tubular element inner surface.
The means for guiding movement of the valve element preferably comprises: A shaft portion of the valve element substantially concentric with and extending upwardly away from the valve element substantially cylindrical peripheral surface. A spider disposed within the valve body interior surface, spaced from the second sealing ring. And, a collar connected to the spider, the collar receiving the shaft portion therein and guiding reciprocation of the shaft portion. Preferably the biasing means comprises: A coil spring having first and second ends thereof, and wherein the valve element further comprises a screw threaded end part of the shaft portion and a nut screw threaded thereon so that the position of the nut with respect to the valve element elongated peripheral cylindrical surface may be adjusted. And, wherein the coil spring first end engages the spider and the coil spring second end engages the nut, the coil spring being compressed between the nut and the spider.
The invention comprises both a boat assembly where the holding tank and other elements are mounted within the boat hull, and a sewage holding tank assembly per se which typically is used in a boat but may also be used in a recreational vehicle or the like.
It is a primary object of the present invention to provide a desirable holding tank assembly with vacuum relief, most desirably for use in a boat. This and other objects of the invention will become clear from an inspection of the detailed description of the invention and the appended claims.
BRIEF DESCRIPTION OF THE DRAWINGS
FIG. 1
is a schematic view, partly in cross-section, of a boat assembly according to the present invention;
FIG. 2
is a side view, mostly in cross-section but partly in elevation, of a first embodiment of an exemplary vacuum relief means of the assembly of
FIG. 1
, showing a valve element biased to its closed position;
FIG. 3
is a view like that of
FIG. 2
only showing the valve element moved to an open position to allow air to flow into the holding tank to prevent implosion or like damage;
FIG. 4
is a side view, partly in cross-section and partly in elevation, of a second embodiment of a holding tank assembly according to the present invention;
FIG. 5
is a side view, partly in cross-section (taken along lines
5
—
5
of
FIG. 7
) and partly in elevation, of the vent check valve in the embodiment of
FIG. 4
showing the valve in the closed, sealing, position;
FIG. 6
is a view like that of
FIG. 5
only showing the valve in the open position; and
FIG. 7
is a top plan view of the valve body of the embodiment of FIGS.
5
and
6
.
DETAILED DESCRIPTION OF THE DRAWINGS
A boat assembly according to the present invention is shown generally by reference numeral
10
in FIG.
1
. It includes a boat hull
11
which defines an interior boat volume (perhaps with other structure such as a deck
12
and a super structure above the deck). A toilet
14
is mounted within the interior boat volume (e.g. on deck
12
), and is connected by a hose
15
or the like to an inlet
16
to a plastic holding tank
17
. The holding tank
17
has a top
18
, closed side walls
19
, and a bottom
20
, and is also mounted within the interior boat volume (typically below the deck
12
). The holding tank
17
has an outlet
21
which is connected to an outlet conduit
22
. The outlet conduit
22
includes at least one branch
23
which is connected to a dockside pumpout fitting
24
(e.g. associated with deck
12
). The outlet conduit
22
can also have a second branch
25
which is connected to a small pump
26
also mounted within the interior boat volume, which in turn is connected by a hose
27
, typically having a vented loop
28
, to a seacock
29
. The vented loop
28
is vented as indicated by vent line
30
and vent opening
31
in hull
11
.
As typically associated with a tank
17
, a gas vent line
33
is preferably provided, which may have a filter
34
therein, and a vent opening
35
in the hull
11
. Also an indicator
37
of the fullness of the tank
17
at at least one fullness level thereof, is provided. The indicator
37
may, for example, be a Tankwatch® level indicator sold by Sealand Technology, Inc. of Big Prairie, Ohio. The indicator
37
typically at least by indicates a three-quarters fullness level of the tank
17
, and preferably also an approximately full level.
What has heretofore been described is conventional. What is provided according to the present invention in order to prevent an implosion of the tank
17
, or other damage thereof, due to rapid pumpout through the outlet conduit
22
and dockside pumpout fitting
24
, is the vacuum relief means
40
. The vacuum relief means may comprise a structure that is good for only one use, such as a frangible element which will break at a lower force than the tank walls when the interior of the tank
17
is subjected to vacuum; or a simple flexible material (e.g. flapper valve) disposed inside the top
18
of the tank for releasably sealing a plurality of holes formed in the top
18
; or a variety of other structures known per se to be responsive to vacuum. Preferably, however, the vacuum relief means
40
comprises a vent check valve, one embodiment of which is seen in each of
FIGS. 1 through 3
. The vacuum relief means
40
per se of
FIGS. 1-3
is similar to a vent check used in the RV and mobile home industry, except that the biasing spring thereof is much stronger in order to prevent inadvertent opening due to rough seas, and provides a vacuum relief function rather than a venting function.
As seen in
FIG. 2
, the vacuum relief means (vent check valve)
40
typically comprises a valve body
41
of ABS, or like plastic, including a ring shaped element
42
defining an interior circular opening
43
which cooperates with a movable valve element, shown generally by reference numeral
44
. The bottom tubular portion
45
of the body
41
preferably has external threads
46
associated therewith which cooperate with internal threads
47
on a collar or fitting
48
upstanding from the top
18
(see
FIG. 2
) of the holding tank
17
.
The movable valve element
44
preferably comprises a plastic pin
49
having a head
50
at one end thereof and connected at the other end
52
thereof to an elastomeric material (e.g. rubber) disc
53
. The disc
53
has a diameter larger than the diameter of the opening
43
, in the valve body
41
, and when it engages the ring shaped portion
42
of the valve body
41
it seals the opening
43
.
Guiding means are provided in the form of the valve pin
49
guided for reciprocating motion in the directions of arrows
55
(
FIG. 2
) by a guiding sleeve
56
mounted by spider arms
57
to the ring
42
of the valve body
41
. Spring means, such as a conical coil spring
59
, are provided for biasing the valve element
44
to the closed position illustrated in FIG.
2
. Typically the coil spring
59
is mounted between the ring shaped portion
42
of the valve body
41
and the underside of the head
50
of the pin
49
. Reciprocal movement of the pin
49
in the direction of the arrows
55
is stopped by the top of the sleeve
56
, and by the inside top surface
61
of a valve cap
62
, also of plastic and having at least two vent slots
63
formed therein to allow a sufficient volume of air to pass into the tank
17
to prevent implosion or like damage.
It is necessary that the spring constant of the spring
59
be great enough so that the disc
53
will be held tightly in sealing engagement with the ring
42
of the valve body
41
even when the hull
11
is subjected to rough water, otherwise sloshing sewage could exit the tank
17
through the vacuum relief
40
.
FIG. 3
shows the vacuum relief means
40
in the position it will assume when the tank
17
is being evacuated by a dockside pump connected up to the fitting
24
. Ambient air rushes through the slits
63
and the opening
43
, past the elastomeric disc
53
into the interior of the tank
17
. The opening
43
, constant of the spring
59
, and slit
63
must be dimensioned so that the tank
17
can be emptied with a 170 liter per minute positive displacement pump that remains in operation about 30 seconds after emptying the tank
17
without causing any structural damage to tank
17
. Both the sewage, and in rushing air after the sewage has been pumped out, exit the tank
17
through the outlet conduit
22
, and first branch
23
thereof, passing the fitting
24
.
FIGS. 4 through 7
illustrate a second embodiment of a sewage holding tank
117
, with a second embodiment of a vent check valve
140
, according to the present invention. In
FIGS. 4 through 7
structures comparable to those in
FIGS. 1 through 3
are shown by the same reference numeral only preceded by “
1
”.
In the
FIG. 4
the plastic holding tank
117
is shown having a significantly different shape than the tank
17
, and it has the outlet
121
and outlet conduit
122
at the top
118
thereof, rather than at the bottom, with a downwardly extending plastic pipe
65
with a substantially oval large opening at the bottom just above the tank bottom
120
. The inlet
114
is also in the top
118
as is the tubular element
148
extending upwardly from the top surface
118
of the tank
117
.
The valve element
153
includes a bottom flange
70
having a larger diameter than the substantially cylindrical elongated peripheral surface
71
portion thereof (see FIGS.
5
and
6
). A tapered peripheral edge portion
72
of a smaller diameter than the surface
71
defining portion extends between the surface
71
and the top
73
of the valve element
153
. The peripheral surface
71
cooperates, for sealing engagement, with a sealing ring, such as the quad ring
75
of elastomeric material (e.g. natural or synthetic rubber or a flexible plastic) which is seated in a channel
76
in the interior surface
143
of the valve body
141
. A concentric depression
74
may be provided in the top
73
of the valve element
153
, if desired, as illustrated in FIG.
5
.
The tubular valve body
141
has a ring
142
adjacent the bottom thereof which mounts the quad sealing ring
75
in the channel
76
. The valve body
141
also has an outer peripheral substantially cylindrical surface
146
having at least one sealing ring
77
mounted in a channel
78
therein. Preferably two axially spaced sealing rings
77
in channels
78
are provided as illustrated in
FIGS. 5 and 6
. The sealing rings
77
preferably are rubber or plastic O-rings as illustrated in
FIGS. 5 and 6
. The valve body
141
also has an upper largest diameter flange
79
which engages the top of the tubular element
148
as illustrated in FIG.
4
. The surface
146
has a diameter slightly smaller than the interior diameter of the inner surface
90
(see
FIG. 4
) the tubular element
148
, and the O-rings
77
(engaging the surface
90
) and the flange
79
preclude gas from moving between the interior and exterior of the tank
117
between the element
148
and the valve body
141
.
In the
FIGS. 4 through 7
embodiment guided reciprocal movement of the valve element
153
between the sealing position of FIG.
5
and the open, air passing, position of
FIG. 6
is provided by the shaft
149
, spider
80
and collar
81
. The shaft
149
extends substantially concentrically and upwardly from the valve element
153
, and can be connected to the element
153
by a screw
152
(see
FIG. 5
) passing into an interior screw threaded opening within the shaft
149
. The spider
80
has three or more arms as illustrated most clearly in
FIG. 7
, and preferably is integrally molded as part of the valve body
141
. The axially extending, elongated, collar
81
, having an interior diameter slightly greater than the exterior diameter of the shaft
149
, also is preferably integral with the spider
80
, as illustrated in
FIGS. 5 and 6
. The gas flow passages
84
are provided between the arms of the spider
80
and the interior surface
143
of the valve body
141
.
On the upper end of the shaft
149
screw threading
86
is provided, which receives a nut
87
which can adjust position with respect to the screw threaded portion
86
. The nut
87
abuts a washer
150
. The substantially cylindrical coil compression spring
159
is compressed between the washer
150
and the top of the spider
80
. While a coil compression spring is preferred, other spring biasing means such as leaf springs, blocks or tubes of elastomeric material, spiral springs, ring springs, volute springs, or Bellville springs, or the like, may be utilized.
The particular construction of the vent check valve
140
allows ready replacement in the top
118
of the tank
117
merely by pulling the valve body
141
upwardly, yet provides a positive seal due to the presence of the O-rings
77
and the flange
79
. Also the particular construction of the valve element
153
, the guiding means provided by the shaft
149
, spider
80
and collar
81
, and the particular construction of the valve body
141
, are very simple, inexpensive, and reliable, and also may be readily easily replaced. Also this construction allows maximum ambient air flow into the tank
117
(through openings
84
, past tapered edge
72
) if a high vacuum condition exists in the tank
117
.
In a typical assembly and operation of the vent check valve
140
, first the valve body
141
is pressed into the tubular element
148
interior surface
90
, sealing provided by the O-rings
77
and flange
79
. The nut
87
is adjusted on the threaded shaft
86
to compress the coil spring
159
a desired amount so that the valve element
153
will open at a predetermined desired level of vacuum inside the tank
117
. In normal usage the spring
159
pushes the flange
70
of the movable valve element
153
against the ring
142
, and the passage of air between the interior surface
143
of the valve body
141
and the peripheral surface
71
of the valve element
153
is precluded by the seal at the quad sealing ring
75
which has a substantial positive sealing engagement with the surface
71
, and by flange
70
.
During pumpout of the tank
117
, should all of the sewage be removed therefrom and the pump still operate, the vacuum condition inside the tank
117
will act on the large surface of the movable valve element
153
, and pull it downwardly, against the bias of the spring
159
, to the open position illustrated in FIG.
6
. In this open position ambient can easily, freely, and in large volume flow from exteriorly of the tank through the open spaces
84
and between the surfaces
72
,
71
of the valve element
153
and the interior of the valve body
141
.
It will thus be seen that according to the present invention a simple yet effective vacuum relief mechanism is provided for a boat assembly
10
, or holding tank assembly
17
,
117
, which will not compromise the integrity of the holding tank
17
,
117
when the boat is subjected to rough seas, yet will prevent implosion or structural damage to the holding tank
17
,
117
when it is rapidly pumped out at a dockside pumping station. While the invention has been herein shown and described in what is presently conceived to be the most practical and preferred embodiment thereof many modifications may be made thereof within the scope of the invention, which scope is to be accorded the broadest interpretation of the appended claims so as to encompass all equivalent structures and devices.
Claims
- 1. A boat assembly, comprising:a boat hull defining an interior boat volume; a toilet within the interior boat volume; a sewage holding tank operatively connected to said toilet, and also within said interior boat volume, said tank capable of implosion or being permanently deformed if rapidly pumped out; an outlet conduit from said holding tank, and including a dockside pumpout fitting; an indicator of the fullness of said holding tank at at least one level of fullness thereof; a gas vent from said holding tank; and means for providing vacuum relief for said holding tank to prevent implosion or other damage to said tank associated with said rapid pumpout of said tank through said outlet conduit and pumpout fitting comprising a vent check valve which comprises: a valve body; a movable valve element mounted interiorly of said valve body and said holding tank; means for guiding movement of said valve element with respect to said valve body from a sealing position engaging said valve body and preventing passage of fluid from outside said holding tank through said valve to inside said tank, to an open position allowing passage of fluid from outside of said holding tank through said valve to inside said tank; and spring means for biasing said valve element into said sealing position, in engagement with said valve body.
- 2. An assembly as recited in claim 1 wherein said valve body includes an interior surface mounting a first sealing ring; and wherein said valve element includes an axially elongated substantially cylindrical peripheral surface, said peripheral surface engaging said sealing ring in said sealing position.
- 3. An assembly as recited in claim 2 wherein said valve element includes a top and a bottom, said elongated substantially cylindrical peripheral surface extending between said top and said bottom; said top having a tapered peripheral edge portion of smaller diameter than said elongated substantially cylindrical peripheral surface, and said bottom including an annular ledge having a larger diameter than said elongated substantially cylindrical peripheral surface, and for engaging said valve body to stop movement of said valve element under the bias of said biasing means in said sealing position.
- 4. An assembly as recited in claim 2 wherein said first sealing ring comprises a quad ring.
- 5. An assembly as recited in claim 2 wherein said valve body has an outer peripheral substantially cylindrical surface having at least one second sealing ring mounted thereby and an external diameter; and wherein said holding tank comprises a top surface having a tubular element therein having an inner surface having an inner diameter slightly greater than said external diameter of said valve body outer peripheral substantially cylindrical surface; said valve body outer peripheral substantially cylindrical surface disposed within said tubular element, said valve body at least one second sealing ring sealingly engaging said tubular element inner surface.
- 6. An assembly as recited in claim 2 wherein said means for guiding movement of said valve element comprises: a shaft portion of said valve element substantially concentric with and extending upwardly away from said valve element substantially cylindrical peripheral surface; a spider disposed within said valve body interior surface, spaced from said second sealing ring; and a collar connected to said spider, said collar receiving said shaft portion therein and guiding reciprocation of said shaft portion.
- 7. An assembly as recited in claim 6 wherein said biasing means comprises a coil spring having first and second ends thereof, and wherein said valve element further comprises a screw threaded end part of said shaft portion and a nut screw threaded thereon so that the position of said nut with respect to said valve element elongated peripheral cylindrical surface may be adjusted; and wherein said coil spring first end engages said spider and said coil spring second end engages said nut, said coil spring being compressed between said nut and said spider.
- 8. An assembly as recited in claim 1 wherein said spring means exerts sufficient force to prevent said valve element from moving to said open position as a result of said hull being subjected to rough water.
- 9. An assembly as recited in claim 1 wherein said vacuum relief means is capable of providing sufficient airflow into said holding tank so that if said holding tank is emptied by a 170 liters/min. pump remaining in operation about 30 seconds after said holding tank has been emptied of sewage, no damage to said holding tank ensues.
- 10. An assembly as recited in claim 1 wherein said outlet conduit pumpout fitting is provided in a first branch of said outlet conduit, and wherein said outlet conduit further comprises a second branch; and further comprising a pump mounted within said interior boat volume and connected to said second branch, and a seacock operatively connected to said pump; and wherein said holding tank is made of plastic.
- 11. A sewage holding tank assembly comprising:a plastic sewage holding tank having a top and a bottom, a hollow interior, and an exterior; an outlet conduit from said holding tank and including a dockside pumpout fitting; a vent for said holding tank, adjacent said top thereof for allowing passage of gas under pressure from said tank to the exterior thereof; an inlet conduit for feeding sewage into said holding tank; and a vent check valve mounted to said holding tank top for allowing passage of air from exterior of said tank to the interior of said tank when a significant vacuum condition exists within said tank; and wherein said vent check valve comprises: a valve body; a movable valve element mounted interiorly of said valve body and said holding tank; means for guiding movement of said valve element with respect to said valve body from a sealing position engaging said valve body and preventing passage of fluid from outside said holding tank through said valve to inside said tank, to an open position allowing passage of fluid from outside of said holding tank through said valve to inside said tank; and spring means for biasing said valve element into said sealing position, in engagement with said valve body.
- 12. An assembly as recited in claim 11 wherein said valve body includes an interior surface mounting a first sealing ring; and wherein said valve element includes an axially elongated substantially cylindrical peripheral surface, said peripheral surface engaging said sealing ring in said sealing position.
- 13. An assembly as recited in claim 12 wherein said valve element includes a top and a bottom, said elongated substantially cylindrical peripheral surface extending between said top and said bottom; said top having a tapered peripheral edge portion of smaller diameter than said elongated substantially cylindrical peripheral surface, and said bottom including an annular ledge having a larger diameter than said elongated substantially cylindrical peripheral surface, and for engaging said valve body to stop movement of said valve element under the bias of said biasing means in said sealing position.
- 14. An assembly as recited in claim 12 wherein said valve body has an outer peripheral substantially cylindrical surface having at least one second sealing ring mounted thereby and an external diameter; and wherein said holding tank comprises a top surface having a tubular element therein having an inner surface having an inner diameter slightly greater than said external diameter of said valve body outer peripheral substantially cylindrical surface; said valve body outer peripheral substantially cylindrical surface disposed within said tubular element, said valve body at least one second sealing ring sealingly engaging said tubular element inner surface.
- 15. An assembly as recited in claim 14 wherein said means for guiding movement of said valve element comprises: a shaft portion of said valve element substantially concentric with and extending upwardly away from said valve element substantially cylindrical peripheral surface; a spider disposed within said valve body interior surface, spaced from said second sealing ring; and a collar connected to said spider, said collar receiving said shaft portion therein and guiding reciprocation of said shaft portion.
- 16. An assembly as recited in claim 15 wherein said spring biasing means comprises a coil spring having first and second ends thereof, and wherein said valve element further comprises a screw threaded end part of said shaft portion and a nut screw threaded thereon so that the position of said nut with respect to said valve element elongated peripheral cylindrical surface may be adjusted; and wherein said coil spring first end engages said spider and said coil spring second end engages said nut, said coil spring being compressed between said nut and said spider.
- 17. A sewage holding tank assembly as recited in claim 11 wherein said vent check valve is capable of providing sufficient airflow into said plastic holding tank so that if said plastic holding tank is emptied by a 170 liters/min. pump remaining in operation about 30 seconds after said holding tank has been emptied of sewage, no damage to said plastic holding tank ensues.
US Referenced Citations (12)
Foreign Referenced Citations (3)
Number |
Date |
Country |
2742671 |
Oct 1972 |
AU |
41 12 888 A1 |
Oct 1991 |
DE |
4 31 367 A1 |
Mar 1993 |
DE |