Light-sensitive switch structure and method with inverse off/on ratio

US 4,771,186 A
Filed: 02/11/1986
Issued: 09/13/1988
Est. Priority Date: 02/11/1986
Status: Expired due to Fees

First Claim

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1. Condition responsive switch means responsive to at least one of light, temperature, pressure and sound for use in conjunction with a source of energy and a load for automatically connecting and disconnecting the load from the source of energy which switch means is responsive to a specific sequence of condition levels to achieve an inverse off/on ration whereby the load is disconnected from the energy source at a lower condition level to which said switch means is responsive than the condition level at which the load is connected to the energy source.

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Abstract

Light-sensitive switch structure for and method of turning a street light, or other load, on or off in response to varying light levels. The switch is designed to recognize the daily variations in light level and is capable of switching a load off at a light level lower than that at which the load is switched on. In a preferred embodiment the switch consists of a photo-sensitive element, two relays with time delay features, and two current limiting resistors to regulate the current flowing through the operating coils of the relays. In other embodiments wherein the values of the circuit components are properly selected one of the resistors regulating the current flowing through the operating coils of the relays may be eliminated. In accordance with the method of the invention one of the relays operates contacts which energize or de-energize the load, while the other relay operates contacts which connect or disconnect the resistors to or from the operating coils of the relays. The resistors function in concert with the varying resistance of the photo-sensitive element to provide the desired operation of the relays to effect the desired energizing of the load with an inverse light level ratio.

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19 Claims

1. Condition responsive switch means responsive to at least one of light, temperature, pressure and sound for use in conjunction with a source of energy and a load for automatically connecting and disconnecting the load from the source of energy which switch means is responsive to a specific sequence of condition levels to achieve an inverse off/on ration whereby the load is disconnected from the energy source at a lower condition level to which said switch means is responsive than the condition level at which the load is connected to the energy source.
- View Dependent Claims (2, 3, 4, 5)
- - 2. Structure as set forth in claim 1 wherein the condition to which the switch is responsive varies in a predictable sequence.
  - 3. Structure as set forth in claim 2 wherein the source of energy is a source of alternating electrical energy and the load is at least one light.
  - 4. Structure as set forth in claim 3 wherein the switch means includes a light-sensitive element and a load control relay having normally closed contacts connected between the energy source and the load and a coil in series with the light-sensitive element across the energy source.
  - 5. Structure as set forth in claim 4 and further including means in series between the coil of the load control relay and the light-sensitive element for biasing the load control relay to close the load control relay contacts at a first light level in the evening and for opening the load control relay contacts at a different lower light level in the morning.

6. Condition responsive switch means for use in conjunction with a source of alternating electrical energy and a load including at least one light which switch means is responsive to light for automatically connecting and disconnecting the source of energy and the load and which switch means has an inverse off/on ratio whereby the load is disconnected from the energy source at a lower condition level than the condition level at which the load is connected to the energy source, said switch means including a light sensitive element and a load control relay having normally closed contacts connected between the energy source and the load and a coil in series with the light sensitive element across the energy source, means in series between the coil of the load control relay and the light sensitive element for biasing the load control relay to close the load control relay contacts at a first light level in the evening and for opening the load control relay contacts at a different lower light level in the morning wherein the means for biasing the load control relay comprises current limiting resistance means connected in series with the coil of the load control relay between the light sensitive element and the coil of the load control relay and an auxiliary relay having normally closed contacts in parallel with the current limiting resistance means and an auxiliary relay coil connected in series between the light sensitive element and the source of energy and in parallel with the series connected current limiting resistance means.
- View Dependent Claims (7, 8)
- - 7. Structure as set forth in claim 6 and further including second current limiting resistance means and normally open contacts of the auxiliary relay connected in parallel with each other and in series between the light sensitive element and the coil of the auxiliary relay.
  - 8. Structure as set forth in claim 6 and further including second current limiting resistance means in series between the light-sensitive element and the parallel normally closed contacts of the auxiliary relay and first mentioned current limiting resistance.

9. In combination a source of alternating electrical energy, a lighting load adapted to be connected across the source of electrical energy and light-sensitive switch means connected between the energy source and lighting load for automatically connecting the load to the source of alternating electrical energy at one light level in the evening and for automatically disconnecting the source of electrical energy from the load at a lower light level in the morning which light sensitive switch means includes a load control relay having a set of normally closed contacts in series between the source of electrical energy and load operable on being closed to connect the source of electrical energy to the load and a coil, a light-sensitive element, a current limiting resistor and the coil of the load control relay connected in series across the source of electrical energy, an auxiliary relay including normally closed contacts in parallel with the current limiting resistor and an auxiliary relay coil connected in parallel with the current limiting resistor and in series between the light-sensitive element and the source of electrical energy.
- View Dependent Claims (10, 11)
- - 10. Structure as set forth in claim 9 and further including a second current limiting resistor and a pair of normally open auxiliary relay contacts connected in parallel with each other and in series between the light-sensitive element and the auxiliary relay coil and wherein the current limiting resistors are variable.
  - 11. Structure as set forth in claim 9 and further including a second current limiting resistor in series between the light-sensitive element and the parallel, normally closed contacts of the auxiliary relay and first mentioned current limiting resistor.

12. A method of controlling a lighting load on a source of electrical energy comprising automatically connecting the source of electrical energy to the lighting load at one light level in the evening and automatically disconnecting the source of electrical energy from the lighting load at a lower light level in the morning including the steps of recognizing and reacting to an intervening light level which is lower than both the light level at which the load is connected to the source in the evening and the light level at which the load is disconnected from the source in the morning.
- View Dependent Claims (13)
- - 13. The method as set forth in claim 12 wherein the source of electrical energy is connected to and disconnected from the lighting load by controlling biasing of a load control relay and an auxiliary relay to control current therethrough and resulting relay contact pull-in and drop-out times.

14. A method of controlling a lighting load on a source of electrical energy comprising automatically connecting the source of electrical energy to the lighting load at one light level in the evening and automatically disconnecting the source of electrical energy from the lighting load at a lower light level in the morning including the step of connecting the source of electrical energy to and disconnecting the source of electrical energy from the lighting load by controlling biasing of a load control relay and an auxiliary relay to control current therethrough and resulting relay contact pull in and drop out times and the steps of applying bias to the load control relay in the evening after it has dropped out and not applying bias to the auxiliary relay until after the load control relay has dropped out.
- View Dependent Claims (15, 16, 17, 18, 19)
- - 15. The method as set forth in claim 14 wherein the auxiliary relay drops out in the evening after the load control relay drops out including taking the bias off the load control relay and applying bias to the auxiliary relay on drop-out of the auxiliary relay.
  - 16. The method as set forth in claim 15 and further including initially limiting the current through the load control relay on application of bias thereto to a value below pull-in current value of the load control relay.
  - 17. The method as set forth in claim 16 and further including applying bias to the auxiliary relay in the morning until after pull-in of the load control relay and not applying bias to the load control relay in the morning until after pull-in of the load control relay.
  - 18. The method as set forth in claim 17 and further including the step of applying bias to the load control relay after pull-in of the auxiliary relay and removing bias from the auxiliary relay after pull-in of the auxiliary relay.
  - 19. The method as set forth in claim 18 and further including initially maintaining operating current through the load control relay to a value above the drop-out current value of the load control relay after pull-in of the auxiliary relay.

Specification

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Current Assignee
Egidio Basso
Original Assignee
Egidio Basso
Inventors
Basso, Egidio
Primary Examiner(s)
Miska, Vit W.

Application Number

US06/828,370
Time in Patent Office

945 Days
Field of Search

307/117, 250/206, 250/209, 250/214 AL, 361/174-177
US Class Current

307/117
CPC Class Codes

H01H 47/24 having light-sensitive input

Light-sensitive switch structure and method with inverse off/on ratio

First Claim

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Abstract

8 Citations

19 Claims

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Light-sensitive switch structure and method with inverse off/on ratio

First Claim

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Abstract

8 Citations

19 Claims

Specification

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