Apparatus for testing the ability of a filter to filter contaminants

US 20030078751A1
Filed: 06/25/2002
Published: 04/24/2003
Est. Priority Date: 12/18/1998
Status: Active Grant

First Claim

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1. A controlled contamination test system for automatically testing a fluid filter or other hydraulic component or system according to one or more test parameters, the test system positioned at a first location and including:

a. a test fluid path having substantially a closed loop path through the hydraulic component under test;

b. a controller, capable of receiving one or more operational parameters associated with the hydraulic component test system, that monitors one or more of the operational parameters, controls the operation of the test system and calculates and reports the results of a test conducted by the hydraulic component test system, the controller including;

memory that stores data related to the operational parameters monitored by the controller during the course of a test and capable of storing a test program; and

a test program, stored in the memory, that includes one or more test parameters specifying how the test is to be conducted, for operating the controller in the course of the test;

c. a local input device operably connected to the controller and configured to convey to the test program one or more test parameters;

d. a test fixture that houses the hydraulic component to be tested, the test fixture including inlet and outlet connections in fluid communication with the test fluid path;

e. a main fluid reservoir system, operably connected to and controlled by the controller and capable of containing a supply of fluid that is substantially free of contaminants before a test is commenced, and including a main fluid reservoir tank having a fluid inlet and a fluid outlet, the inlet and outlet each in fluid communication with the test fluid path;

f. a contaminant injection system capable of containing a supply of contaminated fluid, including;

at least one contaminant tank, each tank capable of containing a supply of contaminated fluid and having a fluid outlet in fluid communication with the test fluid path upstream of the test fixture, for introducing contaminants into the fluid flowing into the test component; and

a contaminant fluid flow control device, operably connected to and controlled by the controller and in fluid communication with and positioned between each contaminant tank outlet and the test fluid path, that controls the flow of fluid from each contaminant tank into the test fluid path upstream of the test fixture;

g. a contaminant monitoring system, including;

an upstream contaminant monitor, operably connected to and controlled by the controller and having an inlet in fluid communication with the test fluid path at a position near the inlet of the test fixture, that monitors the contaminant level of fluid in the test fluid path upstream of the test fixture and reports the monitored contaminant level to the controller; and

a downstream contaminant monitor, operably connected to and controlled by the controller and having an inlet in fluid communication with the test fluid path at a position near the outlet of the test fixture, that monitors the contaminant level of fluid in the test fluid path downstream of the test fixture and reports the monitored contaminant level to the controller;

h. a component fluid pressure monitoring system, operably connected to the controller and in fluid communication with the test fluid path near the inlet of the test fixture and near the outlet of the test fixture, that monitors the pressure change across the test fixture and reports the monitored pressure change to the controller;

i. a pumping system, operably connected to and controlled by the controller and in fluid communication with the test fluid path, that controllably drives fluid through the test fluid path; and

j. a system fluid flow rate measuring device, operably connected to the controller and in fluid communication with the test fluid path in substantial proximity to the test fixture, that measures the fluid flow rate through the test fixture and reports the measured fluid flow rate to the controller;

wherein the test program operates the controller to conduct a test of the test component, including controlling the operation of the hydraulic component test system in response to one or more test parameters and one or more operational parameters reported to the controller.

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Abstract

The present invention is directed towards an apparatus for testing hydraulic components. The apparatus includes a test fixture for housing a hydraulic component to be tested, the test fixture including inlet and outlet connections; a first fluid reservoir containing fluid substantially free of contaminants before a test is commenced and including inlet and outlet connections; a first fluid channel that connects the outlet of the fluid reservoir to the inlet of the test fixture; a test pump positioned in and connected to the first fluid channel for pumping fluid to the inlet of the test fixture; a first junction positioned in the first fluid channel; a second junction positioned in the first fluid channel between the inlet of the test fixture and the first junction; a first contaminant monitoring system having inlet and outlet connections, with the inlet connected to the second junction for receiving fluid the second junction diverts from the inlet of the test fixture, for monitoring the contaminants in the fixture inlet fluid; a second fluid channel that connects the outlet of the test fixture to the inlet of the first reservoir; a third junction positioned in the second fluid channel; a second contaminant monitoring system having inlet and outlet connections, with the inlet connected to the third junction for receiving fluid the third junction diverts from the outlet of the test fixture, for monitoring the contaminants in the fixture outlet fluid; a pressure monitor connected to the second and third junctions for measuring the pressure drop across the inlet and outlet of the test fixture; and a contaminant injection system for injecting a predetermined charge of contaminants into the inlet of the test fixture. The contaminant system includes a plurality of second fluid reservoirs, each capable of containing a slurry consisting of a known volume of fluid mixed with a charge of contaminants of known mass, each second reservoir including an inlet for receiving fluid, an inlet for receiving a charge of contaminants and an outlet for discharging the contaminant slurry; a first valve connected to the outlets of each second reservoir and to the first junction for connected the outlet of one second reservoir to the first junction; a third fluid channel that connects the outlet of the first fluid reservoir to each of the second fluid reservoirs for filling the second fluid reservoirs with substantially clean fluid from the first fluid reservoir; and a second valve positioned in can connected to the third fluid channel and the fluid inlets of each of the second reservoirs for switchably connecting the outlet of the first reservoir to selected fluid inlets of the second reservoirs. The first valve can be positioned to allow one second reservoir to discharge a contaminant slurry into the first junction while the second valve is positioned to allow at least one other second reservoir to receive fluid from the first reservoir via the third fluid channel.

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30 Claims

1. A controlled contamination test system for automatically testing a fluid filter or other hydraulic component or system according to one or more test parameters, the test system positioned at a first location and including:
- a. a test fluid path having substantially a closed loop path through the hydraulic component under test;
  
  b. a controller, capable of receiving one or more operational parameters associated with the hydraulic component test system, that monitors one or more of the operational parameters, controls the operation of the test system and calculates and reports the results of a test conducted by the hydraulic component test system, the controller including;
  
  memory that stores data related to the operational parameters monitored by the controller during the course of a test and capable of storing a test program; and
  
  a test program, stored in the memory, that includes one or more test parameters specifying how the test is to be conducted, for operating the controller in the course of the test;
  
  c. a local input device operably connected to the controller and configured to convey to the test program one or more test parameters;
  
  d. a test fixture that houses the hydraulic component to be tested, the test fixture including inlet and outlet connections in fluid communication with the test fluid path;
  
  e. a main fluid reservoir system, operably connected to and controlled by the controller and capable of containing a supply of fluid that is substantially free of contaminants before a test is commenced, and including a main fluid reservoir tank having a fluid inlet and a fluid outlet, the inlet and outlet each in fluid communication with the test fluid path;
  
  f. a contaminant injection system capable of containing a supply of contaminated fluid, including;
  
  at least one contaminant tank, each tank capable of containing a supply of contaminated fluid and having a fluid outlet in fluid communication with the test fluid path upstream of the test fixture, for introducing contaminants into the fluid flowing into the test component; and
  
  a contaminant fluid flow control device, operably connected to and controlled by the controller and in fluid communication with and positioned between each contaminant tank outlet and the test fluid path, that controls the flow of fluid from each contaminant tank into the test fluid path upstream of the test fixture;
  
  g. a contaminant monitoring system, including;
  
  an upstream contaminant monitor, operably connected to and controlled by the controller and having an inlet in fluid communication with the test fluid path at a position near the inlet of the test fixture, that monitors the contaminant level of fluid in the test fluid path upstream of the test fixture and reports the monitored contaminant level to the controller; and
  
  a downstream contaminant monitor, operably connected to and controlled by the controller and having an inlet in fluid communication with the test fluid path at a position near the outlet of the test fixture, that monitors the contaminant level of fluid in the test fluid path downstream of the test fixture and reports the monitored contaminant level to the controller;
  
  h. a component fluid pressure monitoring system, operably connected to the controller and in fluid communication with the test fluid path near the inlet of the test fixture and near the outlet of the test fixture, that monitors the pressure change across the test fixture and reports the monitored pressure change to the controller;
  
  i. a pumping system, operably connected to and controlled by the controller and in fluid communication with the test fluid path, that controllably drives fluid through the test fluid path; and
  
  j. a system fluid flow rate measuring device, operably connected to the controller and in fluid communication with the test fluid path in substantial proximity to the test fixture, that measures the fluid flow rate through the test fixture and reports the measured fluid flow rate to the controller;
  
  wherein the test program operates the controller to conduct a test of the test component, including controlling the operation of the hydraulic component test system in response to one or more test parameters and one or more operational parameters reported to the controller.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26, 27)
- - 2. The controlled contamination test system of claim 1, wherein the operational parameters reported to the controller and used by the test program to conduct the hydraulic component include:
    - the pressure change across the test fixture;
      
      the fluid flow rate through the test fixture; and
      
      the contaminant levels measured by the upstream and downstream contaminant monitors.
  - 3. The controlled contamination test system of claim 1, further including a local monitor device, operably connected to the controller, that receives from the controller and displays at least one operational parameter reported to the controller and the test results reporting by the controller.
  - 4. The controlled contamination test system of claim 1, further including:
    - a second location separate from the first location;
      
      a communication system, operably connected to the controller and serving as a communications link between the first and second locations, that links the hydraulic component test system at the first location to the second location;
      
      a remote monitor device, operably connected to the communication system, located at the second location and operably connected to the controller via the communication system, that receives from the controller and displays at least one operational parameter reported to the controller.
  - 5. The controlled contamination test system of claim 4, further including a remote input device, operably connected to the communication system, located at the second location and operably connected to the controller, that conveys to the test program one or more test program parameters.
  - 6. The controlled contamination test system of claim 4 in which the communication system includes a telephone system.
  - 7. The controlled contamination test system of claim 4 in which the communication system includes the Internet.
  - 8. The controlled contamination test system of claim 1, wherein the main fluid reservoir system includes:
    - a main fluid reservoir tank support structure, connected to the main fluid reservoir tank and positioned at the first location, that supports the main fluid reservoir tank at the location, the main fluid reservoir tank support structure further including a first scale operably connected to the controller and positioned with respect to the first reservoir tank to measure the mass of fluid in the first reservoir tank.
  - 9. The controlled contamination test system of claim 8, wherein:
    - the main fluid reservoir tank includes a first external fluid supply fluid inlet, capable of being in fluid communication with an external supply of fluid, that fills the main fluid reservoir tank with fluid prior to the controller conducting the test of the hydraulic component;
      
      the first fluid reservoir system further includes a first external fluid supply flow control device, capable of being in fluid communication with an external fluid supply, in fluid communication with the main fluid reservoir tank external fluid supply fluid inlet, and operably connected to and controlled by the controller, that controls the flow of fluid from an external fluid supply into the main fluid reservoir tank under control of the controller; and
      
      the controller test program further includes a program that controls the first external fluid supply flow control device to fill the main fluid reservoir tank with a predetermined amount of fluid prior to the controller conducting the test of the hydraulic component, the main fluid reservoir tank fill program including a program that orders the first external fluid supply flow control device to stop the flow of fluid from an external fluid supply into the main fluid reservoir tank in response to a reported mass measurement from the first scale that indicates the amount of fluid in the in the main fluid reservoir tank has reached the predetermined amount of fluid.
  - 10. The controlled contamination test system of claim 9, wherein the main fluid reservoir tank fill program includes a predetermined value for the density of the fluid being filled, a predetermined value for the volume of fluid equivalent to the predetermined amount of fluid, and a program for converting the mass measurement reported by the first scale into an equivalent volume measurement based on the density of the fluid.
  - 11. The controlled contamination test system of claim 1, wherein;
    - the upstream contaminant monitor includes;
      
      an upstream measuring fluid path, in fluid communication with the inlet of the upstream contaminant monitor, that diverts fluid from the fluid path;
      
      an upstream automatic particle counter, in fluid communication with the upstream measuring fluid path and operably connected to and controlled by the controller, that automatically counts particles of contaminants in the fluid passing through the upstream measuring fluid path and reports the upstream contaminant particle count to the controller; and
      
      an upstream measuring fluid path flow control and flow rate measuring device, in fluid communication with the upstream measuring fluid path and operably connected to and controlled by the controller, that controls and measures the flow of fluid through the upstream measuring fluid path flow path and reports the measured flow rate to the controller;
      
      wherein the controller test program includes a program that controls the upstream measuring fluid path flow control and flow rate measuring device, the program receiving as inputs the flow rate of fluid through the upstream measuring fluid path and the flow rate of fluid through the test fixture, calculates a desired upstream measuring fluid path flow rate and causes the controller to control the upstream measuring path fluid flow control and flow rate measuring device to achieve the desired upstream measuring fluid path flow rate; and
      
      the downstream contaminant monitor includes;
      
      a downstream measuring fluid path, in fluid communication with the inlet of the downstream contaminant monitor, that diverts fluid from the test fluid path;
      
      a downstream automatic particle counter, in fluid communication with the downstream measuring fluid path and operably connected to and controlled by the controller, that automatically counts particles of contaminants in the fluid passing through the downstream measuring fluid path and reports the downstream contaminant particle count to the controller; and
      
      a downstream measuring fluid path flow control and flow rate measuring device, in fluid communication with the downstream measuring fluid path and operably connected to and controlled by the controller, that controls and measures the flow of fluid through the downstream measuring fluid path flow path and reports the measured flow rate to the controller;
      
      wherein the controller test program includes a program that controls the downstream measuring fluid path flow control and flow rate measuring device, the program receiving as inputs the flow rate of fluid through the downstream measuring fluid path and the flow rate of fluid through the test fixture, calculates a desired downstream measuring fluid path flow rate and causes the controller to control the downstream measuring fluid path flow control and flow rate measuring device to achieve the desired downstream measuring fluid path flow rate.
  - 12. The controlled contamination test system of claim 11, wherein:
    - the upstream measuring fluid path flow control and flow rate measuring device and the downstream measuring fluid path flow control and flow rate measuring device each include;
      
      a first capillary in fluid communication with the respective upstream and downstream measuring fluid paths and having an inlet and an outlet;
      
      a first capillary pressure monitor, operably connected to the controller and in fluid communication with the inlet and outlet of the first capillary, that measures the pressure change across the first capillary and reports the measurement to the controller; and
      
      a first controllable valve, in fluid communication with the first capillary and operably connected to and controlled by the controller, that controls the fluid flow through the first capillary; and
      
      the controller test program further includes a program that controls the fluid flow through the first capillary of the upstream measuring fluid path flow control and flow rate measuring device and the downstream measuring fluid path flow control and flow rate measuring device in response to the respective pressures reported by the associated first capillary pressure monitors.
  - 13. The controlled contamination test system of claim 12, wherein at least one first controllable valve includes a first needle valve.
  - 14. The controlled contamination test system of claim 12, wherein at least one first controllable valve includes:
    - a first needle valve; and
      
      a first stepping motor connected to each first needle valve and operably connected to and controlled by the controller, that adjusts the opening of the associated first needle valve to control the flow of fluid through the associated first capillary in response to the controller test program.
  - 15. The controlled contamination test system of claim 1, wherein the pumping system includes:
    - a test pump, in fluid communication with the test fluid path and adapted to be driven by a hydraulic motor, that pumps fluid through the test fluid path;
      
      a hydraulic motor, coupled to the test pump, that drives the test pump;
      
      first hydraulic fluid lines in fluid communication with the hydraulic motor; and
      
      a hydraulic drive pump, in fluid communication with the first hydraulic fluid lines, that provides the volume of fluid flow in the first hydraulic lines to drive the hydraulic motor.
  - 16. The controlled contamination test system of claim 15, wherein the test system further includes:
    - a test pump drive motor, coupled to the hydraulic pump and operably connected to and controlled by controller; and
      
      wherein the hydraulic pump is a variable displacement pump having a rotor and operably connected to and controlled by the controller such that the controller can control the pitch of the rotor, thereby controlling the volume of fluid transmitted by the hydraulic pump to the hydraulic motor via the first hydraulic lines and in turn controlling the rotational speed of the hydraulic motor.
  - 17. The controlled contamination test system of claim 1, wherein the contaminant injection system includes:
    - a contaminated fluid flow rate measuring device that measures the flow rate of contaminated fluid from the contaminant injection system into the test fluid path and reports the measurements to the controller; and
      
      wherein the controller test program further includes a program that causes the controller to control the contaminant fluid flow control device to control the flow of contaminated fluid into the test fluid path in response to the contaminated fluid flow rate measured and reported to the controller by the contaminated fluid flow rate measuring device.
  - 18. The controlled contamination test system of claim 17, wherein:
    - the contaminant injection system includes a support structure for each contaminant tank, connected to the associated contaminant tank, that supports the contaminant tank relative to the first location;
      
      the contaminated fluid flow rate measuring device includes second scales, operably connected to the controller, one second scale uniquely associated with each contaminant tank and attached to the associated contaminant tank support structure, that measures the mass of contaminated fluid in its associated contaminant tank and reports the measurement to the controller; and
      
      the controller test program further includes a value relating the density of the contaminated fluid in each contaminant tank to its fluid volume and a program that calculates the fluid flow rate from each contaminant tank into the fluid test path based on the change in the mass reported by the associated second scales of the associated contaminant tank with respect to time.
  - 19. The controlled contamination test system of claim 17, wherein the contaminated fluid flow rate measuring device is in fluid communication with the fluid test path and the contaminated fluid flow control device and includes:
    - a second capillary in fluid communication with the fluid test path and the contaminated fluid flow control device and having an inlet and an outlet; and
      
      a second capillary pressure monitor, operably connected to the controller and in fluid communication with the inlet and outlet of the second capillary, that measures the pressure change across the second capillary and reports the measurement to the controller; and
      
      the contaminated fluid flow control device includes;
      
      a second controllable valve, in fluid communication with the second capillary and operably connected to and controlled by the controller, that controls the fluid flow through the second capillary; and
      
      the controller test program further includes a program that controls the fluid flow through the second capillary in response to the pressure reported by the second capillary pressure monitor.
  - 20. The controlled contamination test system of claim 19, wherein the second controllable valve includes:
    - a second needle valve; and
      
      a second stepping motor connected to the second needle valve and operably connected to and controlled by the controller, that adjusts the opening of the second needle valve to control the flow of fluid through the second capillary in response to the controller test program.
  - 21. The controlled contamination test system of claim 17, wherein:
    - the contaminant injection system includes a first metering pump, operably connected to the controller and in fluid communication with the test fluid path, the contaminated fluid flow rate measuring device, and the contaminant fluid flow control device, that provides controllable pressure to the contaminated fluid injected by the contaminant injection system into the test fluid path; and
      
      the controller test program further includes a program that causes the controller to control the metering pump and the contaminant fluid flow control device to control the flow of contaminated fluid into the test fluid path in response to the contaminated fluid flow rate measured and reported to the controller by the contaminated fluid flow rate measuring device.
  - 22. The controlled contamination test system of claim 1, further including:
    - a dilution system, connected to and controlled by the controller, including;
      
      a reservoir containing a supply of relatively clean fluid in fluid communication with the inlet of the upstream contaminant monitor;
      
      a valve, connected to and controlled by the controller, in fluid communication with and between the inlet of the upstream contaminant monitor and the dilution system reservoir; and
      
      a flow meter in fluid communication with and between the inlet of the upstream contaminant monitor and the dilution system reservoir, that monitors and reports to the controller the rate of flow of fluid from the dilution system to the inlet of the upstream contaminant monitor;
      
      the upstream contaminant monitor includes an upper threshold on its ability to measure the concentration of contaminants; and
      
      the controller test program further includes a program that controls the dilution system valve to administer fluid from the dilution system reservoir to the upstream contaminant monitor in response to reports from the upstream contaminant monitor that the measured level of contaminants is at or near the upper threshold of the upstream contaminant monitor and adjusts the contaminant measurements reported by the upstream contaminant monitor by the amount of fluid flow to the upstream contaminant monitor from the dilution system reservoir measure by the dilution system flow meter.
  - 23. The controlled contamination test system of claim 1, wherein:
    - the contaminant injection system further includes;
      
      a plurality of N contaminant reservoir tanks, where N is greater than or equal to 2, each tank being capable of containing fluid and having a fluid inlet, a fluid outlet and a contaminant inlet; and
      
      N volume determining devices, each device uniquely associated with a particular contaminant reservoir tank and operably connected to the controller, that determines an indicia of the volume of fluid in the particular contaminant reservoir tank and reports that volume indicia to the controller;
      
      the contaminant fluid flow control device includes a contaminant tank switch operably connected to and controlled by the controller and having N inlets and 1 outlet, the N inlets each connected to the fluid outlet of one of the contaminant reservoir tanks and the outlet in fluid communication with the test fluid path and the contaminant fluid flow control device, that switchably selects which one contaminant reservoir tank is in fluid communication with the test fluid path and the contaminant fluid flow control device; and
      
      the controller test program includes a program for monitoring the volume of fluid in each contaminant reservoir tank, including the particular contaminant reservoir tank currently connected through to the contaminant tank switch outlet, detecting when the volume of fluid in the currently connected contaminant reservoir tank has fallen below a predetermined threshold, and causing the controller to switch the contaminant tank switch to connect to the contaminant tank switch outlet a different contaminant reservoir tank, the different contaminant reservoir tank containing a volume of fluid greater than a predetermined threshold.
  - 24. The controlled contamination test system of claim 1, wherein:
    - the contaminant injection system includes;
      
      a supply of substantially clean fluid;
      
      a clean fluid delivery device in fluid communication with the clean fluid supply and operably connected to and controlled by the controller; and
      
      a contaminant tank volume measuring device, operably connected to the controller, that determines the volume of fluid in each contaminant tank and reports the volume to the controller;
      
      each contaminant tank includes;
      
      a contaminant inlet capable of receiving a predetermined mass of contaminants; and
      
      a clean fluid inlet in fluid communication with the clean fluid delivery device, that receives fluid from the supply of substantially clean fluid; and
      
      wherein the controller test program further includes a program that causes the controller to operate the clean fluid delivery device, in response to the contaminant tank volume reported by the contaminant tank volume measuring device, to fill at least one contaminant tank with a predetermined volume of fluid.
  - 25. The controlled contamination test system of claim 24, wherein:
    - the local input device includes a provision for entering as a test parameter a value for the predetermined mass of contaminants placed in each contaminant tank via the contaminant inlet; and
      
      the controller test program further includes a program that calculates the gravimetric density of contaminants in each contaminant tank based on the value for the predetermined mass of contaminants placed in each tank and the volume in the associated contaminant tank reported by the contaminant tank volume measuring device at the time the contaminants are placed in each tank.
  - 26. The controlled contamination test system of claim 24, wherein:
    - the contaminant injection system includes an automatic contaminant injector for each contaminant tank, each automatic contaminant injector operably connected to and controlled by the controller, connected to the associated contaminant inlet of the associated contaminant tank and capable of containing a supply of contaminants, that injects into the associated contaminant tank a predetermined mass of contaminants; and
      
      the controller test program further includes a program that causes the controller to order a particular contaminant injector to inject its predetermined mass of contaminants into the associated contaminant tank previously filled with a known volume of fluid and calculates the gravimetric density of contaminant in the particular contaminant tank based on the value for the predetermined mass of contaminants and the volume of fluid in the associated contaminant tank.
  - 27. The controlled contamination test system of claim 24, wherein:
    - contaminant tank volume measuring device includes second scales, operably connected to the controller, one second scale uniquely associated with each contaminant tank and attached to the associated contaminant tank support structure, that measures the mass of fluid in its associated contaminant tank and reports the measurement to the controller; and
      
      the controller test program further includes a value relating the density of the contaminated fluid in each contaminant tank to its fluid volume and a program that calculates the volume of fluid in each contaminant tank based on the change in the mass reported by the associated second scale.

28. An apparatus for testing hydraulic components, comprising:
- a. a test fixture for housing a hydraulic component to be tested, the test fixture including inlet and outlet connections;
  
  b. a first fluid reservoir containing fluid substantially free of contaminants before a test is commenced and including inlet and outlet connections;
  
  a first fluid channel that connects the outlet of the fluid reservoir to the inlet of the test fixture;
  
  c. a test pump positioned in and connected to the first fluid channel for pumping fluid to the inlet of the test fixture;
  
  d. a first junction positioned in the first fluid channel;
  
  e. a second junction positioned in the first fluid channel between the inlet of the test fixture and the first junction;
  
  a first contaminant monitoring system having inlet and outlet connections, with the inlet connected to the second junction for receiving fluid the second junction diverts from the inlet of the test fixture, for monitoring the contaminants in the fixture inlet fluid;
  
  f. a second fluid channel that connects the outlet of the test fixture to the inlet of the first reservoir;
  
  g. a third junction positioned in the second fluid channel;
  
  h. a second contaminant monitoring system having inlet and outlet connections, with the inlet connected to the third junction for receiving fluid the third junction diverts from the outlet of the test fixture, for monitoring the contaminants in the fixture outlet fluid;
  
  i. a pressure monitor connected to the second and third junctions for measuring the pressure drop across the inlet and outlet of the test fixture;
  
  j. a contaminant injection system for injecting a predetermined charge of contaminants into the inlet of the test fixture, the contaminant system including;
  
  a plurality of second fluid reservoirs, each capable of containing a slurry consisting of a known volume of fluid mixed with a charge of contaminants of known mass, each second reservoir including an inlet for receiving fluid, an inlet for receiving a charge of contaminants and an outlet for discharging the contaminant slurry;
  
  a first valve connected to the outlets of each second reservoir and to the first junction for connected the outlet of one second reservoir to the first junction;
  
  a third fluid channel that connects the outlet of the first fluid reservoir to each of the second fluid reservoirs for filling the second fluid reservoirs with substantially clean fluid from the first fluid reservoir; and
  
  a second valve positioned in can connected to the third fluid channel and the fluid inlets of each of the second reservoirs for switchably connecting the outlet of the first reservoir to selected fluid inlets of the second reservoirs;
  
  whereby the first valve can be positioned to allow one second reservoir to discharge a contaminant slurry into the first junction while the second valve is positioned to allow at least one other second reservoir to receive fluid from the first reservoir via the third fluid channel.
- View Dependent Claims (29, 30)
- - 29. The apparatus of claim 28, further including:
    - a heater operably connected to the first reservoir for heating fluid in the first reservoir;
      
      a first temperature monitor positioned in proximity to the first reservoir for measuring the temperature of the fluid in the first reservoir;
      
      a second temperature monitor positioned in proximity to the test fixture in the flow of fluid to or from the test fixture for measuring the temperature of the fluid flowing through the test fixture and the hydraulic component; and
      
      a controller operably connected to the first and second temperature monitors and to the heater for controlling the heater in response to the temperatures sensed by the first and second temperature monitors.
  - 30. The apparatus of claim 29, wherein the controller controls the heater to maintain the temperature monitored by the second temperature monitor at substantially a predetermined temperature.

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Current Assignee
Charles Juhasz
Original Assignee
Charles Juhasz
Inventors
Juhasz, Charles

Granted Patent

US 6,619,112 B2
Time in Patent Office

Days
Field of Search
US Class Current

702/114
CPC Class Codes

B01D 2273/18   Testing of filters, filter ...

B01D 46/44   controlling filtration

F04B 51/00   Testing machines, pumps, or...

G01N 15/0826   and measuring fluid flow ra...

G01N 2015/084   Testing filters

Apparatus for testing the ability of a filter to filter contaminants

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Apparatus for testing the ability of a filter to filter contaminants

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