Multiple outlet sequenced power strip

A multiple outlet sequenced power strip with only a specific number of outlets capable of running at any one time which is comprised of at least: a housing, input and output outlets, and a form of variable motor; thus allowing for the possible use of multiple high power devices on one wall socket and any breaker.

FIELD OF THE INVENTION

The present invention relates generally to the field of power outlets and, more specifically, to a power outlet capable of restricting the number of power consuming devices per wall outlet and limiting the amount of time each device is capable of consuming power.

BACKGROUND OF THE INVENTION

Generally speaking, only certain amounts of power can be obtained from a wall outlet, at any one time. The solution to such a problem doesn't reside in finding another outlet within the vicinity of the previous outlet, as tripping the breaker becomes the new concern.

By restricting and rotating the devices on an outlet such that each device receives the same amount of power over the same period of time, multiple high power devices capable, together, of tripping the circuit breaker can be used in one wall outlet without tripping any circuit breaker.

SUMMARY OF THE INVENTION

It is the object of the present invention to allow for the powering of multiple high power requiring devices through only one wall outlet.

In accordance with one embodiment of the invention, a multiple relay power strip which at least comprises input and output outlets and a form of variable motor within a housing.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT

Upon connection of a power source into the input outlet104and multiple power consumers into the multiple output outlets202, the device will automatically begin operation. As described inFIG. 2, a possible schematic would include: an input outlet201, multiple output outlets202, multiple rotational points of contact (RPC)203equal to the number of output outlets, a disk switch204, and a form of variable motor205. Upon operation, the variable motor205will begin to rotate, as it is connected to the input outlet. The variable speed controller207has the wires passing through it before they reach the variable motor205and is thus able to limit the speed of the variable motor205through a speed control circuit. Both the RPC203and the disk switch204are made of a metal conductor. The disk switch204is connected to the power input through an electrical conducting wire and the RPC's203are connected to their respective output outlets through electrical conducting wires.

As the form of variable motor205, which at the end of the rotating shaft206is connected to the disk switch204, begins to rotate, the disk switch204will come into contact with an RPC203and complete one of the multiple circuits.

Over the course of a specific period of time, the disk switch204will come into contact with all of the RPC's203. The specified period of time can be altered through the changing of the variable motor's205speed through the VSS103. For example, if initially the speed of the variable motor205was set to 1 rotation per hour with the VSS103in position1, it could be changed to have 2 rotations per hour by moving the toggle on the VSS103to position2and if the toggle of the VSS103was moved to position3then it would rotate 4 times per hour, et cetera.

The description of the present invention has been presented for the purpose of illustrating and description, but is not intended to be exhausted or limited to the invention in the form disclosed. The embodiment was chosen to best explain the functions capable of such a device and a practical example of use for such a device.