CN220108267U - Down lamp induction electric discharge circuit - Google Patents

Abstract

The utility model relates to the field of lamp illumination, in particular to a down lamp induction electric discharge circuit which comprises a down lamp string connected with a power supply, wherein an induction current consumption load is connected in parallel with the down lamp string, the down lamp string is connected with a controlled switch component, and the switch component is connected with the power supply. The remote control down lamp has the effect of being convenient to improve the use experience after the remote control down lamp is turned off.

Description

Down lamp induction electric discharge circuit

Technical Field

The utility model relates to the field of lamp illumination, in particular to a down lamp induction electric discharge circuit.

Background

The down lamp has decorative lighting effect and practical lighting effect, and is commonly used for indoor lighting.

Referring to fig. 1, the present down lamp circuit includes a power supply drive connected with a 220V household power supply, a manual switch is arranged between the 220V household power supply and the power supply drive, and the manual switch, i.e. a physical switch for controlling the down lamp to be turned on or off, is usually arranged beside a door; the power supply drive is connected with a control circuit, the control circuit is connected with the down lamp, a remote control switch is arranged between the control circuit and the down lamp, and the remote control switch is connected with the down lamp; the control circuit is used for controlling the opening and closing of the remote control switch under the action of infrared remote control or intelligent APP remote control, so as to control the on and off of the down lamp.

In carrying out the present utility model, it has been found that the above-described technique has at least the following problems: when the remote control down lamp is turned off, the control circuit is remotely controlled, so that the 220V household power supply stops supplying power to the down lamp in a mode that the control circuit controls the remote control switch to be turned off, and the down lamp is turned off; however, the 220V household power supply still generates high potential at the positive electrode of the LED string of the down lamp; in addition, as the down lamp structure comprises metal components such as a metal lampshade and a metal radiator, in actual conditions, it is found that a potential difference exists between the 220V household power supply and the metal components, so that induced current can be generated in the LED lamp string positioned between the 220V household power supply and the metal components, and the LED lamp string can slightly emit fluorescence in the process of passing through the LED lamp string; therefore, after the down lamp is turned off by remote control, the discomfort of the down lamp which is not completely turned off can be brought to people, and the use experience of the turned-off down lamp is reduced.

Disclosure of Invention

In order to facilitate the use experience of the remote control down lamp after being turned off, the utility model provides the down lamp induction electric discharge circuit.

The induction electric discharge circuit of the down lamp provided by the utility model adopts the following technical scheme:

the utility model provides a down lamp induction electric discharge circuit, includes the down lamp cluster that is connected with the power, the down lamp cluster connects in parallel has the inductive current consumption load, the down lamp cluster is connected with controlled switch assembly, switch assembly is connected with the power.

Through adopting above-mentioned technical scheme, after the manual control controlled switch module is in the off-state, be in the open circuit state between power and the down lamp string, but because still be in the connected state between the circuit input of power and down lamp this moment, and there is the metal part of down lamp in the vicinity of down lamp string, thereby lead to producing the electric potential difference between the both ends of down lamp string, the existence of electric potential difference can produce the induced current that flows through down lamp string, thereby lead to down lamp still can slightly shine after closing, and after parallelly connected induced current consumers load on the down lamp string, the induced current consumers load can consume most of induced current, thereby make only a small part of induced current can pass through down lamp string, so be convenient for realize the discharge of induced current through the induced current consumers load, thereby make down lamp after closing, no longer slightly shine, thereby greatly promote the user experience after the remote control down lamp closes.

In a specific embodiment, the current input end of the down lamp string is connected with a discharge capacitor, and the discharge capacitor is grounded.

Through adopting above-mentioned technical scheme, after the induced current of induced current consumption load consumption vast majority induced current, remaining a small-fraction induced current can pass through discharge capacitor flow direction ground connection, so be convenient for further realize induced current's discharge to no longer flowing through among the down lamp cluster has induced current, thereby realizes that the down lamp thoroughly no longer shines after closing, so be convenient for further promote the use experience after the remote control down lamp closes.

In a specific embodiment, the down light string comprises a cold light string connected to a current output of the power supply, and the inductive current consuming load comprises a first load connected in parallel with the cold light string.

Through adopting above-mentioned technical scheme, make behind cold color lamp cluster and the power be in open circuit state through controlled switch module, the first load can consume most induced current to make remaining induced current be difficult to drive bright cold color lamp cluster, and then make down lamp close the back, cold color lamp cluster is not little luminous any more, so be convenient for promote the use experience after the remote control down lamp closes.

In a specific embodiment, the controlled switching assembly includes a first control switching device in series with the cold string of lights.

By adopting the technical scheme, the first control switch device is convenient for controlling the on-off of the refrigeration color lamp string.

In a specific embodiment, the down light string includes a warm light string connected to a current output of the power supply, and the inductive current consuming load includes a second load connected in parallel with the warm light string.

Through adopting above-mentioned technical scheme, make cold color lamp cluster and power between be in the open circuit state through controlled switch module after, the second load can consume most induced current to make remaining induced current be difficult to drive bright warm color lamp cluster, and then make down lamp close after, warm color lamp cluster is no longer slightly shiny, so be convenient for promote the use experience after the remote control down lamp closes.

In a specific embodiment, the controlled switching assembly includes a second control switching device in series with the warm color light string.

By adopting the technical scheme, the second control switch device is convenient for controlling the on-off of the warm color lamp string.

In a specific embodiment, a power driver is connected between the power source and the down light string.

By adopting the technical scheme, the power driver is convenient for providing proper input voltage for the down lamp string, so that the down lamp can normally emit light when in an on state.

In a specific embodiment, the discharge capacitor is connected to a grounded metal shell of the down lamp.

Through adopting above-mentioned technical scheme, be convenient for lead to the earth with the electric current of the induction of discharge capacitor derivation through down lamp metal casing to thoroughly realize the discharge of induced current.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. the use experience of the remote control down lamp after being turned off is improved conveniently;

2. the method is convenient for providing proper input voltage for the down lamp string;

3. the discharge of the induced current is thoroughly realized.

Drawings

Fig. 1 is a schematic diagram of a prior art down lamp circuit.

Fig. 2 is a schematic diagram of the overall structure of a down lamp induction and discharge circuit according to an embodiment of the present utility model.

Fig. 3 is a schematic diagram of a structural diagram of a down lamp induction and discharge circuit according to an embodiment of the present utility model.

Detailed Description

The utility model is described in further detail below with reference to fig. 2-3.

The embodiment of the utility model discloses a down lamp induction electric discharge circuit. Referring to fig. 2, the down lamp induction electric discharge circuit includes a power supply, a down lamp string is connected to a current output end of the power supply, and an induction current consumption load is connected between a current input end and a current output end of the down lamp string; the electric input end of the down lamp is connected with a grounded capacitor discharge assembly; the current output end of the down lamp string is connected with a controlled switch component, the controlled switch component is used for controlling whether the power supply supplies power to the down lamp string or not, and the current output end of the controlled switch component is connected with the current input end of the power supply.

In implementation, on the one hand, realize the discharge of some induced currents through the induced current consumption load in order to consume the induced current's that produces in the down lamp mode, another convenient mode that leads into the earth with induced current through the electric capacity discharge assembly realizes the discharge of surplus induced current to make induced current be difficult to through down lamp string, and then after closing the down lamp, induced current no longer makes down lamp string slightly light, so is convenient for realize the thoroughly of down lamp, thereby promotes the use experience after the remote control down lamp closes.

Specifically, referring to fig. 3, the power supply is electrically connected to a power supply driver, and the power supply driver is used for converting the voltage and the current input to the down lamp string by the power supply; the down lamp string comprises a cold lamp string LED1 and a warm lamp string LED2 which are connected to the current output end of the power driver, and the current input ends of the cold lamp string LED1 and the warm lamp string LED2 are electrically connected with the current output end of the power driver. The induction current consumption load comprises a first load R1 connected between the current input end and the current output end of the cold color light string LED1, and further comprises a second load R2 connected between the current input end and the current output end of the warm color light string LED2, wherein the first load R1 is arranged in parallel with the cold color light string LED1, and the second load R2 is arranged in parallel with the warm color light string LED 2. The controlled switch assembly comprises a first control switch device M1 connected in series with the current output end of the cold color light string LED1, the current output end of the first control switch device M1 is connected with the current input end of the power driver, and the first control switch device M1 is used for controlling whether the power supply is open or not with the cold color light string LED 1; the controlled switch assembly further comprises a second control switch device M2 connected in series with the current output end of the warm color light string LED2, the current output end of the second control switch device M2 is connected with the current input end of the power driver, and the second control switch device M2 is used for controlling whether the power supply is opened or not with the warm color light string LED 2.

In this embodiment, the first load R1 and the second load R2 are preferably resistors, and the resistance of the resistors is smaller than that of the down lamp string; the cold color light string LED1 is a cold color light string preferentially, and the warm color light string LED2 is a warm color light string preferentially.

In implementation, if the down lamp needs to be turned off, the first control switch device M1 is manually controlled to make the power supply and the cold light string LED1 in an open state, and the second control switch device M2 is manually controlled to make the power supply and the warm light string LED2 in an open state, so that the power supply does not normally supply power to the cold light string LED1 and the warm light string LED 2; at this time, the power supply and the power supply driver are in a power-on state, and the current input ends of the cold color light string LED1 and the warm color light string LED2 are in a connection state, so that the current input ends of the cold color light string LED1 and the warm color light string LED2 have high potential; although the first control switch device M1 is no longer connected to the current input ends of the cold string LED1 and the power driver, the second control switch device M2 is no longer connected to the current input ends of the warm string LED2 and the power driver, the metal structure including the metal lamp cover and the metal radiator in the down lamp is close to the cold string LED1 and the warm string LED2, so that low potential is induced at the current output ends of the cold string LED1 and the warm string LED2, thus potential difference is induced at both ends of the cold string LED1 and both ends of the warm string LED2, induced current is induced in the cold string LED1 and the warm string LED2 due to the potential difference, and the cold string LED1 and the warm string LED2 still emit light slightly under the condition that both ends are in an open state with the power supply due to the existence of the induced current.

However, in the present embodiment, since the first load R1 is connected in parallel to the cold string LED1, and the resistance of the first load R1 is lower than that of the cold string LED1, the induced current induced by the potential difference at two ends of the cold string LED1 mainly passes through the first load R1 and is consumed by the first load R1, so that even though a small portion of the induced current passes through the cold string LED1, it is difficult to drive the cold string LED1, so that the cold string LED1 is not slightly lighted when the first control switch device M1 is in the off state; similarly, since the second load R2 is connected in parallel to the warm string LED2, and the resistance of the second load R2 is lower than that of the warm string LED2, the induced current induced by the potential difference at two ends of the warm string LED2 mainly passes through the second load R2 and is consumed by the second load R2, and even if the remaining small part passes through the warm string LED2, it is difficult to light the warm string LED2, so that the warm string LED2 is not slightly lighted when the second control switch device M2 is in the off state.

With continued reference to fig. 2, the capacitor discharge assembly specifically includes a discharge capacitor C connected to the current input of the cold string LED1 and the current input of the warm string LED2, and a discharge capacitor J connected in series to ground.

In order to thoroughly avoid small induction current flowing through the cold string LED1 and the warm string LED2, the resistance between the discharge flashlight and the discharge capacitor J and the ground is far lower than that of the cold string LED1 or the warm string LED2, so that small induction current flowing through the cold string LED1 or the warm string LED2 originally flows to the ground through the discharge capacitor C and the discharge capacitor J, thereby further facilitating the prevention of the induction current from slightly lighting the cold string LED1 and the warm string LED2, and thoroughly discharging the induction current, thereby thoroughly turning off the down lamp and avoiding the light.

As the technical scheme of the utility model, the hardware setting is only for facilitating the implementation of the down lamp induction electric discharge circuit on the basis of hardware facilities, and the method for realizing the down lamp induction electric discharge circuit is not an object of the technical problem and protection to be solved by the utility model. Meanwhile, the communication methods among the devices adopt the existing communication methods, and are not the utility model points of the utility model.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (7)

1. A down lamp induction electric discharge circuit is characterized in that: the down lamp string is connected with a power supply in parallel, the down lamp string is connected with a controlled switch component, the switch component is connected with the power supply, the current input end of the down lamp string is connected with a discharge capacitor, and the discharge capacitor is grounded.

2. The down lamp induction electric discharge circuit of claim 1, wherein: the down lamp string comprises a cold color lamp string connected with a current output end of the power supply, and the induction current consumption load comprises a first load connected with the cold color lamp string in parallel.

3. The down lamp induction electric discharge circuit of claim 2, wherein: the controlled switching assembly includes a first control switching device in series with the cold string of lights.

4. The down lamp induction electric discharge circuit of claim 2, wherein: the down lamp string comprises a warm color lamp string connected with a current output end of the power supply, and the induction current consumption load comprises a second load connected with the warm color lamp string in parallel.

5. The down lamp induction electric discharge circuit of claim 4, wherein: the controlled switching assembly includes a second control switching device in series with the string of warm color lights.

6. The down lamp induction electric discharge circuit of claim 1, wherein: and a power driver is connected between the power supply and the down lamp string.

7. The down lamp induction electric discharge circuit of claim 1, wherein: the discharge capacitor is connected with a grounded down lamp metal shell.