SUMMERY OF THE UTILITY MODEL
Based on this, the utility model aims to provide a multichannel intelligent control LED lamp, it has convenient operation, control advantage nimble, that the realization is with low costs.
A multi-channel intelligent control LED lamp comprises a multi-channel intelligent control module, wherein the multi-channel intelligent control module comprises at least one LED control module and at least one LED lamp, and each LED control module controls the on-off of one LED lamp; the LED control module comprises at least one switching element; each switching element is provided with a socket at both ends, and a further electrically conductive pin is insertable into said socket, said switching element being short-circuited when the pin is inserted into the sockets at both ends of the switching element.
Multichannel intelligent control LED lamp, can make the user according to actual conditions's needs, the condition of lighting of nimble control LED lamp because different switching element detect different environmental parameter, makes up through the short circuit state to each switching element, can deal with diversified operation requirement, and easy operation, with low costs.
Furthermore, the multi-path intelligent control module comprises two LED control modules, namely a colorful LED control module and a white LED control module; the colorful LED control module is connected with the white LED control module in parallel.
Furthermore, the seven-color LED control module comprises seven-color LEDs, a first switch element and a second switch element which are connected in series, the first switch element is provided with a first bolt which can be connected at two ends of the first switch element in parallel, and the second switch element is provided with a second bolt which can be connected at two ends of the second switch element in parallel; the white light LED control module comprises a white light LED, a third switch element and a fourth switch element which are connected in series, the third switch element is provided with a third bolt which can be connected at two ends of the third switch element in parallel, and the fourth switch element is provided with a fourth bolt which can be connected at two ends of the fourth switch element in parallel.
Furthermore, the first switch element is a photosensitive element and is turned on when the intensity of the ambient light is low; the second switch element is a sound sensitive element and is turned on when the loudness of the ambient sound reaches a certain threshold, and the turning on of the second switch element can be delayed for 30 seconds.
Furthermore, the third switch element is a photosensitive element and is turned on when the intensity of ambient light is low; the fourth switch element is an infrared photosensitive element and is conducted when infrared rays with certain intensity are detected, and the conduction can be delayed for 30 seconds.
Furthermore, the seven-color LED control module comprises a seven-color LED drive circuit board, and the seven-color LED drive circuit board is provided with a chip control drive program for controlling the light emitting color combination of the seven-color LED.
Further, the white LED control module includes a white LED voltage regulator module for stabilizing the voltage across the white LED 24.
Further, the intelligent control system also comprises a voltage transformation rectification output module, wherein the voltage transformation rectification output module is connected with 220V mains supply and is used for converting 220V alternating current into 5V direct current and inputting the 5V direct current into the multi-path intelligent control module.
Further, the electronic device also comprises a functional circuit module, wherein the functional circuit module is used for realizing at least one function of sound wave insect expelling and air purification.
For a better understanding and an implementation, the present invention is described in detail below with reference to the accompanying drawings.
Detailed Description
Referring to fig. 1, fig. 1 is a schematic diagram of a relationship between LED lamp modules. The LED lamp circuit comprises a voltage transformation rectification output module, a functional circuit module and a multi-path intelligent control module.
The voltage transformation rectification output module and the functional circuit module are directly connected with 220V mains supply. The voltage transformation rectification output module is used for converting 220V alternating current (220V-AC) into 5V direct current (5V-DC), and is provided with an input end and an output end, wherein the input end is connected with a live wire and a zero wire (L is a live wire, and N is a zero wire), and the output end is connected with the multi-path intelligent control module; the functional circuit module is used for realizing other auxiliary functions of the LED lamp, and particularly, the functional module can be used for realizing functions of sound wave insect expelling, air purification and the like.
The multi-path intelligent control module is used for controlling the working states of the colorful LED and the white light LED, is connected with the output end of the voltage transformation rectification output module, namely receives 5V direct current, is simultaneously connected with the colorful LED and the white light LED respectively, and controls the working states of the two LED lamps through an internal logic circuit.
Referring to fig. 2, fig. 2 is a schematic diagram of a multi-channel intelligent control module circuit. The schematic diagram merely shows the logical relationship between the respective elements, and does not show the physical positional relationship between the respective elements.
The multi-channel intelligent control module comprises a colorful LED control module 10 and a white LED control module 20 which are connected in parallel. The two control modules are functionally logically independent of each other.
The seven-color LED control module 10 includes a first switching element 11, a second switching element 12, a seven-color LED driving circuit board 13, and a seven-color LED 14. The first switch element 11, the second switch element 12 and the seven-color LED14 are connected in series, and the first switch element 11 and the second switch element 12 jointly determine whether the loop is conductive. Specifically, the first switch element 11 is a photosensitive switch element, and is turned on when the intensity of the ambient light is low; the second switching element 12 is a sound sensitive switching element that is turned on when the loudness of the ambient sound reaches a certain threshold, which may be turned on for a 30 second delay. A socket is arranged at two ends of the first switch element 11, and a first pin 111 can be connected in parallel with two ends of the first switch element 11 through the socket, when the first pin 111 is connected in parallel with two ends of the first switch element 11, the first switch element 11 is short-circuited; a socket is provided at both ends of the second switching element 12, and a second pin 121 is connected in parallel to both ends of the second switching element 12 through the socket, and when the second pin 121 is connected in parallel to both ends of the second switching element 12, the second switching element 12 is short-circuited. The user can connect different bolts according to the actual situation, and the lighting condition of the colorful LED14 is changed. The seven-color LED driving circuit board 13 is provided with a chip control driving program for controlling the light emitting color combination of the seven-color LED.
The specific operation mode of the seven-color LED control module 10 in different connection states of the respective pins is as follows.
1) The two bolts are not connected, when the intensity of ambient light is low, the photosensitive switch element is conducted, and meanwhile, when the loudness of sound in the environment reaches a certain threshold value, the sound-sensitive switch element is conducted, the colorful LED14 is lightened, and the time delay is 30 seconds.
2) Only the first pin 111 is short-circuited, the photosensitive switching element is short-circuited, when the loudness of sound in the environment reaches a certain threshold value, the acoustic sensitive switching element is turned on, the colorful LED14 is lightened, and the delay time is 30 seconds.
3) Only the second pin 121 is short-circuited, the sound-sensitive switch element is short-circuited, when the intensity of ambient light is low, the light-sensitive switch element is turned on, and the colorful LED14 is lighted and is normally lighted.
4) The two pins are in short circuit, the photosensitive switch element and the sound-sensitive switch element are in short circuit at the same time, and the colorful LED14 is normally on.
Preferably, each plug can be a short-circuit cap, and a user can freely combine the connection condition of each short-circuit cap according to the requirement of actual conditions to control the influence of each environmental factor on the opening and closing condition of the circuit, so that the lighting condition of the colorful LED14 can be flexibly changed.
The white LED control module 20 includes a third switching element 21, a fourth switching element 22, a white LED voltage stabilization module 23, and a white LED 24. The third switching element 21, the fourth switching element 22 and the white LED24 are connected in series, and the third switching element 21 and the fourth switching element 22 determine whether the loop is turned on. Specifically, the third switch element 21 is a photosensitive switch element and is turned on when the intensity of the ambient light is low; the fourth switching element 22 is an infrared photosensitive switching element, and is turned on when detecting infrared rays with a certain intensity, and the turn-on can be delayed for 30 seconds, that is, when a person passes by, the infrared rays radiated by the human body can turn on the infrared photosensitive switching element. A socket is provided at both ends of the third switching element 21 and a third pin 211 can be connected in parallel to both ends of the third switching element 21 through the socket, and when the third pin 211 is connected in parallel to both ends of the third switching element 21, the third switching element 21 is short-circuited; the fourth switching element 22 has sockets at both ends thereof and a fourth pin 221 connectable in parallel to both ends of the fourth switching element 22 through the sockets, and when the fourth pin 221 is connected in parallel to both ends of the fourth switching element 22, the fourth switching element 22 is short-circuited. The user can connect different plugs according to the actual situation, and the lighting condition of the white light LED24 can be changed. The white LED voltage stabilizing module 23 is used for stabilizing the voltage across the white LED24 to ensure the working state thereof.
The specific operation mode of the white LED control module 20 in different connection states of the respective pins is as follows.
1) Two bolts all do not connect, when ambient light intensity is lower, photosensitive switch element switches on, and infrared photosensitive switch element senses personnel simultaneously, and infrared photosensitive switch element switches on, and white light LED24 lights, time delay 30 seconds, automatic cycle.
2) And only the third plug pin 211 is in short circuit, the photosensitive switch element is in short circuit, when the infrared photosensitive switch element senses a person, the infrared photosensitive switch element is switched on, the white light LED24 is lightened, the time is delayed for 30 seconds, and the automatic cycle is realized.
3) Only the fourth pin 221 is short-circuited, the infrared photosensitive switching element is short-circuited, and when the intensity of ambient light is low, the photosensitive switching element is turned on, and the white light LED24 lights up and lights up normally.
4) Two bolts are all short-circuited, the photosensitive switching element and the infrared photosensitive switching element are short-circuited at the same time, and the white light LED24 is normally bright.
Preferably, each plug may be a short-circuit cap, and a user may arbitrarily combine the connection conditions of the short-circuit caps according to the needs of actual conditions to control the influence of each environmental factor on the circuit opening and closing conditions, so as to flexibly change the lighting conditions of the white light LED 24.