Data processing: generic control systems or specific application – Specific application – apparatus or process – Mechanical control system
Reexamination Certificate
2003-06-05
2004-04-13
Paladini, Albert W. (Department: 2125)
Data processing: generic control systems or specific application
Specific application, apparatus or process
Mechanical control system
C239S069000
Reexamination Certificate
active
06721630
ABSTRACT:
FIELD OF THE INVENTION
The present invention relates to electronic irrigation controllers that control valves which supply water to sprinklers, and more particularly, to modular expandable irrigation controllers.
BACKGROUND OF THE INVENTION
In many parts of the world due to inadequate rainfall it is necessary at certain times during the year to artificially water turf and landscaping. An ideal irrigation system for turf and landscaping should utilize a minimum number of valves, supply lines and sprinklers. Preferably the valves should be turned ON and OFF by an inexpensive, yet reliable electronic irrigation controller that is easy to program and can carry out a wide variety of watering schedules. The goal is to uniformly distribute the optimum amount of water over a given area. Rotor type sprinklers have largely displaced older impact type sprinklers in applications where large expanses of grass are watered, such as golf courses, due to the fact that the former are more reliable, quieter, and distribute water on a uniform and controlled basis. Spray type sprinklers, rotary stream sprinklers, bubblers and drip irrigation devices are also frequently used in residential and commercial irrigation systems. The type, placement and precipitation rates for each of the sprinklers are pre-selected when an irrigation system is designed and/or installed . The optimum precipitation rate provided by each sprinkler should preferably fall within plus or minus one-quarter gallon-per minute (GPM). The amount of water supplied by each sprinkler is largely determined by the size and configuration of its nozzle orifice(s), although variations result from fluctuations in water pressure that cannot be fully negated with regulators.
Preferably an irrigation controller should have the capability of temporarily terminating its watering program if sufficient rain occurs based on signals inputted from a rain sensor. See for example, U.S. Pat. No. 5,097,861 granted Mar. 24, 1992 of Hopkins et al. entitled
IRRIGATION METHOD AND CONTROL SYSTEM
, assigned to Hunter Industries, Inc., the assignee of the subject application, the entire disclosure of which is hereby incorporated by reference. On suitable rain sensor for this purpose is disclosed in pending U.S. patent application Ser. No. 10/053,100 filed Oct. 26, 2001 of Paul A. Klinefelter et al. entitled
QUICK SHUT
-
OFF EXTENDED RANGE HYGROSCOPIC RAIN SENSOR FOR IRRIGATION SYSTEMS
, also assigned to Hunter Industries, Inc., the entire disclosure of which is hereby incorporated by reference.
Residential and commercial irrigation systems typically include one or more solenoid operated valves that are turned ON and OFF by an electronic irrigation controller. The valves admit water to various subterranean branch lines usually made of PVC pipe that typically have several sprinklers connected to risers coupled to the branch lines at spaced intervals. Each combination of a solenoid valve and its associated sprinklers is referred to in the irrigation industry as a station or zone. A modern electronic irrigation controller typically includes a microprocessor and separate memory, or a micro-computer with on-chip memory, that stores and executes one or more watering programs. The watering programs can be pre-programmed by the user via push button and/or rotary controls. The controller usually has an LCD or other display to facilitate programming by the user. Often the controller will revert to a default watering program in the case of a power failure. The microprocessor controls the solenoid valves via suitable drivers and switching devices. The valves are opened and closed by the microprocessor in accordance with the pre-programmed run and cycle times for each of the stations.
Over the past decade, modular expandable irrigation controllers have gained increasing popularity. In these controllers, the base portion of the system contains the microprocessor and user actuated controls. Each station is then controlled by a corresponding station module which comprises a plastic housing that encloses and supports a station module circuit, as well as wire connection terminals for connecting wires to a plurality of solenoid actuated valves. Typically each station module can independently control more than one solenoid actuated valve, i.e., station. The station modules contain pins, sockets, card edge connectors or some other standard form of electro-mechanical connectors for allowing them to be inserted into slots or receptacles in either the housing that contains the microprocessor or a separate back panel hinged to the microprocessor housing. The advantage of this configuration is that the controller need only be equipped with the minimum number of station modules that can control the total number of stations needed. Thus, for example, an irrigation system may have only three zones, requiring only a single station module, while another may have twelve stations which might require four station modules. Considerable cost savings are thus achieved. Moreover, if an irrigation system expands after initial installation because the landscaping has increased, additional station modules can be plugged into the controller. In some modular expandable irrigation systems the base unit is capable of controlling a minimal number of stations without requiring the addition of any station modules. In others, such as the ICC™ irrigation controller manufactured and sold by Hunter Industries, Inc., at least a power module and one irrigation station module must be plugged into the controller in order to operate any stations or zones.
When the station modules are plugged into a modular expandable irrigation controller they are mechanically supported and an electrical connection is made between the microprocessor and the driver. The station modules can be removed and replaced if damaged, for example, during a lightening strike. U.S. Pat. No. 5,262,936 of Faris et al. discloses a modular irrigation controller having station expansion modules which are connected exterior of a base unit. These station expansion modules take up considerable space and their daisy chain connection scheme can unduly stress their electrical connectors. U.S. Pat. No. 6,459,959 of Williams et al. discloses a modular irrigation controller in which all of the station modules are received within corresponding slots or receptacles formed in the same housing that contains all of the manual controls and the processor that executes the watering program. The controller housing can only accept a predetermined maximum number of station modules. Each station module is identical and controls the same number of stations, and thus the number of stations that can be controlled is limited to the maximum number of station modules that can be inserted into the controller housing times the number of stations per module.
SUMMARY OF THE INVENTION
It is therefore the primary object of the present invention to provide a way to increase the station capacity of a modular expandable irrigation controller with a fixed number of module receptacles.
In accordance with the present invention a modular expandable irrigation controller is equipped with mechanisms for entry or selection of a watering program and for storing the watering program. The controller has a predetermined number of receptacles for removably receiving a maximum number of station modules. Each station module includes a station module circuit including at least one switching device for energizing a corresponding solenoid actuated valve in accordance with the watering program. A processor executes the stored watering program to control the station module circuits in accordance therewith. At least one standard station module is removably received in a single one of the receptacles. At least one enhanced station module is removably received in, and spans, a predetermined plurality of the remaining receptacles. The station module circuit of the enhanced station module includes more switching devices than the total number of switching devices included in the station module circuits of th
Hunter Industries, Inc.
Jester Michael H.
Paladini Albert W.
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