CN219107121U - Intelligent lamp control device for driving uninterrupted power supply and intelligent lamp - Google Patents

Abstract

The utility model discloses an intelligent lamp control device and an intelligent lamp for driving uninterrupted power supply, wherein the intelligent lamp control device comprises an intelligent switch and an illumination driving device; the intelligent switch comprises a first MCU module, a relay and a switch key; the first MCU module is used for controlling the relay to be closed after being disconnected for a preset time when the switch key is touched; the lighting driving device comprises a power supply conversion and energy storage module, a switching signal acquisition circuit, a second communication module and a second MCU module; the power supply conversion and energy storage module provides a power supply for the illumination driving device; the second MCU module is used for collecting pulse signals generated in the power conversion and energy storage module and controlling the switching action of the load lamp in the process that the relay is closed after being opened for a preset time through the switching signal collecting circuit. According to the utility model, the lighting driving device can not break the network in the process of controlling the switch of the load lamp through the intelligent switch.

Description

Intelligent lamp control device for driving uninterrupted power supply and intelligent lamp

Technical Field

The present utility model relates to driving control of an intelligent lamp, and more particularly, to an intelligent lamp control device for driving uninterrupted power supply and an intelligent lamp.

Background

At present, when the switch control of the load lamp is realized through the intelligent switch, in the switching process, a driving circuit of the load lamp is powered off, so that the driving circuit is disconnected and offline, the network control of the load lamp cannot be continuously realized, and the operation of a user is inconvenient.

Disclosure of Invention

In order to overcome the defects of the prior art, one of the purposes of the utility model is to provide an intelligent lamp control device for driving uninterrupted power supply, which can solve the problem that the driving device is offline when the intelligent lamp switch is controlled by the intelligent switch, so that the intelligent lamp is offline.

The second objective of the present utility model is to provide an intelligent lamp, which can solve the problem that the driving device is offline when the intelligent lamp is controlled by the intelligent switch, so that the intelligent lamp is offline.

One of the purposes of the utility model is realized by adopting the following technical scheme:

an intelligent lamp control device for driving uninterrupted power supply, the intelligent lamp control device comprising an intelligent switch and a lighting driving device; one end of the intelligent switch is electrically connected with an external power supply, and the other end of the intelligent switch is electrically connected with the load lamp through the illumination driving device;

the intelligent switch comprises a first MCU module, a relay and a switch key; the first MCU module is respectively and electrically connected with the switch key and the relay and is used for controlling the relay to be closed after being disconnected for a preset time when the switch key is touched;

the illumination driving device comprises a power supply conversion and energy storage module, a switching signal acquisition circuit, a second communication module and a second MCU module; one end of the power conversion and energy storage module is electrically connected with the relay, and the other end of the power conversion and energy storage module is electrically connected with the switching signal acquisition circuit, the second MCU module and the second communication module, and is used for providing power supply for the switching signal acquisition circuit, the second MCU module and the second communication module;

the second MCU module is used for collecting pulse signals generated in the power conversion and energy storage module and controlling the switching action of the load lamp in the process that the relay is closed after being opened for a preset time through the switching signal collecting circuit.

Further, the lighting driving device is provided with a plurality of lighting driving devices, one end of each lighting driving module is electrically connected with the intelligent switch, and the other end of each lighting driving module is electrically connected with the corresponding load lamp.

Further, the intelligent switch further comprises a first communication module; the first MCU module is in communication connection with external terminal equipment through the first communication module.

Further, the intelligent switch further comprises an AC-DC conversion module; one end of the AC-DC conversion module is electrically connected with an external power supply, and the other end of the AC-DC conversion module is electrically connected with the first MCU module and is used for converting the external power supply into a power supply of the first MCU module.

Further, the second MCU module is also connected to a network through a second communication module, and is further connected with an external terminal device in a communication mode.

Further, the second MCU module also receives an external control signal through the second communication module to control the working state of the load lamp; wherein the external control signal comprises a color temperature adjusting signal and/or a cold and warm lamp adjusting signal.

Further, the intelligent switch also comprises a status indicator lamp; the state indicator lamp is electrically connected with the first MCU module and used for indicating the working state of the intelligent switch.

Further, the switch signal acquisition circuit comprises an oscillator, a switch, a first resistor, a second resistor, a third resistor, a photoelectric coupling device, a fourth resistor, a fifth resistor, a first capacitor and a triode; one end of the first resistor is electrically connected with the oscillator through the switch, and the other end of the first resistor is electrically connected with the first end of the photoelectric coupling device through the second resistor and the third resistor in sequence; the second end of the photoelectric coupling device is electrically connected with the second end of the oscillator; the third end of the photoelectric coupling device is electrically connected with the first end of the triode, and the fourth end of the photoelectric coupling device is grounded;

the second end of the triode is connected with a 3.3V power supply through a fifth resistor, and the third end of the triode is grounded; one end of the fourth resistor is connected to a 3.3V power supply, and the other end of the fourth resistor is connected between the third end of the photoelectric coupling device and the first end of the triode; one end of the first capacitor is grounded, and the other end of the first capacitor is connected between the third end of the photoelectric coupling device and the first end of the triode; the second end of the triode is electrically connected with the power supply conversion and energy storage module.

Further, the preset time is 30-60 s.

The second purpose of the utility model is realized by adopting the following technical scheme:

a smart lamp comprising a smart lamp control device for driving uninterrupted power supply and a load lamp employed as one of the objects of the present utility model; the load lamp is electrically connected with the output end of the illumination driving device.

Compared with the prior art, the utility model has the beneficial effects that:

the utility model sets the relay in the intelligent switch, and immediately closes the relay after the relay is instantly opened when the switch of the load lamp is controlled, so that the pulse signal is generated in the circuit, thereby the lighting driving device detects the pulse signal to control the switch of the load lamp, and meanwhile, the lighting driving device is internally provided with the energy storage device to store the power supply, so that the lighting driving device can not be powered off in the switching process of the relay, and the problem that the off-line network breaking of the driving device of the load lamp can not be continued in the follow-up control process of the load lamp in the existing process of controlling the switch of the load lamp through the intelligent switch is solved.

Drawings

FIG. 1 is a circuit block diagram of an intelligent lamp control apparatus for driving uninterruptible power supply according to the present utility model;

fig. 2 is a circuit diagram of the switching signal acquisition circuit in fig. 1.

Detailed Description

The present utility model will be further described with reference to the accompanying drawings and detailed description, wherein it is to be understood that, on the premise of no conflict, the following embodiments or technical features may be arbitrarily combined to form new embodiments.

The utility model discloses an intelligent lamp control device for driving uninterrupted power supply, which is shown in figure 1 and comprises an intelligent switch and a lighting driving device.

One end of the intelligent switch is connected with an external power supply, the other end of the intelligent switch is electrically connected with the input end of the illumination driving device, and the output end of the illumination driving device is electrically connected with the load lamp. The intelligent switch can realize the switch control of the load lamp through the illumination driving device, and in the process of ensuring the switch, the intelligent switch is always in a power supply state by arranging the energy storage device in the illumination driving device, and the power cannot be cut off, so that the condition of network disconnection of the illumination driving device cannot occur. Meanwhile, the intelligent switch is also used for providing the accessed external power supply for the lighting driving device.

Preferably, the intelligent switch comprises a switch key, a first MCU module, a relay and a power conversion module. The power conversion module is preferably an AC-DC conversion module, and is configured to convert an external AC power source into a DC power source, so as to provide a corresponding power supply to the first MCU module.

The first MCU module is electrically connected with the switch key and the relay and is used for controlling the working state of the relay according to the key signal of the switch key. According to the utility model, the switch key is arranged on the intelligent switch and is electrically connected with the first MCU module so as to control the relay, and then the relay is electrically connected with the illumination driving device so as to control the load lamp through the illumination driving device.

More preferably, the lighting driving device comprises a power supply conversion and energy storage circuit, a second MCU module, a communication module and a switching signal acquisition circuit. One end of the power conversion and energy storage circuit is electrically connected with the relay, and the other end of the power conversion and energy storage circuit is electrically connected with the second MCU module, the switching signal acquisition circuit and the communication module respectively and is used for acquiring electric energy through the relay and providing power supply for the second MCU module, the switching signal acquisition circuit and the communication module.

The communication module is used for realizing the networking of the lighting driving device. That is, the second MCU module is connected to the network through the communication module, so as to realize remote control of the lighting driving device through other external devices.

Preferably, when the switch key is pressed, the first MCU module of the intelligent switch controls the relay to be turned on immediately after the relay is turned off for a preset time, and at this time, the power conversion and energy storage module of the lighting driving module may generate a corresponding pulse signal, and then the switch signal acquisition circuit of the lighting driving module may detect the pulse signal. The second MCU module can control the switch of the load lamp according to the pulse signal. Specifically, for example, when the load lamp is in an on state, the switch key is pressed, and the second MCU module controls the load lamp to be turned off; and on the contrary, when the load lamp is in a closed state, the switch key is pressed down, and the second MCU module controls the load lamp to be turned on. Meanwhile, in the process of switching the load lamp, as the power supply conversion and energy storage module has an energy storage function, the first MCU module and the second communication module are not powered off, the lighting driving device is not disconnected and is offline, and the lighting driving device is not required to be re-distributed when other control is performed on the load lamp.

Preferably, as shown in fig. 2, the switching signal acquisition circuit includes an oscillator L1, a switch, a first resistor R1, a second resistor R2, a third resistor R3, a photocoupling device M1, a fourth resistor R4, a fifth resistor R5, a first capacitor C1, and a triode Q1.

One end of the first resistor R1 is electrically connected to the oscillator L1 through a switch, and the other end of the first resistor R1 is electrically connected to the first end of the photocoupling device M1 through the second resistor R2 and the third resistor R3 in sequence.

The second end of the photocoupling device M1 is electrically connected to the second end of the oscillator L1. The third end of the photoelectric coupling device M1 is electrically connected with the first end of the triode Q1, and the fourth end is grounded.

The second end of the triode Q1 is connected to a 3.3V power supply through a fifth resistor R5, and the third end is grounded; one end of the fourth resistor R4 is connected to a 3.3V power supply, and the other end of the fourth resistor R4 is connected between the third end of the photoelectric coupling device M1 and the first end of the triode Q1. One end of the first capacitor C1 is grounded, and the other end of the first capacitor C1 is connected between the third end of the photoelectric coupling device M1 and the first end of the triode Q1. The second end of the triode Q1 is electrically connected with the power supply conversion and energy storage module.

That is, the switch key is electrically connected with the first MCU module, and is used for controlling the relay to be turned on after being instantaneously turned off for a preset time when the switch key is touched. The preset time is preferably 30s to 60s. The utility model can generate corresponding pulse signals in the circuit by switching on and off the relay instantly, thus the second MCU module can control the switch of the load lamp when detecting the pulse signals, meanwhile, the lighting driving device can not be directly powered off and can be in a constant power supply state because the relay is switched off for a short time and the power supply conversion and energy storage module has an energy storage function, and the networking of the lighting driving device is not influenced, and the subsequent other networking control of the load lamp is not influenced.

The utility model solves the problem that in the prior art, the switching-off of the lighting driving device is caused at the moment of controlling the switching of the load lamp through the intelligent switch, and then the lighting driving device is off-line, so that the lighting driving device needs to be subjected to network distribution operation again when in use.

Preferably, the second communication module in the lighting driving device can enable the lighting driving device to access a network, so that other control of the load lamp is achieved, for example, the second MCU module achieves color temperature adjustment, cooling and heating adjustment and the like of the load by receiving a control signal sent by external equipment. That is, after the load lamp is controlled to be turned on by the intelligent switch, as the lighting driving device is not powered off and is not off-line, the external terminal equipment can be continuously adopted to realize color temperature adjustment, cold and warm adjustment and the like of the load lamp; in contrast, in the prior art, after the intelligent switch controls the load lamp to be turned off, the lighting driving device is powered off and off-line, so that the load lamp cannot be controlled, and the lighting driving device needs to be connected with a network again to be operated, so that the use of a user is not facilitated.

Preferably, the intelligent switch is further provided with a status indicator light for indicating the working status of the intelligent switch.

Further, the intelligent switch is also provided with a first communication module. The first communication module is electrically connected with the first MCU module and is used for receiving a control signal sent by the external terminal equipment and sending the control signal to the first MCU module. At this time, the first MCU module controls the operation of the relay according to the control signal. That is, the utility model realizes the network control of the load lamp by connecting the intelligent switch to the network. That is, the utility model can realize the switch control of the load lamp by adopting the switch key, and can realize the switch control of the load lamp by the external terminal equipment.

In addition, in the actual use process, the utility model can also realize the control of the lighting driving device by setting special switching operation. For example, when the key operation of the intelligent switch is three short and one long, the network reconfiguration of the lighting driving device can be realized. When the key operation is three short and one long, the intelligent switch can realize that the switch signal acquisition circuit of the illumination driving device acquires different pulse signals by controlling the opening and closing operation of the relay, so that different controls of the illumination driving device are realized.

Preferably, according to the intelligent lamp control device for driving uninterrupted power supply provided by the embodiment, the utility model further provides an intelligent lamp, which comprises the intelligent lamp control device and a load lamp, wherein the load lamp is electrically connected with the output end of the lighting driving device of the intelligent lamp control device, so that the switch of the load lamp is controlled through an intelligent switch. Meanwhile, in the process of controlling the switch of the load lamp, the lighting driving device is not disconnected off line.

The above embodiments are only preferred embodiments of the present utility model, and the scope of the present utility model is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present utility model are intended to be within the scope of the present utility model as claimed.

Claims (10)

1. An intelligent lamp control device for driving uninterrupted power supply, characterized in that the intelligent lamp control device comprises an intelligent switch and a lighting driving device; one end of the intelligent switch is electrically connected with an external power supply, and the other end of the intelligent switch is electrically connected with the load lamp through the illumination driving device;

the intelligent switch comprises a first MCU module, a relay and a switch key; the first MCU module is respectively and electrically connected with the switch key and the relay and is used for controlling the relay to be closed after being disconnected for a preset time when the switch key is touched;

the illumination driving device comprises a power supply conversion and energy storage module, a switching signal acquisition circuit, a second communication module and a second MCU module; one end of the power conversion and energy storage module is electrically connected with the relay, and the other end of the power conversion and energy storage module is electrically connected with the switching signal acquisition circuit, the second MCU module and the second communication module, and is used for providing power supply for the switching signal acquisition circuit, the second MCU module and the second communication module;

the second MCU module is used for collecting pulse signals generated in the power conversion and energy storage module and controlling the switching action of the load lamp in the process that the relay is closed after being opened for a preset time through the switching signal collecting circuit.

2. The intelligent lamp control apparatus for driving uninterruptible power supply according to claim 1, wherein the number of the lighting driving apparatuses is several, one end of each lighting driving module is electrically connected to the intelligent switch, and the other end is electrically connected to the corresponding load lamp.

3. The intelligent light control apparatus for driving uninterruptible power supply according to claim 1, wherein the intelligent switch further comprises a first communication module; the first MCU module is in communication connection with external terminal equipment through the first communication module.

4. The intelligent light control apparatus for driving uninterruptible power supply according to claim 1, wherein the intelligent switch further comprises an AC-DC conversion module; one end of the AC-DC conversion module is electrically connected with an external power supply, and the other end of the AC-DC conversion module is electrically connected with the first MCU module and is used for converting the external power supply into a power supply of the first MCU module.

5. The intelligent lamp control apparatus for driving uninterrupted power supply according to claim 1, wherein the second MCU module is further connected to the network through a second communication module, and further connected to an external terminal device through communication.

6. The intelligent lamp control apparatus for driving uninterruptible power supply according to claim 5, wherein the second MCU module further receives an external control signal through the second communication module to control an operation state of the load lamp; wherein the external control signal comprises a color temperature adjusting signal and/or a cold and warm lamp adjusting signal.

7. The intelligent light control device for driving uninterruptible power supply of claim 1, wherein the intelligent switch further comprises a status indicator light; the state indicator lamp is electrically connected with the first MCU module and used for indicating the working state of the intelligent switch.

8. The intelligent lamp control apparatus for driving uninterruptible power supply according to claim 1, wherein the switching signal acquisition circuit comprises an oscillator, a switch, a first resistor, a second resistor, a third resistor, a photocoupling device, a fourth resistor, a fifth resistor, a first capacitor and a triode; one end of the first resistor is electrically connected with the oscillator through the switch, and the other end of the first resistor is electrically connected with the first end of the photoelectric coupling device through the second resistor and the third resistor in sequence; the second end of the photoelectric coupling device is electrically connected with the second end of the oscillator; the third end of the photoelectric coupling device is electrically connected with the first end of the triode, and the fourth end of the photoelectric coupling device is grounded;

the second end of the triode is connected with a 3.3V power supply through a fifth resistor, and the third end of the triode is grounded; one end of the fourth resistor is connected to a 3.3V power supply, and the other end of the fourth resistor is connected between the third end of the photoelectric coupling device and the first end of the triode; one end of the first capacitor is grounded, and the other end of the first capacitor is connected between the third end of the photoelectric coupling device and the first end of the triode; the second end of the triode is electrically connected with the power supply conversion and energy storage module.

9. The intelligent lamp control apparatus for driving uninterrupted power supply according to claim 1, wherein the preset time is 30s to 60s.

10. A smart lamp comprising a smart lamp control device for driving uninterrupted power supply and a load lamp as claimed in claim 1; the load lamp is electrically connected with the output end of the illumination driving device.

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