CN212211473U - Lighting equipment with ultraviolet bacteriostasis and sterilization functions - Google Patents

Abstract

The utility model discloses a take ultraviolet to be antibacterial and the lighting apparatus of function of disinfecting aims at providing one kind and does benefit to miniaturized, safe and reliable, low and the high lighting apparatus of taking ultraviolet to be antibacterial and the function of disinfecting of intelligent degree of energy consumption, and its technical scheme main points are including: the intelligent LED lamp comprises a main control module, a human body induction module, an illuminating lamp group, a sterilizing lamp group and a color-changing glass module, wherein the human body induction module, the illuminating lamp group, the sterilizing lamp group and the color-changing glass module are electrically connected with the main control module; the main control module controls the starting and stopping of the lighting lamp group or controls the synchronous starting and stopping of the bactericidal lamp group and the electrochromic glass assembly, and the human body induction module is used for identifying human body signals in an area and feeding back the signals to the main control module; when the germicidal lamp group and the electrochromic glass assembly are in an on state at the same time, the electrochromic glass assembly is switched to a transparent state by electrifying; the utility model discloses be suitable for lighting apparatus technical field.

Description

Lighting equipment with ultraviolet bacteriostasis and sterilization functions

Technical Field

The utility model relates to a lighting apparatus technical field, more exactly relate to a take lighting apparatus of ultraviolet antibacterial and function of disinfecting.

Background

Many people stay indoors for more than two thirds of the time nowadays, and poor indoor environmental sanitation not only affects the quality of life of people, but also seriously even affects the health of people. Because the climate in most areas of China is humid, a good growth environment is created for bacteria and microorganisms, reasonable sterilization treatment operation is lacked, the microorganisms such as bacteria are easy to breed, and the body health of users is affected.

Chemical products such as detergents are used for cleaning, so that the effect of completely killing fungi cannot be achieved, and some products are more beneficial to breeding of bacteria. Therefore, lighting equipment with a sterilization function and the like are produced, and in the lighting equipment with the sterilization lamps in the current market, the lighting lamp group and the sterilization lamp group usually adopt light emitted by the light source component to directly penetrate through a transparent material to illuminate or sterilize an area; in addition, the manual operation is adopted to switch the sterilization mode or the illumination mode, the energy consumption is large, the intelligent degree is low, and the light source generated by the sterilizing lamp irradiates on the skin under the sterilization mode, so that the body health is easily damaged. There are certain limitations.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects of the prior art, the illuminating equipment with the ultraviolet bacteriostasis and sterilization functions is beneficial to miniaturization, safety, reliability, low energy consumption and high intelligent degree.

In order to achieve the above object, the present invention provides the following technical solutions.

A lighting device with ultraviolet bacteriostasis and sterilization functions comprises a main control module, a human body induction module, a lighting lamp group, a sterilization lamp group and a color-changing glass module, wherein the human body induction module, the lighting lamp group, the sterilization lamp group and the color-changing glass module are electrically connected with the main control module;

the main control module controls the starting and stopping of the lighting lamp group or controls the synchronous starting and stopping of the bactericidal lamp group and the electrochromic glass assembly, and the human body induction module is used for identifying human body signals in an area and feeding back the signals to the main control module;

when the germicidal lamp group and the electrochromic glass assembly are in an on state at the same time, the electrochromic glass assembly is powered on and switched to a transparent state, and the germicidal lamp group outputs germicidal light to penetrate through the electrochromic glass assembly; when the main control module receives the human body signal identified by the human body induction module in the area, the main control module controls the germicidal lamp group to be turned on in a delayed mode and turned off after the germicidal lamp group is turned on and operates for a set time.

After the structure above the adoption, the utility model discloses a take lighting apparatus of ultraviolet antibacterial and function of disinfecting compares with prior art, has following advantage: the lighting lamp group and the sterilizing lamp group are covered by the electrochromic glass assembly, and the master control module controls the lighting lamp group to be started or stopped or controls the sterilizing lamp group and the electrochromic glass assembly to be started or stopped synchronously; meanwhile, the multifunctional lamp has the functions of illumination and sterilization, improves the functionality and the applicability of the device, and is convenient to use; under the condition that the sterilizing lamp group is electrified and operated, the electrochromic glass is switched to a transparent state in the electrified operation mode, namely, the sterilizing working mode is entered, and sterilizing light output by the sterilizing lamp group passes through the electrochromic glass to perform sterilization operation in an area, so that the sterilizing lamp group has the characteristics of good sterilizing effect, attractive and compact structural design and contribution to miniaturization; in addition, when the main control module receives a human body signal which is recognized by the human body induction module in the area, the main control module controls the germicidal lamp group to be turned on in a delayed mode and turned off after the germicidal lamp group is turned on and operates for a set time, and the intelligent sterilizing lamp group has the advantages of being high in intelligent degree, reducing energy consumption and avoiding damage to health.

As an improvement of the present invention, the main control module includes a main control chip U3, the color-changing glass module further includes an electrochromic glass assembly driving circuit, the electrochromic glass assembly driving circuit includes an optocoupler U1 and a silicon controlled rectifier M3, pin No. 1 of the optocoupler U1 is connected to the power VCC through a resistor R3, pin No. 2 of the optocoupler U1 is connected to the collector of a triode Q2, the base of the triode Q2 is electrically connected to pin No. 2 of the main control chip U3 through a resistor R4, the emitter of the triode Q2 is grounded GND, and a resistor R5 is connected between the base of the triode Q2 and the emitter;

a pin 1 of the controlled silicon M3 is connected to a pin 4 of an optocoupler U1, a resistor R8 is connected between the pin 1 and a pin 3 of the controlled silicon M3, a pin 2 of the controlled silicon M3 is connected in series with a resistor R6 and a resistor R7 and then is connected to a pin 6 of the optocoupler U1, and the pin 1 of the controlled silicon M3 is connected between the resistor R6 and the resistor R7 through a capacitor C3;

the driving circuit of the electrochromic glass component also comprises an L2 end connected between the resistor R7 and one input end of the electrochromic glass component, an N end connected to the other input end of the electrochromic glass component, and an L1 end connected to the No. 1 pin of the controllable silicon M3.

As an improvement of the utility model, the germicidal lamp group comprises serially connected germicidal lamps, one end of each of the serially connected germicidal lamps is connected with a power supply, and the other end of each of the serially connected germicidal lamps is connected with a germicidal lamp driving circuit and is connected with a No. 5 pin of the main control chip U3 through the germicidal lamp driving circuit;

the sterilizing lamp driving circuit comprises an MOS tube M1, the D pole of the MOS tube M1 is connected to one end of the sterilizing lamp after being connected in series, the G pole of the MOS tube M1 is connected with a resistor R47 in series and then is connected with a No. 5 pin of a main control chip U3, the S pole of the MOS tube M1 is grounded, and a resistor R9 is connected between the G pole and the S pole of the MOS tube M1 in a bridging mode.

As an improvement of the present invention, the lighting lamp set includes serially connected lighting lamps, one end of the serially connected lighting lamps is connected to a power supply, and the other end is connected to a lighting lamp driving circuit, and is connected to pin No. 4 of the main control chip U3 through the lighting lamp driving circuit;

the illuminating lamp driving circuit comprises an MOS tube M2, the D pole of the MOS tube M2 is connected to one end of an illuminating lamp after being connected in series, the G pole of the MOS tube M2 is connected with a resistor R21 in series and then is connected with a No. 4 pin of a main control chip U3, the S pole of the MOS tube M2 is grounded, and a resistor R15 is connected between the G pole and the S pole of the MOS tube M2 in a bridging mode.

As an improvement of the utility model main control chip U3 receives human body response module discerns the human body signal in the region, main control chip U3 control bactericidal banks time delay 60min is opened to open and close after the operation 60min at bactericidal banks.

As an improvement of the utility model, the human body induction module is including connecting master control chip U3 signal input part's human body induction sensor.

As an improvement of the utility model, master control chip U3 is connected with switching power supply module, and passes through switching power supply module inserts mains supply, switching power supply module includes automatically controlled chip U2, inserts mains supply terminal's rectifier bridge DB1 and connects the switch between mains supply L1 terminal and rectifier bridge DB 1.

Drawings

Fig. 1 is a schematic diagram of the module connection of the present invention.

Fig. 2 is a schematic diagram of the switching circuit of the present invention.

Fig. 3 is a schematic diagram of the circuit connection of the main control chip U3 of the present invention.

Fig. 4 is a schematic diagram of the driving circuit connection of the electrochromic glass assembly according to the present invention.

Fig. 5 is a schematic circuit diagram of the illumination assembly and the sterilization assembly according to the present invention.

Detailed Description

The invention will be further explained with reference to the drawings and the specific embodiments.

Referring to fig. 1, the lighting device with ultraviolet bacteriostasis and sterilization functions of the present invention comprises a main control module, and a human body induction module, a lighting lamp set, a germicidal lamp set and a color-changing glass module electrically connected to the main control module, wherein the color-changing glass module comprises an electrochromic glass assembly covering the lighting lamp set and the germicidal lamp set;

the main control module controls the starting and stopping of the lighting lamp group or controls the synchronous starting and stopping of the bactericidal lamp group and the electrochromic glass assembly, and the human body induction module is used for identifying human body signals in an area and feeding back the signals to the main control module;

when the germicidal lamp group and the electrochromic glass assembly are in an on state at the same time, the electrochromic glass assembly is switched to a transparent state by power supply, and the germicidal lamp group outputs germicidal light which penetrates through the electrochromic glass assembly; when the main control module receives the human body signal identified by the human body induction module in the area, the main control module controls the germicidal lamp group to be turned on in a delayed mode and turned off after the germicidal lamp group is turned on and operates for a set time.

Referring to fig. 1, 2, 3 and 4, the main control module includes a main control chip U3, the color-changing glass module further includes an electrochromic glass assembly driving circuit, the electrochromic glass assembly driving circuit includes an optocoupler U1 and a thyristor M3, a pin 1 of the optocoupler U1 is connected to a power VCC through a resistor R3, a pin 2 of the optocoupler U1 is connected to a collector of a triode Q2, a base of the triode Q2 is electrically connected to a pin 2 of the main control chip U3 through a resistor R4, an emitter of the triode Q2 is grounded GND, and a resistor R5 is connected between the base and the emitter of the triode Q2;

a pin 1 of the controlled silicon M3 is connected to a pin 4 of an optocoupler U1, a resistor R8 is connected between the pin 1 and a pin 3 of the controlled silicon M3, a pin 2 of the controlled silicon M3 is connected in series with a resistor R6 and a resistor R7 and then is connected to a pin 6 of the optocoupler U1, and the pin 1 of the controlled silicon M3 is connected between the resistor R6 and the resistor R7 through a capacitor C3;

the driving circuit of the electrochromic glass component also comprises an L2 end connected between the resistor R7 and one input end of the electrochromic glass component, an N end connected to the other input end of the electrochromic glass component, and an L1 end connected to the No. 1 pin of the controllable silicon M3.

Referring to fig. 2, 3, 4 and 5, the germicidal lamp group includes germicidal lamps connected in series, one end of each of the germicidal lamps connected in series is connected to a power supply, and the other end of each of the germicidal lamps connected in series is connected to a germicidal lamp driving circuit and is connected to pin No. 5 of the main control chip U3 through the germicidal lamp driving circuit;

the sterilizing lamp driving circuit comprises an MOS tube M1, the D pole of the MOS tube M1 is connected to one end of the sterilizing lamp after being connected in series, the G pole of the MOS tube M1 is connected with a resistor R47 in series and then is connected with a No. 5 pin of a main control chip U3, the S pole of the MOS tube M1 is grounded, and a resistor R9 is connected between the G pole and the S pole of the MOS tube M1 in a bridging mode.

The lighting lamp group comprises serially connected lighting lamps, one end of each serially connected lighting lamp is connected with a power supply, the other end of each serially connected lighting lamp is connected with a lighting lamp driving circuit, and the lighting lamp driving circuit is connected with a No. 4 pin of the main control chip U3;

the illuminating lamp driving circuit comprises an MOS tube M2, the D pole of the MOS tube M2 is connected to one end of an illuminating lamp after being connected in series, the G pole of the MOS tube M2 is connected with a resistor R21 in series and then is connected with a No. 4 pin of a main control chip U3, the S pole of the MOS tube M2 is grounded, and a resistor R15 is connected between the G pole and the S pole of the MOS tube M2 in a bridging mode.

When the main control chip U3 receives the human body signal identified by the human body induction module in the area, the main control chip U3 controls the germicidal lamp group to be turned on for 60min in a delayed mode, and is turned off after the germicidal lamp group is turned on and runs for 60 min.

The human body induction module comprises a human body induction sensor connected to a signal input end of the main control chip U3.

The main control chip U3 is connected with the switching power supply module, and passes through the switching power supply module inserts mains supply, the switching power supply module includes automatically controlled chip U2, inserts mains supply terminal's rectifier bridge DB1 and connects the switch between mains supply L1 terminal and rectifier bridge DB 1.

The working principle is as follows: explanation of each component: the power supply is 220-plus 240VAC/50HZ alternating current, FR1 is input fuse, DB1 is a rectifier bridge, an inductor L3, a resistor R20, a capacitor E1, a capacitor E2 are combined into a filter circuit, a resistor R13 and a resistor R14, a capacitor C10 is a power supply current limiting resistor and a filter capacitor of the electronic control chip U2, a resistor R22, a capacitor C30, a resistor R18 and a diode D6 are absorption circuits of the switching power supply module. The LED lamp bank comprises a resistor R10, a resistor R11 which is a power supply output constant-current resistor, a resistor C20 which is a high-frequency suppression capacitor, a T1 which is an isolation transformer, a diode D2, a diode D1 which is an output rectifier diode, a capacitor C6, a resistor R19, a capacitor E3, a resistor R12, a resistor R1, a voltage-stabilizing diode Z1 and a U4 which are an RC absorption circuit and an output filter circuit, an illuminating lamp group which is a guest self-defined color temperature module and a sterilizing lamp group which adopts a depth uVC illuminating output unit; the human body induction module adopts a human body infrared sensor.

The switch adopts a mechanical switch, when the power is on and off for the first time (in an illumination mode), the switch power supply normally works, the VCC output is 12V voltage, the power supply pin VCC of the main control chip U3 detects the arrival of the first voltage in 5 seconds, at the moment, the main control chip U3 starts to work, the pin 4 of the main control chip U3 outputs a high-level effective signal, the pin 2 of the main control chip U3 outputs a low-level effective signal, the pin 5 outputs a low-level ineffective signal, at the moment, the MOS tube M2 is conducted, and the illumination lamp bank is electrified and lightened; the MOS tube M1 is cut off, and the germicidal lamp group is switched off when power is off; because the optocoupler U1 receives the low-level effective signal of the pin 2 of the main control chip U3, the optocoupler U1 is cut off, the controllable silicon M3 is cut off, and no input voltage is provided at the input end of the electrochromic glass assembly (the pin 2 of the main control chip U3 is amplified by the resistor R4, the resistor R5 and the triode Q2 and then output to the optocoupler U1). When the human body induction module is in the illumination mode, whether the human body induction module detects whether a person only needs to light the illumination lamp set or not, the control chip U3 cannot control the start and stop of the bactericidal lamp set and the electrochromic glass assembly;

when the second power-on and power-off (sterilization mode) is carried out, the switching power supply normally works, the VCC output is 12V voltage, the power supply pin VCC of the main control chip U3 detects the arrival of the first voltage in 5 seconds, at the moment, the main control chip U3 starts to work, the pin 4 of the main control chip U3 outputs a low-level invalid signal, the pin 2 of the main control chip U3 outputs a high-level invalid signal, the pin 5 of the main control chip U3 outputs a high-level valid signal, the MOS tube M1 is conducted, and the sterilization lamp group is electrified and operated; the MOS tube M2 is cut off, and the lighting lamp group is powered off; the optocoupler U1 is connected, the controllable silicon M3 is connected, the input end of the electrochromic glass component is provided with input voltage, and the electrochromic glass component is changed from milky white to transparent. The human body sensing module detects whether a person is in a working range, if the person appears, the 5 th pin in the main control chip U3 is turned off to output a low-level invalid signal, the 5 th pin in the main control chip U3 is turned on to output a high-level valid signal after the person walks away, the sterilization is normally carried out after 60 minutes, and the 5 th pin in the main control chip U3 is turned off to output a low-level invalid signal after 60 minutes. Waiting for the next switch (sterilization mode) signal.

Above only the utility model discloses an it is preferred embodiment, the utility model discloses a scope of protection not only limits in above-mentioned embodiment, and the all belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope of protection. It should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. The utility model provides a take lighting apparatus of ultraviolet antibacterial and bactericidal function which characterized in that: the intelligent LED lamp comprises a main control module, a human body induction module, an illuminating lamp group, a sterilizing lamp group and a color-changing glass module, wherein the human body induction module, the illuminating lamp group, the sterilizing lamp group and the color-changing glass module are electrically connected with the main control module;

the main control module controls the starting and stopping of the lighting lamp group or controls the synchronous starting and stopping of the bactericidal lamp group and the electrochromic glass assembly, and the human body induction module is used for identifying human body signals in an area and feeding back the signals to the main control module;

when the germicidal lamp group and the electrochromic glass assembly are in an on state at the same time, the electrochromic glass assembly is switched to a transparent state by power supply, and the germicidal lamp group outputs germicidal light which penetrates through the electrochromic glass assembly; when the main control module receives the human body signal identified by the human body induction module in the area, the main control module controls the germicidal lamp group to be turned on in a delayed mode and turned off after the germicidal lamp group is turned on and operates for a set time.

2. A lighting device with ultraviolet bacteriostasis and sterilization functions as claimed in claim 1, wherein: the main control module comprises a main control chip U3, the color-changing glass module further comprises an electrochromic glass assembly driving circuit, the electrochromic glass assembly driving circuit comprises an optocoupler U1 and a silicon controlled rectifier M3, a pin 1 of the optocoupler U1 is connected to a power supply VCC through a resistor R3, a pin 2 of the optocoupler U1 is connected with a collector of a triode Q2, a base of the triode Q2 is electrically connected with a pin 2 of the main control chip U3 through a resistor R4, an emitter of the triode Q2 is grounded GND, and a resistor R5 is connected between the base and the emitter of the triode Q2 in parallel;

a pin 1 of the controlled silicon M3 is connected to a pin 4 of an optocoupler U1, a resistor R8 is connected between the pin 1 and a pin 3 of the controlled silicon M3, a pin 2 of the controlled silicon M3 is connected in series with a resistor R6 and a resistor R7 and then is connected to a pin 6 of the optocoupler U1, and the pin 1 of the controlled silicon M3 is connected between the resistor R6 and the resistor R7 through a capacitor C3;

the driving circuit of the electrochromic glass component also comprises an L2 end connected between the resistor R7 and one input end of the electrochromic glass component, an N end connected to the other input end of the electrochromic glass component, and an L1 end connected to the No. 1 pin of the controllable silicon M3.

3. A lighting device with ultraviolet bacteriostasis and sterilization functions as claimed in claim 2, wherein: the sterilizing lamp group comprises sterilizing lamps which are connected in series, one end of each sterilizing lamp which is connected in series is connected with a power supply, the other end of each sterilizing lamp is connected with a sterilizing lamp driving circuit, and the sterilizing lamp driving circuit is connected with a No. 5 pin of the main control chip U3;

the sterilizing lamp driving circuit comprises an MOS tube M1, the D pole of the MOS tube M1 is connected to one end of the sterilizing lamp after being connected in series, the G pole of the MOS tube M1 is connected with a resistor R47 in series and then is connected with a No. 5 pin of a main control chip U3, the S pole of the MOS tube M1 is grounded, and a resistor R9 is connected between the G pole and the S pole of the MOS tube M1 in a bridging mode.

4. A lighting device with ultraviolet bacteriostasis and sterilization functions as claimed in claim 2, wherein: the lighting lamp group comprises serially connected lighting lamps, one end of each serially connected lighting lamp is connected with a power supply, the other end of each serially connected lighting lamp is connected with a lighting lamp driving circuit, and the lighting lamp driving circuit is connected with a No. 4 pin of the main control chip U3;

the illuminating lamp driving circuit comprises an MOS tube M2, the D pole of the MOS tube M2 is connected to one end of an illuminating lamp after being connected in series, the G pole of the MOS tube M2 is connected with a resistor R21 in series and then is connected with a No. 4 pin of a main control chip U3, the S pole of the MOS tube M2 is grounded, and a resistor R15 is connected between the G pole and the S pole of the MOS tube M2 in a bridging mode.

5. A lighting device with ultraviolet bacteriostasis and sterilization functions as claimed in claim 2, wherein: when the main control chip U3 receives the human body signal identified by the human body induction module in the area, the main control chip U3 controls the germicidal lamp group to be turned on for 60min in a delayed mode, and is turned off after the germicidal lamp group is turned on and runs for 60 min.

6. A lighting device with ultraviolet bacteriostasis and sterilization functions as claimed in claim 5, wherein: the human body induction module comprises a human body induction sensor connected to a signal input end of the main control chip U3.

7. A lighting device with ultraviolet bacteriostasis and sterilization functions as claimed in claim 2, wherein: the main control chip U3 is connected with the switching power supply module, and passes through the switching power supply module inserts mains supply, the switching power supply module includes automatically controlled chip U2, inserts mains supply terminal's rectifier bridge DB1 and connects the switch between mains supply L1 terminal and rectifier bridge DB 1.

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