State and operation indicator for a switch

Abstract

A state and operation indicator for a snap switch is provided. Presently, instrumentation is often needed in order to determine if a snap switch is malfunctioning. Information may be provided on a control panel inconveniently positioned remotely as compared with the location of the snap switch itself. This disclosure provides for an indicator of the state and operation of a snap switch, which does not require the use of instrumentation, and which is proximate the snap switch. This indicator can be used in both alternating and direct current circuits. When the common terminal of the switch is energized an associated light can provide a cue that the power is on. The state and operation indicator can also have either a light associated with the normally open terminal, a light associated with the normally closed terminal, or both. These lights can respond to indicate the state and operation of the switch.

Claims

1. A state and operation indicator for a snap switch having a common, a normally closed and/or a normally open terminal, comprising: a common connector providing electric communication between the common terminal at one end of the common connector and a printed circuit board at an opposing end of the common connector, wherein the printed circuit board is configured to be positioned proximate the snap switch; and a first light emitting device and a first light emitting device driver attached to the printed circuit board, wherein the first light emitting device is powered through the first light emitting device driver; wherein, irrespective of whether the normally open terminal is closed or open, and irrespective of whether the normally closed terminal is closed or open, when the common terminal is energized, current is transmitted through the common connector, printed circuit board, and first light emitting device driver to the first light emitting device, which in response emits light; and a normally open connector providing electric communication between the normally open terminal at one end of the normally open connector and the printed circuit board at an opposing end of the normally open connector; and a second light emitting device and a second light emitting device driver attached to the printed circuit board, wherein the second light emitting device is powered through the second light emitting device driver; wherein when the switch is activated, the normally open terminal closes causing current to pass through the normally open terminal, the current is transmitted through the normally open connector, printed circuit board, and second light emitting device driver to the second light emitting device, which in response emits light; and a wire terminal connected to the printed circuit board and a power supply for sinking currents which pass through the light emitting devices.

2. The state and operation indicator of claim 1 wherein the state and operation indicator is configured to be permanently connected to the snap switch and positioned proximate the snap switch.

3. The state and operation indicator of claim 1 wherein the state and operation indicator is permanently built integrally with the snap switch.

4. The state and operation indicator of claim 1 wherein the state and operation indicator is configured to be mountable on the side of the snap switch.

5. The state and operation indicator of claim 1 wherein the state and operation indicator is configured to be mountable on the front of the snap switch.

6. The state and operation indicator of claim 1 wherein the state and operation indicator is configured to be mountable on the rear of the snap switch.

7. The state and operation indicator of claim 1 wherein the light emitting device comprises a device selected from the group consisting of an incandescent light bulb, neon light bulb, halogen, and light emitting diode.

8. The state and operation indicator of claim 1 wherein the light emitting device comprises a shape selected from the group consisting of letters, words, numbers, symbols, and a combination thereof.

9. The state and operation indicator of claim 8 wherein the light emitting device comprises a shape selected from the group consisting of COM, NC, and NO.

10. The state and operation indicator of claim 1 wherein the state and operation indicator is configured to be removably connected to the snap switch and positioned proximate the snap switch.

11. The state and operation indicator of claim 10 wherein the state and operation indicator comprises connectors to removably connect the indicator to the snap switch.

12. The state and operation indicator of claim 11 wherein the connectors comprise a wire loop to attach to terminals on the snap switch.

13. A state and operation indicator for a snap switch having a common, a normally closed and/or a normally open terminal, comprising: a common connector providing electric communication between the common terminal at one end of the common connector and a printed circuit board at an opposing end of the common connector, wherein the printed circuit board is configured to be positioned proximate the snap switch; and a first light emitting device and a first light emitting device driver attached to the printed circuit board, wherein the first light emitting device is powered through the first light emitting device driver; wherein, irrespective of whether the normally open terminal is closed or open, and irrespective of whether the normally closed terminal is closed or open, when the common terminal is energized, current is transmitted through the common connector and printed circuit board to the first light emitting device, which in response emits light; and a normally closed connector providing electric communication between the normally closed terminal at one end of the normally closed connector and the printed circuit board at an opposing end of the normally closed connector; and a second light emitting device and a second light emitting device driver attached to the printed circuit board, wherein the second light emitting device is powered through the second light emitting device driver; wherein when the switch is not activated, the normally closed terminal remains closed causing current to pass through the closed terminal, the current is transmitted through the normally closed connector, printed circuit board, and the second light emitting device driver to the second light emitting device, which in response emits light; and a wire terminal connected to the printed circuit board and a power supply for sinking currents which pass through the light emitting devices.

14. The state and operation indicator of claim 13 wherein the state and operation indicator is configured to be removably connected to the snap switch and positioned proximate the snap switch.

15. The state and operation indicator of claim 14 wherein the state and operation indicator comprises connectors to removably connect the indicator to the snap switch.

16. The state and operation indicator of claim 15 wherein the connectors comprise a wire loop to attach to terminals on the snap switch.

17. A state and operation indicator for a snap switch having a common, a normally closed and/or a normally open terminal, comprising: a common connector providing electric communication between the common terminal at one end of the common connector and a printed circuit board at an opposing end of the common connector, wherein the printed circuit board is configured to be positioned proximate the snap switch; and a first light emitting device and a first light emitting device driver attached to the printed circuit board, wherein the first light emitting device is powered through the first light emitting device driver; wherein, irrespective of whether the normally open terminal is closed or open, and irrespective of whether the normally closed terminal is closed or open, when the common terminal is energized, current is transmitted through the common connector, printed circuit board, and the first light emitting device driver to the first light emitting device, which in response emits light; and a normally open connector providing electric communication between the normally open terminal at one end of the normally open connector and the printed circuit board at an opposing end of the open connector; and a second light emitting device and a second light emitting device driver attached to the printed circuit board, wherein the second light emitting device is powered through the second light emitting device driver; wherein when the switch is activated, the normally open terminal closes causing current to pass through the normally open terminal, the current is transmitted through the normally open connector, printed circuit board, and the second light emitting device driver to the second light emitting device, which in response emits light; and a normally closed connector providing electric communication between the normally closed terminal at one end of the normally closed connector and the printed circuit board at an opposing end of the normally closed connector; and a third light emitting device and a third light emitting device driver attached to the printed circuit board, wherein the third light emitting device is powered through the third light emitting device driver; wherein when the normally closed terminal closes causing current to pass through the normally closed terminal, the current is transmitted through the closed connector, printed circuit board, and the third light emitting device driver to the third light emitting device, which in response emits light; and a wire terminal connected to the printed circuit board and a power supply for sinking currents which pass through the light emitting devices.

18. The state and operation indicator of claim 17 wherein the state and operation indicator is configured to be removably connected to the snap switch and positioned proximate the snap switch.

19. The state and operation indicator of claim 18 wherein the state and operation indicator comprises connectors to removably connect the indicator to the snap switch.

20. The state and operation indicator of claim 19 wherein the connectors comprise a wire loop to attach to terminals on the snap switch.

Description

DESCRIPTION OF DRAWINGS

(1) FIG. 1 is an electronic schematic depicting an embodiment of a state and operation indicator circuit in the context of a power supply and a load with a switch in the normally closed position;

(2) FIG. 2 is a perspective view depicting an embodiment of a front-rear mount state and operation indicator;

(3) FIG. 3 is a perspective view depicting the front-rear mount state and operation indicator shown in FIG. 2 mounted onto a snap switch;

(4) FIG. 4 is a perspective view depicting an embodiment of a side mount state and operation indicator; and

(5) FIG. 5 is a perspective view depicting the side mount state and operation indicator shown in FIG. 4 mounted onto a snap switch.

DETAILED DESCRIPTION

(6) Embodiments of a state and operation indicator 10 are shown in FIGS. 1-5. FIG. 1 is an electronic schematic of an embodiment of a state and operation indicator in the context of a power supply and a load with a switch in a normally closed (NC) position. It would be understood that a load can be present in a NC circuit, normally open (NO) circuit, or in both circuits. FIG. 1 shows a circuit that includes an optional second load connected to the normally open terminal of the switch. In this embodiment, when load 1 is turned off, load 2 is turned on, while when load 2 is turned off, load 1 is turned on. While FIGS. 2 and 3 show an embodiment of a front/rear-mounted indicator and FIGS. 4 and 5 show an embodiment of a side-mounted indicator, both devices can have common components.

(7) In some embodiment, state and operation indicator 10 can have three connectors for removably connecting to the terminals of snap switch 50. It would be understood by one skilled in the art that indicator 10 can be adapted to connect to many different types of switches, including but not limited to, the McGall switch referred to in the background section, Honeywell brand switches, or switches made by other manufactures such as Burgess, Cherry Omron, Panasonic, and many original equipment manufacturer (OEM) brand switches, various microswitches as are known in the art, or any other switch with a similar function. In some embodiments, Honeywell uses the name Micro Switch for their micro-snap switches such as: Premium Large Basic Switches, Series: BA,BE,BM,BZ,WA,WM,WZ,YA,YE,YM,YZ,DT, Standard V-Basic Switches, Series: V7,V15, Premium Miniature and Subminiature Switches, Series: SM,SX, and Standard Miniature and Subminiature Switches, Series: ZD,ZM.

(8) A common connector 12 can removably connect to a common (COM) terminal 52, a NO connectors 14 can removably connect to a NO terminal 54 and a NC connector 16 can removably connect to NC terminal 56.

(9) At their ends which are not connected to the terminals, COM connector 12, NO connector 14, and NC connector 16 can be attached to a printed circuit board 20. These connectors can be made of a material that allows conduction of electricity and for the passage of current from the terminals on snap switch 50 to printed circuit board 20. For example, these connectors could be made of metal, or other conductive materials as would be known to one skilled in the art.

(10) Corresponding traces on a printed circuit board 20 can feed power to a first, second, and third light emitting device (LED), 22, 26, and 30, respectively through their associated first, second and third LED driver, 24, 28 and 32, respectively. Drivers can comprise, for example, a resistor and/or diode, whether surface-mount or not, or a solid state device, but different or more complicated drivers, as known in the art, can be used as necessary depending on the voltage applied to the LED.

(11) The LEDs could comprise any type of device which emits light, for example, an incandescent light bulb, neon light bulb, halogen, or light emitting diode, etc. and could emit any type of light (whether or not visible to the human eye, or detectable by some other means), including, but not limited to, incandescent, neon, fluorescent, electroluminescent, or light emitting diode light. The LEDs can be in different colours or different shapes to provide an operator with a means to quickly recognize which LED is lit or not lit. In some embodiments, the LEDs can comprise different shapes such as letters, words, numbers, or symbols, for example, the letters COM, NC, NO or others.

(12) In some embodiments, state and operation indicator 10 can also comprise a wire terminal 18, which can connect to a power supply, which has the opposite polarity to the power supplied to snap switch 50 at COM terminal 52. The wire terminal 18 can be connected to a neutral line in the case of an alternating current power supply or to a negative line in the case of a direct current power supply. In some embodiments, wire terminal 18 can be connected to a line of the opposite polarity of the power supplied to the switch 50. As such, wire terminal 18, connected to printed circuit board 20 and a power supply, can sink currents which pass through the LEDs.

(13) When state and operation indicator 10 is attached to snap switch 50, as shown in either FIG. 3 or 5, and COM terminal 52 is energized, a current can flow through first LED driver 24 causing the first LED 22 to emit light (or some other appropriate signal) thus indicating that the snap switch 50 is energized.

(14) When snap switch 50 is energized and operated to a normally open position, the NO terminal 54 closes and becomes energized. This in turn can energize second LED driver 28 causing the second LED 26 to emit light (or some other appropriate signal) thus indicating that the snap switch 50 is open.

(15) With snap switch 50 energized, and in a normally closed position, NC terminal 56 can be energized, and a current can flow through the third LED driver 32 causing the third LED 30 to emit light (or some other appropriate signal) thus indicating that the snap switch 50 is closed.

(16) LEDs, 22, 26 and 30, can provide an indication, for example a visual indication, of which terminal of the snap switch 50 is energized, thereby allowing for quick review of the state of the snap switch 50 and preventing the need to use instrumentation to adjust and/or troubleshoot the operation of snap switch 50.

(17) While the figures provided show a state and operation indicator 10 that has three LEDs, 22, 26 and 30, it will be appreciated by a person skilled in the art that the removal of either the second or third light and associated drivers and connectors, but not the common, would not depart from the scope of the invention. In addition, the state and operation indicator 10 may be mounted on a snap switch 50 in a variety of orientations, although only the front-rear and side mount have been specifically shown.

(18) In some embodiments, printed circuit board 20 can be configured to be positioned proximate, or attached to, the snap switch 50. With the printed circuit board 20 and the light indicators not being remote from the snap switch 50 (as in prior art control panels), the state and operation of snap switch 50 can be monitored directly as opposed to remotely. As such, it can be more efficient for a user to service, monitor, maintain, trouble-shoot, handle, repair, replace, or otherwise alter snap switch 50.

(19) This state and operation indicator for a snap switch can be attached at the time of snap switch assembly, or at a later time, even after the snap switch has been installed. The means for attaching the state and operation indicator 10 to the snap switch 50 can be removable, for example using screws and screw-holes as shown in FIGS. 4 and 5, or more permanent, for example being glued or soldered. In some embodiments, it can be sufficient for the connectors or wires around the terminals to connect and support printed circuit board 20 proximate snap switch 50 when the connectors are of sufficient durability and strength in order to keep printed circuit board 20 attached to snap switch 50.

(20) In some embodiments, the connectors can form a wire loop to attach to the snap switch 50 at the terminals which can comprise screws 60 and washers 62. Such wire loops can tie around the neck of screw 60 underneath the head of screw 60 and washer 62. Connections to the load and other aspects of the circuit that the switch is controlling, however, can be connected at screw 60 above washer 62.

(21) Although particular embodiments have been shown and described, it will be appreciated by those skilled in the art that various changes and modifications might be made without departing from the scope of the invention. The terms and expressions used in the preceding specification have been used herein as terms of description and not of limitation, and there is no intention in the use of such terms and expressions of excluding equivalents of the features shown and described or portions thereof, it being recognized that the invention is defined and limited only by the claims that follow.