HYDRAULIC SYSTEM AND METHOD FOR DELIVERING ELECTRICITY, WATER, AIR, AND FOAM IN A FIREFIGHTING APPARATUS
First Claim
1. A firefighting apparatus comprising:
- a controller;
a hydraulic pump operable to supply a hydraulic fluid under pressure;
a water pumping subsystem comprising;
a first hydraulic motor powered by the hydraulic fluid under pressure;
a water pump driven by the first hydraulic motor operable to supply water under pressure to a conduit;
a water flow sensor configured to determine a flow rate of water in the conduit and provide the flow rate to the controller; and
a first control valve under the control of the controller to regulate the hydraulic fluid input to the first hydraulic motor and the water flow rate;
a chemical foam subsystem comprising;
a second hydraulic motor powered by the hydraulic fluid under pressure;
a foam pump driven by the second hydraulic motor operable to inject foam into the conduit;
a foam flow sensor configured to determine a flow rate of foam from the foam pump and provide the flow rate to the controller; and
a second control valve under the control of the controller to regulate the hydraulic fluid input to the second hydraulic motor and the foam flow rate;
an electrical power generator subsystem comprising;
a third hydraulic motor powered by the hydraulic fluid under pressure;
a generator driven by the third hydraulic motor operable to generate electrical power;
a third control valve under the control of the controller to regulate the hydraulic fluid input to the third hydraulic motor; and
the controller monitoring the electrical power output from the generator to control the third control valve;
an air compressor subsystem comprising;
a fourth hydraulic motor powered by the hydraulic fluid under pressure;
an air compressor driven by the fourth hydraulic motor operable to supply compressed air to an air line coupled to the conduit;
an air pressure sensor configured to determine a pressure of air in the air line and provide the air pressure to the controller; and
a fourth control valve under the control of the controller to regulate the hydraulic fluid input to the fourth hydraulic motor and the air pressure in the air line;
a hydraulic fluid cooling device receiving and cooling hydraulic fluid returned from the first, second, third, and fourth hydraulic motors; and
a hydraulic reservoir storing the cooled hydraulic fluid.
13 Assignments
0 Petitions
Accused Products
Abstract
A firefighting apparatus comprising a controller, and a hydraulic pump driven by a power-take-off and operable to supply a hydraulic fluid under pressure. A water pumping subsystem is powered by the hydraulic fluid and operable to supply water under pressure to a conduit, wherein a flow rate of water is substantially regulated by controlling the hydraulic fluid input to the water pumping subsystem. A chemical foam subsystem is powered by the hydraulic fluid and operable to inject foam at a predetermined flow rate into the conduit, wherein the flow rate of the foam is substantially regulated by controlling the hydraulic fluid input to the chemical foam subsystem. An electrical power generator subsystem is powered by the hydraulic fluid and operable to generate electrical power, wherein the frequency and voltage of the generated power is substantially regulated by controlling the hydraulic fluid input to the electrical power generator subsystem. A hydraulic fluid cooling device receives and cools the hydraulic fluid returned from the water pumping subsystem, chemical foam subsystem, and electrical power generator subsystem. A hydraulic reservoir further stores the cooled hydraulic fluid.
34 Citations
17 Claims
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1. A firefighting apparatus comprising:
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a controller; a hydraulic pump operable to supply a hydraulic fluid under pressure; a water pumping subsystem comprising; a first hydraulic motor powered by the hydraulic fluid under pressure; a water pump driven by the first hydraulic motor operable to supply water under pressure to a conduit; a water flow sensor configured to determine a flow rate of water in the conduit and provide the flow rate to the controller; and a first control valve under the control of the controller to regulate the hydraulic fluid input to the first hydraulic motor and the water flow rate; a chemical foam subsystem comprising; a second hydraulic motor powered by the hydraulic fluid under pressure; a foam pump driven by the second hydraulic motor operable to inject foam into the conduit; a foam flow sensor configured to determine a flow rate of foam from the foam pump and provide the flow rate to the controller; and a second control valve under the control of the controller to regulate the hydraulic fluid input to the second hydraulic motor and the foam flow rate; an electrical power generator subsystem comprising; a third hydraulic motor powered by the hydraulic fluid under pressure; a generator driven by the third hydraulic motor operable to generate electrical power; a third control valve under the control of the controller to regulate the hydraulic fluid input to the third hydraulic motor; and the controller monitoring the electrical power output from the generator to control the third control valve; an air compressor subsystem comprising; a fourth hydraulic motor powered by the hydraulic fluid under pressure; an air compressor driven by the fourth hydraulic motor operable to supply compressed air to an air line coupled to the conduit; an air pressure sensor configured to determine a pressure of air in the air line and provide the air pressure to the controller; and a fourth control valve under the control of the controller to regulate the hydraulic fluid input to the fourth hydraulic motor and the air pressure in the air line; a hydraulic fluid cooling device receiving and cooling hydraulic fluid returned from the first, second, third, and fourth hydraulic motors; and a hydraulic reservoir storing the cooled hydraulic fluid. - View Dependent Claims (2, 3, 4, 5)
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6. A firefighting system comprising:
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a controller; a hydraulic pump operable to supply a hydraulic fluid under pressure; a water pumping subsystem comprising; a first hydraulic motor powered by the hydraulic fluid under pressure; a water pump driven by the first hydraulic motor operable to supply water under pressure to a conduit; a water flow sensor configured to determine a flow rate of water in the conduit and provide the flow rate to the controller; and a first control valve under the control of the controller to regulate the hydraulic fluid input to the first hydraulic motor and the water flow rate; a chemical foam subsystem comprising; a second hydraulic motor powered by the hydraulic fluid under pressure; a foam pump driven by the second hydraulic motor operable to inject foam into the conduit; a foam flow sensor configured to determine a flow rate of foam from the foam pump and provide the flow rate to the controller; and a second control valve under the control of the controller to regulate the hydraulic fluid input to the second hydraulic motor and the foam flow rate; an electrical power generator subsystem comprising; a third hydraulic motor powered by the hydraulic fluid under pressure; a generator driven by the third hydraulic motor operable to generate electrical power; a third control valve under the control of the controller to regulate the hydraulic fluid input to the third hydraulic motor; and the controller monitoring the electrical power output from the generator to control the third control valve; a hydraulic fluid cooling device receiving and cooling hydraulic fluid returned from the first, second, third, and fourth hydraulic motors; and a hydraulic reservoir storing the cooled hydraulic fluid. - View Dependent Claims (7, 8, 9, 10, 11)
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12. A firefighting apparatus comprising:
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a controller; a hydraulic pump driven by a power-take-off and operable to supply a hydraulic fluid under pressure; a water pumping subsystem being powered by the hydraulic fluid and operable to supply water under pressure to a conduit, wherein the a flow rate of water is substantially regulated by controlling the hydraulic fluid input to the water pumping subsystem; a chemical foam subsystem being powered by the hydraulic fluid and operable to inject foam at a predetermined flow rate into the conduit, wherein the flow rate of the foam is substantially regulated by controlling the hydraulic fluid input to the chemical foam subsystem; an electrical power generator subsystem being powered by the hydraulic fluid and operable to generate electrical power, wherein the frequency and voltage of the generated power is substantially regulated by controlling the hydraulic fluid input to the electrical power generator subsystem; a hydraulic fluid cooling device receiving and cooling hydraulic fluid returned from the water pumping subsystem, chemical foam subsystem, and electrical power generator subsystem; and a hydraulic reservoir storing the cooled hydraulic fluid. - View Dependent Claims (13, 14, 15, 16, 17)
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Specification