Oil level control system

US 6,125,642 A
Filed: 07/13/1999
Issued: 10/03/2000
Est. Priority Date: 07/13/1999
Status: Expired due to Fees

First Claim

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1. An oil level control device for each compressor of a multiple compressor refrigeration system, said system including an oil supply, each control device being adapted to be attached between an associated compressor sump and the oil supply, each control device comprising:

a) a housing, including an inlet communicating with the oil supply and an outlet communicating with an associated compressor sump;

b) flow control means controlling flow from the oil supply into said compressor sump;

c) a proximity detection system including a sensing chamber and a fixed, insulated metallic probe for detecting the presence of oil in the chamber and generating a signal that controls the supply of oil to said compressor sump to maintain the correct oil level in the sump; and

d) control circuit means connected to the probe, said control circuit means having an output operating the flow control means.

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Abstract

This oil level control device is for a refrigeration system, the control device being attached between the compressor and the oil supply. The control device includes a housing having an inlet communicating with the oil supply and an outlet communicating with a compressor sump; and a solenoid valve controlling flow from the oil supply into the compressor sump. A sensing chamber having a fixed probe providing a proximity detection system detects the oil level in the sump and responds to a change in the complex permittivity of the oil as the oil level rises and falls to generate a signal that controls the supply of oil to maintain the oil level in the compressor. Circuitry is provided having an input connected to the output of the sensor and an output connected to the solenoid valve.

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14 Claims

1. An oil level control device for each compressor of a multiple compressor refrigeration system, said system including an oil supply, each control device being adapted to be attached between an associated compressor sump and the oil supply, each control device comprising:
- a) a housing, including an inlet communicating with the oil supply and an outlet communicating with an associated compressor sump;
  
  b) flow control means controlling flow from the oil supply into said compressor sump;
  
  c) a proximity detection system including a sensing chamber and a fixed, insulated metallic probe for detecting the presence of oil in the chamber and generating a signal that controls the supply of oil to said compressor sump to maintain the correct oil level in the sump; and
  
  d) control circuit means connected to the probe, said control circuit means having an output operating the flow control means.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. A control device as defined in claim 1, in which:
    - (e) the flow control means includes a solenoid valve attached to the housing for controlling flow between the housing inlet and the housing outlet.
  - 3. A control device as defined in claim 1, in which:
    - (e) the oil supply means includes an oil reservoir supplying oil to the compressor sump.
  - 4. A control device as defined in claim 1, in which:
    - (e) the sensing chamber communicates with the sump for receiving oil from the sump; and
      
      (f) the flow control means includes conduit means between the housing inlet and outlet, by-passing said sensing chambers said flow control means including a solenoid valve controlling flow through the conduit means and into the sump.
  - 5. A control device as defined in claim 1, in which:
    - (e) the sensing chamber includes lower and upper openings communicating between said chamber and the sump, the lower opening receiving fluid from the sump and the upper opening providing a relief opening permitting oil to rise in the chamber.
  - 6. A control device as defined in claim 1, in which:
    - (e) the control circuit means includes relay means which interrupts the circuit in the event that a low oil condition occurs for an extended period of time.
  - 7. A control device as defined in claim 1, in which:
    - (e) the control circuit means includes means protecting the compressors by disconnecting the power in the event that demand for oil replenishment is not fulfilled within a predetermined period.

8. An oil level control device for each compressor of a multiple compressor refrigeration system, said system including an oil supply, each control device being adapted to be attached between an associated compressor sump and the oil supply, each control device comprising:
- a) a housing, including an inlet communicating with the oil supply and an outlet communicating with an associated compressor sump;
  
  b) flow control means controlling flow from the oil supply into said compressor sump;
  
  c) a proximity detection system including a sensing chamber and a fixed, insulated metallic probe for detecting the presence of oil in the chamber and generating a signal that controls the supply of oil to said compressor sump to maintain the correct oil level in the sump; and
  
  d) control circuit means connected to the probe, said control circuit means having an output operating the flow control means.(e) the proximity detection system comprising oscillator means for producing an output signal, the oscillator means comprising a transistor having a base, an emitter and a collector, the transistor having an open and a closed loop gain and a base-emitter junction that rectifies resonant signals at the collector to produce the output signal, the oscillator means further comprising negative feedback means for reducing the sensitivity of the closed loop gain to variations in the transistor'"'"'s open loop gain and for stabilizing the frequency of the oscillator means;
  
  (f) the probe being operatively coupled to the oscillator means for varying the level of the oscillator output signal in response to electrical properties of the oil; and
  
  (g) the control circuit means being operatively coupled to the oscillator means to receive the oscillator output signal and being responsive to variations of predetermined magnitudes of the amplitudes of the oscillator output signal for detecting the presence or level of the oil.
- View Dependent Claims (9, 10, 11, 12, 13, 14)
- - 9. A control device as defined in claim 8, in which:
    - (h) the negative feedback means comprises a resistive element operatively coupled to the emitter for reducing the sensitivity of the closed loop gain to variations in the transistor'"'"'s open loop gain.
  - 10. A control device as defined in claim 9, in which:
    - (i) the negative feedback means further comprises a capacitive element operatively coupling the resistive element to the collector for stabilizing the frequency of the oscillator means.
  - 11. A control device as defined in claim 8, in which:
    - (h) the probe in conjunction with the oscillator has a merit factor Q, the merit factor Q decreasing as the probe is placed in proximity to the oil and wherein the amplitude of the oscillations of the oscillator means will correspondingly diminish as the merit factor Q decreases, and wherein the oscillator output signal indicates the amplitude of the diminished oscillations.
  - 12. A control device as defined in claim 8, in which:
    - (h) the control circuit means generates a plurality of predetermined control signals in response to the detection of the presence or level of the oil.
  - 13. A control device as defined in claim 8, in which:
    - (h) the control circuit means further comprises comparator means for combining a reference signal and the oscillator output signal to form a difference signal which is representative of the difference between the reference signal and the oscillator output signal.
  - 14. A control device as defined in claim 8, in which:
    - (h) the negative feedback means comprising a resistive element operatively coupled to the emitter and a capacitative element operatively coupling the resistive element to the collector; and
      
      (i) the control means generates a plurality of predetermined control signals in response to the detection of the presence or level of the oil.

Specification

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Litigation Campaign Assessment

Current Assignee
Parker Intangibles LLC (Parker-Hannifin Corporation)
Original Assignee
Sporlan Valve Co. (Parker-Hannifin Corporation)
Inventors
Livingston, Richard A., Macke, David C. Sr., Seener, G. Thomas, Heffner, Joseph H., Chamberlain, Roger D.
Primary Examiner(s)
Tanner, Harry B.

Application Number

US09/352,602
Time in Patent Office

448 Days
Field of Search

62/192, 62/193, 62/126, 62/129, 62/468, 62/469, 417/228, 417/13, 184/6.4, 184/103.1, 184/103.2, 184/108, 73/290 R, 73/304 R, 73/304 C
US Class Current

62/193
CPC Class Codes

F04B 2201/0404   Lubricating oil condition

F04C 18/0215   where only one member is mo...

F04C 2270/24   Level of liquid, e.g. lubri...

F04C 23/001   of similar working principle

F04C 29/021   Control systems for the cir...

F16N 19/006   Maintaining oil level level...

F25B 2400/075   with parallel compressors

F25B 2700/03   Oil level

F25B 31/002   Lubrication

G05D 9/12   characterised by the use of...

Oil level control system

First Claim

3 Assignments

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Abstract

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14 Claims

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Oil level control system

First Claim

3 Assignments

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Abstract

Citations

14 Claims

Specification

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