The present invention relates to water pump assemblies. More particularly, this invention relates to a portable high volume water pump assembly for use in fire fighting operations.
In emergency situations, such as when a building, vehicle or other large object catches fire, a matter of seconds determines not only whether the object is a total loss, but whether lives could be at risk. It is therefore imperative that personnel trained to put out the fire arrive on the scene as quickly as possible. Furthermore, they must be provided with the proper extinguishing supplies with which they use to sequester the fire, such as water. Many rural and even urbanized areas of the world are not outfitted with a constant supply of pressurize water with the dedicated purpose of extinguishing fires such as fire hydrants.
Alternative sources therefore must often be used in order to battle many of these fires. One such example is a mobile tank mounted on a vehicle such as a fire engine for supplying the water. Unfortunately, these carry a very limited volume in which they can transport, are not always available in every community, and therefore may not provide the amount of water necessary to fully put out a large fire. Local sources of water such as swimming pools, ponds, or lakes have the potential to be a great source of water for fighting fires, but providing a means of getting the water out of the pool or pond and onto the fire in the very swift manner and in sufficient volume necessary to salvage the burning object proves difficult. Therefore it would be advantageous to have a portable and submersible means of pumping the water out of theses sources which can quickly be implemented in an emergency situation, and provide the fire fighters with a supply of water having high enough pressure and volume to quickly tend to the fire.
It is therefore an object of the present invention to provide a portable, hydraulically powered water pump useable for situations such as fire fighting and industrial dewatering.
Another object of the present invention is to provide a portable pump that is used in conjunction with a boom arm of a utility or firefighting vehicle, for placing the pump in a supply of water some distance away from the vehicle.
Another object of the present invention is to provide a portable high volume water pump which can be utilized in a water source such as a pond, pool, or on municipal pressure hydrants to boost output pressure.
Still, a further object of the present invention is to provide a portable, high volume pump which may be utilized in a water source having as little as two inches of water depth.
It is a further object to provide a pump that is simple in design and manufacturability and can be utilized in a plurality of applications.
These and other objects will be understood wherein the present invention discloses a portable, fully submersible high volume water pump, driven by a hydraulic powered motor, for rapidly supplying a large volume of water to an extinguishment operation involving a burning object or building, from a local water source such as a pond, pool, portable basin or municipal hydrant. The pump is fully portable and protected within an attached housing. In a preferred embodiment, it may be used in conjunction with an extensible boom arm of a utility vehicle such as a fire engine or other utility truck. The water pump is run from a vehicle mounted or portable pressure compensated load sensing hydraulic system, allowing for variable flow and pressure, and can supply water from a source having as little as two inches of water depth. The volume of water deliverable from the present invention is comparable to that delivered from a fire engine pump itself and may be utilized to directly extinguish or refill a supply of water on a vehicle for subsequent use.
Further areas of applicability of the present invention will become apparent from the detailed description provided hereinafter. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention.
The present invention will become more fully understood from the detailed description and the accompanying drawings, wherein:
The following description of the preferred embodiment(s) is merely exemplary in nature and is in no way intended to limit the invention, its application, or uses.
Referring now to the figures, in particular
Water pump 20 (also shown in
In some embodiments, the pump assembly 10 described herein is capable of discharging water at high volumes at high pressures. Commercially available water pumps for pumping fluids, for example water can deliver high volumes, but this is sacrificed for low pressure. The present disclosure provides advantages related to high volume and high-pressure pumps operable to deliver volumes ranging from about 10,000 L/per minute (L/min) to about 200 (L/min), from about 5,000 (L/min) to about 200 (L/min), from about 2000 (L/min) to about 200 (L/min), from about 1000 (L/min) to about 200 (L/min) or from about 500 (L/min) to about 200 (L/min), or from about 10,000 L/per minute (L/min) to about 500 (L/min), from about 10,000 (L/min) to about 1000 (L/min), from about 10,000 (L/min) to about 2000 (L/min), from about 10,000 (L/min) to about 5,000 (L/min) or from about 10,000 (L/min) to about 7,500 (L/min) In some embodiments, the volume of water discharged can be at least 10,000 (L/min), or at least 7,500 (L/min), or at least 5,000 (L/min), or at least 1,000 (L/min), or at least 500 (L/min), or at least 200 (L/min).
The operating volumes delivered by the pump assembly 10 of the present disclosure can operate at specific pressures designated by the user and in some embodiments meet and/or exceed fire service performance. The water pump of the present disclosure provides advantages that are not met in other portable, for example, truck mounted high water volume pumping systems, as these lack the sufficient pressure delivery required for fire rescue applications. In some embodiments, the operating pressures used to deliver the volumes of water described above can range from about 100 kPa (14.5 psi) to about 2100 kPa (305 psi), or from about 200 kPa (29 psi) to about 2100 kPa (305 psi), or from about 500 kPa (73 psi) to about 2100 kPa (305 psi), or from about 750 kPa (109 psi) to about 2100 kPa (305 psi), or from about 1000 kPa (145 psi) to about 2100 kPa (305 psi), or from about 1500 kPa (218 psi) to about 2100 kPa (305 psi).
In some embodiments, pump housing 21 further comprises a tangential pump output 27, which terminates in a flange plate 24 attached to a discharge elbow 61 having a complementary flange plate 66, by means of fasteners 26 positioned through the two plates 24 and 66.
Opposite intake screen 22 on pump 20, housing 21 attaches to the drive shaft housing 57, by means of the shaft housing flange 28 and mounting hardware 51. Referring now to
These lines, not shown, can optionally be stored on a reel mechanism for simplified disbursement and retraction while pump assembly 10 is being utilized. A hydraulic motor case drain 31 is connected between motor 30 and the hydraulic fluid output 34 in a venturi arrangement preventing a buildup of excess case pressures. The hydraulic fluid is supplied from a source mounted upon the vehicle or power unit used for implementing the pump. Attached to the body of hydraulic motor 30 is a mounting element 40, secured by means of a support collar 46 and threaded U-bolt 44. Mounting element 40, comprising an L-shaped mounting bracket, has a plurality of housing attachment apertures 42 therein for attaching pump assembly 10 within the pump housing 70 as shown in
Housing 70, manufactured from aluminum, steel, or other suitable material, comprises a rectangular container which protects pump assembly 10 from damage during transportation and storage and further provides protection of pump assembly 10 from large foreign matter entering the pump impeller and causing damage while in use. This is accomplished by providing housing 70 with a series of apertures 72 through which the water must flow into prior to being drawn into intake screen 22 of pump 20 located therein. Apertures 72 are numerous enough not to impede the pump's performance and supply delivery and are positioned low enough on housing 70 so as to allow the pump assembly to operate in as little as two inches of water as shown by numeral 74. One or more access apertures 78 may be positioned higher up on the housing for accessing the hydraulic pump or lines for maintenance or replacement.
As previously disclosed herein, pump housing 21 attaches to discharge elbow 61 which in turn is attached to a discharge pipe 60 running vertically up and out of the pump housing 21, parallel to pump assembly 10. Discharge pipe 60 terminates at an upper end 62 through the top side 79 of housing 70 and has a hose connector means 64 for sealably connecting to a flexible hose such as those of woven textiles. Upper end 62 of housing 70 further comprises a mounting plate 75, which receives a clevis-type shackle 76 therethrough for hanging assembly 10 from a boom-style utility arm 82 as shown in
The boom arm 82, shown attached to a utility vehicle 80, comprises a series of extensible members 86 which allow for the precise extension and positioning of the pump near the side in the preferred aspect of the final side. Therefore it is allowable to include the same therewith in incorporation pump assembly 10 over a source of water away from the vehicle such as a pond, swimming pool, portable basin, or municipal hydrant. With boom arm 82 extended over the source of water, the hook 84, holding pump assembly 10 by shackle 76, is lowered by a cable winch 89 until it is submerged to a point below intake apertures 72 located in the housing. The entire assembly can be fully submerged, with no loss of performance, and preferably should be lowered into the source as much as possible to assist in pump cooling and to avoid drawing in air that may cause the pump to cavitate and/or decrease the output pressure and volume. Once the supply of water needed has been furnished, hydraulic motor 30 is shut off from vehicle 80, or power unit, and cable winch 89 and boom arm 82 retract pump assembly 10 back to vehicle 80.
In an alternative embodiment, intake flange 23 of the present invention provides a further means for connecting assembly 10 to the discharge of a municipal hydrant so as to provide increased pressure therefrom, if desired.
The description of the invention is merely exemplary in nature and, thus, variations that do not depart from the gist of the invention are intended to be within the scope of the invention. Such variations are not to be regarded as a departure from the spirit and scope of the invention.
This application claims the benefit of U.S. Provisional Application No. 60/688,412, filed on Jun. 8, 2005, U.S. Non-Provisional application Ser. Nos. 11/449,843, filed on Jun. 8, 2006 and 12/221,250, filed Jul. 31, 2008. The disclosures of the above applications are incorporated herein by reference.
Number | Date | Country | |
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60688412 | Jun 2005 | US |
Number | Date | Country | |
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Parent | 11449843 | Jun 2006 | US |
Child | 12464076 | US |