KR101702741B1 - Lamp Switch Position Indicating Apparatus - Google Patents

Abstract

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lamp switch position display device, and more particularly, to a lamp switch position display device for easily recognizing a lamp switch in various businesses such as business facilities and hotels.
The present invention is based on the fact that when the power is supplied to the lamp by turning the switch on, only a very low voltage portion of the zero crossing portion of the power supplied to the lamp is extremely limited to charge the lamp, The switch is turned "off" only when the ambient light is dark and the light emitting diode installed inside or near the switch is turned on by using the charged electric power so that the position of the switch can be recognized.
Accordingly, when the switch is turned "off ", no electric current flows. Therefore, only when the KS standard can be met and the surroundings are dark, the light emitting diode is turned on to display the switch position so that the switch can be conveniently used It is effective.

Description

≪ Desc / Clms Page number 1 > Lamp Switch Position Indicating Apparatus &

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a lamp switch position display device, and more particularly, to a lamp switch position display device for easily recognizing a lamp switch in various businesses such as business facilities and hotels.

As is known, people who are not familiar with the location of the lamp switch frequently find it difficult to find a switch in various facilities such as business facilities or hotels, or in a home, and in particular, It was.

In order to solve this inconvenience, Korean Utility Model Application No. 91-10574 (name of design: location display device such as a power switch, hereinafter referred to as "cited invention 1") which can confirm the position of the power switch in a dark place has been proposed have.

As shown in Fig. 1, in the switch body having the switch portion display lamp, the switch body is provided with a light sensing portion 23 in addition to the normal switch portion 21, and a lamp portion And a point display circuit 1 including a light source driving unit 11 and a light source driving unit 12 which is supplied with DC power from the transreseless power source unit 11 is mounted in the switch body, .

According to the first cited invention 1, the point-to-point display circuit 1 is connected to the power supply terminal for supplying power to the lamp by the switch, and the transformer power supply unit 11 is connected to the light- 22a are turned on to make the periphery darker, current flows through the LED 22a provided near the switch 21 by the light-moving part 12, so that the position of the switch 21 can be easily recognized even in a dark place, It is done.

On the other hand, such a cited invention 1 has a problem in that a standby current always flows in the trans-missile power supply unit 11 even when the switch 21 is turned off, so that it does not coincide with the KS standard. Particularly when the brightness of the LED 22a is sufficient There is a problem in that unnecessary power consumption occurs because the standby current of the trans-less power supply unit 11 must be increased, and the reactance component that increases the capacitance of the capacitor for voltage drop causes heat generation and shortens the service life will be.

In addition, the position of the switch can be displayed by a neon lamp at night or in a dark place, and proposed in Korean Utility Bulletin No. 1986-0000215 (design name: energy saving switch position display; hereinafter referred to as "cited invention 2") This is obtained by connecting the photoelectric resistance element (Cds) 4 in parallel with the neon lamp 3 in the known switch position display device configuration.

According to Reference 2, when the surroundings become dark, the internal resistance of the CdS 4 increases and most of the current flows through the resistor R to the neon lamp 3 having a small internal resistance. If the ambient light is bright, the internal resistance of the CdS (4) decreases and most of the current flows through the resistance (R) to the CdS (4) with a small internal resistance. 3) is turned off. Therefore, such a cited invention basically has a problem in that the quiescent current is not always consistent with the KS standard,

There is always a current flowing through the neon lamp 3 or the CdS 4, unnecessary power dissipation is inevitable, and the standby current always flows to the CdS 4, which deteriorates the characteristics and shortens the life span.

1. Korean Patent Laid-Open No. 10-2004-0015781 (entitled: 2. Korea Utility Bulletin 1986-0000215 (Name of design: Power saving switch position display)

SUMMARY OF THE INVENTION It is an object of the present invention to provide a lamp which is turned on when a switch is turned on so that only a very low voltage part of the zero- So that the position of the switch can be recognized by turning on the light emitting diodes installed inside or near the switch by using the charged electric power only when the switch is turned off while the ambient light is dark A lamp switch position indicator is proposed.

In order to achieve the above object, the present invention provides a first diode group in which a switch and a lamp are serially connected to a power source and a plurality of diodes are connected in series so that the polarities of the diodes are the same, A second diode group whose polarity direction is opposite to that of the first diode group, and a primary winding of a Citi connected in parallel to the first diode group and the second diode group is connected in series to the power source together with the lamp and the switch, A rechargeable battery and a position light emitting diode are connected in parallel through a diode to a secondary side winding having a larger number of windings than the primary side winding of the city,

  The position light emitting diode is installed adjacent to the switch, and a phototransistor and a switching element, which are operated by the light of the lamp, are disposed between the charging battery and the position light emitting diode. When the lamp is turned on, The position light emitting diode is turned on by the electric power charged in the rechargeable battery.

In this way, when the power is supplied to the lamp by turning on the switch, the present invention utilizes only the power of the very low voltage section of the zero crossing section as an operating power such as an LED for indicating the lighting state, If the switch is turned "off" without affecting the lighting of the lamp, there is no current flow through the lamp side circuit. Therefore, the KS standard is a standard that should prevent any current from flowing into the lamp in the OFF state. ), But the position light emitting diode is illuminated only when the surroundings are dark due to the charged charge battery, so that the switch can be conveniently used by displaying the position of the switch.

In addition, according to the present invention, since a very low voltage of the zero-crossing portion is boosted and only a voltage of, for example, 5 V or less is used instead of using a separate power source supplied from the outside, There is a useful effect in that sufficient electric power is supplied to the position light emitting diode with the electric power charged during the on period so that the light is illuminated with a bright illuminance so that the position can be easily grasped.

1 is a circuit diagram showing a conventional power saving type switch position display device.
2 is a circuit diagram showing a conventional power saving type switch position display device.
3 is a circuit diagram showing a lamp switch position display device according to the present invention.
4 is a circuit diagram showing a lamp switch position display device according to another embodiment of the present invention.
5 is an explanatory diagram showing a first diode group and a second diode group of four diodes in the present invention.
FIG. 6 is an explanatory view showing a waveform part used in the input power supply voltage waveform in the present invention; FIG.
7 is an explanatory diagram showing an output waveform before rectification obtained by the present invention.
8 is a photograph showing an output waveform induced by a primary winding of a transformer according to the present invention.
9 is an explanatory diagram showing an output waveform in a smoothed state after rectification according to the present invention.
10 is a circuit diagram showing an embodiment in which a step-up circuit is provided in the present invention.
11 is a circuit diagram showing an embodiment in which an LED driving circuit is added in Fig.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

A basic structure of a specific embodiment of the lamp switch position display device according to the present invention is shown in Fig.

As can be seen from the above description, the present invention allows the switch 101 and the lamp to be connected in series to the power supply 102, and is connected in series so that the polarities of two or more and eight or less silicon diodes are coincident with each other, A first group of diodes 200 having a voltage of 1.4V (0.7V * 2) to 5.6V (0.7 * 8), and diodes of the same number as the first group of diodes 200 are connected in series, The first diode group 200 and the second diode group 300 are connected in series to the power source 102 together with the lamp 100 and the switch 101. The first diode group 200 and the second diode group 300 are connected in parallel to the power source 102, and,

The first diode group 200 and the second diode group 300 are connected in parallel with the primary winding of the city 400 and the bridge diode 500 is connected to the secondary winding of the city 400, A diode 800 for preventing flow and a rechargeable battery 900 and a phototransistor 901 and a switching element 902 and a position light emitting diode 903 for position indication are connected in parallel to the rechargeable battery 900 will be.

The present invention as described above applies the power source 102 to the first and second diode groups 200 and 300 as shown in FIG. 5 in series to flow to the lamp 100 when the switch 101 is turned on. At this time, each diode of each of the first and second diode groups 200 and 300 has a respective THRESHOLD voltage, and each diode is turned on forward only when its THRESHOLD voltage or more is applied.

Therefore, as shown in FIG. 6, when the power source 102 rises past 0V called zero crossing and oscillates to a peak voltage of ± 308V (effective voltage of 220V), the first diode group 200 or the second diode group The voltage applied to any one of the diode groups 300 exceeds the THRESHOLD voltage per N * (number of series diodes) * corresponding to the number N of serially connected diodes, The current can not flow through the diode.

)가 상기 다이오드의 순방향 저항보다 월등히 작으므로 리액턴스가 작은 씨티(400)의 1차측 권선에는 스위치(101), 램프(100)가 직렬 접속된 상태로 전원(102) 전류가 흐를 수 있게 된다. 이와 같이, 1차측권선에는 직렬다이오드 개수에 따라 비례하여 높은 전압이 유기될 수 있는 것이므로, 2차측권선에서 권선비에 따라 필요한 전압을 얻을 수 있게 된다.On the other hand, in the present invention, since the primary winding of the CTI 400 is connected in parallel with the first diode group 200 and the second diode group 300, in this case, the THRESHOLD voltage per N (serial diode number) The primary winding reactance ("

The current of the power source 102 can flow in a state where the switch 101 and the lamp 100 are connected in series to the primary winding of the cantilever 400 having a small reactance because the forward resistance of the diode is much smaller than the forward resistance of the diode. As described above, since a high voltage can be induced in proportion to the number of series diodes in the primary winding, a necessary voltage can be obtained according to the winding ratio in the secondary winding.

That is, when the first diode group 200 and the second diode group 300 are formed by connecting two silicon diodes in series as shown in FIG. 3, if the turns ratio of the primary winding and the secondary winding is 1: 2 And when the first diode group 200 and the second diode group 300 are formed by connecting the three silicon diodes in series, the turns ratio of the primary winding and the secondary winding can be obtained 1: 2, it is possible to obtain ± 4.2 V in the secondary winding,

When the first diode group 200 and the second diode group 300 are formed by connecting four silicon diodes in series as shown in FIG. 5, if the turns ratio of the primary winding and the secondary winding is 1: 2, It is possible to obtain the power required for driving most of the LEDs 701 since it is possible to obtain ± 5.6 V in the main winding.

으로 되어 브리지다이오드(500)의 출력전압은 약 4V로 되는 것이다. In practice, the voltage of the secondary winding is the effective voltage

So that the output voltage of the bridge diode 500 becomes about 4V.

As described above, the induced voltage of the secondary side of the battery 400 is preferably rectified by the bridge diode 500, becomes the DC value Vbd as shown in FIG. 7, is smoothed by the smoothing capacitor 501, And the charged battery 900 is charged through a diode 800 having a smoothed direct current value Vout as shown in FIG. 8 shows an example of the induced voltage of the secondary side of the Citi 400 as described above. As shown in FIG. 7, the voltage waveform applied to the primary side winding is shown by the inductance component of the Citi 400, And is output from the secondary side winding.

When the output waveform is smoothed by the smoothing capacitor 501 after being rectified, the output waveform becomes a DC voltage lowered by about 30% as compared with Fig. 7 as shown in Fig. 9. Thus, during the time when the switch 101 is turned " on " The voltage is supplied to the rechargeable battery 900 and the charging is completed as time elapses.

In this way, when the lamp 100 is turned on and the periphery of the switch 101 is bright, the amount of light incident on the phototransistor 901 is large, so that a high voltage is applied to the base of the switching element 902, 902 are turned off, the flow of current is interrupted in the position light emitting diode 903, and the light emitting diode 903 is turned off.

In this state, when the user turns off the switch 101, the current flowing through the lamp 100 is cut off and the current flowing through the battery 300 is cut off, thereby blocking the charging current supplied to the charging battery 900 .

Accordingly, the voltage of the rechargeable battery 900 is applied to the cathode of the diode 800, so that the diode 800 is turned off. At this time, the ambient light is lowered, and the phototransistor 901 is turned off. The current flowing from the emitter of the switching device 902 to the collector is formed and the current of the charged battery 900 is supplied to the position light emitting diode 903 It will flow.

Therefore, since the position light emitting diode 903 provided around the switch 101 is turned on and the position is displayed as soon as the ambient illuminance is lowered, the user can conveniently grasp the position of the switch 101 and turn on the lamp 100 It will be.

In addition, the present invention can be applied to a case where the LED 701 is turned on or off in another space where the lamp 100 is not illuminated by being combined with the applicant's application No. 10-2014-0149116 Accordingly, it is possible to prevent power waste due to unnecessary lighting of the lamp 100 by checking whether the lamp 100 is turned on. Such an embodiment is shown in FIG.

In addition, since there is a tendency to use a high-brightness LED or a plurality of LEDs in recent years, it may be necessary to increase the voltage to a higher voltage.

In this case, the ratio of the primary side winding to the secondary side winding of the Citi 400 may be increased, but the boost circuit 600 may be additionally provided as shown in FIG. 11, in the present invention, the voltage supplied to the position light emitting diode 903 and the LED 701 is boosted by the booster circuit 600, and at the same time, by the LED flashing drive circuit 700, Visibility can be improved by blinking.

In addition, it is needless to say that a current limiting resistor normally connected to the position light emitting diode 903 and the LED 701 is omitted in the present invention, and it is possible to additionally connect to each part of the circuit not mentioned, if necessary.

Also, in the present invention, it is practical to use a step-up DC-DC converter as the step-up circuit 600 for high-luminance light emission of the position light emitting diode 903 and the LED 701. The MAX 1674, 1675, It is possible to use ST1KLA (KODENSHI CORP.) As the phototransistor.

In the present invention, the photo transistor 901 is used to obtain an output voltage that varies according to the external illuminance, but it may be replaced with a photodiode or CdS which is an equivalent means performing the same function.

In the present invention, although a transistor is used as the switching element 902, various elements that can perform the same function, such as a FET, may be used instead of the transistor.

In addition, according to the present invention, in the case of using a photosensitive element in which the internal resistance is increased when the ambient illuminance is increased and the internal resistance is decreased when the ambient illuminance is lowered, the positional light emitting diode 903 ) Can be directly connected to each other so that the circuit can be further simplified.

In the present invention, the current flows from the power source 102 waveform passing through the zero point to the N diode THRESHOLD voltage for the time, and the current is supplied to the secondary side winding, It is possible to easily grasp the position of the switch 101 and the lighting state of the lamp 100 by making it possible to operate the switch 701 in accordance with the preferred embodiment of the present invention. The present invention is not limited thereto.

Accordingly, it is a matter of course that various modifications and variations of the present invention are possible without departing from the scope of the present invention. And are included in the technical scope of the present invention.

100: lamp 101: switch 102: power source
200: first diode group 300: second diode group 400:
500: bridge diode 501: smoothing capacitor 600: step-up circuit
700: flashing drive circuit 701: LED 800: diode
900: Rechargeable battery 901: Phototransistor 902: Switching element
903: position light emitting diode

Claims (4)

A switch and a lamp are connected in series to the power source,
A first diode group having a plurality of diodes connected in series so that their polarities match,
A second diode group having the same number of diodes as the first diode group connected in series and having a polarity opposite to that of the first diode group,
The primary side winding of the Citi connected in parallel to the first diode group and the second diode group is connected in series to the power source together with the lamp and the switch,
A chargeable battery and a position light emitting diode are connected in parallel to a secondary side winding having a larger number of windings than a primary side winding of the city for voltage boosting through a diode,
The position light emitting diode is installed adjacent to the switch,
A phototransistor and a switching device are provided between the rechargeable battery and the position light emitting diode. The rechargeable battery is charged when the lamp is on. When the lamp is turned off, And a diode is turned on.
delete The method according to claim 1,
And a voltage-boosting circuit is connected between the capacitor and the diode.
The method according to claim 1,
And a flashing drive circuit is connected to the position light emitting diode.

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