The present invention relates to lubrication systems, particularly automatic lubrication systems for bearings.
Lubrication systems are known and typically contain a reservoir containing lubricant, one or more fluid supply lines for transporting the lubricant to a location to be lubricated, such as within a bearing, and a pump or other means to initiate flow from the reservoir, through the fluid lines and to the component to be lubricated. In certain systems, a valve controls flow from the supply line to the machine component and a controller is provided to operate the pump and open the valve(s).
In certain applications, one or more bearings that are lubricated by an automatic lubrication system may remain idle for prolonged periods of time. During such idle times, the lubricant, typically grease, remains at a particular volume or quantity, such that re-lubrication is not initiated. However, the grease may break-down due to exposure to elevated ambient temperatures or may become contaminated with liquids or solids, which could lead to adverse effects during the next operation of the machine component supported by the bearing. Specifically, grease tends to lose consistency, such that oil in the grease bleeds out, and/or oxidizes and breaks down, so as to be generally incapable of providing a film thickness.
In one aspect, the present invention is a method of operating a lubrication system for lubricating a bearing in a housing. The method includes the following steps: dispensing a quantity of lubricant within the bearing housing; monitoring a containment period of time during which the lubricant quantity is contained within the housing; determining when the containment time period exceeds a predetermined value of time; and dispensing another quantity of lubricant within the bearing housing when the containment time period is about equal to or exceeds the predetermined time value such that the other quantity of lubricant displaces the quantity of lubricant from the bearing housing.
In another aspect, the present invention is also a system comprising a bearing having a housing, a lubricant reservoir, and a dispenser line fluidly coupled with the reservoir and having an outlet for dispensing lubricant within the bearing housing, and a pump for pumping lubricant from the reservoir and through the dispenser line. A control is configured to operate the pump to dispense a quantity of lubricant within the bearing housing, to monitor a period of time the lubricant quantity is contained within the housing, and to compare the lubricant containment period to a predetermined value of time. The control operates the pump to dispense another quantity of lubricant within the bearing housing when the lubricant containment period is about equal to or exceeds the predetermined time value such that the other quantity of lubricant displaces the quantity of lubricant from the housing.
The foregoing summary, as well as the detailed description of the preferred embodiments of the present invention, will be better understood when read in conjunction with the appended drawings. For the purpose of illustrating the invention, there is shown in the drawings, which are diagrammatic, embodiments that are presently preferred. It should be understood, however, that the present invention is not limited to the precise arrangements and instrumentalities shown. In the drawings:
Referring now to the drawings in detail, wherein like numbers are used to indicate like elements throughout, there is shown in
Further, the control 20 is also configured to operate the pump 18 to dispense another, “fresh” quantity of lubricant LQ within each bearing housing 2 when the lubricant containment period TC is about equal to or exceeds the predetermined time value TV (i.e., TC≧TV), such that the other quantity of lubricant LQ displaces the older, “degraded” quantity of lubricant LQ from the housing 2. Thus, lubricant that has been dormant within the bearing(s) 1 for a period of time is “flushed” out of each bearing 1 so as to avoid potential issues such as grease breakdown, water or solid contaminants within the grease, etc.
Furthermore, the predetermined time value TV may be a predetermined constant value stored within electronic memory of the control 20 or the control 20 may be configured to determine the predetermined time value TV based upon an estimated period of lubricant effectiveness, which may be adjusted or based upon information from sensors (none shown) providing information on specific bearing operating conditions (e.g., bearing rotational speed, bearing temperature, lubricant temperature, etc.). Specifically, the control 20 may be configured to determine or calculate the predetermined time value lubricant effectiveness period PE using both information from one or more sensors and empirically-derived data stored within memory of the control 20. Such empirical data may be generated by measuring the time period between the point in time at which a quantity of “fresh” (i.e., unused) lubricant is provided or delivered into the bearing housing 2 until the point in time at which the particular quantity of lubricant has degraded to the extent of being generally ineffective to lubricate, or at least the lubrication effectiveness has diminished significantly, as discussed above. The data is preferably generated for each one of a plurality of different sets or combinations of operating conditions, such as different bearing and/or lubricant temperatures, different bearing speeds, etc., and for any other relevant variable operating condition or parameter, and the data is stored within the control 26.
Preferably, the lubrication system 10 further comprises one or more dispenser valves 22 for permitting flow through an associated dispenser line 14, each of which is preferably a normally closed, solenoid operated valve. As such, the control 20 is configured to open each valve 22 to dispense each quantity of lubricant LQ into the associated bearing housing 2, i.e., the initial quantity of lubricant LQ and each subsequent or “other” quantity of lubricant LQ dispensed thereafter. As best shown in
Further, each dispenser valve 22 is preferably connected with a manifold 32, either directly as shown in
As best shown in
As described above and depicted in
The steps of dispensing the quantity of lubricant and dispensing another quantity of lubricant each includes operating the pump 18 and opening one or more dispenser valves 22 to dispense each quantity of lubricant LQ into the bearing 1 or bearing housing 2. The dispenser valves 22 may each be opened (i.e., by command of the control 20) for a predetermined period of time, for a number of lubrication cycles, or to receive a specified amount of lubricant from the pump or an injector (not shown). The control 20 performs the steps of monitoring the disposal time period and determining when the containment time period TC is about equal to or exceeds the predetermined time value TV, and also operates the pump 18 and the valves 22 to dispense the lubricant. Further, the process of monitoring the lubricant containment period TC and dispensing additional, fresh quantities of lubricant LQ is continuously repeated as long as the lubrication system 10 is functioning.
It will be appreciated by those skilled in the art that changes could be made to the embodiments described above without departing from the broad inventive concept thereof. It is understood, therefore, that this invention is not limited to the particular embodiments disclosed, but it is intended to cover modifications within the spirit and scope of the present invention as generally defined herein and in the appended claims.
Filing Document | Filing Date | Country | Kind |
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PCT/US15/26496 | 4/17/2015 | WO | 00 |
Number | Date | Country | |
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61981066 | Apr 2014 | US |