Data processing: generic control systems or specific application – Specific application – apparatus or process – Mechanical control system
Reexamination Certificate
2000-09-14
2004-08-10
Picard, Leo (Department: 2125)
Data processing: generic control systems or specific application
Specific application, apparatus or process
Mechanical control system
C137S624110
Reexamination Certificate
active
06775593
ABSTRACT:
BACKGROUND OF THE INVENTION
This Invention relates to controlling utility services within buildings and more particularly to the logical control of such utility services.
Logical control of utility services within buildings has heretofore been proposed, illustrative of which are the proposals of U.S. Pat. No. 5,267,587 granted to Geoffrey P. Brown Dec. 7, 1993 and Pat. No. 5,331,619 granted to Thomas G Barnum et al on Jul. 19, 1994.
In the fields of plumbing and electrical it is typically required that various services within building structures be provided with a means of control so that individual areas receiving these services can be isolated from other areas of the building for the purposes of repair.
A common method for this isolation of electrical services is a wall switch or an electrical breaker located within a service panel that is located at some remote location within the building. These switches and breakers typically control lights, electrical outlets, and various pieces of equipment.
The common method for the isolation of plumbing services is a cut-off valve that is typically located above ceiling panels or concealed within a wall and accessed through a service panel. If the service is natural gas, then the cut-off valve can be located upon the roof. Cut-off valves control water to plumbing fixtures and equipment or gas to appliances.
In the field of construction of a building containing science laboratory rooms such as a school facility, it often is practical to control these services with another technique. This technique typically utilizes electrically activated contacts, relays, and solenoid valves. These electrical control apparatuses are typically controlled or activated by the turning ON or OFF of an electrical switch thereby energizing or de-energizing the apparatus. These switches can be located on a wall or concealed within a cabinet such as within an instructor's desk.
This alternative method of controlling these services regulates accessibility to the services. That is to say, a classroom instructor can determine those times when the students in the classroom need the various services. When a service is needed then the switch can be turned to the ON position and access to the service is granted. On the other hand, when a service is not needed then the switch remains in the OFF position and access is denied. This alternative control method helps to prevent accidental or unauthorized use of the service. These methods of controlling the access to these various services within a classroom have been considered the most practical.
However, there remain several disadvantages to the use of this type of control means. For instance, for maintenance purposes, if the cut-off valve and solenoid valve to the plumbing service is positioned in a concealed ceiling space then it becomes necessary to first determine the location of the valve. Then, one must utilize an elevating apparatus such as a ladder to gain access to the valve for maintenance purposes. If an emergency arises, then it becomes virtually impossible to close the valve within a short period of time. Also, if these valves are located upon the roof, there is the need to first gain access to the of before any maintenance can be performed.
Because the service and solenoid valves are remotely located away from the controlling switch, it becomes necessary for an electrician to install wiring from the controlling switch to the control valve. Very detailed coordination between the electrical and plumbing trades is needed. The exact locations of the valves must be coordinated. The actual voltage necessary to activate the solenoid valve must be determined. As is often the case, conflicts arise between the trades regarding the type of voltage required to activate the solenoid valve.
In addition, as is often the case in the installation of natural gas services, it is necessary that the concealed gas piping and valve apparatus, be within a secondary containment enclosure. In such a case when the gas service is controlled by an electrical solenoid, it is essential that not only the pipe and valve be sealed within the enclosure but also that the electrical conduit and wiring connections be likewise sealed. To properly accomplish this requirement, it is necessary that the outer conduit connector be airtight. But also, the wiring within the conduit must also be sealed airtight.
In the case of remote control of the electrical service to the classroom, typically, a remote set of contacts or a relay is utilized to control the electrical outlets. This relay is typically located within an access panel or box and located within the ceiling space. An electrical switch located within the room activates the relay.
Since it is the intent of this technique of controlling the various services to the classroom to restrict access to the services, then it becomes necessary to provide a method to deny or regulate access to the controlling switch. In other words, if the instructor does not choose to permit the use of a service such as the cold water outlets in the room, then the electrical control switch should be left in the OFF position. If it is desired that the activation of this switch be strictly enforced, then this switch must be located within a locked and/or concealed containment area such as the instructor's desk.
However, under these described conditions if an emergency arose, it would become necessary for the instructor to first unlock the containment area before the switch could be turned OFF and the service deactivated. Also, if the instructor were to be called away from the classroom momentarily, then there would be no means of deactivating the service in the event of an emergency.
Not only would this configuration create a potentially hazard, but also it restricts future repositioning and arrangement of the classroom. For instance, since the instructor's desk has electrical switches that are firmly connected with wiring through electrical conduits, it is impossible to move or reposition the desk without first disconnecting these conduits.
To help prevent such emergency situations electrical panic type push buttons are often positioned near the exit to the classroom. These panic buttons are typically connected to a building fire alarm system. Though these panic buttons may de-activate the services during emergency situations, it does become necessary to provide the wiring so that the remotely located solenoid valves and electrical relays can be disengaged.
Also to be considered is a situation whereby the instructor fails to deactivate a service at the end of the classroom day. In such an event the service would remain active through non-use periods. If an emergency arose during these times then there would be no way to prevent a catastrophe.
To explain such a situation, suppose that near the end of the school day a student inadvertently leaves a cold water faucet open at a sink. And suppose that the drain to this sink has become clogged preventing the drainage of the water from the sink. By the beginning of the next school day a tremendous amount of water damage could occur within the classroom. Further, if the event occurred prior to an extended weekend or holiday, then this damage could likely extend to the entire school.
Now suppose that rather than a water outlet, there was left open a gas valve. The results of such an event could be catastrophic. Clearly, a better method to control these services to school science classrooms needs to be found.
There presently exists a means to remotely control and activate the various “HVAC” systems located within the building. This method is commonly referred to as “EMS” or energy management system. Though this “EMS” does have the capabilities to regulate time intervals when services can be activated, presently there does not exist a common link between the “EMS” and the activating switches for science classroom services.
SUMMARY OF THE INVENTION
The Service Panel with Utility Controller according to the invention hereof comprises an access service panel to contain
Dunn Tom S.
Parker Philip A.
Kosowski Alexander
Picard Leo
Slater & Matsil L.L.P.
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