CN114364092B

CN114364092B - System for controlling numerical control power supply to supply power to lamp by using simulation touch screen and application of system

Info

Publication number: CN114364092B
Application number: CN202210143838.0A
Authority: CN
Inventors: 王立忠
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-02-16
Filing date: 2022-02-16
Publication date: 2024-02-09
Anticipated expiration: 2042-02-16
Also published as: CN114364092A

Abstract

The system comprises a simulated touch screen, a numerical control constant current power supply lamp connected with a mixed cable, wherein the numerical control constant current power supply lamp comprises a numerical control constant current power supply provided with a decoding module, an integrated receiving head port of the decoding module is connected with the integrated receiving head, and when the decoding module is connected with an infrared remote control receiving head in the integrated receiving head, the lamp has an infrared remote controller development function; the invention solves the system architecture of the chip from the level of the professional chip and the professional module, solves the complex system architecture in the chip and the module, ensures that the internal functions of the chip and the module are strong, the external circuit is simple, the universality is strong, the development of various types of lamps is easy to realize, the modularized combination and standardized circuit connection are carried out like building blocks according to the functions of the lamps during the development, and the standard system suitable for intelligent manufacturing is easy to be formed when the unnecessary functions are empty.

Description

System for controlling numerical control power supply to supply power to lamp by using simulation touch screen and application of system

Technical Field

The invention relates to the technical field of illumination, in particular to a system for controlling a numerical control power supply to supply power to a lamp by using a simulation touch screen and application thereof.

Background

The lamp control in the intelligent home is still simple on-off control at present, and has no core technology content, but has very high price and no significance of market popularization due to market stir-frying, and further has no significant technical innovation problems of simulation touch screen numerical control illumination, multifunctional illumination, decorative illumination, reliable illumination, modularized standardized line connection of a lamp structure and the like of future lamps from the hierarchy of professional chips/professional modules.

The traditional lamp is controlled by the traditional wall switch, the functions of the lamp are few, the purpose of the lamp manufacturing industry in China is weak and scattered, the development of the lamp has met the bottleneck, the requirements of multifunctional lighting, decorative lighting, reliable lighting and intelligent manufacturing are not met, the lamp industry in China is urgently required to integrate high-quality resources of the lamp manufacturing industry by a scientific innovation platform which is suitable for the modularized structure, standardized line connection and large-scale intelligent manufacturing of the lamp, the silicon valley of the Chinese lamp is created, and the core competitiveness of the Chinese lamp in the international market is improved.

Disclosure of Invention

The invention aims to solve the technical problems and overcome the defects in the prior art, and provides a system which has multiple functions such as simulated touch screen control, infrared remote controller control and decorative lighting functions and the like and uses the simulated touch screen to control a numerical control power supply to supply power to a lamp and application thereof.

The technical scheme adopted for solving the technical problems is as follows: the system for controlling the numerical control power supply to supply power to the lamp by utilizing the simulation touch screen comprises the simulation touch screen and a numerical control power supply lamp connected with the mixed cable, wherein the numerical control power supply lamp comprises a numerical control power supply provided with a decoding module and a lamp body connected with the decoding module through an integrated receiving head; when the decoding module is connected with an infrared remote control receiving head in the integrated receiving head, the lamp has an infrared remote control development function; when the integrated receiving head is not needed, the port of the integrated receiving head is empty; the driving port of the 220V power supply relay of the decoding module is connected with the coil of the 220V power supply relay, the common contact of the 220V power supply relay is connected with the 220V power line in the mixed cable input port, the decoding module comprises a main brightness driving port, an auxiliary brightness driving port and a decorative lighting driving port which are connected with the coils of the corresponding relays, the movable contact of each driving relay is connected with the corresponding power supply line of the numerical control power supply port, the numerical control power supply port is connected with the power input port of the lamp body through a flat cable, the digital control power supply in the abstract drawing can not be fully represented in the drawing due to the fact that the number of main brightness driving, auxiliary brightness driving and decorative lighting driving ports on the decoding module is large and the limitations of the abstract drawing, the connection relation between the decoding module and the driving relay in the drawing also represents the connection relation between the decoding module and other main brightness driving, auxiliary brightness driving and decorative lighting driving relays, and during development, modularized combination and standardized circuit connection are carried out like building blocks according to the functions of lamps, so that unnecessary functions are not needed.

Further, the simulation touch screen is provided with a 220V power input port and a mixed cable output port; the hybrid cable is composed of a pair of 220V power lines and a pair of data lines; the numerical control constant current power supply lamp comprises a numerical control power supply and a lamp body which are connected through an integrated receiving head; the numerical control power supply is provided with a mixed cable input port, a numerical control power supply port and an integrated receiving head port; the simulation touch screen is arranged on a pre-buried bottom box on a wall, a 220V power input port of the simulation touch screen is connected with a 220V power supply, and a mixed cable output port of the simulation touch screen is connected with a numerical control power supply mixed cable input port; the numerical control power supply port is connected with the power input port of the lamp body; the integrated receiving head port is connected with the integrated receiving head; the simulation touch screen comprises a screen of the simulation touch screen and an in-screen PCB; the screen of the simulation touch screen adopts: 1 st row K1/K2/K3/K4; 2 row of keyboard icons, namely K5/K6/K7/K8 of the 2 nd row; the PCB board is provided with: 2 rows of capacitive touch keyboards, namely K1/K2/K3/K4 of the 1 st row and K5/K6/K7/K8 of the 2 nd row, backlight LED branches, trademark indication lamps and photodiodes; the simulation touch screen comprises a screen, wherein a coding chip of the simulation touch screen is arranged on the back of a PCB (printed Circuit Board) in the screen, 8 touch keyboard signal input ports from K1 to K8 are arranged, the 8 touch keyboard signal input ports are connected with the touch signal output of the 8 capacitive touch keyboards of K1/K2/K3/K4/K5/K6/K7/K8 of the PCB, the screen of the simulation touch screen adopts a capacitive touch technology, touch keyboard icons are designed on the secondary outer layer of an LED backlight, the lower surface layer of each touch keyboard icon accurately corresponds to the touch keyboard on the PCB, and the number of the purposes of designing the touch keyboard icons is 2: 1 st, providing a virtual touch screen interface for the simulation touch screen; the 2 nd is in order to accurately position the touch keyboard corresponding to the PCB when the finger touches, the touch operation of the finger is input to the touch signal input port of the coding chip, the coding chip amplifies the touch signal and then carries out operation identification on the touch signal, and the touch signal is sent to the coding circuit to be output to the data output port of the coding chip after being coded after operation identification; the simulation touch screen has the same effect and the same advantage as a touch screen, such as a screen with LED backlight, an anti-aging and wear-resistant touch screen outer screen, and the like, but the internal structures are different, and the simulation touch screen adopts virtual touch keyboard icons, which is called as the simulation touch screen.

Further, the code chip port of the simulation touch screen includes: 1. a power input port; 2.k1 touch keyboard signal input port, 3.k2 touch keyboard signal input port, 4.k3 touch keyboard signal input port, 5.k4 touch keyboard signal input port, 6.k5 touch keyboard signal input port, 7.k6 touch keyboard signal input port, 8.k7 touch keyboard signal input port, 9.k8 touch keyboard signal input port, 10.led backlight control level output port; 11. a photodiode level input port; 12. a buzzer driving port; 13. a 220V power supply of the hybrid cable supplies power to a relay driving port; 14. a data line output port; 15. a crystal oscillator port; 16. a reset port;

the connection of the encoding chip port comprises the following steps:

1. the power input port is connected with a 5V power input;

2. the K1 is a touch signal input port of a general power switch key, and the port is connected with a touch keyboard K1 on a PCB (printed circuit board) in a wall switch screen of the simulation touch screen;

3. the K2 is a main degree touch signal input port and is connected with a touch keyboard K2 on a PCB in a wall switch screen of the simulation touch screen;

4. the K3 is that a secondary degree touch signal input port is connected with a touch keyboard K3 on a PCB in a wall switch screen of the simulation touch screen;

5. The K4 is a touch signal input port with small brightness, and the touch signal input port is connected with a touch keyboard K4 on a PCB (printed circuit board) in the wall switch screen of the simulated touch screen;

6. the K5 is a touch keyboard K5 which is connected with an illumination touch signal input port in the infrared of the human body and on a PCB board in a wall switch screen of the simulation touch screen;

7. the K6 is that a decorative lighting touch signal input port is connected with a touch keyboard K6 on a PCB (printed circuit board) in a wall switch screen of the simulation touch screen;

8. the K7 is that a linear dimming touch signal input port is connected with a touch keyboard K7 on a PCB (printed circuit board) in a wall switch screen of the simulation touch screen;

9. the K8 is a linear dimming touch signal input port which is connected with a touch keyboard K8 on a PCB in a wall switch screen of the simulation touch screen;

10. the LED backlight control level output port is connected with the control port of the LED backlight power supply module;

11. the level input port of the photosensitive diode is connected with one side of the jumper cap;

12. the buzzer driving port is connected with a buzzer on a PCB in the simulated touch screen;

13. the driving port of the hybrid cable power supply relay is connected with a control coil of the numerical control power supply relay;

14. The data line output port is connected with a data line in the hybrid cable;

15. the crystal oscillator port is connected with the crystal oscillator;

16. the reset port is connected with the reset circuit.

Furthermore, the numerical control power supply is a numerical control constant current power supply, and the simulation touch screen is provided with a 220V power supply input port and a mixed cable output port; the hybrid cable is composed of a pair of 220V power lines and a pair of data lines; the numerical control constant current power supply lamp comprises a numerical control constant current power supply and a lamp body which are connected through an integrated receiving head; the numerical control constant current power supply is provided with a mixed cable input port, a numerical control constant current power supply port and an integrated receiving head port; the simulation touch screen is arranged on a pre-buried bottom box on a wall, a 220V power input port of the simulation touch screen is connected with a 220V power supply, and a mixed cable output port of the simulation touch screen is connected with a mixed cable input port of the numerical control constant current power supply; the numerical control constant current power supply port is connected with the power supply input port of the lamp body; the integrated receiving head port is connected with the integrated receiving head; when the decoding module is connected with an infrared remote control receiving head in the integrated receiving head, the lamp has an infrared remote control development function; when the integrated receiver head is not needed, the port of the integrated receiver head is empty.

Further, the numerical control constant current power supply is provided with: a hybrid cable input port, a numerical control constant current power supply port and an integrated receiving head port;

the mixed cable input port is connected with a mixed cable pre-buried in the wall, and the other end of the mixed cable is connected with a mixed cable output port on the simulated touch screen wall switch;

the numerical control power supply port is connected with an LED lamp power supply input port with a common power supply negative through a section of flat cable, and the LED lamp power supply input port comprises LED branches with main brightness 1/main brightness 2/auxiliary brightness 1/auxiliary brightness 2/decorative lighting red/decorative lighting green/decorative lighting blue/small brightness/linear dimming which are parallel with the common power supply negative;

the port of the integrated receiving head is connected with the integrated receiving head arranged in the center of the LED lamp through a section of flat cable; when the decoding module is connected with an infrared remote control receiving head in the integrated receiving head, the lamp has an infrared remote control development function; when the integrated receiving head is not needed, the port of the integrated receiving head is empty;

the integrated receiving headend includes: a 5V power line, an infrared remote control receiving head signal line, a sound control sensor signal line and a human body infrared sensor signal line;

the PCB inside the numerical control constant current power supply is provided with: 48V power supply module, 220V power supply relay, rectifying and filtering module, main luminance constant current module, auxiliary luminance 1 constant current module, decorative lighting constant current module, decoding module, main luminance 1/main luminance 2/auxiliary luminance 1/auxiliary luminance 2/decorative lighting red/decorative lighting green/decorative lighting blue driving relay of decoding module;

The 220V input end of the 48V power supply module is connected with a 220V power line in a mixed cable output port in the numerical control power supply, the input end of the 48V power supply module is connected with the 220V power line of the mixed cable output port, and the output end of the 48V power supply module is connected with the 48V power supply input end of the decoding module;

the driving coil of the 220V power supply relay is connected with the driving port of the 220V power supply relay of the decoding module, the common contact of the 220V power supply relay is connected with a 220V power line in the mixed cable input port of the numerical control constant current power supply, and the movable contact of the 220V power supply relay is connected with the input end of the rectifying and filtering module;

the input end of the rectifying and filtering module is connected with the movable contact of the 220V power supply relay, and the input ends of the main brightness constant current module/the auxiliary brightness 1 constant current module 36/the decorative lighting constant current module form a parallel connection relationship and then are connected with the 300V direct current voltage output end of the rectifying and filtering module;

the 48V power input port of the decoding module is connected with the output end of the 48V power module; the data input port of the decoding module is connected with a data line in the mixed cable input port of the numerical control constant current power supply;

the main brightness 1/main brightness 2/auxiliary brightness 1/auxiliary brightness 2/decorative lighting red/decorative lighting green/decorative lighting blue driving port of the decoding module is connected with the main brightness 1/main brightness 2/auxiliary brightness 1/auxiliary brightness 2/decorative lighting red/decorative lighting green/decorative lighting blue driving relay coil respectively;

The public contact of the driving relay of the main brightness 1/main brightness 2 is connected in parallel and then connected with the output end of the main brightness constant current module, and the movable contact of the driving relay of the main brightness 1/main brightness 2 is respectively connected with the power supply circuit of the main brightness 1/main brightness 2 in the power supply port of the numerical control constant current power supply;

the common contact of the auxiliary brightness 1 driving relay of the decoding module is connected with the output end of the auxiliary brightness 1 constant current module, and the movable contact of the auxiliary brightness 1 driving relay is connected with an auxiliary brightness 1 power supply circuit in the numerical control constant current power supply port;

the common contact of the auxiliary brightness 2 driving relay of the decoding module is connected with the output end of the auxiliary brightness 2 constant current module, and the movable contact of the auxiliary brightness 2 driving relay is connected with an auxiliary brightness 2 power supply circuit in the numerical control constant current power supply port;

the numerical control constant current power supply develops the used functions and regards the unused functions as empty;

the numerical control constant current power supply is used for adding a decorative lighting power supply function on the basis of a brightness lighting function: the public contacts of the decorative illumination red/green/blue driving relay of the decoding module are connected in parallel and then connected with the output end of the decorative illumination constant current module, and the movable contacts of the decorative illumination red/green/blue driving relay of the digital control constant current power supply are respectively connected with the decorative illumination red/green/blue power supply circuit of the digital control constant current power supply port;

When the numerical control constant current power supply is used for supplying power to an infrared remote control desk lamp and an infrared remote control wall lamp: the small brightness output port of the decoding module is directly connected with a small brightness power supply circuit in the numerical control constant current power supply port; the linear dimming output port of the decoding module is directly connected with a linear dimming power supply circuit in the digital control constant current power supply port, and other functions are not connected and vacant when the digital control constant current power supply is designed, so that the structures of the digital control constant current power supply of the infrared remote control desk lamp and the digital control constant current power supply of the infrared remote control wall lamp are simplified;

a small brightness power supply port/linear dimming power supply port of the decoding module: the LED lamp can be respectively connected with the small-brightness LED branch circuit/the linear dimming LED branch circuit according to the function of lamp development, and the connection is not left when the function is not required to be developed;

when the numerical control constant current power supply is used for supplying power to corridor lighting fixtures: the voice control and human body infrared illumination 1 output port/2 output port of the decoding module is directly connected with the human body infrared illumination LED branch 1/LED branch 2, and meanwhile, the voice prompt control level output port/5V power supply output port of the corridor is respectively connected with the control level input port/5V power supply input port of the corridor voice prompt module; at the moment, the internal design of the numerical control constant current power supply is very concise, and other functions are regarded as empty;

When the numerical control constant current power supply is used for simulating LED backlight power supply of the liquid crystal television wall painting: the output of the decoding module parallel type constant current module power supply port is controlled by a K1 key on an infrared remote controller, when the K1 key is touched, the port outputs 300V direct current voltage, the LED back light of the simulated liquid crystal television wall painting is turned on, and at the moment, other functions are regarded as being empty and not connected when the numerical control constant current power supply is designed, so that the structure of the numerical control constant current power supply of the simulated liquid crystal television wall painting is simplified;

the infrared remote control receiving head signal input port of the decoding module is connected with the infrared remote control receiving head signal line in the integrated receiving head, so that the remote control of the infrared remote control to the lamp is realized;

When the function of the integrated receiving head is not needed to be opened, the integrated receiving head is not connected, or the whole integrated receiving head is regarded as empty and is not connected;

when the numerical control constant current power supply is controlled by an infrared remote controller, the names and functions of the function keys on the panel of the infrared remote controller are as follows: k1 is a power light touch key; the 1 st touch is to turn on the total power supply of the numerical control constant current power supply except the 48V power supply module, the 2 nd touch is to turn off the total power supply of the numerical control constant current power supply except the 48V power supply module, the auxiliary lighting function of the LED backlight of the simulation touch screen is still reserved, and the backlight of the simulation touch screen is turned off when the K1 key is touched for more than 3 seconds; the names and actions of other function keys on the infrared remote control panel are the same as those of the function keys on the simulation touch screen;

the numerical control constant current power supply is correspondingly developed according to the lamp function, and the undeveloped irrelevant function is selected to be vacant in design.

Further, the numerical control power supply is a numerical control alternating current power supply, and the simulation touch screen is provided with a 220V power supply input port and a mixed cable output port; the hybrid cable is composed of a pair of 220V power lines and a pair of data lines; the numerical control alternating current power supply lamp comprises a numerical control alternating current power supply and a lamp body which are connected through an integrated receiving head; the numerical control alternating current power supply is provided with a mixed cable input port, a numerical control alternating current power supply port and an integrated receiving head port; the simulation touch screen is arranged on a pre-buried bottom box on a wall, a 220V power input port of the simulation touch screen is connected with a 220V power supply, and a mixed cable output port of the simulation touch screen is connected with a mixed cable input port of the numerical control alternating current power supply; the numerical control alternating current power supply port is connected with the power input port of the lamp body; the integrated receiving head port is connected with the integrated receiving head; when the decoding module is connected with an infrared remote control receiving head in the integrated receiving head, the lamp has an infrared remote control development function; when the integrated receiving head is not needed, the port of the integrated receiving head is empty; the simulation touch screen controls the numerical control constant current power supply lamp and the simulation touch screen controls the numerical control alternating current power supply lamp to be different from each other: the numerical control constant current power supply port is constant current power supply, and LED branches are connected in a matching way; the numerical control alternating current power supply port is 220V alternating current power supply, and a 220V alternating current power supply lamp or a 220V alternating current power supply traditional LED lamp is connected in a matching mode.

Furthermore, the numerical control alternating current power supply is mainly used for replacing a wall switch of a system, so that a simulation touch screen can be uniformly used during house decoration; the numerical control alternating current power supply is different from the numerical control constant current power supply in that: the digital control alternating current power supply is internally provided with a main brightness constant current module/auxiliary brightness 1 constant current module 36/decorative lighting constant current module, and a movable contact of a 220V power supply relay and a decoding module forming a parallel connection relation are removed: the main brightness 1/main brightness 2/auxiliary brightness 1/auxiliary brightness 2/decorative lighting brightness/decorative lighting red/decorative lighting green/decorative lighting blue relay public contacts are directly connected, and the movable contacts of the relays are correspondingly connected with 220V zero line lines in total at the power supply port of the numerical control alternating current power supply, so that the internal structure of the numerical control alternating current power supply is simpler than that of the numerical control constant current power supply, and the numerical control alternating current power supply is suitable for supplying power to an alternating current power supply lamp or a traditional alternating current power supply LED lamp;

the numerical control alternating current power supply is provided with: the system comprises a mixed cable input port, a numerical control alternating current power supply port and an integrated receiving head port;

The port of the integrated receiving head is connected with the integrated receiving head arranged in the center of the LED lamp through a section of flat cable; the integrated receiving headend includes: a 5V power line, an infrared remote control receiving head signal line, a sound control sensor signal line and a human body infrared sensor signal line;

the 220V input end of the 48V power supply module is connected with a 220V power line in a mixed cable output port in the numerical control power supply, and the output end of the 48V power supply module is connected with the 48V power supply input end of the decoding module;

the 48V power input port of the decoding module is connected with the output end of the 48V power module; the data input port of the decoding module is connected with a data line in the mixed cable input port of the numerical control alternating current power supply;

the driving port of the 220V power supply relay of the decoding module is connected with the driving coil of the 220V power supply relay, the common contact of the 220V power supply relay is connected with a 220V power line in the mixed cable input port of the numerical control power supply, and the movable contact of the 220V power supply relay is connected with the code module forming a parallel relation: the public contact of the main brightness 1/main brightness 2/auxiliary brightness 1/auxiliary brightness 2/decorative lighting red/decorative lighting green/decorative lighting blue driving relay is directly connected, and the movable contact is correspondingly connected with a 220V zero line circuit of a numerical control alternating current power supply port;

The numerical control alternating current power supply port is connected with an alternating current power supply lamp power supply input port of a common zero line through a section of flat cable, the alternating current power supply lamp power supply input port comprises a main brightness 1/main brightness 2/auxiliary brightness 1/auxiliary brightness 2/decorative lighting brightness/decorative lighting red/decorative lighting green/decorative lighting blue alternating current power supply line which is parallel to the common zero line, and meanwhile, a small brightness/linear dimming LED power supply line which is parallel to a common direct current power supply negative line is also arranged;

When the function of the integrated receiving head is not needed to be opened, the integrated receiving head is not connected, or the whole integrated receiving head is empty;

the main brightness 1/main brightness 2/auxiliary brightness 1/auxiliary brightness 2/decorative lighting brightness/decorative lighting red/decorative lighting green/decorative lighting blue driving ports of the decoding module are respectively connected with the relay coils; the common contacts of the relays form a parallel connection relationship and then are connected with the movable contacts of the 220V power supply relay, the movable contacts of the relays are connected with corresponding lines of a numerical control alternating current power supply port, the numerical control alternating current power supply is correspondingly developed according to the functions of the lamp, and irrelevant functions which are not developed are selected to be vacant in design;

when the numerical control alternating current power supply is controlled by an infrared remote controller, the names and the functions of the function keys on the panel of the infrared remote controller are as follows: k1 is a power light touch key; the 1 st touch is to turn on the total power supply of the numerical control alternating current power supply except the 48V power supply module, the 2 nd touch is to turn off the total power supply of the numerical control alternating current power supply except the 48V power supply module, the auxiliary lighting function of the LED backlight of the simulation touch screen is still reserved, and the backlight of the simulation touch screen is turned off when the K1 key is touched for more than 3 seconds; the names and actions of other function keys on the infrared remote control panel are the same as those on the simulated touch screen.

Furthermore, the decoding module is the most main module for the development of the lamps powered by the simulation touch screen control numerical control power supply, has strong functions and is suitable for the development of various lamps; the decoding module solves the problem of complex system architecture in the module, has concise external ports and is easy to connect in standardization, is a general decoding module widely applicable to various lamp development, and comprises the following ports: a 1.48V power input port; a 2.300V DC voltage input port; 3. a data input port; 4.220V power supply relay drive port; a 5.5V voltage output port; 6. an infrared remote control receiving head signal input port; 7. a signal input port of the sound control sensor; 8. a signal input port of the human body infrared sensor; 9. a main luminance 1 driving port; 10. a main luminance 2 drive port; 11. a sub-luminance 1 driving port; 12. a sub-luminance 2 drive port; 13. a sub-luminance 3 drive port; 14. a small brightness power supply port; 15. parallel constant current module power supply port; 16. a linear dimming power supply port; 17. an illumination output port 1 for sound control and human body infrared extension; 18. an illumination output port 2 for sound control/human body infrared extension; 19. a decorative illumination brightness driving port; 20. decorative lighting red drive ports; 21. decorative lighting green drive ports; 22. a decorative lighting blue driving port; 23. corridor lighting voice prompt control level output port; 24. a crystal oscillator port; 25. a reset port;

The connection of the decoding module port comprises:

1. the 48V power input port is connected with a 220V power line in the mixed cable input port;

2. the 300V power input port is connected with the 300V direct-current voltage output end of the rectifying and filtering module;

3. the data input port is connected with a data line in the mixed cable input port;

4. the 220V power supply relay driving port is connected with the 220V power supply relay coil;

5. the 5V voltage output port is connected with a power supply line of the integrated receiving head;

6. the signal input port of the infrared remote control receiving head is connected with the signal output line of the infrared remote control receiving head in the integrated receiving head; when the lamp designs the control function of the infrared remote controller, the decoding module has the same decoding control function as the decoding module has guaranteed that the encoded signal of the simulated touch screen received by the data input port is slightly different from the encoded signal of the infrared remote controller received by the signal input port of the infrared remote control receiving head, except the function of the K1 key, the other keys are controlled identically;

7. the sound control sensor signal input port is connected with a sound control sensor signal output line in the integrated receiving head;

8. The human body infrared sensor signal input port is connected with a human body infrared sensor signal output line in the integrated receiving head;

9. the main brightness 1 driving port is connected with a control coil of the main brightness 1 relay;

10. the main brightness 2 driving port is connected with a control coil of the main brightness 2 relay;

11. the auxiliary brightness 1 driving port is connected with a control coil of the auxiliary brightness 1 relay;

12. the auxiliary brightness 2 driving port is connected with a control coil of the auxiliary brightness 2 relay;

13. the auxiliary brightness 3 driving port is connected with a control coil of the auxiliary brightness 3 relay;

14. the small-brightness power supply port is directly connected with the small-brightness LED branch;

15. the parallel constant current module power supply port is connected with the parallel constant current module power supply input port;

16. the linear dimming output port is directly connected with the linear dimming LED branch;

17. the sound control and human body infrared illumination output port 1 is directly connected with the sound control and human body infrared illumination LED branch 1;

18. the sound control and human body infrared illumination output port 2 is directly connected with the sound control and human body infrared illumination LED branch 2;

19. the decorative illumination brightness driving port is connected with a control coil of the decorative illumination brightness relay;

20. The decorative lighting red driving port is connected with a control coil of the decorative lighting red relay;

21. the decorative lighting green driving port is connected with a control coil of the decorative lighting green relay;

22. the decorative lighting blue driving port is connected with a control coil of the decorative lighting blue relay;

23. the floor voice prompt control level output port is connected with a voice prompt control line of the floor voice prompt module;

24. the crystal oscillator port is connected with the crystal oscillator;

25. the reset port is connected with the reset circuit.

Further, the digital control power supply is provided with an infrared remote controller chip and an infrared remote controller thereof, the infrared remote controller chip is an infrared remote controller chip which is matched and developed by a simulation touch screen control digital control power supply lamp, the infrared remote controller chip and a keyboard of the chip of the simulation touch screen are in a corresponding relation, the same operation is carried out on the keyboard of the infrared remote controller and the keyboard of the simulation touch screen, and the coded signals output by the chip transmitting output port and the coded signals output by the chip data output port of the simulation touch screen are the same, so the coded signals are decoded by the decoding module and have the same control result; the method is characterized in that the keyboard has different signal input modes and different output coded signal propagation paths, the infrared remote controller adopts a signal input mode of a touch keyboard, and the chip simulating the touch screen adopts a signal input mode of a touch keyboard; the infrared remote controller chip adopts an infrared remote control mode, and the chip simulating the touch screen adopts a data line in a mixed cable for transmission;

The internal structure of the decoding module ensures that the coded signals of the simulated touch screen received by the data input port and the coded signals of the infrared remote controller received by the signal input port of the infrared remote control receiving head are controlled identically on other keys except for slightly different functions of the K1 key, so that the infrared remote controller can be designed to control according to the function requirement when the lamp is developed; when the lamp needs to be controlled by the infrared remote controller, the digital control power supply is connected with an infrared remote control receiving head signal output line in the integrated receiving head, so that a signal path is formed by an infrared remote control receiving head signal input port on the digital control power supply inner decoding module and the infrared remote control receiving head signal line in the integrated receiving head, and the remote control of the infrared remote controller on the lamp is realized; the infrared remote controller is composed of: the infrared remote controller is formed by a touch keyboard, an infrared remote controller PCB and a mobile phone electric plate; the touch keyboard of the infrared remote controller corresponds to the touch keyboard of the simulation touch screen, and has the same structure; the touch keyboard on the front surface of the PCB of the infrared remote controller corresponds to the touch keys of the infrared remote controller, an infrared remote control coding chip is arranged on the back surface of the PCB of the infrared remote controller, and the signal input ports of the 8 touch keys of K1/K2/K3/K4/K5/K6/K7/K8 of the infrared remote control coding chip are connected with the 8 touch keyboards of K1/K2/K3/K4/K5/K6/K7/K8 on the front surface of the PCB of the infrared remote controller through the through holes of the PCB; the 4 emission driving ports of the emission indicator lamp/the infrared emission head 1/the infrared emission head 2/the infrared emission head 3 of the infrared remote control coding chip are respectively correspondingly connected with the emission indicator lamp/the infrared emission head 1/the infrared emission head 2/the infrared emission head 3; the power input port of the infrared remote control coding chip is connected with the mobile phone electric plate; the mobile phone electric plate is provided with a mobile phone charging port;

The infrared remote control coding chip is an infrared remote control coding chip which is developed by matching a simulation touch screen control numerical control power supply lamp, the codes output by the infrared remote control coding chip and the codes output by the coding chip of the simulation touch screen correspond to each other, the codes are the same except that the K1 keys are slightly different, the K2/K3/K4/K5/K6/K7/K8 keys have the same coding signals, and meanwhile, the decoding module has the same decoding control function;

the infrared remote control coding chip is provided with: a power input port; the 8 touch key signal input ports are K1/K2/K3/K4/K5/K6/K7/K8: the device comprises 4 emission driving ports, namely an emission indicating lamp/an infrared emission head 1/an infrared emission head 2/an infrared emission head 3, and a crystal oscillator/a reset port;

the specific connection of the chip port of the infrared remote controller comprises:

the touch signal input port of the K1 main power switch key is connected with a touch keyboard K1 on the PCB of the infrared remote controller, the functions of the K1 keys are slightly different, the same control is performed on other keys, and the decoding module has the same decoding control function;

the K2 main touch signal input port is connected with a touch keyboard K2 on the PCB of the infrared remote controller;

the K3 secondary light touch signal input port is connected with a light touch keyboard K3 on the PCB of the infrared remote controller;

The touch signal input port shared by small brightness and parallel constant current module power supply is connected with a touch keyboard K4 on the PCB of the infrared remote controller;

the K5 sound control and human body infrared illumination light touch signal input port is connected with a light touch keyboard K5 on the PCB of the infrared remote controller;

the K6 decorative lighting touch signal input port is connected with a touch keyboard K6 on the PCB of the infrared remote controller;

the K7 linear dimming touch signal input port is connected with a touch keyboard K7 on the PCB of the infrared remote controller;

the K8 linear dimming touch signal input port is connected with a touch keyboard K8 on the PCB of the infrared remote controller;

the emission indicator lamp driving port is connected with an emission indicator lamp on the infrared remote controller;

the driving port of the infrared emission head 1 is connected with the infrared emission head 1 on the remote controller;

the driving port of the infrared emission head 2 is connected with the infrared emission head 2 on the remote controller;

the driving port of the infrared emission head 3 is connected with the infrared emission head 3 on the remote controller;

the power port is connected with the positive electrode of the mobile phone electric plate in the infrared remote controller;

the crystal oscillator port is connected with the crystal oscillator;

the reset port is connected with the reset circuit;

The room type lamp is provided with an infrared remote control function, the infrared remote control is placed on the infrared remote control sleeves installed on the walls above the bedside cabinets on two sides, and the infrared remote control sleeves and the infrared remote control are both designed with structures with thin magnetic sheets, so that the infrared remote control is convenient to place, the room type lamp is provided with the infrared remote control function, convenience is brought to the control of the lamp, and meanwhile, the circuit of a traditional wall switch is not required to be embedded.

Further, the lamp body is developed with 2 parallel LED patches, 3 parallel LED patches and 4 parallel LED patches

The structure of the 2 parallel brightness illumination LED patches is as follows: 2 brightness LED chips are packaged in parallel to form an LED patch, and the patches are connected end to form 2 parallel LED serial branches, so that the LED patch accommodates the 2 LED serial branches under the condition of keeping the PCB area basically unchanged; the 2 parallel LED patches are used in 2 parallel LED branches of main brightness 1/main brightness 2 of the lamp; the system is also used in a sound control and human body infrared illumination 1 branch/sound control and human body infrared illumination 2 branch of the corridor lamp;

the structure of the 3 parallel decorative lighting LED patches is as follows: the LED chips of the 3 colors of red, green and blue are packaged in parallel to form an LED patch, and the patches are connected end to form 3 parallel LED serial branches, so that the LED patch accommodates the 3 LED serial branches under the condition of keeping the area of a PCB basically unchanged;

The structure of the 4 parallel decorative lighting LED patches is as follows: the 4 LED chips of white, red, green and blue are packaged side by side to form an LED patch, and the patches are connected end to form 4 parallel LED serial branches, so that the 4 LED serial branches are accommodated under the condition that the PCB area is kept unchanged basically.

Furthermore, the integrated receiving head integrates an infrared remote control receiving head, a sound control sensor/a human infrared sensor on the PCB board and is provided with an integrated receiving head connecting port, so that the aim of standardized connection between the integrated receiving head port on the numerical control power supply and an infrared remote control receiving head signal wire, a sound control sensor signal wire and a human infrared sensor signal wire is achieved; the integrated receiving head port on the numerical control power supply is connected with the infrared remote control receiving head signal input port, the sound control sensor signal input port and the human body infrared sensor signal input port on the decoding module in the numerical control power supply in a standardized manner; the integrated receiving head is usually arranged at the center of the lamp, and the integrated receiving head is provided with: an infrared remote control receiving head, a sound control sensor and a human body infrared sensor; the integrated receiving head is connected with an integrated receiving head port on the numerical control power supply through a section of flat cable, and the integrated receiving head port comprises: the integrated receiving head is connected with a required line according to the function of the lamp, and is not designed when an unnecessary line is empty or the receiving head is not integrated.

Furthermore, the lamp body adopts a magnetic fixing mode, the ceiling dust cover fixing base is fixed on the ceiling by using expansion bolts, and the ceiling fixing base is provided with 2 magnetic cylinder sleeves and 2 locking bolts; 2 magnetic pistons are designed in the lamp fixing base, when the magnetic pistons are inserted into the magnetic cylinder sleeves, the 2 parts are fixed due to magnetic attraction, and 2 locking screws are arranged between the ceiling dust cover fixing base and the lamp fixing base to ensure the fixing safety, and the lamp is fixed magnetically so as to standardize the installation and the fixing of the lamp, thereby bringing convenience for future maintenance and sanitary cleaning.

The application of a system for controlling a numerical control power supply to supply power to a lamp by using a simulation touch screen, wherein the numerical control power supply comprises a constant current module and a parallel constant current module thereof, the constant current module is a module for controlling the numerical control constant current power supply to supply power to an LED branch circuit by using the simulation touch screen to supply power to the lamp, and the structure of the constant current module is as follows: the front 220V rectifying and filtering part is removed from the LED power supply with the working voltage of 220V, the constant current power supply part input by the rear 300V direct current power supply is reserved, and the LED power supply is packaged according to the structure of the patch module, so that heat conduction during installation on a PCB is facilitated; the power of the main brightness constant current module is about 30W, and the power of the auxiliary brightness constant current module and the decorative lighting constant current module is about 15W;

The parallel constant current module that the numerical control power supply includes mainly falls into 3 types: the 1 st type is a parallel constant current module of an economic lamp; the 2 nd type is a parallel constant current module of a luxury room type lamp; the 3 rd type is a parallel constant current module for simulating the wall painting of the liquid crystal television;

the 1 st type of parallel constant current module of the economic lamp is a parallel constant current module formed by main brightness constant current module units/auxiliary brightness constant current module units, 300V direct current voltage input ports of all constant current module units forming the parallel constant current module are connected in parallel, and output ends of all module units of the parallel constant current module are respectively output, so that the output ends of the main brightness constant current module units/auxiliary brightness constant current module units of the parallel constant current module of the economic lamp are respectively correspondingly connected with main brightness LED branches/auxiliary brightness LED branches of the economic lamp;

the 2 nd type is a parallel type constant current module of the luxury room type lamp, which consists of a main brightness constant current module unit, an auxiliary brightness constant current module unit and a decorative lighting module unit, wherein 300V direct current voltage input ports of all constant current module units of the parallel type constant current module are connected in parallel, and output ends of all module units of the parallel type constant current module are respectively output, so that the output ends of the main brightness constant current module unit, the auxiliary brightness constant current module unit and the decorative lighting module unit of the luxury room type lamp are respectively correspondingly connected with a main brightness LED branch, an auxiliary brightness LED branch and decorative lighting LED branches of the luxury room type lamp;

The 3 rd type is a parallel type constant current module of the simulated liquid crystal television wall painting, which is composed of a plurality of identical constant current module units, wherein 300V direct current voltage input ports of all constant current module units of the parallel type constant current module are connected in parallel, and output ends of all module units of the parallel type constant current module are respectively output, so that the output ends of a plurality of identical constant current module units of the simulated liquid crystal television wall painting are respectively and correspondingly connected with LED backlight branches in the simulated liquid crystal television wall painting; the quantity of the constant current module units in the parallel constant current module of the simulated liquid crystal television wall painting is that corresponding constant current module units are determined according to the quantity of LED backlight branches required by the simulated liquid crystal television wall painting, and the matching of the power supply of the parallel constant current module and the quantity/voltage/current of the LED backlight branches is ensured.

Further, the simulated liquid crystal television wall painting consists of a simulated liquid crystal television wall painting body hung on a wall and a numerical control power supply arranged in a pre-buried bottom of the wall; the simulated liquid crystal television wall painting is provided with: an LED backlight power supply input port and an infrared remote control receiving head port, wherein the infrared remote control receiving head is arranged on a frame of the simulated liquid crystal television wall painting; the numerical control power supply is provided with: 220V power input port, LED backlight power supply port, infrared remote control receiving head port; the 220V power input port of the numerical control power supply is connected with the 220V power input in the embedded bottom of the wall, and the LED backlight power supply port of the numerical control power supply is connected with the LED backlight power input port of the simulated liquid crystal television wall painting through a common power negative flat cable; the port of the infrared remote control receiving head of the numerical control power supply is connected with the infrared remote control receiving head of the simulated liquid crystal television wall painting through a common power supply negative flat cable;

The external screen, the frame, the image quality and the LED backlight of the simulated liquid crystal television wall painting are the same as those of the liquid crystal television, and the difference is that the interior of the simulated liquid crystal television wall painting is a photo wall painting, so that the simulated liquid crystal television wall painting is called for short; the simulated liquid crystal television wall painting and the common wall painting have the advantages of brightness, high definition, bright color and rich gradation, are high-end products of interior decoration, and are suitable for being used;

the outer screen and the frame of the simulated liquid crystal television wall painting adopt the same outer screen and frame of the liquid crystal television; the number of LED backlight branches simulating the wall painting of the liquid crystal television is determined by the area of the wall painting of the liquid crystal television, and is kept matched with the number of constant current module units designed by parallel constant current modules/power supply voltage/current,

the PCB inside the numerical control power supply is provided with: the device comprises a 48V power supply module, a 220V power supply relay, a decoding module, a rectifying and filtering module and a parallel constant current module;

the 220V input end of the 48V power supply module is connected with a 220V power line in the numerical control power supply, and the output end of the 48V power supply module is connected with the 48V power supply input end of the decoding module;

the driving port of the 220V power supply relay of the decoding module is connected with the driving coil of the 220V power supply relay, the common contact of the 220V power supply relay is connected with a 220V power line in the mixed cable input port of the numerical control power supply, the movable contact of the 220V power supply relay is connected with the 220V power input end of the rectifying and filtering module, the 300V direct current voltage output end of the rectifying and filtering module is connected with the 300V power input end of the decoding module, and the parallel constant current module power supply port of the decoding module is connected with the parallel constant current module power input port;

The infrared remote control receiving head signal input port of the decoding module is connected with the infrared remote control receiving head signal line in the integrated receiving head, so that the remote control of the LED backlight of the simulated liquid crystal television wall painting by the infrared remote controller is realized;

when the numerical control power supply is controlled by an infrared remote controller, the names and the functions of the function keys on the panel of the infrared remote controller are as follows: k1 is a power light touch key; the 1 st touch is to turn on the numerical control power supply except the 48V power supply module, and the 2 nd touch is to turn off the numerical control power supply to supply power to the LED backlight of the simulated liquid crystal television wall painting;

other irrelevant functions of the numerical control power supply are selected to be empty in design.

Furthermore, the system for controlling the numerical control power supply to supply power to the lamp by using the simulation touch screen is characterized in that when the simulation touch screen controls the numerical control power supply to supply power to the lamp for automatically switching solar energy and alternating current, the front end of the simulation touch screen, which is used for controlling the numerical control constant current power supply to supply power to the lamp, is required to be connected with a solar energy and alternating current automatic switching power supply control box, and the original 220V alternating current power supply type of the simulation touch screen switch and the numerical control constant current power supply is required to be changed into a 300V direct current power supply type;

The simulation touch screen switch is used for controlling the lamp powered by the numerical control constant current power supply to be applied to a solar power supply place, and is characterized by comprising a solar energy and alternating current automatic switching power supply control box, a 300V direct current power supply simulation touch screen switch and a numerical control constant current power supply; the structure of the simulation touch screen control numerical control constant current power supply lamp with the solar energy and alternating current automatic switching power supply control box and 300V direct current power supply comprises the following steps: the solar energy and alternating current automatic switching power supply control box comprises a 300V direct current power supply simulation touch screen, a hybrid cable and a 300V direct current power supply numerical control constant current power supply; the solar energy and alternating current automatic switching power supply control box is arranged in a bottom box of the lighting main gate embedded in a wall, and the solar energy and alternating current automatic switching power supply control box panel is provided with: the solar power supply indicator lamp and the 220V alternating current power supply indicator lamp; the outside of the solar energy and alternating current automatic switching power supply control box is provided with: 220V alternating current power supply input port, solar power supply input port and 300V direct current power supply output port; the 220V alternating current power supply input port is connected with a 220V alternating current power supply circuit; the solar power supply input port is connected with a solar energy storage battery power supply circuit; the 300V direct current power supply output port is connected with a 300V direct current power supply circuit in the embedded bottom box of the simulation touch screen;

The solar energy and alternating current automatic switching power supply control box is internally provided with: the solar power supply boosting module, the 220V power supply rectifying and filtering module, the switching relay and the switching relay control circuit; the solar power supply boosting module is used for boosting the voltage of the solar energy storage battery to 300V direct-current voltage which is the same as the output of the 220V power supply rectifying and filtering module, the input end of the solar power supply boosting module is connected with a solar power supply input line, and the output end of the solar power supply boosting module is connected with a normally closed contact of the switching relay;

the 220V power supply rectifying and filtering module outputs 300V direct-current voltage through 220V alternating-current rectifying and filtering, the input end of the rectifying and filtering module is connected with a 220V alternating-current power supply input line, and the 300V direct-current voltage output end of the rectifying and filtering module is connected with a movable contact of the switching relay; the public contact of the switching relay is connected with a 300V direct current power supply output port of the solar energy and alternating current automatic switching power supply control box; the switching relay control circuit is: when the negative end of the comparator of the switching relay control circuit detects that the voltage of the solar energy storage battery is lower than a specified lower limit threshold value, the output end of the voltage comparator is output, the output of the voltage comparator drives the movable contact of the switching power supply relay to be attracted, at the moment, the movable contact of the relay is connected with the 220V alternating current power supply input of the input end of the rectifying and filtering module, the output end of the rectifying and filtering module provides 300V direct current power supply for the public contact of the relay through the forward isolation power supply diode, and meanwhile, the 300V power supply of the 220V rectifying and filtering module is connected with a 220V alternating current power supply indicator lamp on an alternating current automatic switching power supply control box panel through a series current limiting resistor and is used for indicating the 300V power supply of the 220V rectifying and filtering module;

When the negative end of the comparator of the switching relay control circuit detects that the voltage of the solar energy storage battery is higher than a specified lower limit threshold value, the output end of the voltage comparator cannot output, at the moment, the switching power supply relay is normally closed, at the moment, the relay public movable contact is connected with the 300V power supply end of the solar energy power supply boosting module, meanwhile, 300V power supply of the solar energy power supply boosting module is connected with a solar energy power supply indicator lamp on a panel of the solar energy and alternating current automatic switching power supply control box through a series current limiting resistor, and the solar energy power supply indicator lamp is used for indicating 300V power supply of the solar energy power supply boosting module;

the structure implementation of the 300V direct current power supply simulation touch screen and the 300V direct current power supply numerical control power supply is as follows: the 220V alternating current 5V power supply module in the 300V direct current power supply simulation touch screen is correspondingly changed into a 300V direct current 5V power supply module, the 220V alternating current input port of the simulation touch screen is correspondingly changed into a 300V direct current input port, the 220V alternating current electromechanical charging module in the simulation touch screen is correspondingly changed into a 300V direct current mobile phone electric charging module, other parts in the simulation touch screen are kept unchanged, and normal work of the simulation touch screen when the simulation touch screen is suitable for 300V direct current power supply is ensured;

the 220V alternating current 48V power supply module in the 300V direct current power supply numerical control power supply is correspondingly changed into a 300V direct current 48V power supply module, and the 220V alternating current input port of the hybrid cable in the 300V direct current power supply numerical control power supply is correspondingly changed into a 300V direct current input port, so that other parts of the 300V direct current power supply numerical control power supply are kept unchanged, and the normal work of the numerical control constant current power supply when adapting to 300V direct current power supply is ensured;

The simulation touch screen of the solar energy and alternating current automatic switching power supply control box controls the lamps in the numerical control constant current power supply lamp to remain unchanged from the original lamps, so that the structure is the same as that of the lamp when 220V alternating current power supply is used, and the normal work of the lamp when 300V direct current power supply is used is ensured.

The data power supply comprises a solar energy and alternating current automatic switching power supply control box, the solar energy and alternating current automatic switching power supply control box controls an automatic switching power supply control box which is developed by matching a numerical control constant current power supply lamp for a simulation touch screen powered by solar energy, and a 300V direct current power supply simulation touch screen controls the numerical control constant current power supply lamp to be a lamp which can be developed by matching solar energy power supply more conveniently; the structure of the simulation touch screen control numerical control constant current power supply lamp with the solar energy and alternating current automatic switching power supply control box and 300V direct current power supply comprises the following steps: the solar energy and alternating current automatic switching power supply control box comprises a 300V direct current power supply simulation touch screen, a hybrid cable and a 300V direct current power supply numerical control constant current power supply; the solar energy and alternating current automatic switching power supply control box is arranged in a bottom box of the lighting main gate embedded in a wall, and the solar energy and alternating current automatic switching power supply control box panel is provided with: the solar power supply indicator lamp and the 220V alternating current power supply indicator lamp; the outside of the solar energy and alternating current automatic switching power supply control box is provided with: 220V alternating current power supply input port, solar power supply input port and 300V direct current power supply output port; the 220V alternating current power supply input port is connected with a 220V alternating current power supply circuit; the solar power supply input port is connected with a solar energy storage battery power supply circuit; the 300V direct current power supply output port is connected with a 300V direct current power supply circuit in the embedded bottom box of the simulation touch screen;

the 220V power supply rectifying and filtering module is used for rectifying and filtering 220V alternating current to output 300V direct current voltage, the input end of the rectifying and filtering module is connected with a 220V alternating current power supply input line, and the 300V direct current voltage output end of the rectifying and filtering module is connected with a movable contact of the switching relay; the public contact of the switching relay is connected with a 300V direct current power supply output port of the solar energy and alternating current automatic switching power supply control box; the switching relay control circuit is: when the negative end of the comparator of the switching relay control circuit detects that the voltage of the solar energy storage battery is lower than a specified lower limit threshold value, the output end of the voltage comparator is output, the output of the voltage comparator drives the movable contact of the switching power supply relay to be attracted, at the moment, the movable contact of the relay is connected with the 220V alternating current power supply input of the input end of the rectifying and filtering module, the output end of the rectifying and filtering module provides 300V direct current power supply for the public contact of the relay through the forward isolation power supply diode, and meanwhile, the 300V power supply of the 220V rectifying and filtering module is connected with a 220V alternating current power supply indicator lamp on an alternating current automatic switching power supply control box panel through a series current limiting resistor and is used for indicating the 300V power supply of the 220V rectifying and filtering module;

The simulation touch screen of the solar energy and alternating current automatic switching power supply control box controls the lamps in the numerical control constant current power supply lamp to remain unchanged, and the same normal work as that when 220V alternating current power supply is used is ensured.

Further, the system for controlling the numerical control power supply to supply power to the lamp by using the simulation touch screen is characterized in that the simulation touch screen comprises a screen of the simulation touch screen and a PCB (printed circuit board) in the screen; the screen of the simulation touch screen adopts a keyboard icon; the PCB board is provided with: a capacitive touch keyboard corresponding to the keyboard icon, a backlight LED branch and a trademark indicator lamp; the simulation touch screen comprises a screen, wherein a coding chip of a simulation touch screen is arranged on the back of a PCB (printed Circuit Board) in the screen, the coding chip is provided with signal input ports of each touch keyboard, each signal input port of the touch keyboard is connected with each capacitive touch keyboard touch signal output of the PCB, the screen of the simulation touch screen adopts a capacitive touch technology, touch keyboard icons are designed on the secondary outer layer of an LED backlight, the lower surface layer of each touch keyboard icon accurately corresponds to the touch keyboard on the PCB, and the number of the purposes of designing the touch keyboard icons is 2: the 1 st is to provide a virtual touch screen interface for the simulation touch screen, so that the simulation touch screen has the same effect as the touch screen; the 2 nd is in order to accurately position the touch keyboard corresponding to the PCB board when the finger touches, the touch operation of the finger is input to the touch signal input port of the coding chip, the coding chip amplifies the touch signal and then carries out operation identification on the touch signal, the touch signal is sent to the coding circuit after operation identification to output the coding signal or carry out coding control after coding, the simulation touch screen has the same effects as the touch screen, such as a screen with LED backlight, an anti-aging and wear-resistant touch screen outer screen and the like, but the internal structures are different, and the simulation touch screen adopts virtual touch keyboard icons, so the simulation touch screen is called; the simulated touch screen also has obvious advantages over a touch screen, such as: the area is not limited, the area can be made large enough, and the cost can be reduced to be low enough when the simulation touch screen is applied to an upper-scale intelligent manufacturing project, which is incomparable with a touch screen, so that the simulation touch screen has wider application prospect than the touch screen; in order to popularize the application of the simulation touch screen in future, the common touch control keyboard can be changed into a corresponding touch keyboard, at the moment, the common touch control keyboard chip is changed into a corresponding touch keyboard chip, an LED backlight circuit is added, when any key is touched, the LED backlight is started, the LED backlight is automatically extinguished after a period of time is delayed, and the coding/decoding scheme of the common touch control keyboard chip is kept unchanged after the common touch control keyboard chip is changed into the corresponding touch keyboard chip, so that the implementation is easier, and the following application embodiment of the simulation touch screen is provided.

Furthermore, the simulation touch screen comprises an all-solid-state simulation touch screen building intercom host, the all-solid-state simulation touch screen building intercom host comprises an all-solid-state simulation touch screen building intercom host two-wire coding chip formed by the simulation touch screen building intercom host and the all-solid-state simulation touch screen building intercom host formed by the simulation touch screen building intercom host, and the all-solid-state simulation touch screen building intercom host consists of a screen of the simulation touch screen and a PCB (printed circuit board) in the screen; the screen of the all-solid-state simulation touch screen adopts a touch keyboard icon corresponding to the capacitive touch keyboard, a PCB board is arranged below the screen of the all-solid-state simulation touch screen, and the front surface of the PCB board is provided with: the backlight LED branch and the touch keyboard icons correspond to a capacitive touch keyboard below the LED backlight screen, and meanwhile, a digital display part is also arranged on the PCB; the back of the PCB is provided with a simulation touch screen building intercom host 2-line coding chip and a buzzer; the touch signal input port, the backlight LED branch, the driving port of the digital display part and the like of the PCB front capacitive touch keyboard are connected with corresponding circuits on a chip through a via hole of the PCB, the touch keyboard icons are designed on the screen of the LED backlight secondary outer layer by using the capacitive touch technology, the touch control is carried out on the keyboard corresponding to the PCB on the lower layer on the screen secondary outer layer touch keyboard icons, building intercom coding signals are output at the data output port of the 2-wire coding chip of the all-solid simulation touch screen building intercom host, so that the screen of the all-solid simulation touch screen building intercom host has the same effect as a touch screen, and the same advantages such as a screen with LED backlight, an anti-aging and wear-resistant touch screen outer screen and the like are realized;

The simulation touch screen building intercom system comprises a simulation touch screen building intercom system, a simulation touch screen building intercom system and a simulation touch screen building intercom system, wherein the simulation touch screen building intercom system two-wire coding chip is a two-wire coding chip which is developed by matching with an all-solid simulation touch screen building intercom system, the simulation touch screen building intercom system two-wire coding chip and a keyboard of a traditional building intercom system chip are in a corresponding relation, the simulation touch screen building intercom system touch keyboard and the traditional building intercom system touch keyboard operate in the same mode, and coding signals output by a chip output port are the same as coding signals output by a data output port of the traditional building intercom system two-wire coding chip, so that the simulation touch screen building intercom system two-wire coding chip and the keyboard of the traditional building intercom system are decoded by an intra-extension decoding module and have the same control result; the two-wire coding chip of the simulation touch screen building intercom main machine adopts a signal input mode of a touch keyboard, the two-wire coding chip of the traditional building intercom main machine adopts a signal input mode of a touch keyboard, and the two-wire coding chip of the simulation touch screen building intercom main machine only adopts the signal input mode of the touch keyboard, so the two-wire coding chip of the simulation touch screen building intercom main machine is not explained in detail;

the simulation touch screen building intercom main machine two-wire coding chip changes a touch keyboard signal input port of a light touch keyboard signal input port of a traditional building intercom main machine two-wire coding chip into a touch keyboard signal input port, and an LED backlight output port is correspondingly increased, and the simulation touch screen building intercom main machine two-wire coding chip has the effects that: when any keyboard on the simulation touch screen building intercom host is touched, the LED backlight is lightened, corresponding floor codes are input according to the coding scheme, the simulation touch screen building intercom host is controlled to unlock after confirmation of a two-wire coding chip of the simulation touch screen building intercom host, or the unlocking codes are sent to the host after confirmation of a floor user and then the simulation touch screen building intercom host is controlled to unlock, and meanwhile, the LED backlight is automatically extinguished after a certain time delay after the LED backlight is lightened.

Further, the simulation touch screen comprises an all-solid-state simulation touch screen coded lock, the all-solid-state simulation touch screen coded lock comprises a simulation touch screen coded lock coding chip and an all-solid-state simulation touch screen coded lock formed by the simulation touch screen coded lock coding chip, the simulation touch screen coded lock coding chip is a coded chip developed by the simulation touch screen coded lock, the simulation touch screen coded lock coding chip is similar to the simulation touch screen coded chip in structure, and the simulation touch screen coded lock is composed of: the screen of the simulation touch screen and the PCB in the screen consist of 2 parts; the screen of emulation touch-sensitive screen adopts the touch keyboard icon with capacitive touch keyboard correspondence, is equipped with the PCB board below the screen of emulation touch-sensitive screen, and the front of PCB board is equipped with: a backlight LED branch circuit, wherein the touch keyboard icon corresponds to a capacitive touch keyboard below the LED backlight screen, and a digital display part is arranged on the PCB; the back of the PCB is provided with a simulated touch screen coded lock coding chip and a buzzer; the touch signal input port of the positive capacitive touch keyboard of the PCB board, the LED branch circuit of being shaded, connect with corresponding circuit on the chip through the via hole of the PCB board, the screen to imitate the touch screen is also to utilize the capacitive touch technology too, design the touch keyboard icon at the inferior outer screen of LED backlight, touch control to the keyboard on the PCB board that the lower floor corresponds on the inferior outer touch keyboard icon of screen, make the screen of the all solid-state emulation touch screen trick lock have the advantage that the touch screen controls the same, for example have screen, anti-aging, wear-resisting, advantage such as being high-end with LED backlight, its effect is: when any keyboard is arranged on the touch simulation touch screen coded lock, the LED backlight is lightened, the coded lock is input, the coded lock is controlled to unlock by the simulation touch screen coded lock chip after confirmation, and the LED backlight is automatically extinguished after a certain time delay; because the simulated touch screen coded chip is different from the traditional coded chip in terms of signal input mode of the keyboard, the simulated touch screen coded chip is not described in detail herein.

Further, the simulation touch screen comprises a simulation touch screen parallel switch, and the 10 paths of simulation touch screen parallel switch control chips are similar to the simulation touch screen chip in structure, and the structure is also formed by: the screen of the simulation touch screen and the PCB in the screen consist of 2 parts; the screen of emulation touch-sensitive screen adopts the touch keyboard icon with capacitive touch keyboard correspondence, is equipped with the PCB board below the screen of emulation touch-sensitive screen, and the front of PCB board is equipped with: a backlight LED branch circuit, wherein the touch keyboard icon corresponds to a capacitive touch keyboard below the LED backlight screen; a chip of a simulation touch screen which is not controlled by a lamp and a buzzer are arranged on the back surface of the PCB, and a relay is driven; the touch signal input port of the capacitive touch keyboard on the front surface of the PCB board, the backlight LED branch circuit are connected with corresponding circuits on the chip through the through holes of the PCB board, the screen of the simulation touch screen also designs touch keyboard icons on the screen of the LED backlight secondary outer layer by utilizing the capacitive touch technology, and the touch control is carried out on the keyboard on the PCB board corresponding to the lower layer on the screen secondary outer layer touch keyboard icons, so that the screen of the simulation touch screen parallel switch has the same effect as the touch screen and the same advantages, such as the screen with LED backlight, the anti-aging and wear-resistant touch screen outer screen and the like; after the chips of the simulated touch screen parallel switches encode and decode the operation of the touch keys according to an encoding and decoding scheme, driving voltages are output at corresponding driving ports of the chips, and the movable contacts of the relay perform switch control on the control ends connected with the movable contacts;

The coding chip comprises 10 paths of simulation touch screen control chips, wherein the 10 paths of simulation touch screen control chips are chips for the development of simulation touch screen series switches, the chips are applied to the development of 2 paths to 10 paths of simulation touch screens, corresponding functional ports are developed during the development, unused ports are empty, the chip is a universal chip with a wide application range, the chip has important significance for the development of the simulation touch screen multi-path switches, and the simulation touch screen has the advantages of wear resistance, uneasiness, old and the like, improves the grade of the simulation touch screen, is more suitable for the application scene of middle and high ends, and is also an updated product of the parallel multi-path switches;

the 10-path simulation touch screen control chip has a similar structure to the simulation touch screen chip, and the structure is also composed of: the screen of the simulation touch screen and the PCB in the screen consist of 2 parts; the screen of the simulation touch screen adopts a touch keyboard icon corresponding to the capacitive touch keyboard, and the effect is the same as that of the touch screen; the screen of emulation touch-sensitive screen is equipped with the PCB board below, and the front of PCB board is equipped with: a backlight LED branch circuit, wherein the touch keyboard icon corresponds to a capacitive touch keyboard below the LED backlight screen; a chip of a simulation touch screen which is not controlled by a lamp and a buzzer are arranged on the back surface of the PCB, and a relay is driven; the touch signal input port of the capacitive touch keyboard on the front surface of the PCB board, a backlight LED branch circuit, which is connected with a corresponding circuit on the chip through a via hole of the PCB board, is also used for simulating a screen of the touch screen by utilizing a capacitive touch technology, a touch keyboard icon is designed on a screen of a secondary outer layer simulation touch screen of the LED backlight, and a touch control is carried out on a keyboard on the PCB board corresponding to the lower layer on the touch keyboard icon of the secondary outer layer of the screen; after the chip of the simulation touch screen encodes and decodes the operation of the touch key according to the encoding and decoding scheme, driving voltage is output at a corresponding driving port of the chip, and a movable contact of the relay performs switch control on a control end connected with the chip;

The 10-path simulation touch screen control chip is provided with: 1. a power input port; k1 total power/1 st switch touch keyboard signal input port; 3.k2 touch keyboard signal input port, 4.k3 touch keyboard signal input port, 5.k4 touch keyboard signal input port, 6.k5 touch keyboard signal input port, 7.k6 touch keyboard signal input port, 8.k7 touch keyboard signal input port, 9.k8 touch keyboard signal input port, 10.k9 touch keyboard signal input port, 11.k10 touch keyboard signal input port, 12.1st switch drive port; 13. a 2 nd switch driving port; 14. a 3 rd switch drive port; 15. a 4 th switch drive port; 16. a 5 th switch drive port; 17. a 6 th switch driving port; 18. a 7 th switch drive port; 19. an 8 th switch drive port; 20. a 9 th switch drive port; 21. a 10 th switch drive port; an led backlight control level output port; 23. a buzzer driving port; 24. a crystal oscillator port; 25. a reset port;

the connection of the ports of the 10 paths of simulation touch screen control chips comprises the following steps:

1. the power input port is connected with a 5V power input;

the K1 main power supply/touch keyboard signal input port is connected with a touch keyboard K1 on a PCB in the simulated touch screen wall switch screen;

The K2 touch keyboard signal input port is connected with a touch keyboard K2 on a PCB in the simulated touch screen, and the function of the touch keyboard K1 is similar;

the K3 touch keyboard signal input port is connected with a touch keyboard K3 on a PCB in the simulated touch screen, and the function of the touch keyboard K1 is similar;

the K4 touch keyboard signal input port is connected with a touch keyboard K4 on a PCB in the simulated touch screen, and the function of the touch keyboard K1 is similar;

the K5 touch keyboard signal input port is connected with a touch keyboard K5 on a PCB in the simulated touch screen, and the function of the touch keyboard K1 is similar;

the K6 touch keyboard signal input port is connected with a touch keyboard K6 on a PCB (printed circuit board) in the simulated touch screen, and the function of the touch keyboard K1 is similar;

the K7 touch keyboard signal input port is connected with a touch keyboard K7 on a PCB (printed circuit board) in the simulated touch screen, and the function of the touch keyboard K1 is similar;

the K8 touch keyboard signal input port is connected with a touch keyboard K8 on a PCB in the simulated touch screen, and the function of the touch keyboard K1 is similar;

the K9 touch keyboard signal input port is connected with a touch keyboard K9 on a PCB (printed circuit board) in the simulated touch screen, and the function of the touch keyboard K1 is similar;

The K10 touch keyboard signal input port is connected with a touch keyboard K10 on a PCB (printed circuit board) in the simulated touch screen, and the function of the touch keyboard K1 is similar;

12. the 1 st path switch driving port corresponds to a touch key K1 on the simulation touch screen, and is opened when the 1 st touch is performed/closed when the 2 nd touch is performed;

13. the 2 nd switch driving port corresponds to a touch key K2 on the simulation touch screen, and is opened when the 1 st touch is performed/closed when the 2 nd touch is performed;

14. the 3 rd switch driving port corresponds to a touch key K3 on the simulation touch screen, and is opened when the 1 st touch is performed/closed when the 2 nd touch is performed;

15. the 4 th switch driving port corresponds to a touch key K4 on the simulation touch screen, and is opened when the 1 st touch is performed/closed when the 2 nd touch is performed;

16. the 5 th switch driving port corresponds to a touch key K5 on the simulation touch screen, and is opened when the 1 st touch is performed/closed when the 2 nd touch is performed;

17. the 6 th switch driving port corresponds to a touch key K6 on the simulation touch screen, and is opened when the 1 st touch is performed/closed when the 2 nd touch is performed;

18. the 7 th switch driving port corresponds to a touch key K7 on the simulation touch screen, and is opened when the 1 st touch is performed/closed when the 2 nd touch is performed;

19. The 8 th switch driving port corresponds to a touch key K8 on the simulation touch screen, and is opened when the 1 st touch is performed/closed when the 2 nd touch is performed;

20. the 9 th switch driving port corresponds to a touch key K9 on the simulation touch screen, and is opened when the 1 st touch is performed/closed when the 2 nd touch is performed;

21. the 10 th switch driving port corresponds to a touch key K10 on the simulation touch screen, and is opened when the 1 st touch is performed/closed when the 2 nd touch is performed;

the LED backlight control level output port is connected with the LED backlight control level input port;

23. the buzzer driving port is connected with the buzzer;

24. the crystal oscillator port is connected with the crystal oscillator;

25. the reset port is connected with the reset circuit.

Furthermore, the system for controlling the numerical control power supply to supply power to the lamp by using the simulation touch screen is characterized in that the simulation touch screen is an integrated screen composed of the simulation touch screen and the display screen, and the simulation touch screen and the display screen are firstly required to be designed in an external screen, so that the integrated screen composed of the simulation touch screen and the display screen has the same effect as the touch screen, such as a screen with an LED backlight, an anti-aging and wear-resistant touch screen external screen, and the like, but the internal structures are different; the simulation touch screen adopts virtual touch keyboard icons;

The structure of the simulation touch screen keeps unchanged; the display screen also keeps the structure of the original display screen unchanged; when the original simulation touch screen and the original display screen form an integrated screen, the integrated screen is perceived as an integral screen; the simulated touch screen also has obvious advantages over a touch screen, such as: the area is not limited, the area can be made large enough, and the cost can be reduced to be low enough when the simulation touch screen is applied to an upper-scale intelligent manufacturing project, which is incomparable with a touch screen, so that the simulation touch screen has wider application prospect than the touch screen; in order to popularize the application of the integrated screen formed by the simulation touch screen and the display screen in future, the common touch control keyboard can be changed into a corresponding touch keyboard, at the moment, the common touch control keyboard chip is changed into a corresponding touch keyboard chip, an LED backlight circuit is added, when any key is touched, the LED backlight is started, the LED backlight is automatically extinguished after a period of time is delayed, and the coding/decoding scheme of the chip of the common touch control keyboard after the chip of the common touch control keyboard is changed into the chip of the corresponding touch keyboard is kept unchanged, so that the integrated screen formed by the simulation touch screen and the display screen is easier to implement.

The beneficial effects of the invention are as follows:

1. the simulation touch screen controls the lamp powered by the numerical control power supply, has more functions, higher reliability and longer service life, can simultaneously select 2 control modes of the simulation touch screen control and the infrared remote controller control or 1 control mode thereof according to the needs, and simplifies the pre-buried wiring of the power supply circuit when the infrared remote controller is selected for control.

2. The outer screen and the LED backlight of the simulation touch screen are completely the same as those of the touch screen, so that the simulation touch screen has the same effects and advantages as the touch screen, and a wide screen structure with reference dimensions of 95mm x 135mm is adopted, so that the simulation touch screen is more atmosphere and attractive, and the technical content and grade are improved;

3. the user can select according to own needs: a plurality of combinations or one of the main luminance/sub luminance/small luminance/linear dimming illumination as the luminance illumination.

4. The user can select one color in the decorative lighting as the decorative lighting according to the needs of the user, and as the LED has the decorative lighting effect with high color purity, the decorative lighting effect with high color purity can be achieved by spending less money on the lamp, and the decorative lighting effect with high color purity is as follows: the red color makes people feel excited; the green color makes people feel quiet; the blue color makes people feel luxurious, and gives people a brand new visual impact, the effect of which is that other decoration modes cannot be achieved, and the situation that the home decoration is not good in future is that the lamp is seen in the future;

5. After the development platform of the modularized structure of the simulation touch screen control numerical control power supply lamp is established, the development of serial products only needs to design modularized combination and standardized line connection according to the function requirement like building blocks, and the simulation touch screen control numerical control power supply lamp is empty to unnecessary functions, so that the development flow of the lamp is simplified, the development period is shortened, and the simulation touch screen control numerical control power supply lamp has the more important advantages that: because the module is subjected to long-time quality inspection, a precondition is created for the large-scale intelligent manufacturing of new products, and a standard system suitable for intelligent manufacturing is easy to form.

6. The structure of the simulation touch screen can achieve the same effect as the touch screen, can be well combined with a display part (or the display screen) to realize an integrated structure, is not limited in area, can be made large enough, and can be reduced to be low enough when being applied to intelligent manufacturing on an upper scale, which is an incomparable advantage of the touch screen, so that the simulation touch screen has wider application prospect than the touch screen.

Drawings

FIG. 1 is a schematic diagram of the structure of the present invention;

fig. 2 is a schematic diagram of a screen structure of a simulated touch screen.

In the accompanying drawings: 1. simulating a touch screen; 2. a hybrid cable; 3. a numerical control power supply; 31. a 48V power module; 32. 220V power supply relay, 33, driving relay; 34. a rectifying and filtering module; 35. a decorative lighting constant current module; 36. a secondary brightness constant current module; 37. a main brightness constant current module; 4. a lamp body; 41. the receiving head is integrated.

Detailed Description

The following examples are provided to illustrate embodiments of the invention in further detail:

as shown in fig. 1 and 2, an embodiment of controlling a digital control power supply lamp by using a simulated touch screen, the simulated touch screen 1 controlling a series of lamps powered by the digital control power supply comprises: the simulation touch screen 1, the hybrid cable 2 and the lamp powered by the numerical control power supply are formed; the simulation touch screen 1 is provided with a 220V power input port and a hybrid cable 2 output port; the hybrid cable 2 is a hybrid cable 2 composed of a pair of 220V power lines and a pair of data lines; the lamp powered by the numerical control power supply is composed of: the digital control power supply, the lamp body 4, the integrated receiving head 41 and the fixed base with the magnetic piston are formed; the numerical control power supply is provided with a mixed cable 2 input port, a numerical control power supply port and an integrated receiving head 41 port; the simulation touch screen 1 is arranged on a pre-buried bottom box on a wall, a 220V power input port of the simulation touch screen 1 is connected with a 220V power supply, and an output port of a hybrid cable 2 of the simulation touch screen 1 is connected with an input port of a numerical control power hybrid cable 2; the numerical control power supply port is connected with the power input port of the lamp body 4; the port of the integrated receiving head 41 is connected with the integrated receiving head 41; the modularized structure of the lamp and standardized line connection are realized; the multifunctional lighting and decorative lighting are realized, and the intelligent manufacturing is easy to realize.

The magnetic piston fixing base of the simulation touch screen control numerical control power supply lamp comprises: the ceiling fixed base and the lamp fixed base form the ceiling fixed base, so that the problem that the lamp is difficult to install and detach is fundamentally solved; the ceiling fixing base is fixed on the ceiling by using expansion bolts, and is provided with 2 magnetic cylinder sleeves and 2 locking screw caps; the lamp body 4 is fixed on a lamp base, and the lamp base is provided with 2 magnetic pistons and 2 locking screws; when the lamp base needs to be fixed, 2 magnetic pistons in the lamp base are inserted into 2 magnetic cylinder sleeves in the ceiling base, and lock screw caps of the lamp base and the ceiling base are locked, so that the safety of fixing is ensured, the installation and the disassembly of the lamp are more convenient and quick, and the simulation touch screen is easier to control the numerical control power supply lamp to upgrade and maintain and clean in future.

The simulation touch screen controls the lamp powered by the numerical control power supply:

the digital control power supply lamp comprises a digital control power supply 3 provided with a decoding module and a lamp body 4 connected with the decoding module through an integrated receiving head 41, wherein the digital control power supply lamp is connected with a mixed cable 2; when the decoding module is connected with the infrared remote control receiving head in the integrated receiving head 41, the lamp has an infrared remote control development function; when the integrated receiving head 41 is not needed, the port of the integrated receiving head 41 is empty; the driving port of the 220V power supply relay 32 of the decoding module is connected with the coil of the 220V power supply relay 32, the public contact of the 220V power supply relay 32 is connected with the 220V power line in the mixed cable input port, the decoding module comprises a main brightness driving port, an auxiliary brightness driving port and a decorative lighting driving port which are connected with the coils of the corresponding relays, the movable contact of the relays is connected with the corresponding power supply line of the numerical control power supply port, the numerical control power supply port is connected with the power input port of the lamp body 4 through a drain wire, the numerical control power supply 3 in the abstract drawing is relatively more in the main brightness driving port, the auxiliary brightness driving port and the decorative lighting driving port on the decoding module 38, the connection relation between the decoding module 38 and the driving relay 33 in the drawing is represented by the connection relation similar to other main brightness driving, auxiliary brightness driving and decorative lighting driving relays, and the connection of modularized combination and standardized lines can be carried out according to the functions of the lamps in the development.

The simulation touch screen controls the simulation touch screen in the lamp powered by the numerical control power supply:

the simulation touch screen 1 is provided with a 220V power input port and a hybrid cable 2 output port; the hybrid cable 2 is a hybrid cable 2 composed of a pair of 220V power lines and a pair of data lines; the numerical control constant current power supply lamp comprises a numerical control power supply 3 and a lamp body 4 which are connected through an integrated receiving head 41; the numerical control power supply 3 is provided with a mixed cable 2 input port, a numerical control power supply 3 power supply port and an integrated receiving head 41 port; the simulation touch screen 1 is arranged on a pre-buried bottom box on a wall, a 220V power input port of the simulation touch screen 1 is connected with a 220V power supply, and an output port of a mixed cable 2 of the simulation touch screen 1 is connected with an input port of a mixed cable 2 of the numerical control power supply 3; the power supply port of the numerical control power supply 3 is connected with the power supply input port of the lamp body 4; the port of the integrated receiving head 41 is connected with the integrated receiving head 41; the simulation touch screen 1 comprises a screen of the simulation touch screen and an in-screen PCB; the screen of the simulation touch screen adopts: 1 st row K1/K2/K3/K4; 2 row of keyboard icons, namely K5/K6/K7/K8 of the 2 nd row; the PCB board is provided with: 2 rows of capacitive touch keyboards, namely K1/K2/K3/K4 of the 1 st row and K5/K6/K7/K8 of the 2 nd row, backlight LED branches, trademark indication lamps and photodiodes; the encoding chip of the simulation touch screen 1 is arranged on the back of the PCB in the screen, 8 touch keyboard signal input ports from K1 to K8 are arranged, the 8 touch keyboard signal input ports are connected with the touch signal output of the 8 capacitive touch keyboards of K1/K2/K3/K4/K5/K6/K7/K8 of the PCB, the screen of the simulation touch screen adopts a capacitive touch technology, touch keyboard icons are designed on the secondary outer layer of the LED backlight, the lower surface layer of the touch keyboard icons accurately corresponds to the touch keyboard on the PCB, and the purposes of designing the touch keyboard icons are 2: 1 st, providing a virtual touch screen interface for the simulation touch screen; for the accurate positioning of the touch keyboard corresponding to the PCB when the finger touches, the touch operation of the finger is input to the touch signal input port of the coding chip, the coding chip amplifies the touch signal and then carries out operation identification on the touch signal, and the touch signal is sent to the coding circuit after the operation identification and is coded according to a coding scheme and then is output to the data output port of the coding chip; the simulation touch screen has the same effect and the same advantage as a touch screen, such as a screen with LED backlight, an anti-aging and wear-resistant touch screen outer screen, and the like, but the internal structures are different, and the simulation touch screen adopts virtual touch keyboard icons, which is called as the simulation touch screen.

The simulation touch screen controls the coding chip of the simulation touch screen 1 in the numerical control power supply lamp: the encoding chip solves the complex system architecture in the chip, the external port is concise, the standardized connection is easy to realize, the encoding chip is a universal encoding chip suitable for developing various lamps, and the encoding chip port of the simulation touch screen 1 comprises: 1. a power input port; 2.k1 touch keyboard signal input port, 3.k2 touch keyboard signal input port, 4.k3 touch keyboard signal input port, 5.k4 touch keyboard signal input port, 6.k5 touch keyboard signal input port, 7.k6 touch keyboard signal input port, 8.k7 touch keyboard signal input port, 9.k8 touch keyboard signal input port, 10.led backlight control level output port; 11. a photodiode level input port; 12. a buzzer driving port; 13. the hybrid cable 2 power supply relay 32 drives the port; 14. a data line output port; 15. a crystal oscillator port; 16. a reset port;

the connection of the encoding chip port comprises the following steps:

1. the power input port, this port is connected with 5V power input, and its effect is: the 5V power input is connected in parallel with a trademark backlight indicator lamp on the simulation touch screen, so that the fact that the power supply of the coding chip of the simulation touch screen is normal is explained when the trademark backlight is lightened, and meanwhile, the trademark backlight is kept to be lightened normally and the function of indicating the position of the simulation touch screen 1 is provided at night.

K1 is a power touch key; the 1 st touch is on, the 2 nd touch is to turn off the power supply except 48V power supply module of the numerical control power supply, and the 3 rd continuous touch is off for more than 3 seconds to simulate the auxiliary illumination of the backlight of the touch screen; the 2 nd touch partial shutdown is: the 220V power supply except the 48V power supply module in the numerical control power supply is closed by interrupting the output of the 220V numerical control relay driving port on the solving module, the power supply of the 48V power supply module in the simulation touch screen wall switch and the numerical control direct current power supply is still reserved, the simulation touch screen backlight is still on, and the auxiliary illumination of the simulation touch screen backlight is closed after the 3 rd continuous touch for more than 3 seconds;

when the power is cut off, the emergency lighting rechargeable battery continuously maintains power supply for the power supply of the coding chip through the anode of the isolation power supply diode, the simulation touch screen backlight is still on at the moment, and when the K1 key is touched for more than 3 seconds, the simulation touch screen backlight is turned off;

k2 is that main luminance touch signal input port is connected with the touch keyboard K2 on the PCB board in the emulation touch-sensitive screen wall switch screen, and its effect is: inputting touch operation of a touch keyboard K2 into a chip, amplifying the touch operation, then sending the touch operation to the chip for operation identification, sending the identification to an encoding circuit for encoding, outputting the identification to a data output port, switching a decoding module to a main brightness 2 driving port for outputting after continuously touching the key for more than 3 seconds, and storing control data switched to the main brightness 2 driving port for a long time by the decoding module; the 1 st touch will keep the main brightness 2 on in the future, and the reliability of the main brightness is doubled;

K3 is that vice degree touch signal input port is connected with touch keyboard K3 on the PCB board in the emulation touch-sensitive screen wall switch screen, and its effect is: inputting touch operation of the touch keyboard K3 into a chip, amplifying the touch operation, then sending the touch operation to the chip for operation identification, sending the touch operation to an encoding circuit for encoding, and outputting the touch operation to a data output port; touching the K3 key for the 1 st time, and starting a secondary brightness 1 driving port by a decoding module to output; touching the K3 key for the 2 nd time, and continuously starting the output of the auxiliary brightness 2 driving port by the decoding module; touching the K3 key for the 3 rd time, and continuously starting the output of the auxiliary brightness 3 driving port by the decoding module; touching the K3 key for the 4 th time, and closing all secondary brightness driving port outputs;

k4 is a small brightness touch signal input port, and the touch signal input port is connected with a touch keyboard K4 on a PCB board in a simulated touch screen wall switch screen, and has the functions that: inputting touch operation of the touch keyboard K4 into a chip, amplifying the touch operation, then sending the touch operation to the chip for operation identification, sending the touch operation to an encoding circuit for encoding, and outputting the touch operation to a data output port; when the K4 key is touched normally, a small brightness constant current is directly output at a small brightness output port of the decoding module;

K5 is that the touch signal input port of illumination when acoustic control and human infrared is connected with touch keyboard K5 on the PCB board in the emulation touch-sensitive screen wall switch screen, and its effect is: inputting the touch operation of the touch keyboard K5 into a chip, amplifying the touch operation, then sending the touch operation to the chip for operation identification, sending the touch operation to an encoding circuit for encoding after identification, and outputting the touch operation to a data output port, and when the K5 key is normally tapped, starting a driving port for lighting 1 when the voice control and the human body are infrared; when the decoding module is continuously touched for more than 3 seconds, switching to the voice control and human body infrared ray, outputting the illumination 2 driving port, and storing the control data output by the illumination 2 driving port when switching to the voice control and human body infrared ray for a long time by the decoding module;

k6 is that decorative lighting touch signal input port is connected with touch keyboard K6 on the PCB board in the emulation touch-sensitive screen wall switch screen, and its effect is: inputting touch operation of the touch keyboard K6 into a chip, amplifying the touch operation, then sending the touch operation to the chip for operation identification, sending the touch operation to an encoding circuit for encoding, and outputting the touch operation to a data output port; touching the K6 key for the 1 st time, and starting a decorative illumination brightness driving port by a decoding module to output; the 2 nd touch starts the decorative lighting red driving port to output; the 3 rd touch starts the decorative lighting green driving port to output; the 4 th touch starts the decorative illumination blue driving port to output; the 5 th touch turns off the decorative lighting driving port output;

K7 is that the linear dimming touch signal input port is connected with a touch keyboard K7 on a PCB board in a wall switch screen of the simulation touch screen, and the effect is that: inputting touch operation of the touch keyboard K7 into a chip, amplifying the touch operation, then sending the touch operation to the chip for operation identification, sending the touch operation to an encoding circuit for encoding, and outputting the touch operation to a data output port; the decoding module defaults the linear dimming output to be in a closed state at ordinary times, and when the linear dimming key is touched at K7, the current output by the linear dimming output port of the decoding module is gradually increased;

k8 is that linear dimming touch signal input port is connected with touch keyboard K8 on the PCB board in the emulation touch-sensitive screen wall switch screen, and its effect is: inputting touch operation of the touch keyboard K8 into a chip, amplifying the touch operation, then sending the touch operation to the chip for operation identification, sending the touch operation to an encoding circuit for encoding, and outputting the touch operation to a data output port; the decoding module defaults the linear dimming output to be in a closed state at ordinary times, and when the linear dimming key is touched at K8, the current output by the linear dimming output port of the decoding module is gradually reduced;

the LED backlight control level output port is connected with the control port of the LED backlight power supply module, and has the functions that: when the control port outputs high level, the LED back light of the screen of the simulation touch screen 1 is bright; when the control port outputs a low level, the LED backlight simulating the screen of the touch screen 1 is turned off;

11. The photosensitive diode level input port is connected with one side of the jumper wire cap, and the effect is that: when the intelligent corridor lighting device is used for corridor lighting, a jumper cap is needed to be inserted, the intelligent corridor lighting device is connected with a photodiode after being connected with the jumper cap, and control of the photodiode starts to work, and at the moment, the mode of the simulation touch screen 1 is a corridor lighting mode; when the simulation touch screen 1 is used for non-corridor illumination, a jumper cap is not inserted, the photodiode does not work, and the simulation touch screen 1 is defaulted to be in a common simulation touch screen mode, so that the simulation touch screen 1 can be used for corridor illumination and non-corridor illumination;

12. the buzzer driving port is connected with a buzzer on a PCB in the screen of the simulation touch screen 1, and the effect is that: when the touch key is in effective touch, the driving port of the buzzer obtains driving output, and the buzzer sounds to prompt that the touch is effective operation;

13. the driving port of the hybrid cable 2 power supply relay 32 is connected with a control coil of the numerical control power supply relay 32, and the function of the hybrid cable is as follows: when the K1 main power key is touched for the 1 st time, the LED back light in the screen of the simulation touch screen 1 is started, meanwhile, the driving port of the numerical control power supply relay 32 obtains driving voltage output, and the movable contact of the relay outputs 220V to the power supply line in the hybrid cable 2 to the power supply input port on the numerical control power supply box after the relay is attracted;

14. The data line output port is connected with the data line in the hybrid cable 2, and the function is that: the data of the encoding and decoding chip is output to a data output port of a decoding module in the numerical control power supply through a data line in the hybrid cable 2;

15. the crystal oscillator port is connected with the crystal oscillator;

16. the reset port is connected with the reset circuit.

The simulation touch screen controls the numerical control power supply lamps and lanterns to be divided into 2 large types: the 1 st large type is: the simulation touch screen controls a lamp powered by the numerical control constant current power supply; the 2 nd large type is: the simulation touch screen controls a lamp powered by the numerical control alternating current power supply;

large type 1: the simulation touch screen controls the lamp powered by the numerical control constant current power supply, and the simulation touch screen 1 is provided with a 220V power input port and a mixed cable 2 output port; the hybrid cable 2 is a hybrid cable 2 composed of a pair of 220V power lines and a pair of data lines; the numerical control constant current power supply lamp comprises a numerical control power supply 3 and a lamp body 4 which are connected through an integrated receiving head 41; the numerical control power supply 3 is provided with a mixed cable 2 input port, a numerical control power supply 3 power supply port and an integrated receiving head 41 port; the simulation touch screen 1 is arranged on a pre-buried bottom box on a wall, a 220V power input port of the simulation touch screen 1 is connected with a 220V power supply, and an output port of a mixed cable 2 of the simulation touch screen 1 is connected with an input port of a mixed cable 2 of the numerical control power supply 3; the power supply port of the numerical control power supply 3 is connected with the power supply input port of the lamp body 4; the port of the integrated receiving head 41 is connected with the integrated receiving head 41; when the decoding module is connected with the infrared remote control receiving head in the integrated receiving head 41, the lamp has an infrared remote control development function; when the integrated head 41 is not required, the port of the integrated head 41 is left empty.

Type 2: the simulation touch screen controls the lamp powered by the numerical control alternating current power supply, and the simulation touch screen 1 is provided with a 220V power input port and a mixed cable 2 output port; the hybrid cable 2 is a hybrid cable 2 composed of a pair of 220V power lines and a pair of data lines; the numerical control alternating current power supply lamp comprises a numerical control alternating current power supply 3 and a lamp body 4 which are connected through an integrated receiving head 41; the numerical control alternating current power supply 3 is provided with an input port of the hybrid cable 2, a power supply port of the numerical control alternating current power supply 3 and a port of the integrated receiving head 41; the simulation touch screen 1 is arranged on a pre-buried bottom box on a wall, a 220V power input port of the simulation touch screen 1 is connected with a 220V power supply, and an output port of a mixed cable 2 of the simulation touch screen 1 is connected with an input port of a mixed cable 2 of the numerical control alternating current power supply 3; the power supply port of the numerical control power supply 3 is connected with the power supply input port of the lamp body 4; the port of the integrated receiving head 41 is connected with the integrated receiving head 41; when the decoding module is connected with the infrared remote control receiving head in the integrated receiving head 41, the lamp has an infrared remote control development function; when the integrated receiving head 41 is not needed, the port of the integrated receiving head 41 is empty; the difference between the simulation touch screen control numerical control constant current power supply lamp and the simulation touch screen control numerical control alternating current power supply lamp is that: the numerical control constant current power supply port is constant current power supply, and LED branches are connected in a matching way; the numerical control alternating current power supply port is 220V alternating current power supply, and a 220V alternating current power supply lamp or a 220V alternating current power supply traditional LED lamp is connected in a matching mode.

The simulation touch screen controls the 1 st large type of the numerical control power supply lamp: the simulation touch screen controls the numerical control constant current power supply in the numerical control constant current power supply lamp:

the simulation touch screen controls a numerical control constant current power supply in the numerical control constant current power supply lamp, and the numerical control power supply 3 is provided with: the input port of the hybrid cable 2, the power supply port of the numerical control power supply 3 and the port of the integrated receiving head 41; the input port of the mixed cable 2 is connected with the mixed cable 2 pre-buried in the wall, and the other end of the mixed cable 2 is connected with the output port of the mixed cable 2 on the simulated touch screen wall switch;

the power supply port of the numerical control power supply 3 is connected with the power supply input port of the LED lamp with the common power supply negative through a section of flat cable, and the power supply input port of the LED lamp comprises LED branches with main brightness 1/main brightness 2/auxiliary brightness 1/auxiliary brightness 2/decorative lighting red/decorative lighting green/decorative lighting blue/small brightness/linear dimming which are parallel to the common power supply negative;

the port of the integrated receiving head 41 is connected with the integrated receiving head 41 arranged in the center of the LED lamp through a section of flat cable; when the decoding module is connected with the infrared remote control receiving head in the integrated receiving head 41, the lamp has an infrared remote control development function; when the integrated head 41 is not required, the port of the integrated head 41 is left empty.

The integrated receiver head 41 port includes: a 5V power line, an infrared remote control receiving head signal line, a sound control sensor signal line and a human body infrared sensor signal line;

the PCB inside the numerical control power supply 3 is provided with: the 48V power supply module 31, 220V power supply relay 32, rectifying and filtering module 34, main luminance constant current module 37, auxiliary luminance 1 constant current module 36, decorative lighting constant current module 35, decoding module 38, main luminance 1/main luminance 2/auxiliary luminance 1/auxiliary luminance 2/decorative lighting red/decorative lighting green/decorative lighting blue driving relay of the decoding module;

the 220V input end of the 48V power supply module 31 is connected with a 220V power supply line in the output port of the hybrid cable 2 in the numerical control power supply 3, the input end of the 48V power supply module 31 is connected with the 220V power supply line of the output port of the hybrid cable 2, and the output end of the 48V power supply module 31 is connected with the 48V power supply input end of the decoding module 38;

the driving coil of the 220V power supply relay 32 is connected with the driving port of the 220V power supply relay 32 of the decoding module 38, the common contact of the 220V power supply relay 32 is connected with a 220V power line in the input port of the hybrid cable 2 of the digital control power supply 3, and the movable contact of the 220V power supply relay 32 is connected with the input end of the rectifying and filtering module 34;

The input end of the rectifying and filtering module 34 is connected with the movable contact of the 220V power supply relay 32, and the input ends of the main brightness constant current module 37/the auxiliary brightness 1 constant current module 36/the decorative lighting constant current module 35 form a parallel connection relationship and then are connected with the 300V direct current voltage output end of the rectifying and filtering module 34;

the 48V power input port of the decoding module 38 is connected with the output end of the 48V power module 31; the data input port of the decoding module 38 is connected with a data line in the input port of the hybrid cable 2 of the numerical control power supply 3;

the 5V voltage output port of the decoding module 38 is connected with a 5V power line of the port of the integrated receiving head 41, and the infrared remote control receiving head signal input port/the sound control sensor signal input port/the human body infrared sensor signal input port of the decoding module 38 are respectively connected with the infrared remote control receiving head signal output/the sound control sensor signal output/the human body infrared sensor signal output in the integrated receiving head 41;

the main luminance 1/main luminance 2/auxiliary luminance 1/auxiliary luminance 2/decorative lighting red/decorative lighting green/decorative lighting blue driving ports of the decoding module 38 are respectively connected with the main luminance 1/main luminance 2/auxiliary luminance 1/auxiliary luminance 2/decorative lighting red/decorative lighting green/decorative lighting blue driving relay coils;

The common contact of the driving relay of the main brightness 1/main brightness 2 is connected in parallel and then connected with the output end of the main brightness constant current module 37, and the movable contact of the driving relay of the main brightness 1/main brightness 2 is respectively connected with the power supply circuit of the main brightness 1/main brightness 2 in the power supply port of the numerical control constant current power supply;

the common contact of the auxiliary brightness 1 driving relay of the decoding module is connected with the output end of the auxiliary brightness 1 constant current module, and the movable contact of the auxiliary brightness 1 driving relay is connected with an auxiliary brightness 1 power supply circuit in the power supply port of the numerical control constant current power supply;

the common contact of the auxiliary brightness 2 driving relay of the decoding module is connected with the output end of the auxiliary brightness 2 constant current module, and the movable contact of the auxiliary brightness 2 driving relay is connected with an auxiliary brightness 2 power supply circuit in the power supply port of the numerical control constant current power supply;

the numerical control power supply 3 is used for adding the decorative lighting power supply function on the basis of the brightness lighting function: the public contact of the decorative illumination red/green/blue driving relay of the decoding module is connected in parallel and then connected with the output end of the decorative illumination constant current module 35, and the movable contact of the decorative illumination red/green/blue driving relay is respectively connected with the decorative illumination red/green/blue power supply line in the power supply port of the digital control constant current power supply;

When the numerical control power supply 3 is used for supplying power to the infrared remote control desk lamp and the infrared remote control wall lamp: the small brightness output port of the decoding module is directly connected with a small brightness power supply circuit in the power supply port of the numerical control constant current power supply; the linear dimming output port of the decoding module is directly connected with a linear dimming power supply circuit in the power supply port of the numerical control constant current power supply, and other functions are not connected and vacant when the numerical control constant current power supply is designed, so that the structures of the numerical control constant current power supply of the infrared remote control desk lamp and the numerical control constant current power supply of the infrared remote control wall lamp are simplified;

small brightness power supply port/linear dimming power supply port of decoding module: the LED lamp can be respectively connected with the small-brightness LED branch circuit/the linear dimming LED branch circuit according to the function of lamp development, and the connection is not left when the function is not required to be developed;

when the numerical control power supply 3 is used for supplying power to the corridor lighting lamp: the voice control and human body infrared illumination 1 output port/2 output port of the decoding module is directly connected with the human body infrared illumination LED branch 1/LED branch 2, and meanwhile, the voice prompt control level output port/5V power supply output port of the corridor is respectively connected with the control level input port/5V power supply input port of the corridor voice prompt module; at this time, the internal design of the numerical control power supply 3 is very concise, and other functions are regarded as empty;

When the digital constant current control power supply 3 is used for simulating the LED backlight power supply of the liquid crystal television wall painting: the 300V direct current voltage input port of the decoding module 38 is connected with the 300V direct current voltage output end of the rectifying and filtering module 34, the parallel constant current module power supply port of the decoding module 38 is connected with the parallel constant current module power supply input port, each output port of the parallel constant current module is connected with the power supply input port corresponding to the LED branch of the simulated liquid crystal television wall painting through a common power negative flat cable, the output of the parallel constant current module power supply port of the decoding module 38 is controlled by a K4 key on an infrared remote controller, when the K4 key is continuously tapped for more than 3 seconds, the port outputs 300V direct current voltage, the LED back of the simulated liquid crystal television wall painting is lighted, at the moment, the numerical control power supply 3 is not connected with the blank function when designed, and the structure of the numerical control power supply 3 of the simulated liquid crystal television wall painting is simplified;

the 5V voltage output port of the decoding module 38 is connected with a 5V power line of the port of the integrated receiving head 41, the infrared remote control receiving head signal input port/the sound control sensor signal input port/the human body infrared sensor signal input port of the decoding module 38 are respectively connected with the infrared remote control receiving head signal output/the sound control sensor signal output/the human body infrared sensor signal output of the integrated receiving head 41, the port of the integrated receiving head 41 can be connected with a corresponding sensor signal output line on the integrated receiving head 41 according to the function of lamp development, and when the lamp designs the control function of the infrared remote controller, the infrared remote control receiving head signal input port of the decoding module is connected with the infrared remote control receiving head signal line in the integrated receiving head, so that the remote control of the infrared remote controller on the lamp is realized;

When the function of the integrated receiving head 41 is not required to be opened, the integrated receiving head 41 is not connected, or the whole integrated receiving head 41 is empty;

when the numerical control constant current power supply is controlled by an infrared remote controller, the names and the functions of the function keys on the panel of the infrared remote controller are as follows: k1 is a power light touch key; the 1 st touch is to turn on the total power supply of the numerical control constant current power supply except the 48V power supply module, the 2 nd touch is to turn off the total power supply of the numerical control constant current power supply except the 48V power supply module, the auxiliary lighting function of the LED backlight of the simulation touch screen is still reserved, and the backlight of the simulation touch screen is turned off when the K1 key is touched for more than 3 seconds; the names and actions of other function keys on the infrared remote control panel are the same as those of the function keys on the simulation touch screen;

the numerical control constant current power supply is correspondingly developed according to the lamp function, and the irrelevant function which is not developed is selected to be vacant in design.

The numerical control constant current power supply can also be used for controlling a plurality of decorative lighting hole lamps/or ceiling lamps which form a series connection relation by using a simulation touch screen, and the structure when the simulation touch screen controls the plurality of decorative lighting hole lamps/or ceiling lamps which form the series connection relation comprises: the simulation touch screen 1, the numerical control constant current power supply and a plurality of decorative lighting hole lamps/or pendant lamps which form a series connection relationship; the connection between the simulation touch screen 1 and the numerical control constant current power supply is the same as that of the simulation touch screen for controlling the numerical control power supply to supply power to the lamp; ports corresponding to the number of the hole lamps/or the ceiling lamps are arranged on the numerical control constant current power supply; 4 parallel LED branches are arranged in each hole lamp/or pendant lamp, the 4 parallel LED branches are connected with each port on the numerical control constant current power supply, and after each port on the numerical control constant current power supply is connected with each hole lamp/or pendant lamp, the 4 parallel LED branches in series connection are formed; the common contacts of the digital control constant current power supply, namely the decorative illumination brightness, the decorative illumination red, the decorative illumination green and the decorative illumination blue relays form a parallel connection relationship and then are connected with the output end of the decorative illumination constant current module 35, and the movable contacts of the digital control constant current power supply, namely the decorative illumination brightness, the decorative illumination red, the decorative illumination green, the decorative illumination blue drive relays are connected with corresponding current limiting resistors in series and then are respectively connected with power supply ports forming a serial connection relationship on the digital control constant current power supply; at the moment, each hole lamp/pendant lamp forming a series connection relationship is controlled by a K6 key on the simulation touch screen, and when the K6 key on the simulation touch screen is touched for the 1 st time, the brightness relay is connected with the power supply of the hole lamp/pendant lamp internal brightness LED branch circuit; when the K6 key on the simulation touch screen is touched for the 2 nd time, the red relay is connected with a hole lamp or a red LED branch in the ceiling lamp for supplying power; by analogy, the K6 key on the touch screen is simulated, and the decorative lighting hole lamp/or the ceiling lamp can be controlled, so that the hole lamp/or other lamps with similar structures can be used for decorative lighting with different colors;

The numerical control constant current power supply is used for infrared remote control decorative lighting wall lamp, and the structure of the infrared remote control decorative lighting wall lamp comprises: the digital control constant current power supply and the decorative lighting wall lamp are internally connected with 4 parallel LED branches corresponding to the current limiting resistor in series, and the infrared remote control receiving head is arranged on the decorative lighting wall lamp; the infrared remote control decorative lighting wall lamp cancels the simulation touch screen part when in implementation, but installs the numerical control constant current power supply in the pre-buried bottom box behind the wall lamp, the 220V power line in the input port of the numerical control constant current power supply mixed cable is connected with the 220V power line in the bottom box, and other connections of the numerical control constant current power supply are the same as those of the numerical control constant current power supply of the desk lamp, so that the structure of the numerical control constant current power supply of the wall lamp is very concise; the public contact of the decorative illumination brightness/decorative illumination red/decorative illumination green/decorative illumination blue relay forms a parallel connection relationship and then is connected with the output end of the decorative illumination constant current module 35, and the movable contact of the decorative illumination brightness/decorative illumination red/decorative illumination green/decorative illumination blue driving relay is respectively connected with a decorative illumination brightness/decorative illumination red/decorative illumination green/decorative illumination blue power supply circuit in the numerical control constant current power supply port; the power supply port of the numerical control constant current power supply is correspondingly connected with the input ends of 4 parallel LED branches connected in series with corresponding current limiting resistors through flat cables, and the purpose of connecting the current limiting resistors with different resistance values in series in the 4 parallel LED branches is to enable chips with different working voltages to be connected with the same power supply in a matching way; meanwhile, the port of the numerical control constant current power supply integrated receiving head is connected with an infrared remote control receiving head arranged at the edge of the wall lamp for decoration illumination, at the moment, the wall lamp for decoration illumination is controlled by an infrared remote controller, and when a K6 key on the simulation touch screen is touched for the 1 st time, the brightness relay is connected with the power supply of a brightness LED branch in the wall lamp; when the K6 key on the simulation touch screen is touched for the 2 nd time, the red relay is connected with the power supply of the red LED branch in the wall lamp; and by analogy, the K6 key on the simulated touch screen is touched, so that the decorative lighting wall lamp can be controlled, and the decorative lighting of different colors of the wall lamp can be realized.

The simulation touch screen controls the 2 nd large type of the numerical control power supply lamp: digital control alternating current power supply in simulation touch screen control digital control alternating current power supply lamp

The simulation touch screen controls the 2 nd large type of lamps and lanterns powered by the numerical control power supply: the simulation touch screen controls the numerical control alternating current power supply in the numerical control alternating current power supply lamp, and the numerical control alternating current power supply is mainly used for replacing a wall switch of a system, so that the simulation touch screen can be uniformly used in house decoration; the numerical control alternating current power supply is different from the numerical control constant current power supply in that: the digital control alternating current power supply is internally provided with a decoding module with a parallel relation between a movable contact of a power supply relay 32 of 220V power supply and a main brightness constant current module 37/an auxiliary brightness 1 constant current module 36/a decorative lighting constant current module 35: the main brightness 1/main brightness 2/auxiliary brightness 1/auxiliary brightness 2/decorative lighting brightness/decorative lighting red/decorative lighting green/decorative lighting blue relay public contacts are directly connected, and the movable contacts of the relays are correspondingly connected with 220V zero line lines in total at the power supply port of the numerical control alternating current power supply, so that the internal structure of the numerical control alternating current power supply is simpler than that of the numerical control constant current power supply, and the numerical control alternating current power supply is suitable for supplying power to an alternating current power supply lamp or a traditional alternating current power supply LED lamp;

The numerical control ac power supply 3 is provided with: the input port of the hybrid cable 2, the power supply port of the numerical control alternating current power supply 3 and the port of the integrated receiving head 41;

the input port of the mixed cable 2 is connected with the mixed cable 2 pre-buried in the wall, and the other end of the mixed cable 2 is connected with the output port of the mixed cable 2 on the simulated touch screen wall switch;

the port of the integrated receiving head 41 is connected with the integrated receiving head 41 arranged in the center of the LED lamp through a section of flat cable; the integrated receiver head 41 port includes: a 5V power line, an infrared remote control receiving head signal line, a sound control sensor signal line and a human body infrared sensor signal line;

the 220V input end of the 48V power supply module 31 is connected with a 220V power line in the output port of the hybrid cable 2 in the numerical control power supply 3, and the output end of the 48V power supply module 31 is connected with the 48V power supply input end of the decoding module 38;

the 48V power input port of the decoding module 38 is connected with the output end of the 48V power module 31; the data input port of the decoding module 38 is connected with a data line in the input port of the hybrid cable 2 of the numerical control alternating current power supply 3;

the driving port of the 220V power supply relay 32 of the decoding module 38 is connected with the driving coil of the 220V power supply relay 32, the public contact of the 220V power supply relay 32 is connected with the 220V power line in the input port of the hybrid cable 2 of the digital control power supply 3, and the movable contact of the 220V power supply relay 32 is connected with the code module forming a parallel connection relation: the public contact of the main brightness 1/main brightness 2/auxiliary brightness 1/auxiliary brightness 2/decorative lighting red/decorative lighting green/decorative lighting blue driving relay is directly connected, and the movable contact is correspondingly connected with a 220V zero line circuit of a numerical control alternating current power supply port;

The power supply port of the numerical control alternating current power supply 3 is connected with the power supply input port of the alternating current power supply lamp with common zero line through a section of flat cable, the power supply input port of the alternating current power supply lamp comprises a main brightness 1/main brightness 2/auxiliary brightness 1/auxiliary brightness 2/decorative lighting brightness/decorative lighting red/decorative lighting green/decorative lighting blue alternating current power supply line which is parallel with the common zero line, and meanwhile, a small brightness/linear dimming LED power supply line which is parallel with a common direct current power supply negative line is also arranged, the numerical control alternating current power supply 3 develops a used function and regards the unused function as an empty function;

the main luminance 1/main luminance 2/sub luminance 1/sub luminance 2/decorative illumination luminance/decorative illumination red/decorative illumination green/decorative illumination blue driving ports of the decoding module 38 are respectively connected with the relay coils; the common contacts of the relays form a parallel connection relationship and then are connected with the movable contacts of the 220V power supply relay 32, the movable contacts of the relays are connected with corresponding lines of a power supply port of the numerical control alternating current power supply, the numerical control alternating current power supply is correspondingly developed according to the functions of the lamp, and irrelevant functions which are not developed are selected to be vacant in design.

The numerical control alternating current power supply is used for simulating the touch screen to control the decorative lighting hole lamp with 220V power supply, and the structure of the decorative lighting hole lamp controlled by the touch screen comprises the following components: the device comprises a numerical control alternating current power supply, a 220V-powered decorative lighting hole lamp and a hybrid cable, wherein the numerical control alternating current power supply is connected with the 220V-powered decorative lighting hole lamp; when the numerical control alternating current power supply is used for controlling a 220V power supply decorative lighting hole lamp, after the public contacts of the decorative lighting brightness/decorative lighting red/decorative lighting green/decorative lighting blue relays form a parallel connection relationship, the public contacts are connected with a 5V voltage stabilizing output end of a decoding module in the numerical control alternating current power supply, and when the decorative lighting brightness/decorative lighting red/decorative lighting green/decorative lighting blue relay movable contacts and the public contacts form a passage, a corresponding solid-state relay in the relay movable contacts is connected with an LED power supply module and a corresponding current limiting resistor to supply power to 1 LED branch in 4 parallel LED branches in the hole lamp; the decorative illuminating hole lamp powered by the hole lamp 220V is internally provided with: the decorative lighting hole lamp comprises 1 shared LED power supply module, 4 parallel LED branches connected with a current limiting resistor in series and 4 red solid state relays, wherein the ports of the decorative lighting hole lamp are mixed cable ports; the hybrid cable port includes: 1 pair of 220V power lines, 4 5V control lines of a decorative lighting brightness/decorative lighting red/decorative lighting green/decorative lighting blue solid state relay with negative common power supply; the 1 pair of 220V power lines are connected with 220V input ends of the LED power supply modules, output ends of the LED power supply modules are connected with power supply input ends of decorative illumination brightness/decorative illumination red/decorative illumination green/decorative illumination blue solid-state relays which form a parallel connection relationship, power supply output ends of the decorative illumination brightness/decorative illumination red/decorative illumination green/decorative illumination blue solid-state relays are correspondingly connected with input ends of 4 parallel LED branches which are connected in series with corresponding current limiting resistors, and the purpose of the serial connection of the current limiting resistors with different resistance values in the 4 parallel LED branches is to enable chips with different working voltages to be connected with the same power supply in a matching manner; the 5V control line of the decorative lighting brightness/decorative lighting red/decorative lighting green/decorative lighting blue solid-state relay is correspondingly connected with the movable contact of the decorative lighting brightness/decorative lighting red/decorative lighting green/decorative lighting blue relay; when a decorative lighting hole lamp mixed cable port is connected with 1 pair of 220V power lines in a mixed cable, 4 5V control lines of a common power source negative decorative lighting brightness/decorative lighting red/decorative lighting green/decorative lighting blue solid state relay are connected, and when a K6 key on the simulation touch screen is touched for the 1 st time, the brightness solid state relay is connected with a brightness LED branch to supply power; when the K6 key on the simulation touch screen is touched for the 2 nd time, the red solid state relay is connected with the red LED branch to supply power, and so on, the K6 key on the simulation touch screen is touched, a plurality of parallel hole lamps can be controlled, and decorative illumination of different colors of the hole lamps is realized;

The digital control alternating current power supply is used for simulating a touch screen to control a decorative lighting hole lamp with 220V power supply, a plurality of ports which form a parallel connection relationship are designed on the digital control alternating current power supply, and each port is connected with each circle of decorative lighting hole lamp, so that a large hall lamp is formed;

the numerical control alternating current power supply is correspondingly developed according to the lamp function, and irrelevant functions are regarded as empty and are not connected.

Decoding module 38 for controlling numerical control power supply lamp by simulating touch screen

The decoding module is an important module developed by the invention, has strong functions and is suitable for the development of various lamps of the invention; the decoding module solves the problem that a complex system architecture is arranged in the module, has concise external ports and is easy to connect in a standardized way, and is a general decoding module widely applicable to the development of various lamps;

A. The decoding module comprises the following ports: a 1.48V power input port; a 2.300V DC voltage input port; 3. a data input port; 4.220V power supply relay 32 drive port; a 5.5V voltage output port; 6. an infrared remote control receiving head signal input port; 7. a signal input port of the sound control sensor; 8. a signal input port of the human body infrared sensor; 9. a main luminance 1 driving port; 10. a main luminance 2 drive port; 11. a sub-luminance 1 driving port; 12. a sub-luminance 2 drive port; 13. a sub-luminance 3 drive port; 14. a small brightness power supply port; 15. parallel constant current module power supply port; 16. a linear dimming power supply port; 17. an illumination output port 1 for sound control and human body infrared extension; 18. an illumination output port 2 for sound control/human body infrared extension; 19. a decorative illumination brightness driving port; 20. decorative lighting red drive ports; 21. decorative lighting green drive ports; 22. a decorative lighting blue driving port; 23. corridor lighting voice prompt control level output port; 24. a crystal oscillator port; 25. a reset port;

B. the functions of the decoding module port and the connection of the external circuit thereof include:

the 1.48V power input port is connected with a 220V power line in the mixed cable input port;

The 2.300V power supply input port is connected with the 300V direct current voltage output end of the rectifying and filtering module;

3. the data input port is connected with a data line in the mixed cable input port; the function is to input the data output signal of the code chip;

4.220V power input relay drive port is connected with 220V power input relay coil, and its effect is: the common contact of the relay is connected with a 220V power supply in a hybrid cable 2 in the numerical control power supply, the common contact of the relay is connected with a 220V power supply line in an input port of the hybrid cable, the movable contact of the relay is connected with the input end of the rectifying and filtering module, and the output end of the rectifying and filtering module is respectively connected with the input end of the main brightness constant current module/the input end of the auxiliary brightness constant current module/the input end of the decorative lighting module in parallel connection; the 220V power input relay is defaulted to be not operated at ordinary times; when the 1 st electric shock power key K1 is used, a 220V power supply input relay control port drives the relay to be started, a common movable contact and a movable contact form a passage, and the 220V power supply at the input end of a rectifying and filtering module in the numerical control power supply is connected; when the key K1 is touched for the 2 nd time, the port does not output driving voltage, the relay is closed, and the 220V power supply is disconnected; however, the 48V power module 31 still keeps the power supply of the numerical control power supply, and the LED backlight of the simulation touch screen is still normal;

The 5.5V voltage stabilizing output port is connected with a power supply line of the integrated receiving head 41, and has the functions that: ensuring the power supply of the integrated receiving head 41;

6. the signal input port of the infrared remote control receiving head is connected with the signal input line of the infrared remote control receiving head in the integrated receiving head 41, and the function is that: inputting a signal of an infrared remote control receiving head; because the internal structure of the decoding module ensures that the data input port of the decoding module and the signal input port of the infrared remote control receiving head of the decoding module are in parallel decoding control relationship, the simulation touch screen is different from the infrared remote controller except for the K1 key function, and the control effects of other keys are the same; therefore, when the lamp is developed, whether the infrared remote controller is designed for control or not can be judged according to the function requirement; when the lamp is designed with the control function of the infrared remote controller, the signal input port of the infrared remote control receiving head of the decoding module is connected with the signal line of the infrared remote control receiving head in the integrated receiving head, so that the remote control of the infrared remote controller on the lamp is realized;

7. the voice control sensor signal input port is connected with a voice control sensor signal line in the integrated receiving head 41, and functions as follows: inputting signals of the sound control sensor when the numerical control power supply is used for delay illumination power supply of corridor lamps;

8. The human body infrared sensor signal input port is connected with a human body infrared sensor signal line in the integrated receiving head 41, and the function is that: inputting human body infrared sensor signals when the numerical control power supply is used for delay illumination power supply of corridor lamps;

9. the main brightness 1 driving port is connected with a control coil of the main brightness 1 relay, and has the functions that: when the driving port outputs driving voltage, the movable contact of the relay is attracted, and the movable contact and the common contact of the relay form a passage;

10. the main brightness 2 driving port is connected with a control coil of the main brightness 2 relay, and has the functions that: when the main brightness 1 fails, the K3 key is touched for more than 3 seconds, the output of the driving port of the main brightness 2 is switched at the moment, and a path is formed by the movable contact attraction of the relay and the common contact; the touch code module stores the switched control data for a long time, so that the output of a drive port of the main brightness 2 is ensured to be kept in the future, the reliability of the main brightness is improved, and the service life of the main brightness is prolonged by one time;

11. the auxiliary brightness 1 driving port is connected with a control coil of an auxiliary brightness 1 relay, and has the functions that: when the driving port outputs driving voltage, the movable contact of the relay is attracted, the movable contact of the relay and the common contact form a passage, and the auxiliary brightness 1 driving port is normally developed;

12. The auxiliary brightness 2 driving port is connected with a control coil of the auxiliary brightness 2 relay, and has the functions that: when the driving port outputs driving voltage, the movable contact of the relay is attracted, the movable contact and the common contact of the relay form a passage, and the auxiliary brightness 2 driving port generally does not develop the function of the driving port;

13. the auxiliary brightness 3 driving port is connected with a control coil of the auxiliary brightness 3 relay, and has the functions that: when the driving port outputs driving voltage, the movable contact of the relay is attracted, the movable contact and the common contact of the relay form a passage, and the auxiliary brightness 3 driving port generally does not develop the function of the driving port;

k4 is that the small brightness output port is directly connected with the small brightness LED branch, so that the structure of small brightness illumination power supply is simplified, and when the K4 key is touched normally, the small brightness power supply is directly output at the small brightness output port of the decoding module; when the numerical control constant current power supply is used for supplying power to the infrared remote control desk lamp and the infrared remote control wall lamp: the small brightness output port of the decoding module is directly connected with a small brightness power supply circuit in the numerical control constant current power supply port; the linear dimming output port of the decoding module is directly connected with a linear dimming power supply circuit in the power supply port of the numerical control constant current power supply, and other functions are not connected and vacant when the numerical control constant current power supply is designed, so that the structures of the numerical control constant current power supply of the infrared remote control desk lamp and the numerical control constant current power supply of the infrared remote control wall lamp are simplified;

15. The parallel constant current module power supply port is connected with the parallel constant current module power supply input port, and has the functions that: when the K4 key is touched on the continuous light touch infrared remote controller for more than 3 seconds, 300V direct current voltage is output at a power supply port of the parallel constant current module of the decoding module 38 to supply power to the parallel constant current module and the input end, and each output end of the parallel constant current module supplies power to a common power source negative LED backlight branch in the simulated liquid crystal television wall painting through a flat cable; in the implementation, the simulation touch screen part is canceled, a numerical control constant current power supply is arranged in a pre-buried bottom box behind the simulation liquid crystal television wall painting, a 220V power line in a mixed cable input port of the numerical control constant current power supply is connected with a 220V power line in the bottom box, and meanwhile, a power line and an infrared remote control signal line in an integrated receiving head port of the numerical control constant current power supply are connected with an infrared remote control receiving head on the edge of the simulation liquid crystal television wall painting; meanwhile, a 300V direct-current voltage input port of the decoding module 38 is connected with a 300V direct-current voltage output end of the rectifying and filtering module 34, and other functions of the numerical control constant-current power supply are not connected in a vacant manner, so that the structure of the simulated liquid crystal television fresco numerical control constant-current power supply is simplified; the effect of the outer screen/frame/LED backlight/picture of the simulated liquid crystal television wall painting is the same as that of the liquid crystal television picture, except that the screen is internally provided with a photo film, and the thickness of the simulated liquid crystal television wall painting is the same as that of a common wall painting because the structure of the simulated liquid crystal television wall painting is simpler than that of the liquid crystal television and all the simulated liquid crystal television wall painting is thinner than that of the liquid crystal television, but the simulated liquid crystal television wall painting has the advantages of brightness and bright color, so that the decoration grade of the wall painting is improved;

16. The linear dimming output port is directly connected with the linear dimming LED branch, and the effect is that: outputting linear dimming light current to the linear dimming LED branch circuit; when the numerical control constant current power supply is used for supplying power to the infrared remote control desk lamp and the infrared remote control wall lamp: the small brightness/linear dimming output port of the decoding module is directly connected with a small brightness/linear dimming output port power supply line in the numerical control constant current power supply port; other functions are not connected and vacant, so that the structure of the infrared remote control desk lamp/wall lamp numerical control constant current power supply is simplified;

the infrared remote control desk lamp comprises an infrared remote control desk lamp, a simulation touch screen, a numerical control constant current power supply, a mixed cable input port of the numerical control constant current power supply, a 220V power supply input port of the simulation touch screen, a 220V power supply plug wire, a small brightness/linear dimming output circuit in a power supply port of the numerical control constant current power supply, and a power supply circuit, wherein the simulation touch screen is designed on a desk lamp base; meanwhile, a power line and an infrared remote control signal line in a port of the digital control constant current power supply integrated receiving head are connected with an infrared remote control receiving head on the wall lamp; at the moment, other functions of the numerical control constant current power supply are not connected and vacant, so that the structure of the numerical control constant current power supply of the desk lamp is very concise;

The infrared remote control wall lamp is arranged on a wall of a living room, a simulated touch screen part is omitted during implementation, a numerical control constant current power supply is arranged in a pre-buried bottom box behind the wall lamp, a 220V power line in a mixed cable input port of the numerical control constant current power supply is connected with a 220V power line in the bottom box, and other connections of the numerical control constant current power supply are the same as those of a numerical control constant current power supply of a desk lamp, so that the structure of the numerical control constant current power supply of the wall lamp is very concise;

17. the sound control and human body infrared illumination output port 1 is directly connected with the sound control and human body infrared illumination LED branch 1, and the function is that: the development of corridor lamps is simplified;

18. the sound control and human body infrared illumination output port 2 is directly connected with the sound control and human body infrared illumination LED branch 2; the function is as follows: the development of corridor lamps is simplified, the service life of corridor lamps is doubled, when the voice control and human infrared LED branch 1 breaks down, continuous touch K5 is the output of the voice control/human infrared illumination output port 2 when the voice control/human infrared illumination output port 2 is switched to at the moment, the decoding module stores the switched control data for a long time, and the output of the voice control/human infrared illumination output port 2 when the K5 key is normally touched in the future is ensured; when the numerical control constant current power supply is used for supplying power to the corridor lighting lamp: the sound control and human body infrared illumination output port 1 of the decoding module is directly connected with the sound control and human body infrared illumination LED branch 1; the voice control and human body infrared illumination output port 2 of the decoding module is directly connected with the voice control and human body infrared illumination LED branch 2, and other functions are not connected and vacant when the numerical control constant current power supply is designed, so that the structure of the numerical control constant current power supply of the corridor illumination lamp is simplified;

When the voice control and human body infrared illumination corridor lamp are implemented, the simulation touch screen and the photosensitive diode signal input port are connected with the positive electrode of the photosensitive diode after passing through the jumper cap, at the moment, the simulation touch screen is converted into a corridor lamp mode, and the simulation touch screen is converted into the corridor lamp mode, so that the simulation touch screen is: the K1 key on the simulation touch screen panel is touched at night, then the K5 key is touched, the illumination function is started when the sound control and human body are infrared, at the moment, the LED backlight of the simulation touch screen is lightened at the whole night, the LED backlight provides auxiliary illumination for a corridor, until a photosensitive diode inputs a photosensitive signal to a photosensitive diode port on a simulation touch screen coding chip at the time of the brightness, the coding chip automatically turns off the simulation touch screen LED backlight, and after the K1 key on the simulation touch screen panel is touched again at night, the K5 key is touched again, and the illumination function is started when the sound control and human body are infrared; when the power is cut off, the emergency illumination rechargeable battery continuously maintains power supply for the power supply of the coding chip through the anode of the isolation power supply diode, the simulation touch screen backlight still keeps auxiliary illumination, and when the K1 key is continuously touched for more than 3 seconds, the simulation touch screen backlight auxiliary illumination is turned off;

when the numerical control constant current power supply is used for corridor lamps, the mixed cable input port of the numerical control constant current power supply is connected with the mixed cable output port of the simulation touch screen; the integrated receiving head port is connected with an integrated receiving head arranged at the central position of the corridor lamp body, a human body infrared sensor and an acoustic control sensor are arranged on the integrated receiving head, and the corridor lamp delay illumination function is started only when 1 sensor acts; meanwhile, when the corridor lamp is in delayed illumination, a floor voice prompt control level output port of the decoding module outputs high level to control the floor voice prompt module to give out floor voice prompts;

19. The decorative illumination brightness driving port is connected with a control coil of the decorative illumination brightness relay, and has the functions that: when the driving port outputs driving voltage, the movable contact of the relay is attracted, and the movable contact and the common contact of the relay form a passage;

20. the decorative lighting red driving port is connected with a control coil of the decorative lighting red relay, and has the functions that: when the driving port outputs driving voltage, the movable contact of the relay is attracted, and the movable contact and the common contact of the relay form a passage;

21. the green drive port of the decorative lighting is connected with the control coil of the green relay of the decorative lighting, and the function is that: when the driving port outputs driving voltage, the movable contact of the relay is attracted, and the movable contact and the common contact of the relay form a passage;

22. the decorative lighting blue driving port is connected with a control coil of the decorative lighting blue relay, and has the functions that: when the driving port outputs driving voltage, the movable contact of the relay is attracted, and the movable contact and the common contact of the relay form a passage; the function of each decorative lighting driving port is as follows: when the digital control constant current power supply is used for adding a decorative lighting power supply function on the basis of a brightness lighting function: the public contact of the decorative illumination red/green/blue driving relay of the decoding module is connected in parallel and then connected with the output end of the decorative illumination constant current module 35, and the movable contact of the decorative illumination red/green/blue driving relay is respectively connected with a decorative illumination red/green/blue power supply line in the power supply port of the numerical control constant current power supply;

23. The floor voice prompt control level output port is connected with a voice prompt control line of the floor voice prompt module, and the function is that: when the floor voice prompt control level output port is used for simulating the touch screen corridor delay illumination lamp, when one of the voice control or human body infrared sensors is in operation, the floor voice prompt control level output port simultaneously outputs high level to control the floor voice prompt module to output the floor voice prompt to the voice prompt horn on the floor voice prompt module.

24. The crystal oscillator port is connected with the crystal oscillator;

25. the reset port is connected with the reset circuit.

Infrared remote controller chip for controlling numerical control power supply lamp to be developed in matching mode through simulation touch screen and infrared remote controller thereof

The infrared remote controller keyboard is operated in the same way as the simulated touch screen keyboard, the coded signals output by the chip transmitting output port are the same as the coded signals output by the chip data output port of the simulated touch screen, so the coded signals are decoded by the decoding module and have the same control result;

The infrared remote controller chip is an infrared remote controller chip which is developed by matching the simulation touch screen to control the numerical control power supply lamp, the infrared remote controller chip and the keyboard of the simulation touch screen are in a corresponding relation, the same operation is carried out on the infrared remote controller keyboard and the simulation touch screen keyboard, and the coded signals output by the chip transmitting output port and the coded signals output by the chip data output port of the simulation touch screen are the same, so that the same control result is obtained after decoding by the decoding module; the method is characterized in that the keyboard has different signal input modes and different output coded signal propagation paths, the infrared remote controller adopts a signal input mode of a touch keyboard, and the chip simulating the touch screen adopts a signal input mode of a touch keyboard; the infrared remote controller chip adopts an infrared remote control mode, and the chip simulating the touch screen adopts a data line in a mixed cable for transmission;

the internal structure of the decoding module ensures that the coded signals of the simulated touch screen received by the data input port and the coded signals of the infrared remote controller received by the signal input port of the infrared remote control receiving head are controlled identically on other keys except for slightly different functions of the K1 key, so that the infrared remote controller can be designed to control according to the function requirement when the lamp is developed; when the lamp needs to be controlled by the infrared remote controller, the digital control power supply 3 is connected with an infrared remote control receiving head signal output line in the integrated receiving head 41, so that a signal path is formed by an infrared remote control receiving head signal input port on a decoding module in the digital control power supply 3 and the infrared remote control receiving head signal line in the integrated receiving head 41, and the remote control of the infrared remote controller on the lamp is realized; the infrared remote controller is composed of: the infrared remote controller is formed by a touch keyboard, an infrared remote controller PCB and a mobile phone electric plate; the touch keyboard of the infrared remote controller corresponds to the touch keyboard of the touch screen of the simulation touch screen, and has the same structure; the touch keyboard on the front surface of the PCB of the infrared remote controller corresponds to the touch keys of the infrared remote controller, an infrared remote control coding chip is arranged on the back surface of the PCB of the infrared remote controller, and the signal input ports of the 8 touch keys of K1/K2/K3/K4/K5/K6/K7/K8 of the infrared remote control coding chip are connected with the 8 touch keyboards of K1/K2/K3/K4/K5/K6/K7/K8 on the front surface of the PCB of the infrared remote controller through the through holes of the PCB; the 4 emission driving ports of the emission indicator lamp/the infrared emission head 1/the infrared emission head 2/the infrared emission head 3 of the infrared remote control coding chip are respectively correspondingly connected with the emission indicator lamp/the infrared emission head 1/the infrared emission head 2/the infrared emission head 3; the power input port of the infrared remote control coding chip is connected with the mobile phone electric plate; the mobile phone charging port is arranged on the mobile phone panel;

The infrared remote control coding chip is characterized by comprising:

the characteristic 1. The infrared remote control coding chip is the infrared remote control coding chip developed by matching the simulation touch screen control digital control power supply lamp, the codes output by the infrared remote control coding chip and the simulation touch screen coding chip correspond to each other, the codes are the same except that the K1 keys are slightly different, the K2/K3/K4/K5/K6/K7/K8 keys have the same coding signals, and meanwhile, the decoding module has the same decoding control function;

the characteristic 2. The infrared remote control coding chip is provided with: a power input port; the 8 touch key signal input ports are K1/K2/K3/K4/K5/K6/K7/K8: the device comprises 4 emission driving ports, namely an emission indicating lamp/an infrared emission head 1/an infrared emission head 2/an infrared emission head 3, and a crystal oscillator/a reset port;

the touch signal input port of the K1 main power switch key is connected with a touch keyboard K1 on the PCB of the infrared remote controller, and the same control is performed on other keys except that the functions of the K1 keys are slightly different, and the decoding module has the same decoding control function;

the K2 main degree touch signal input port is connected with a touch keyboard K2 on the PCB of the infrared remote controller;

the K3 secondary degree touch signal input port is connected with a touch keyboard K3 on the PCB of the infrared remote controller;

K4 is a touch signal input port shared by small brightness and parallel constant current module power supply and is connected with a touch keyboard K4 on the PCB of the infrared remote controller;

the crystal oscillator port is connected with the crystal oscillator;

the reset port is connected with the reset circuit;

D. the room type lamp is provided with an infrared remote control function, the infrared remote control is arranged on the infrared remote control sleeves arranged on the walls above the bedside cabinets on two sides, and the infrared remote control sleeves and the infrared remote control are both designed with structures with thin magnetic sheets, so that the infrared remote control is convenient to place, the room type lamp is provided with the infrared remote control function, the lamp is convenient to control, and meanwhile, the circuit of a traditional wall switch is not required to be embedded.

Structural implementation of magnetic fixing mode developed by the invention

The magnetic fixing mode needs to solve the problems that: because the lamp is arranged at a high position, the lamp is difficult to install and remove, and the magnetic fixing mode developed by the invention well solves the problem;

the magnetic fixation mode is implemented by the following steps: the ceiling dust cover fixing base is fixed on the ceiling by using expansion bolts, and the ceiling fixing base is provided with 2 magnetic cylinder sleeves and 2 locking bolts; 2 magnetic pistons are designed in the lamp fixing base, when the magnetic pistons are inserted into the magnetic cylinder sleeves, the 2 parts are fixed due to magnetic attraction, and 2 locking screws are arranged between the ceiling dust cover fixing base and the lamp fixing base to ensure the fixing safety, and the lamp is fixed magnetically so as to standardize the installation and the fixing of the lamp, thereby bringing convenience for the replacement of the lamp and the maintenance and sanitary cleaning in the future.

The method is characterized by comprising the steps of 1, fixing a ceiling dust cover fixing base on a ceiling by using expansion bolts, wherein the ceiling fixing base is provided with 2 magnetic cylinder sleeves and 2 locking bolts; 2 magnetic pistons are designed in the lamp fixing base, when the magnetic pistons are inserted into the magnetic cylinder sleeves, the 2 parts are fixed due to magnetic attraction, a heat dissipation gap is arranged between the lamp fixing base and the ceiling dust cover fixing base for guaranteeing that the lamp fixing base is dustproof and can dissipate heat, the heat can be dissipated and the dust can be prevented, and 2 locking screws are arranged between the ceiling dust cover fixing base and the lamp fixing base for guaranteeing the fixing safety.

The ceiling dust cover fixing base is fixed on the ceiling by using a tent expansion screw, and a lamp cable led out of the ceiling penetrates out of a cable hole in the center of the ceiling dust cover fixing base to be connected with the cable on the lamp base; the lamp base divides the 2 heat dissipation aluminum plates into upper/lower spaces through the fixing support, and the heat dissipation aluminum plates in the upper space are provided with a numerical control power supply to ensure heat dissipation of the numerical control power supply; the lower heat dissipation aluminum plate is fixed with the PCB of the lamp body after being coated with heat conduction grease, so that heat dissipation of the LED patches on the PCB of the lamp body is ensured; the space structure of the upper layer/the lower layer ensures better dustproof heat dissipation effect and ensures that the structure inside the lamp fixing base cannot be seen from the outside.

The magnetic fixing of the lamp makes the installation of the lamp standardized, makes the installation and maintenance more convenient, if the lamp is disassembled when the dust of the radiator on the lamp base needs to be maintained and cleaned, only 2 safety fixing rods need to be unscrewed simply, and then the cable plug is disassembled, so that the lamp can be disassembled by overcoming the attractive force of the magnetic fixing slightly downwards; when the lamp is installed, the cable plug is screwed, 2 magnetic pistons on the lamp base are inserted into 2 magnetic cylinder sleeves in the dust cover, and then 2 safety fixing rods are locked.

The invention develops the structural implementation of the 2 parallel LED patches, the 3 parallel LED patches and the 4 parallel LED patches

The problems to be solved by the 2 parallel LED patches, the 3 parallel LED patches and the 4 parallel LED patches are as follows: the patch is connected end to form a plurality of parallel LED serial branches, so that the patch can accommodate a plurality of LED serial branches under the condition of keeping the area of a PCB basically unchanged, and only 1 LED serial branch is selected, so that other LED serial branches have rest, and heat dissipation is not influenced;

the structure of the LED patches with parallel brightness illumination is as follows: 2 brightness LED chips are packaged in parallel to form an LED patch, and the patch is connected end to form 2 parallel LED serial branches, so that the patch accommodates the 2 LED serial branches under the condition of keeping the PCB area basically unchanged; the 2 parallel LED patches are used in 2 parallel LED branches of main brightness 1/main brightness 2 of the lamp; the system is also used in a sound control and human body infrared illumination 1 branch/sound control and human body infrared illumination 2 branch of the corridor lamp;

the structure of the side-by-side decorative lighting LED patch is as follows: the LED chips of 3 colors of red, green and blue are packaged in parallel to form an LED patch, and the patch is connected end to form 3 parallel LED serial branches, so that the patch accommodates the 3 LED serial branches under the condition of keeping the PCB area basically unchanged;

4 the structure of the parallel decorative lighting LED patch is as follows: the 4 LED chips of white, red, green and blue are packaged in parallel to form an LED patch, and the patch is connected end to form 4 parallel LED serial branches, so that the patch accommodates the 4 LED serial branches under the condition of keeping the PCB area basically unchanged.

Implementation of the integrated receiver head 41 architecture developed by the present invention

The problems to be solved by the integrated receiving head are: the infrared remote control receiving head, the sound control sensor/the human infrared sensor are integrated on the PCB board and are provided with an integrated receiving head connecting port, so that the aim of standardized connection between the integrated receiving head port on the numerical control power supply and the infrared remote control receiving head signal line, the sound control sensor signal line and the human infrared sensor signal line is achieved; the integrated receiving head port on the numerical control power supply is connected with the infrared remote control receiving head signal input port, the sound control sensor signal input port and the human body infrared sensor signal input port on the decoding module in the numerical control power supply in a standardized manner;

the integrated receiving head is usually arranged at the central position of the lamp, and the integrated receiving head is designed with the following components: an infrared remote control receiving head, a sound control sensor and a human body infrared sensor; the integrated receiving head is connected with an integrated receiving head port on the numerical control power supply through a section of flat cable, and the integrated receiving head port comprises: the integrated receiving head is connected with a required line according to the function of the lamp, and is not designed when an unnecessary line is empty or the receiving head is not integrated.

The constant current module developed by the invention and the implementation of the parallel constant current module structure thereof

In a simulation touch screen control numerical control power supply lamp, a numerical control power supply 3 comprises a constant current module and parallel constant current modules thereof

The constant current module is a module for controlling a numerical control constant current power supply lamp to develop and supply constant current to an LED branch circuit by a simulation touch screen, and the structure of the constant current module is as follows: the front 220V rectifying and filtering part is removed from the LED power supply with the working voltage of 220V, the constant current power supply part input by the rear 300V direct current power supply is reserved, and the LED power supply is packaged according to the structure of the patch module, so that heat conduction during installation on a PCB is facilitated; the power of the main brightness constant current module is about 30W, and the power of the auxiliary brightness constant current module and the decorative lighting constant current module is about 15W;

the parallel constant current modules included in the numerical control power supply 3 are mainly divided into 3 types: type 1 is a parallel constant current module of the economical lamp; the 2 nd type is a parallel constant current module of the luxury room type lamp; the 3 rd type is a parallel constant current module for simulating the liquid crystal television wall painting;

the 1 st type, parallel constant current module of the economic lamp is composed of: the parallel constant current module is composed of a main brightness constant current module unit and an auxiliary brightness constant current module unit, and is structurally characterized in that: the 300V direct current voltage input ports of the constant current module units forming the parallel constant current module are connected in parallel, and the output ends of the module units of the parallel constant current module are respectively output, so that the output ends of the main brightness constant current module units/auxiliary brightness constant current module units of the parallel constant current module of the economic lamp are respectively correspondingly connected with the main brightness LED branch circuit/auxiliary brightness LED branch circuit of the economic lamp;

The 2 nd type is the parallel constant current module of the luxury room type lamp of the invention, which is composed of: the parallel constant current module composed of the main brightness constant current module unit/the auxiliary brightness constant current module unit/the decorative lighting module unit is characterized in that: the 300V direct current voltage input ports of the constant current module units forming the parallel constant current module are connected in parallel, and the output ends of the module units of the parallel constant current module are respectively output, so that the output ends of the main brightness constant current module unit/the auxiliary brightness constant current module unit/the decorative lighting module unit of the parallel constant current module of the luxury room type lamp are respectively correspondingly connected with the main brightness LED branch circuit/the auxiliary brightness LED branch circuit/the decorative lighting LED branch circuits of various colors of the luxury room type lamp;

the 3 rd type is the parallel constant current module of the simulated liquid crystal television wall painting, which is composed of: the parallel constant current module composed of a plurality of identical constant current module units is characterized in that: the 300V direct current voltage input ports of the constant current module units forming the parallel constant current module are connected in parallel, and the output ends of the module units of the parallel constant current module are respectively output, so that the output ends of a plurality of identical constant current module units of the parallel constant current module of the simulated liquid crystal television wall painting are respectively and correspondingly connected with LED backlight branches in the simulated liquid crystal television wall painting; the quantity of the constant current module units in the parallel constant current module for simulating the liquid crystal television wall painting is that the corresponding constant current module units are determined according to the quantity of LED backlight branches required by the liquid crystal television wall painting, so that the matching of the power supply of the parallel constant current module and the quantity/voltage/current of the LED backlight branches is ensured.

Embodiment of simulation liquid crystal television wall painting structure

The problem to be solved by the simulation liquid crystal television wall painting is as follows: the outer screen, the frame, the image quality and the LED backlight of the simulated liquid crystal television wall painting are the same as those of the liquid crystal television, and compared with the liquid crystal television, the simulated liquid crystal television wall painting has the advantages of higher definition, attractive appearance, ultra-thin appearance and unlimited area; has the advantages of brightness, high definition, bright color and rich gradation compared with the common wall painting; the difference is that the simulation liquid crystal television wall painting is a photo wall painting; the simulated liquid crystal television wall painting has the important advantages that the simulated liquid crystal television wall painting is similar to a liquid crystal television production line, is easy to realize an intelligent manufacturing production line similar to a liquid crystal television, is suitable for high-end places such as hotels, and is an indoor decorative high-end product;

the simulation touch screen controls the numerical control power supply 3 in the numerical control power supply lamp to have the function of supplying power to the LED backlight of the simulated liquid crystal television wall painting;

the numerical control power supply 3 supplies power to the LED backlight of the simulated liquid crystal television wall painting is characterized in that: the simulated liquid crystal television wall painting consists of a simulated liquid crystal television wall painting body hung on a wall and a numerical control power supply 3 arranged in a pre-buried bottom of the wall; the simulated liquid crystal television wall painting is provided with: an LED backlight power supply input port and an infrared remote control receiving head port, wherein the infrared remote control receiving head is arranged on a frame of the simulated liquid crystal television wall painting; the numerical control power supply 3 is provided with: 220V power input port, LED backlight power supply port, infrared remote control receiving head port; the 220V power input port of the numerical control power supply 3 is connected with the 220V power input in the embedded bottom of the wall, and the LED backlight power supply port of the numerical control power supply 3 is connected with the LED backlight power supply input port of the simulated liquid crystal television wall painting through a common power negative flat cable; the port of the infrared remote control receiving head of the numerical control power supply 3 is connected with the infrared remote control receiving head of the simulated liquid crystal television wall painting through a common power supply negative flat cable;

The outer screen, the frame, the image quality and the LED backlight of the simulated liquid crystal television wall painting are the same as those of the liquid crystal television, except that the simulated liquid crystal television wall painting is a photo wall painting, so the simulated liquid crystal television wall painting is called for short; the simulated liquid crystal television wall painting and the common wall painting have the advantages of brightness, high definition, bright color and rich layering, are high-end products for interior decoration, and are suitable for high-end places such as hotels;

this numerical control power 3 is inside to be equipped with on the PCB board: the device comprises a 48V power supply module 31, a 220V power supply relay 32, a decoding module 38, a rectifying and filtering module and a parallel constant current module;

the 220V input end of the 48V power supply module 31 is connected with a 220V power line in the digital control power supply 3, and the output end of the 48V power supply module 31 is connected with the 48V power supply input end of the decoding module 38;

the driving port of the 220V power supply relay 32 of the decoding module 38 is connected with the driving coil of the 220V power supply relay 32, the common contact of the 220V power supply relay 32 is connected with a 220V power line in the input port of the hybrid cable 2 of the digital control power supply 3, the movable contact of the 220V power supply relay 32 is connected with the 220V power input end of the rectifying and filtering module, the 300V direct current voltage output end of the rectifying and filtering module is connected with the 300V power input end of the decoding module 38, and the parallel constant current module power supply port of the decoding module 38 is connected with the parallel constant current module power input port;

The 5V voltage output port of the decoding module 38 is connected with a 5V power line of the port of the integrated receiving head 41, the signal input port of the infrared remote control receiving head of the decoding module 38 is connected with the signal output of the infrared remote control receiving head in the integrated receiving head 41, the digital control alternating current power supply 3 is designed to be an infrared remote controller control function, the signal input port of the infrared remote control receiving head of the decoding module is connected with the signal line of the infrared remote control receiving head in the integrated receiving head, and the remote control of the infrared remote controller on the LED backlight of the simulated liquid crystal television wall painting is realized;

when the numerical control power supply 3 is controlled by an infrared remote controller, the names and the functions of the function keys on the panel of the infrared remote controller are as follows: k1 is a power light touch key; the 1 st touch is to turn on the numerical control power supply 3 except the 48V power supply module for supplying power, and the 2 nd touch is to turn off the numerical control power supply 3 for supplying power to the LED backlight of the simulated liquid crystal television wall painting; other irrelevant functions of the numerical control power supply 3 are selected to be empty in design.

Embodiment of solar energy and alternating current automatic switching power supply simulation touch screen control numerical control power supply lamp

The simulation touch screen control numerical control power supply lamp with the automatic solar energy and alternating current switching power supply is characterized in that when the simulation touch screen controls the numerical control power supply to the lamp for the automatic solar energy and alternating current switching power supply, the front end of the simulation touch screen control numerical control constant current power supply lamp is required to be connected with a solar energy and alternating current automatic switching power supply control box, and the simulation touch screen switch and the numerical control constant current power supply are required to be changed from the original 220V alternating current power supply type to the 300V direct current power supply type; the simulation touch screen switch control numerical control constant current power supply lamp is applied to solar power supply places and has very important significance for popularizing solar illumination in vast rural areas;

Structural implementation of simulated touch screen

The device comprises a screen of a simulated touch screen and an on-screen PCB (printed circuit board); the screen of the simulation touch screen adopts a keyboard icon; the PCB board is provided with: a capacitive touch keyboard corresponding to the keyboard icon, a backlight LED branch and a trademark indicator lamp; the encoding chip of emulation touch screen is installed at PCB board back in the screen, the encoding chip is equipped with each touch keyboard signal input port, each signal input port of touch keyboard is connected with each capacitive touch keyboard touch signal output of PCB board, the screen of emulation touch screen adopts capacitive touch technique, design touch keyboard icon at LED inferior skin in a poor light, touch keyboard icon lower floor accurately corresponds the touch keyboard on the PCB board, the purpose of design touch keyboard icon has 2: the 1 st is to provide a virtual touch screen interface for the simulation touch screen, so that the simulation touch screen has the same effect as the touch screen; the 2 nd is in order to touch with the corresponding touch keyboard on the PCB board accurately and fix a position, the touch operation of its finger inputs to the touch signal input port of the code chip, the code chip carries on the operation recognition to the touch signal after carrying on the amplification treatment to the touch signal, give the code circuit after the operation recognition and output the code signal or carry on the code control according to the code, make it have the same effect of the touch screen, the same advantage, like having screen in a poor light of LED, anti-aging, wear-resisting touch screen outer screen, etc., the structure of the emulation touch screen also extensively uses in other emulation touch screen control's application places.

The simulation touch screen comprises a screen of the simulation touch screen and an in-screen PCB; the screen of the simulation touch screen adopts a keyboard icon; the PCB board is provided with: a capacitive touch keyboard corresponding to the keyboard icon, a backlight LED branch and a trademark indicator lamp; the simulation touch screen comprises a screen, wherein a coding chip of a simulation touch screen is arranged on the back of a PCB (printed Circuit Board) in the screen, the coding chip is provided with signal input ports of each touch keyboard, each signal input port of the touch keyboard is connected with each capacitive touch keyboard touch signal output of the PCB, the screen of the simulation touch screen adopts a capacitive touch technology, touch keyboard icons are designed on the secondary outer layer of an LED backlight, the lower surface layer of each touch keyboard icon accurately corresponds to the touch keyboard on the PCB, and the number of the purposes of designing the touch keyboard icons is 2: the 1 st is to provide a virtual touch screen interface for the simulation touch screen, so that the simulation touch screen has the same effect as the touch screen; the 2 nd is in order to accurately position the touch keyboard corresponding to the PCB board when the finger touches, the touch operation of the finger is input to the touch signal input port of the coding chip, the coding chip amplifies the touch signal and then carries out operation identification on the touch signal, the touch signal is sent to the coding circuit after operation identification to output the coding signal or carry out coding control after coding, the simulation touch screen has the same effects as the touch screen, such as a screen with LED backlight, an anti-aging and wear-resistant touch screen outer screen and the like, but the internal structures are different, and the simulation touch screen adopts virtual touch keyboard icons, so the simulation touch screen is called; the simulated touch screen also has obvious advantages over a touch screen, such as: the area is not limited, the area can be made large enough, and the cost can be reduced to be low enough when the simulation touch screen is applied to an upper-scale intelligent manufacturing project, which is incomparable with a touch screen, so that the simulation touch screen has wider application prospect than the touch screen; in order to popularize the application of the simulation touch screen in future, the common touch control keyboard can be changed into a corresponding touch keyboard, at the moment, the common touch control keyboard chip is changed into a corresponding touch keyboard chip, an LED backlight circuit is added, when any key is touched, the LED backlight is started, the LED backlight is automatically extinguished after a period of time is delayed, and the coding/decoding scheme of the common touch control keyboard chip is kept unchanged after the common touch control keyboard chip is changed into the corresponding touch keyboard chip, so that the implementation is easier, and the following application embodiment of the simulation touch screen is provided.

Embodiment of simulating touch screen structure applied to all-solid-state simulating touch screen building intercom host

The simulation touch screen structure is used for an all-solid-state simulation touch screen building intercom host, the all-solid-state simulation touch screen building intercom host comprises an all-solid-state simulation touch screen building intercom host composed of two-wire coding chips of the simulation touch screen building intercom host and the two-wire coding chips, and the all-solid-state simulation touch screen building intercom host is composed of a screen of a simulation touch screen and a PCB (printed circuit board) in the screen; the screen of the all-solid-state simulation touch screen adopts a touch keyboard icon corresponding to the capacitive touch keyboard, a PCB board is arranged below the screen of the all-solid-state simulation touch screen, and the front surface of the PCB board is provided with: the backlight LED branch and the touch keyboard icons correspond to a capacitive touch keyboard below the LED backlight screen, and meanwhile, a digital display part is also arranged on the PCB; the back of the PCB is provided with a simulation touch screen building intercom host 2-line coding chip and a buzzer; the touch signal input port, the backlight LED branch, the driving port of the digital display part and the like of the PCB front capacitive touch keyboard are connected with corresponding circuits on a chip through a via hole of the PCB, the touch keyboard icons are designed on the screen of the LED backlight secondary outer layer by using the capacitive touch technology, the touch control is carried out on the keyboard corresponding to the PCB on the lower layer on the screen secondary outer layer touch keyboard icons, building intercom coding signals are output at the data output port of the 2-wire coding chip of the all-solid simulation touch screen building intercom host, so that the screen of the all-solid simulation touch screen building intercom host has the same effect as a touch screen, and the same advantages such as a screen with LED backlight, an anti-aging and wear-resistant touch screen outer screen and the like are realized;

The simulation touch screen building intercom main machine two-wire coding chip is a two-wire coding chip which is developed by matching with the full solid simulation touch screen building intercom main machine, the simulation touch screen building intercom main machine two-wire coding chip and a keyboard of the traditional building intercom main machine chip are in a corresponding relation, the simulation touch screen building intercom main machine touch keyboard and the traditional building intercom main machine touch keyboard are operated in the same way, and the coding signals output by the chip output port are the same as the coding signals output by the data output port of the traditional building intercom main machine two-wire coding chip, so the same control result is obtained after decoding by the extension decoding module; the two-wire coding chip of the simulation touch screen building intercom main machine adopts a signal input mode of a touch keyboard, the two-wire coding chip of the traditional building intercom main machine adopts a signal input mode of a touch keyboard, and the two-wire coding chip of the simulation touch screen building intercom main machine only adopts the signal input mode of the touch keyboard, so the two-wire coding chip of the simulation touch screen building intercom main machine is not explained in detail;

the simulation touch screen building intercom main machine two-wire coding chip changes a touch keyboard signal input port of a traditional building intercom main machine two-wire coding chip into a touch keyboard signal input port correspondingly, and an LED backlight output port is increased correspondingly, and the simulation touch screen building intercom main machine two-wire coding chip has the effects that: when any keyboard on the simulation touch screen building intercom host is touched, the LED backlight is lightened, corresponding floor codes are input according to the coding scheme, the simulation touch screen building intercom host is controlled to unlock after confirmation of a two-wire coding chip of the simulation touch screen building intercom host, or the unlocking codes are sent to the host after confirmation of a floor user and then the simulation touch screen building intercom host is controlled to unlock, and meanwhile, the LED backlight is automatically extinguished after a certain time delay after the LED backlight is lightened.

Embodiment of simulating touch screen structure applied to all-solid-state simulation touch screen coded lock

The structure of the simulation touch screen is applied to the all-solid-state simulation touch screen coded lock, the all-solid-state simulation touch screen coded lock comprises a simulation touch screen coded lock coding chip and an all-solid-state simulation touch screen coded lock formed by the simulation touch screen coded lock coding chip, the simulation touch screen coded lock coding chip is a coded chip developed by the simulation touch screen coded lock, the simulation touch screen coded lock coding chip is similar to the simulation touch screen coded chip in structure, and the simulation touch screen coded lock is also composed of: the screen of the simulation touch screen and the PCB in the screen consist of 2 parts; the screen of emulation touch-sensitive screen adopts the touch keyboard icon with capacitive touch keyboard correspondence, is equipped with the PCB board below the screen of emulation touch-sensitive screen, and the front of PCB board is equipped with: a backlight LED branch circuit, wherein the touch keyboard icon corresponds to a capacitive touch keyboard below the LED backlight screen, and a digital display part is arranged on the PCB; the back of the PCB is provided with a simulated touch screen coded lock coding chip and a buzzer; the touch signal input port of the positive capacitive touch keyboard of the PCB board, the LED branch road of being shaded, through the via hole of PCB board and corresponding circuit connection on the chip, the screen of the emulation touch screen also utilizes the capacitive touch technology, design the touch keyboard icon at the inferior outer screen of LED back light, touch control is carried out to the keyboard on the PCB board that the lower floor corresponds on the inferior outer touch keyboard icon of screen, make the screen of the solid-state emulation touch screen trick lock have the same effect of touch screen, the same advantage, like having screen in a poor light of taking LED, anti-aging, wear-resisting touch screen outer screen etc. its effect is: when any keyboard is arranged on the touch simulation touch screen coded lock, the LED backlight is lightened, the coded lock is input, the coded lock is controlled to unlock by the simulation touch screen coded lock chip after confirmation, and the LED backlight is automatically extinguished after a certain time delay; because the simulated touch screen coded chip is different from the traditional coded chip in terms of signal input mode of the keyboard, the simulated touch screen coded chip is not described in detail herein.

Application of structure of simulation touch screen to simulation touch screen parallel switch embodiment

The structure of the simulation touch screen is applied to the simulation touch screen parallel switch, and the 10 paths of simulation touch screen parallel switch control chips are similar to the structure of the simulation touch screen chips, and the structure is also composed of: the screen of the simulation touch screen and the PCB in the screen consist of 2 parts; the screen of emulation touch-sensitive screen adopts the touch keyboard icon with capacitive touch keyboard correspondence, is equipped with the PCB board below the screen of emulation touch-sensitive screen, and the front of PCB board is equipped with: a backlight LED branch circuit, wherein the touch keyboard icon corresponds to a capacitive touch keyboard below the LED backlight screen; a chip of a simulation touch screen which is not controlled by a lamp and a buzzer are arranged on the back surface of the PCB, and a relay is driven; the touch signal input port of the capacitive touch keyboard on the front surface of the PCB board is connected with a corresponding circuit on the chip through a via hole of the PCB board, a screen of the simulated touch screen also designs a touch keyboard icon on the secondary outer layer of the LED backlight by using a capacitive touch technology, and the touch control is carried out on the keyboard on the PCB board corresponding to the lower layer on the secondary outer layer of the screen touch keyboard icon, so that the screen of the simulated touch screen parallel switch has the same effect as the touch screen, and has the same advantages, such as the screen with the LED backlight, an anti-aging and wear-resistant touch screen outer screen and the like;

The coding chip comprises 10 paths of simulation touch screen control chips and structural implementation of the simulation touch screen

The A.10-path simulation touch screen control chip is a chip for developing a simulation touch screen series switch, the chip is applied to the development of 2-path to 10-path series simulation touch screens, corresponding functional ports are developed during development, unused ports are empty, the chip is a universal chip with wide application range, and has important significance for the development of the simulation touch screen multi-path switch, and the simulation touch screen has the advantages of wear resistance, difficult aging and the like, improves the grade of the simulation touch screen, is more suitable for middle-high end application scenes, and is an updated product of the parallel multi-path switch;

the B.10-path simulation touch screen control chip has a similar structure to the simulation touch screen chip, and the structure is also composed of: the screen of the simulation touch screen and the PCB in the screen consist of 2 parts; the screen of the simulation touch screen adopts a touch keyboard icon corresponding to the capacitive touch keyboard, and the effect is the same as that of the touch screen; the screen of emulation touch-sensitive screen is equipped with the PCB board below, and the front of PCB board is equipped with: a backlight LED branch circuit, wherein the touch keyboard icon corresponds to a capacitive touch keyboard below the LED backlight screen; a chip of a simulation touch screen which is not controlled by a lamp and a buzzer are arranged on the back surface of the PCB, and a relay is driven; the touch signal input port of the capacitive touch keyboard on the front surface of the PCB board, a backlight LED branch circuit, which is connected with a corresponding circuit on the chip through a via hole of the PCB board, is also used for simulating a screen of the touch screen by utilizing a capacitive touch technology, a touch keyboard icon is designed on a screen of a secondary outer layer simulation touch screen of the LED backlight, and a touch control is carried out on a keyboard on the PCB board corresponding to the lower layer on the touch keyboard icon of the secondary outer layer of the screen; after the chip of the simulation touch screen encodes and decodes the operation of the touch key according to the encoding and decoding scheme, driving voltage is output at the corresponding driving port of the chip, and the movable contact of the relay performs switch control on the connected control end.

The C.10 path simulation touch screen control chip is provided with: 1. a power input port; k1 total power reset/1 st switch touch keyboard signal input port; 3.k2 touch keyboard signal input port, 4.k3 touch keyboard signal input port, 5.k4 touch keyboard signal input port, 6.k5 touch keyboard signal input port, 7.k6 touch keyboard signal input port, 8.k7 touch keyboard signal input port, 9.k8 touch keyboard signal input port, 10.k9 touch keyboard signal input port, 11.k10 touch keyboard signal input port, 12.1st switch drive port; 13. a 2 nd switch driving port; 14. a 3 rd switch drive port; 15. a 4 th switch drive port; 16. a 5 th switch drive port; 17. a 6 th switch driving port; 18. a 7 th switch drive port; 19. an 8 th switch drive port; 20. a 9 th switch drive port; 21. a 10 th switch drive port; an led backlight control level output port; 23. a buzzer driving port; 24. a crystal oscillator port; 25. and resetting the port.

D.10-path simulation touch screen control chip port connection

1. The power input port is connected with 5V power input, and the function is that: the 5V power input is connected in parallel with the mark backlight indicator lamp on the simulation touch screen, so that the normal power supply of the simulation touch screen coding chip is indicated when the mark backlight is lightened, and meanwhile, the mark backlight is kept always lightened and the effect of indicating the position of the simulation touch screen is provided at night.

K1 total power reset/touch keyboard signal input port is connected with touch keyboard K1 on PCB board in this emulation touch-sensitive screen wall switch screen, and its effect is: inputting the touch operation of the touch keyboard K1 into a chip, amplifying the touch operation, then sending the touch operation to the chip for operation identification, sending the identification to a coding circuit for coding according to a coding scheme, and outputting the coded code to a decoding control part, starting a total power supply when the touch is performed for the 1 st time, starting the driving of a 1 st switch when the touch is performed for the 2 nd time, and controlling all driving ports to be closed and reset when the touch is performed for the 3 rd time;

the K2 touch keyboard signal input port is connected with a touch keyboard K2 on a PCB in the simulation touch screen, and the function of the touch keyboard K1 is similar;

the K3 touch keyboard signal input port is connected with a touch keyboard K3 on a PCB in the simulation touch screen, and the function of the K3 touch keyboard is similar to that of the K1 touch keyboard;

the K4 touch keyboard signal input port is connected with a touch keyboard K4 on a PCB in the simulation touch screen, and the function of the touch keyboard K1 is similar;

the K5 touch keyboard signal input port is connected with a touch keyboard K5 on a PCB in the simulation touch screen, and the function of the touch keyboard K1 is similar;

The K6 touch keyboard signal input port is connected with a touch keyboard K6 on a PCB in the simulation touch screen, and the function of the K6 touch keyboard is similar to that of the K1 touch keyboard;

the K7 touch keyboard signal input port is connected with a touch keyboard K7 on a PCB (printed circuit board) in the simulation touch screen, and the function of the K7 touch keyboard is similar to that of the K1 touch keyboard;

the K8 touch keyboard signal input port is connected with a touch keyboard K8 on a PCB in the simulation touch screen, and the function of the K8 touch keyboard is similar to that of the K1 touch keyboard;

the K9 touch keyboard signal input port is connected with a touch keyboard K9 on a PCB (printed circuit board) in the simulation touch screen, and the function of the touch keyboard K1 is similar;

the K10 touch keyboard signal input port is connected with a touch keyboard K10 on a PCB (printed circuit board) in the simulation touch screen, and the function of the touch keyboard K1 is similar;

23. the buzzer driving port is connected with the buzzer;

24. the crystal oscillator port is connected with the crystal oscillator;

25. The reset port is connected with the reset circuit.

E. When the 10-path coding chip for simulating parallel switch development of the touch screen is used for simulating parallel switch development of the touch screen, modularized development and standardized line connection are carried out like building blocks according to the functions of the parallel switch, and a standard system suitable for intelligent manufacturing is easy to form; there are 3 advantages: 1 st advantage: the parallel switch of the all-solid-state simulation touch screen is easy to realize and is suitable for a standard system of intelligent manufacturing; 2 nd advantage: the standard system that the parallel switch of the common simulation touch screen is suitable for intelligent manufacturing is easy to realize; 3 rd advantage: the screen simulating the parallel switch of the touch screen has the same effect and the same advantages as the touch screen, such as the screen with LED backlight, an anti-aging and wear-resistant touch screen outer screen and the like, the grade of the parallel switch is improved, the parallel switch can be developed into a single-row or double-row/all-solid-state parallel switch or a common parallel switch or a large-volume parallel switch or a large-power parallel switch or a small-power parallel switch during development, the parallel switch is suitable for middle-high end application scenes of the parallel switch, and the parallel switch is a new generation product of the traditional parallel switch.

The simulated touch screen is implemented by a structure of an integrated screen formed by the simulated touch screen and the display screen

The simulation touch screen is an integrated screen formed by the simulation touch screen and the display screen, the simulation touch screen and the display screen are required to be designed in one external screen, the simulation touch screen and the display screen integrated screen are guaranteed to have the same effect as the touch screen, such as a screen with LED backlight, an anti-aging and wear-resistant touch screen external screen and the like, but the internal structures are different; the simulation touch screen adopts virtual touch keyboard icons;

Structural implementation of rectifying and filtering module 34 developed by the invention

The rectifying and filtering module 34 is mainly a module for controlling the development of a numerical control constant current power supply lamp by a simulated touch screen, and the structure of the rectifying and filtering module 34 is as follows: the constant current power supply part with the working voltage of 220V power supply and the power supply of the rear 300V direct current power supply is removed, the front 220V rectifying and filtering part is reserved, and the LED power supply is packaged according to the structure of a patch module, so that heat conduction during patch installation on a PCB is facilitated, the output end of the rectifying and filtering module 34 is connected with the input end of a main brightness/auxiliary brightness/decorative lighting constant current module or the 300V voltage input end of a decoding module which form an association relation, and correspondingly matched power is needed;

structural implementation of 48V power supply module 31 with 220V AC power supply input developed by the invention

The input end of a 48V power module 31 input by a 220V alternating current power supply is connected with a 220 power line in a digital control power supply mixed cable input port, 48V output by the module is connected with the 48V power supply input end of a decoding module, and the decoding module needs to supply power to a small-brightness/linear dimming LED branch, so the 48V power module 31 for supplying power to the decoding module needs to have corresponding matching power;

structural implementation of 48V power supply module with 300V direct current power supply input developed by the invention

The 48V power module 31 with 300V direct current power input is a power module developed for matching a solar power supply/alternating current automatic switching control box, the input end of the 48V power module with 300V direct current power input is connected with a 300V direct current power line in a numerical control power hybrid cable input port, 48V output by the module is connected with the 48V power input end of a decoding module, and the decoding module needs to supply power for a small-brightness/linear dimming LED branch, so the 48V power module 31 for supplying power for the decoding module needs to have corresponding matching power;

implementation of a 5V power supply module structure with 220V alternating current power supply input developed by the invention

The input end of a 5V power supply module input by a 220V alternating current power supply is connected with the 220V alternating current power supply in the embedded bottom box of the simulation touch screen 1, and 5V output by the module is in power supply connection with the 5V power supply of the simulation touch screen 1.

Implementation of a 5V power supply module structure with 300V power supply input developed by the invention

The 5V power supply module with 300V power supply input is a power supply module developed for matching a solar power supply/alternating current automatic switching control box, the input end of the 5V power supply module with 300V direct current power supply input is connected with the 300V direct current power supply in the embedded bottom box of the simulation touch screen 1, and 5V output by the module is in power supply connection with the 5V power supply of the simulation touch screen 1.

Embodiment of numerical control constant current power supply lamp

1. Structure implementation of house luxury lamp powered by numerical control constant current power supply controlled by simulation touch screen 1

A. The luxury lamp controlled by the simulation touch screen 1 is suitable for a living room or a hotel, and comprises: infrared remote control/decorative lighting/small brightness/linear dimming multifunctional luxury lamp; the lamp consists of: the simulation touch screen 1, the mixed cable 2 and the luxury lamp body 4 in a living room;

the simulation touch screen 1 is installed on a pre-buried bottom box on a wall, and the simulation touch screen 1 is externally provided with: 220V ac power input port and hybrid cable 2 input port; the 220V power input port is connected with a 220V power supply in the embedded bottom box, the output port of the mixed cable 2 is connected with the mixed cable 2 embedded in the wall, and the other end of the mixed cable 2 is connected with the input port of the mixed cable 2 of the numerical control constant current power supply in the lamp body 4;

the numerical control constant current power supply is arranged in the magnetic fixing base of the lamp, and the outside is provided with: the input port of the hybrid cable 2, the power supply port of the numerical control constant current power supply and the port of the integrated receiving head 41; the input port of the mixed cable 2 is connected with the mixed cable 2 pre-buried in the wall, and the other end of the mixed cable 2 is connected with the output port of the mixed cable 2 on the simulated touch screen wall switch; the numerical control constant current power supply port is connected with the LED lamp power supply input port with common power supply negative through a section of flat cable, and the port comprises LED branch power supply lines with common power supply negative and parallel: meanwhile, the lamp comprises a main brightness 1/main brightness 2/decoration illumination brightness/decoration illumination green/decoration illumination blue/small brightness/linear dimming LED branch circuit which is negative in common power supply, wherein the main brightness 1/main brightness 2 adopts 2 parallel LED branch circuits formed by 2 parallel LED chips; the LED lamp comprises a lamp body, wherein the lamp body comprises 4 parallel LED branches consisting of 4 parallel LED chips, the 4 parallel LED branches are adopted for the decorative illumination brightness/decorative illumination blue, and the parallel LED chips are adopted because only 1 chip works, and other chips rest without influencing the normal heat dissipation of the chips, and the integration level of the 4LED branches of the lamp body is improved by adopting the parallel LED chips, so that the LED branches on the PCB are simpler; the integrated receiving head 41 port is connected with the integrated receiving head 41 installed in the center of the LED lamp through a section of flat cable, and the integrated receiving head 41 port comprises: a 5V power line and an infrared remote control receiving head signal line;

The PCB inside the numerical control constant current power supply is provided with: the 48V power supply module 31, 220V numerical control power supply relay 32, the rectifying and filtering module 34, the main brightness constant current module 37, the decorative lighting constant current module 35, the decoding module and the main brightness 1/main brightness 2/decorative lighting brightness/decorative lighting red/decorative lighting green/decorative lighting blue driving relay of the decoding module; the 220V input end of the 48V power supply module 31 is connected with a 220V power supply of a comprehensive cable port in the numerical control constant current power supply, and the output end of the 48V power supply module 31 is connected with the 48V power supply input end of the decoding module; the driving coil of the 220V numerical control power supply relay 32 is connected with the driving port of the 220V numerical control power supply relay 32 of the decoding module, the common contact of the 220V numerical control power supply relay 32 is connected with a 220V power line in the input port of the numerical control constant current power supply hybrid cable 2, and the movable contact of the 220V numerical control power supply relay 32 is connected with the input end of the rectifying and filtering module 34; the input end of the rectifying and filtering module 34 is connected with the movable contact of the 220V numerical control power supply relay 32, and the input ends of the main brightness constant current module 37/the auxiliary brightness 1 constant current module/the decorative lighting constant current module 35 are connected in parallel and then connected with the 300V direct current voltage output end of the rectifying and filtering module 34; the 48V power input port of the decoding module is connected with the output end of the 48V power module 31; the data input port of the decoding module is connected with a data line in the input port of the numerical control constant current power supply hybrid cable 2; the 5V voltage stabilizing output port of the decoding module is connected with a 5V power line of the port of the integrated receiving head 41, and the signal input port of the infrared remote control receiving head in the integrated receiving head 41 of the decoding module is connected with the signal input of the infrared remote control receiving head;

The driving ports of the main luminance 1/main luminance 2 of the decoding module are respectively connected with the driving relay coils of the main luminance 1/main luminance 2, the common contact points of the driving relays of the main luminance 1/main luminance 2 form a parallel connection relationship and then are connected with the output end of the main luminance constant current module 37, and the movable contact points of the driving relays of the main luminance 1/main luminance 2 are respectively connected with the main luminance 1/main luminance 2 power supply line in the power supply port of the numerical control constant current power supply; the decorative illumination brightness/decorative illumination red/decorative illumination green/decorative illumination blue driving port of the decoding module is respectively connected with the decorative illumination red/decorative illumination green/decorative illumination blue driving relay coil, the public contact of the decorative illumination brightness/decorative illumination red/decorative illumination green/decorative illumination blue driving relay is connected in parallel and then is connected with the output end of the decorative illumination constant current module 35, and the movable contact of the decorative illumination brightness/decorative illumination red/decorative illumination green/decorative illumination blue driving relay is respectively connected with the decorative illumination brightness/decorative illumination red/decorative illumination green/decorative illumination blue power supply line in the digital control constant current power supply port;

the small brightness/linear dimming output port of the decoding module is directly connected with the small brightness/linear dimming power supply line in the power supply port of the numerical control constant-current power supply respectively;

The functional ports which are not used by the decoding module in the numerical control constant current power supply are regarded as empty and are not connected.

B. When the simulated touch screen wall switch controls the luxury LED lamp in a living room, the names and the functions of the function keys on the simulated touch screen wall switch are as follows:

k1 is a power touch key; the 1 st touch is on, the 2 nd touch is to turn off the power supply except 48V power supply module of the numerical control power supply, and the 3 rd continuous touch is off for more than 3 seconds to simulate the auxiliary illumination of the backlight of the touch screen; the 2 nd touch partial shutdown is: the 220V power supply except the 48V power supply module in the numerical control power supply is closed by interrupting the output of the 220V power supply relay driving port on the solving module, and at the moment, the power supply of the 48V power supply module in the simulation touch screen wall switch and the numerical control direct current power supply is still reserved, the simulation touch screen backlight is still on, and the simulation touch screen backlight auxiliary illumination is closed after the 3 rd continuous touch for more than 3 seconds.

When the power is cut off, the emergency lighting rechargeable battery continuously maintains power supply for the power supply of the coding chip through the anode of the isolation power supply diode, the simulation touch screen backlight is still on at the moment, and when the K1 key is touched for more than 3 seconds, the simulation touch screen backlight is turned off.

K2 main brightness touch key; the 1 st touch is to turn on the main brightness 1 branch, and the 2 nd touch is to turn off the main brightness 1 branch; when the main brightness 1 branch fails, touching the K2 key for more than 3 seconds continuously; the numerical control constant current power supply is switched to the power supply of the main brightness 2 branch, the module is used for storing control data, the main brightness 2 branch is kept on after the 1 st touch, and the reliability of the main brightness is doubled;

K4 is a touch key shared by small brightness and power supply of the parallel constant current module, the 1 st touch is to start a small brightness branch, and the touch is to close the branch again;

k6 is a decorative illumination touch key, and the 1 st touch starts decorative illumination brightness illumination; the 2 nd touch turns on the decorative illumination red illumination; the 3 rd touch turns on the green illumination of the decorative illumination; the 4 th touch turns on the blue illumination of the decorative illumination; the 5 th touch turns off the decorative lighting function.

K7/K8 linear dimming touch key; the default linear dimming function is turned off at ordinary times, the brightness of the linear dimming gradually increases when the touch K7 is touched, and the brightness of the linear dimming gradually decreases when the touch K8 is touched.

When the simulated touch screen numerical control lamp starts a decorative lighting function, starting a decorative lighting branch of interest, or starting a small brightness branch after starting the decorative lighting branch;

C. the room-type lamp is provided with the infrared remote controllers, the infrared remote controllers are arranged on the infrared remote controller sleeves arranged on the walls above the bedside cabinets on two sides, and the infrared remote controllers are both designed with structures with thin magnetic sheets, so that the infrared remote controllers are convenient to place, the room-type lamp is provided with the infrared remote control function, the lamp is convenient to control, and meanwhile, the circuit of the traditional wall switch is not required to be embedded;

The names and functions of the function keys on the infrared remote control panel are as follows: k1 is a power light touch key, the 1 st light touch is to turn on the total power supply of the numerical control constant current power supply except the 48V power supply module 31, the 2 nd touch is to turn off the total power supply of the numerical control constant current power supply except the 48V power supply module 31, at the moment, the auxiliary illumination function of the LED backlight of the simulation touch screen 1 is still reserved, and the simulation touch screen backlight is turned off when the K1 key is touched for more than 3 seconds; the names and actions of other function keys on the infrared remote control panel are the same as those on the simulated touch screen.

2. Parlor lamp embodiment with simulated touch screen for controlling numerical control constant current power supply to supply power

A. The living room type lamp powered by the numerical control constant current power supply is controlled by the simulation touch screen, and the living room type lamp has the beneficial effects that: the center of the lamp is a brightness illumination part, 6 decorative illumination pendant lamps are arranged around the lamp, the decorative illumination pendant lamps are controlled by a K6 key on the simulation touch screen, and the colors of 4 decorative illumination with brightness/red/green/blue are selected according to the needs;

B. the living room lamp powered by the numerical control constant current power supply is controlled by the simulation touch screen 1, and the living room lamp comprises: the simulation touch screen 1, the numerical control constant current power supply and the lamp center are brightness illumination parts, and 6 pendant lamps for decoration illumination are arranged around the lamp;

the numerical control constant current power supply is arranged in the magnetic fixing base of the lamp, and the outside is provided with: the input port of the hybrid cable 2 is connected with the hybrid cable 2 embedded in the wall, and the other end of the hybrid cable 2 is connected with the output port of the hybrid cable 2 on the simulation touch screen wall switch; the numerical control constant current power supply port is connected with the LED lamp power supply input port with common power supply negative through a section of flat cable, and the port comprises LED branch power supply lines with common power supply negative and parallel: the lamp comprises a main brightness 1LED branch circuit/a main brightness 2LED branch circuit/a secondary brightness 1LED branch circuit which are negative in common power supply; the numerical control constant current power supply is also provided with: the decorative lighting ceiling lamp 1/decorative lighting ceiling lamp 2/decorative lighting ceiling lamp 3/decorative lighting ceiling lamp 4/decorative lighting ceiling lamp 5/output port and decorative lighting ceiling lamp 6 are 6 power supply ports, and each port comprises 4 parallel LED branch power supply lines of brightness/red/green/blue which are parallel to the common power supply negative: each decorative lighting pendant lamp has the same structure, and comprises 4 parallel LED branches with the brightness/red/green/blue which are in negative parallel with the common power supply, and each port is connected with the 4 parallel LED branches with the brightness/red/green/blue which are in negative parallel with the common power supply in an end-to-end manner, so that 6 pendant lamps form the 4 parallel LED branches with the brightness/red/green/blue which are in negative parallel with the common power supply;

The PCB inside the numerical control constant current power supply is provided with: the 48V power supply module 31, 220V power supply relay 32, the rectifying and filtering module 34, the main luminance constant current module 37, the auxiliary luminance 1 constant current module, the decorative lighting constant current module 35, the decoding module and the main luminance 1/main luminance 2/auxiliary luminance 1/decorative lighting luminance/decorative lighting red/decorative lighting green/decorative lighting blue driving relay of the decoding module; the 220V input end of the 48V power supply module 31 is connected with a 220V power supply of a comprehensive cable port in the numerical control constant current power supply, and the output end of the 48V power supply module 31 is connected with the 48V power supply input end of the decoding module; the driving coil of the 220V power supply relay 32 is connected with the driving port of the 220V power supply relay 32 of the decoding module, the common contact of the 220V power supply relay 32 is connected with a 220V power line in the input port of the digital control constant current power supply hybrid cable 2, and the movable contact of the 220V power supply relay 32 is connected with the input end of the rectifying and filtering module 34; the input end of the rectifying and filtering module 34 is connected with the movable contact of the 220V power supply relay 32, and the input ends of the main brightness constant current module 37/the auxiliary brightness 1 constant current module 36/the decorative lighting constant current module 35 form a parallel connection relationship and then are connected with the 300V direct current voltage output end of the rectifying and filtering module 34; the 48V power input port of the decoding module is connected with the output end of the 48V power module 31; the data input port of the decoding module is connected with a data line in the input port of the numerical control constant current power supply hybrid cable 2; the main luminance 1/main luminance 2/auxiliary luminance 1 driving port of the decoding module is connected with a coil of a main luminance 1/main luminance 2/auxiliary luminance 1 driving relay, the output end of the main luminance 1 constant current module is connected with a common contact of the main luminance 1/main luminance 2 driving relay, and a movable contact of the main luminance 1/main luminance 2 driving relay is connected with a main luminance 1/main luminance 2 power supply circuit of a power supply port of a luminance illumination part of the numerical control constant current power supply; the output end of the auxiliary brightness 1 constant current module is connected with a common contact of an auxiliary brightness driving relay, and the auxiliary brightness 21 movable contact is connected with an auxiliary brightness 1 output line in a power supply port of the numerical control constant current power supply; the driving port of the brightness/red/green/blue driving relay is correspondingly connected with the brightness/red/green/blue driving port of the decoding module, and the movable contact of the brightness/red/green/blue driving relay is connected with the power supply port of the decorative lighting pendant lamp after being connected with the corresponding current limiting resistor in series, so that the 4 LED branches of different working voltage chips are ensured to be connected in a matched mode; the interior of the decorative lighting pendant lamp adopts 4 parallel decorative lighting LED patches, and the structure of the 4 parallel decorative lighting LED patches is as follows: the 4 LED chips of brightness/red/green/blue are packaged in parallel to form an LED patch, the patches are connected end to form 4 parallel LED serial branches, so that the LED patch can accommodate more LED serial branches on a limited PCB area, only 1 LED serial branch is started during application, and 3 rest are performed, so that the normal heat dissipation of the LED patch is ensured.

The functional ports which are not used by the decoding module in the lamp are regarded as empty and are not connected; the lamp is fixed by adopting a magnetic piston fixing base.

C. When the numerical control constant current power supply is used for an economic and applicable lamp, a decorative lighting part is removed, and at the moment, the power supply port of the economic and applicable lamp comprises: 3 LED branches of main brightness 1/main brightness 2/auxiliary brightness 1;

D. when the simulated touch screen controls the living room lamp powered by the numerical control constant current power supply, the names and the functions of the function keys on the simulated touch screen are as follows:

K2 is a main brightness touch key; the 1 st touch turns on the main brightness illumination, and the 2 nd touch turns off the main brightness illumination;

k3 is a secondary brightness touch key; the 1 st touch turns on the auxiliary brightness illumination, and the 2 nd touch turns off the auxiliary brightness illumination;

k6 is a decorative illumination touch key; the 1 st touch starts the illumination of the ceiling lamp brightness; the red decorative lighting of the ceiling lamp is started by the 2 nd touch; the green decorative lighting of the ceiling lamp is started by the 3 rd touch; the blue decorative lighting of the pendant lamp is started by the 4 th touch; the 5 th touch is to turn off the ceiling lamp.

Other touch keys on the simulation touch screen of the lamp are regarded as empty unused.

3. Simulation touch screen wall switch control numerical control constant current power supply corridor lamp embodiment

A. The simulation touch screen is used for controlling the digital control constant current power supply corridor lamp to directly supply power to the LED branch 1/LED branch 2 by the sound control and human body infrared time illumination 1 output port/2 output port of the decoding module in the digital control constant current power supply, so that the internal structure of the corridor lamp digital control constant current power supply can be very concise, and the corridor lamp digital control constant current power supply comprises: the simulation touch screen 1, the numerical control constant current power supply and the corridor lamp 4 are composed;

The numerical control constant current power supply is arranged in the magnetic fixing base of the lamp, and the outside is provided with: the input port of the hybrid cable 2, the power supply port of the numerical control constant current power supply and the port of the integrated receiving head; the input port of the mixed cable 2 is connected with the mixed cable 2 pre-buried in the wall, and the other end of the mixed cable 2 is connected with the output port of the mixed cable 2 on the simulated touch screen wall switch; the numerical control constant current power supply port is connected with the LED lamp power supply input port with common power supply negative through a section of flat cable, and the port comprises LED branch power supply lines with common power supply negative and parallel: the lamp comprises a common power source negative sound control and human body infrared illumination LED branch 1/LED branch 2; the integrated receiving head port is connected with the integrated receiving head, and comprises a 5V power line with a common power source negative, a sound control sensing signal line and a human body infrared sensing signal line;

when the simulation touch screen 1 is used for corridor lamps, the signal input ports of the simulation touch screen 1 and the photosensitive diode are connected with the positive electrode of the photosensitive diode after passing through the jumper cap, at the moment, the simulation touch screen is converted into a corridor lamp mode, the K1 key on the simulation touch screen panel is touched at night, then the K5 key is touched, the voice control and the illumination function when the human body is red and epitaxial are started, at the moment, the LED backlight of the simulation touch screen at night is lighted, the LED backlight provides auxiliary illumination for the corridor, the photosensitive diode inputs photosensitive signals to the photosensitive diode on the simulation touch screen coding chip until the photosensitive diode inputs photosensitive signals, and the simulation touch screen LED backlight is automatically closed by the coding chip.

When the power is cut off, the emergency illumination rechargeable battery continuously maintains power supply for the power supply of the coding chip through the anode of the isolation power supply diode, the simulation touch screen backlight still keeps auxiliary illumination, and the simulation touch screen backlight auxiliary illumination is turned off when the K1 key is continuously touched for more than 3 seconds.

The PCB board of the numerical control constant current power supply is provided with: the device comprises a 48V power supply module, a rectifying and filtering module and a decoding module; the 220V power input end of the 48V power module is connected with a 220V power line in a mixed cable in the numerical control constant current power supply; the 48V output end of the 48V power supply module is connected with the 48V power supply input end of the decoding module; the voice control and human body infrared illumination 1 output port/2 output port of the decoding module is directly connected with the voice control and human body infrared illumination LED branch 1/LED branch 2, and meanwhile, the voice prompt control level output port/5V power supply output port of the corridor is respectively connected with the control level input port/5V power supply input port of the corridor voice prompt module; at the moment, the internal design of the numerical control constant current power supply is very concise, and other functions are regarded as empty; when 1 of the sound control sensor or the human infrared sensor acts, the sound control and the human infrared illumination are automatically powered off after being output for 6 minutes in a delayed mode when the sound control and the human infrared illumination are in a delayed mode, and meanwhile the voice prompt control level output port of the corridor outputs a high level to the control level input port of the corridor voice prompt module, and the voice prompt output port of the module outputs as follows: your good-! This is a voice prompt for building 19;

B. When the simulation touch screen numerical control power supply supplies power to the corridor lamp, the names and the functions of the function keys on the simulation touch screen are as follows:

k1 is a power supply touch key, and K5 is a sound control/human body infrared illumination touch key; the power is turned on after the 1 st touch, the K5 key is touched again, the sound control/human body infrared illumination function is turned on, at the moment, the LED backlight of the simulation touch screen is turned on at the whole night to provide auxiliary illumination for the corridor, the photodiode inputs a high-level signal to the end of the photodiode on the simulation touch screen wall switch coding chip until the simulation touch screen wall switch is on, the coding chip automatically turns off the simulation touch screen LED backlight until the next day, the power is turned on after the 1 st touch, the K5 key is touched again, the sound control/human body infrared illumination function is turned on, at the moment, the simulation touch screen LED backlight is turned on at the whole night to provide auxiliary illumination for the corridor, and the mode of manual turning on/automatic turning off is repeated;

when the lighting branch 1 fails in the process of sound control and human body infrared extension, the K5 key is continuously touched for more than 3 seconds to be switched to the output of the lighting 2 driving port in the process of sound control and human body infrared extension, and the service life of the corridor lamp is prolonged by 2 times.

Embodiment of rear-attached numerical control alternating current power supply lamp

1. Structural implementation of replacing traditional wall switch with built-in numerical control alternating current power supply of simulation touch screen 1

A. The simulation touch screen is internally provided with a numerical control alternating current power supply to replace a traditional wall switch, which is called as follows: a numerical control alternating current power switch is arranged in the simulation touch screen; the beneficial effects are as follows: the small brightness/linear dimming function is added on the basis of the traditional LED lamp; meanwhile, an auxiliary lighting function of the LED backlight of the simulation touch screen 1 and an emergency lighting function of the LED backlight during power failure are added, so that transformation and upgrading are brought to the traditional LED lamp;

B. the simulation touch screen 1 is provided with a built-in numerical control alternating current power supply to replace a traditional wall switch for a traditional LED lamp, and comprises the following components: the simulation touch screen 1 and a numerical control alternating current power supply arranged in the simulation touch screen 1 are formed; fixing the PCB of the numerical control alternating current power supply on the back layer of the PCB of the simulation touch screen 1 through supporting rods on 4 corners, wherein an alternating current output line of the main brightness 1 of the numerical control alternating current power supply is connected with an alternating current output port on the simulation touch screen 1, and the integrated receiving head 41 is empty at the moment;

C. the power input port of the simulation touch screen 1 is connected with a 220V power line in the embedded bottom box, and the power supply port of the built-in numerical control alternating current power supply of the simulation touch screen 1 is connected with the power input port of the novel traditional LED lamp; the novel traditional LED lamp is provided with a small-brightness LED branch and a linear dimming LED branch on the basis of the traditional LED lamp; the simulation touch screen 1 is provided with a built-in numerical control alternating current power supply PCB board: the main brightness 1 driving relay of the 48V power supply module 31, the 220V power supply relay 32, the decoding module and the decoding module is characterized in that the 220V input end of the 48V power supply module 31 is connected with the 220V power supply of the integrated cable port in the numerical control constant current power supply, and the output end of the 48V power supply module 31 is connected with the 48V power supply input end of the decoding module; the driving coil of the 220V power supply relay 32 is connected with the driving port of the 220V power supply relay 32 of the decoding module, the public contact of the 220V power supply relay 32 is connected with the 220V power line in the input port of the digital control alternating current power supply hybrid cable 2, and the movable contact of the 220V power supply relay 32 is connected with the public contact of the main brightness 1 driving relay; the data input port of the decoding module is connected with a data line in the input port of the built-in numerical control alternating current power supply hybrid cable 2; the main brightness 1 driving port of the decoding module is connected with a main brightness 1 driving relay coil, and the movable contact of the main brightness 1 driving relay is connected with a main brightness 1 alternating current output line in the power supply port of the simulation touch screen 1; the small brightness/linear dimming output port of the decoding module is connected with a small brightness/linear dimming power supply line in the power supply port of the simulation touch screen 1; the functional port which is not used by the built-in numerical control alternating current power supply of the simulation touch screen 1 is regarded as empty and is not connected.

D. When the built-in numerical control alternating current power switch of the simulation touch screen is used as a 1-way switch, only a main brightness 1 alternating current output line in a power supply port of the simulation touch screen 1 is used, and a small brightness/linear dimming power supply line is empty;

E. when the simulation touch screen 1 is internally provided with a numerical control alternating current power supply to replace the traditional wall switch, the names and functions of the function keys on the simulation touch screen wall switch are as follows:

k1 is a power touch key; the 1 st touch is on, the 2 nd touch is to turn off the power supply except 48V power supply module of the numerical control power supply, and the 3 rd continuous touch is off for more than 3 seconds to simulate the auxiliary illumination of the backlight of the touch screen; the 2 nd touch partial shutdown is: the 220V power supply relay 32 on the solving module is interrupted to drive the output of the port, so that 220V power supply except the 48V power supply module in the numerical control power supply is closed, at the moment, the power supply of the 48V power supply module in the simulation touch screen wall switch and the numerical control direct current power supply is still reserved, the simulation touch screen backlight is still on, and the simulation touch screen backlight auxiliary illumination is closed after the 3 rd continuous touch for more than 3 seconds.

2. 3-path 220V output embodiment with built-in numerical control alternating current power supply of simulation touch screen for replacing traditional wall switch

A. The simulation touch screen is internally provided with a numerical control alternating current power supply to replace a 3-way switch embodiment of a traditional wall switch, which is abbreviated as: the 3-way switch of the simulation touch screen enables the simulation touch screen to be uniformly used in house decoration; the beneficial effects are as follows: the LED backlight simulation touch screen is used for application places such as bathroom heaters and the like requiring 220V output under 3 paths, meanwhile, the auxiliary lighting function of the LED backlight of the simulation touch screen 1 and the emergency lighting function of the LED backlight during power failure are added, the grade of the simulation touch screen is improved, and the LED backlight simulation touch screen is characterized in that

B. 3 switches of emulation touch-sensitive screen include: the simulation touch screen 1 and a numerical control alternating current power supply arranged in the simulation touch screen 1 are formed; fixing the PCB of the numerical control alternating current power supply on the back layer of the PCB of the simulation touch screen 1 through supporting rods on 4 corners, wherein an alternating current output line of main brightness 1/auxiliary brightness 2 of the numerical control alternating current power supply is connected with an alternating current output port on the simulation touch screen 1, and the integrated receiving head 41 is empty at the moment;

C. The input port of the 3-way switching power supply of the simulation touch screen is connected with a 220V power line in the embedded bottom box, and a main brightness 1/auxiliary brightness 2220V voltage output line of a power supply port of the built-in numerical control alternating current power supply of the simulation touch screen 1 is connected with a main brightness 1/auxiliary brightness 2220V voltage output line on the wiring port of the simulation touch screen; the simulation touch screen 1 is provided with a built-in numerical control alternating current power supply PCB board: the main brightness 1 driving relay of the 48V power supply module 31, 220V power supply relay 32, the decoding module and the decoding module, the 220V input end of the 48V power supply module 31 is connected with the 220V power supply of the integrated cable port in the digital control alternating current power supply, and the output end of the 48V power supply module 31 is connected with the 48V power supply input end of the decoding module; the driving coil of the 220V power supply relay 32 is connected with the driving port of the 220V power supply relay 32 of the decoding module, the public contact of the 220V power supply relay 32 is connected with a 220V power line in the input port of the digital control alternating current power supply hybrid cable 2, and the movable contact of the 220V power supply relay 32 is connected with the public contact of the main brightness 1/auxiliary brightness 2 driving relay which form an association relation; the data input port of the decoding module is connected with a data line in the input port of the built-in numerical control alternating current power supply hybrid cable 2; the main luminance 1/auxiliary luminance 2 driving port of the decoding module is connected with a coil of a main luminance 1/auxiliary luminance 2 driving relay, and the main luminance 1/auxiliary luminance 2 movable contact is connected with a main luminance 1/auxiliary luminance 2 alternating current output line in a built-in numerical control 3-way switch power supply port of the simulation touch screen 1; the functional port which is not used by the built-in numerical control alternating current power supply of the simulation touch screen 1 is regarded as empty;

D. When the 3-way switch of the simulation touch screen is used as a 1-way switch and/or a 2-way switch, the functions which are not caused are empty during production;

E. the names and functions of the function keys on the 3-way switch of the simulation touch screen are as follows:

K2 is a main brightness touch key; the 1 st touch starts 220V power supply of the 1 st path and the 2 nd touch closes the power supply;

K3 is a secondary brightness touch key; the 2 nd path 220V power supply is started by the 1 st touch; the 2 nd touch continues to start the 3 rd 220V power supply; the 3 rd touch is empty and is not effective; the 4 th touch simultaneously turns off the 2 nd/3 rd 220V power supply.

Claims

1. The system for controlling the numerical control power supply to supply power to the lamp by using the simulation touch screen is characterized by comprising the simulation touch screen and a numerical control power supply lamp connected with a mixed cable, which are sequentially connected, wherein the numerical control power supply lamp comprises a numerical control power supply provided with a decoding module and a lamp body connected with the decoding module through an integrated receiving head; when the decoding module is connected with an infrared remote control receiving head in the integrated receiving head, the lamp has an infrared remote control development function; when the integrated receiving head is not needed, the port of the integrated receiving head is empty; the driving port of the 220V power supply relay of the decoding module is connected with the coil of the 220V power supply relay, the public contact of the 220V power supply relay is connected with a 220V power line in the input port of the mixed cable, the decoding module comprises a main brightness driving port, an auxiliary brightness driving port and a decorative illumination driving port which are connected with the coils of the corresponding relays, the movable contact of each driving relay is connected with a power supply line corresponding to the numerical control power supply port, and the numerical control power supply port is connected with the power input port of the lamp body through a flat cable; the digital control power supply is a digital control constant current power supply, and the simulation touch screen is provided with a 220V power input port and a mixed cable output port; the hybrid cable is composed of a pair of 220V power lines and a pair of data lines; the numerical control constant current power supply lamp comprises a numerical control constant current power supply and a lamp body which are connected through an integrated receiving head; the numerical control constant current power supply is provided with a mixed cable input port, a numerical control constant current power supply port and an integrated receiving head port; the simulation touch screen is arranged on a pre-buried bottom box on a wall, a 220V power input port of the simulation touch screen is connected with a 220V power supply, and a mixed cable output port of the simulation touch screen is connected with a mixed cable input port of the numerical control constant current power supply; the numerical control constant current power supply port is connected with the power supply input port of the lamp body; the integrated receiving head port is connected with the integrated receiving head; when the decoding module is connected with an infrared remote control receiving head in the integrated receiving head, the lamp has an infrared remote control development function; when the integrated receiver head is not needed, the port of the integrated receiver head is empty.

2. The system for controlling a numerical control power supply to supply power to a lamp by using a simulation touch screen according to claim 1, wherein the simulation touch screen is provided with a 220V power input port and a mixed cable output port; the hybrid cable is composed of a pair of 220V power lines and a pair of data lines; the numerical control constant current power supply lamp comprises a numerical control power supply and a lamp body which are connected through an integrated receiving head; the numerical control power supply is provided with a mixed cable input port, a numerical control power supply port and an integrated receiving head port; the simulation touch screen is arranged on a pre-buried bottom box on a wall, a 220V power input port of the simulation touch screen is connected with a 220V power supply, and a mixed cable output port of the simulation touch screen is connected with a numerical control power supply mixed cable input port; the numerical control power supply port is connected with the power input port of the lamp body; the integrated receiving head port is connected with the integrated receiving head; the simulation touch screen comprises a screen of the simulation touch screen and an in-screen PCB; the screen of the simulation touch screen adopts: 1 st row K1/K2/K3/K4; 2 row of keyboard icons, namely K5/K6/K7/K8 of the 2 nd row; the PCB board is provided with: 2 rows of capacitive touch keyboards, namely K1/K2/K3/K4 of the 1 st row and K5/K6/K7/K8 of the 2 nd row, backlight LED branches, trademark indication lamps and photodiodes; the simulation touch screen comprises a screen, wherein a coding chip of the simulation touch screen is arranged on the back of a PCB (printed Circuit Board) in the screen, 8 touch keyboard signal input ports from K1 to K8 are arranged, the 8 touch keyboard signal input ports are connected with the touch signal output of the 8 capacitive touch keyboards of K1/K2/K3/K4/K5/K6/K7/K8 of the PCB, the screen of the simulation touch screen adopts a capacitive touch technology, touch keyboard icons are designed on the secondary outer layer of an LED backlight, the lower surface layer of each touch keyboard icon accurately corresponds to the touch keyboard on the PCB, and the number of the purposes of designing the touch keyboard icons is 2: 1 st, providing a virtual touch screen interface for the simulation touch screen; the 2 nd is in order to accurately position the touch keyboard corresponding to the PCB board when the finger touches, the touch operation of the finger is input to the touch signal input port of the coding chip, the coding chip amplifies the touch signal and then carries out operation identification on the touch signal, and the touch signal is sent to the coding circuit after the operation identification and is output to the data output port of the coding chip after being coded according to a coding scheme.

3. The system for controlling a digitally controlled power supply to power a light fixture using a simulated touch screen of claim 1, wherein the code chip port of the simulated touch screen comprises: 1. a power input port; 2.k1 touch keyboard signal input port, 3.k2 touch keyboard signal input port, 4.k3 touch keyboard signal input port, 5.k4 touch keyboard signal input port, 6.k5 touch keyboard signal input port, 7.k6 touch keyboard signal input port, 8.k7 touch keyboard signal input port, 9.k8 touch keyboard signal input port, 10.led backlight control level output port; 11. a photodiode level input port; 12. a buzzer driving port; 13. a 220V power supply of the hybrid cable supplies power to a relay driving port; 14. a data line output port; 15. a crystal oscillator port; 16. a reset port;

the connection of the encoding chip port comprises the following steps:

1. the power input port is connected with a 5V power input;

15. the crystal oscillator port is connected with the crystal oscillator;

16. the reset port is connected with the reset circuit.

4. The system for controlling a numerical control power supply to supply power to a lamp by using a simulation touch screen according to claim 1, wherein the numerical control constant current power supply is provided with: a hybrid cable input port, a numerical control constant current power supply port and an integrated receiving head port;

5. The system for controlling a numerical control power supply to supply power to a lamp by using a simulation touch screen according to claim 1, wherein the numerical control power supply is a numerical control alternating current power supply, and the simulation touch screen is provided with a 220V power supply input port and a mixed cable output port; the hybrid cable is composed of a pair of 220V power lines and a pair of data lines; the numerical control alternating current power supply lamp comprises a numerical control alternating current power supply and a lamp body which are connected through an integrated receiving head; the numerical control alternating current power supply is provided with a mixed cable input port, a numerical control alternating current power supply port and an integrated receiving head port; the simulation touch screen is arranged on a pre-buried bottom box on a wall, a 220V power input port of the simulation touch screen is connected with a 220V power supply, and a mixed cable output port of the simulation touch screen is connected with a mixed cable input port of the numerical control alternating current power supply; the numerical control alternating current power supply port is connected with the power input port of the lamp body; the integrated receiving head port is connected with the integrated receiving head; when the decoding module is connected with an infrared remote control receiving head in the integrated receiving head, the lamp has an infrared remote control development function; when the integrated receiving head is not needed, the port of the integrated receiving head is empty; the simulation touch screen controls the numerical control constant current power supply lamp and the simulation touch screen controls the numerical control alternating current power supply lamp to be different from each other: the numerical control constant current power supply port is constant current power supply, and LED branches are connected in a matching way; the numerical control alternating current power supply port is 220V alternating current power supply, and a 220V alternating current power supply lamp or a 220V alternating current power supply traditional LED lamp is connected in a matching mode.

6. The system for controlling the numerical control power supply to supply power to the lamp by using the simulation touch screen according to claim 4, wherein the numerical control alternating current power supply is mainly used for replacing a wall switch of a system, so that the simulation touch screen can be uniformly used in house decoration; the numerical control alternating current power supply is different from the numerical control constant current power supply in that: the digital control alternating current power supply is internally provided with a main brightness constant current module/auxiliary brightness 1 constant current module 36/decorative lighting constant current module, and a movable contact of a 220V power supply relay and a decoding module forming a parallel connection relation are removed: the main brightness 1/main brightness 2/auxiliary brightness 1/auxiliary brightness 2/decorative lighting brightness/decorative lighting red/decorative lighting green/decorative lighting blue relay public contacts are directly connected, and the movable contacts of the relays are correspondingly connected with 220V zero line lines in total at the power supply port of the numerical control alternating current power supply, so that the internal structure of the numerical control alternating current power supply is simpler than that of the numerical control constant current power supply, and the numerical control alternating current power supply is suitable for supplying power to an alternating current power supply lamp or a traditional alternating current power supply LED lamp;

7. The system for controlling the numerical control power supply to supply power to the lamp by using the simulation touch screen according to claim 4, wherein the decoding module is the most main module for the development of the lamp which is controlled by the simulation touch screen to supply power to the numerical control power supply, has powerful functions and is suitable for the development of various lamps of the invention; the decoding module solves the problem of complex system architecture in the module, has concise external ports and is easy to connect in standardization, is a general decoding module widely applicable to various lamp development, and comprises the following ports: a 1.48V power input port; a 2.300V DC voltage input port; 3. a data input port; 4.220V power supply relay drive port; a 5.5V voltage output port; 6. an infrared remote control receiving head signal input port; 7. a signal input port of the sound control sensor; 8. a signal input port of the human body infrared sensor; 9. a main luminance 1 driving port; 10. a main luminance 2 drive port; 11. a sub-luminance 1 driving port; 12. a sub-luminance 2 drive port; 13. a sub-luminance 3 drive port; 14. a small brightness power supply port; 15. parallel constant current module power supply port; 16. a linear dimming power supply port; 17. an illumination output port 1 for sound control and human body infrared extension; 18. an illumination output port 2 for sound control/human body infrared extension; 19. a decorative illumination brightness driving port; 20. decorative lighting red drive ports; 21. decorative lighting green drive ports; 22. a decorative lighting blue driving port; 23. corridor lighting voice prompt control level output port; 24. a crystal oscillator port; 25. a reset port;

The connection of the decoding module port comprises:

2. the 300V direct-current voltage input port is connected with the 300V direct-current voltage output end of the rectifying and filtering module;

24. the crystal oscillator port is connected with the crystal oscillator;

25. the reset port is connected with the reset circuit.

8. The system for controlling a numerical control power supply to supply power to a lamp by using a simulation touch screen according to claim 3, wherein the numerical control power supply is matched with an infrared remote controller chip and an infrared remote controller thereof, the infrared remote controller chip is used for controlling the numerical control power supply to supply power to the lamp by using the simulation touch screen, the infrared remote controller chip and a keyboard of the chip of the simulation touch screen are in a corresponding relation, the same operation is performed on the keyboard of the infrared remote controller as that of the simulation touch screen, and a coded signal output by a chip transmitting output port is the same as a coded signal output by a chip data output port of the simulation touch screen, so that the coded signals are decoded by a decoding module and have the same control result; the method is characterized in that the keyboard has different signal input modes and different output coded signal propagation paths, the infrared remote controller adopts a signal input mode of a touch keyboard, and the chip simulating the touch screen adopts a signal input mode of a touch keyboard; the infrared remote controller chip adopts an infrared remote control mode, and the chip simulating the touch screen adopts a data line in a mixed cable for transmission;

the crystal oscillator port is connected with the crystal oscillator;

the reset port is connected with the reset circuit;

The room type lamp is provided with an infrared remote control function, the infrared remote control is arranged on the infrared remote control sleeves arranged on the walls above the bedside cabinets on two sides, and the infrared remote control sleeves and the infrared remote control are both designed with structures with thin magnetic sheets, so that the infrared remote control is convenient to place, the room type lamp is provided with the infrared remote control function, the lamp is convenient to control, and meanwhile, the circuit of a traditional wall switch is not required to be embedded.

9. The system for controlling a digitally controlled power supply to power a light fixture using a simulated touch screen of claim 1, wherein said light fixture body is developed with 2 parallel LED tiles, 3 parallel LED tiles and 4 parallel LED tiles

10. The system for controlling the numerical control power supply to supply power to the lamp by utilizing the simulation touch screen according to claim 1, wherein the integrated receiving head integrates an infrared remote control receiving head, a sound control sensor/a human infrared sensor on a PCB board and is provided with an integrated receiving head connecting port, so as to solve the standardized connection between the integrated receiving head port on the numerical control power supply and an infrared remote control receiving head signal wire, a sound control sensor signal wire and a human infrared sensor signal wire; the integrated receiving head port on the numerical control power supply is connected with the infrared remote control receiving head signal input port, the sound control sensor signal input port and the human body infrared sensor signal input port on the decoding module in the numerical control power supply in a standardized manner; the integrated receiving head is usually arranged at the center of the lamp, and the integrated receiving head is provided with: an infrared remote control receiving head, a sound control sensor and a human body infrared sensor; the integrated receiving head is connected with an integrated receiving head port on the numerical control power supply through a section of flat cable, and the integrated receiving head port comprises: the integrated receiving head is connected with a required line according to the function of the lamp, and is not designed when an unnecessary line is empty or the receiving head is not integrated.

11. The system for controlling a numerical control power supply to supply power to a lamp by using a simulation touch screen according to claim 1, wherein the lamp body adopts a magnetic fixing mode, a ceiling dust cover fixing base is fixed on a ceiling by using expansion bolts, and the ceiling fixing base is provided with 2 magnetic cylinder sleeves and 2 locking screws; 2 magnetic pistons are designed in the lamp fixing base, when the magnetic pistons are inserted into the magnetic cylinder sleeves, the 2 parts are fixed due to magnetic attraction, and 2 locking screws are arranged between the ceiling dust cover fixing base and the lamp fixing base to ensure the fixing safety, and the lamp is fixed magnetically so as to standardize the installation and the fixing of the lamp, thereby bringing convenience for future maintenance and sanitary cleaning.

12. The system for controlling a numerical control power supply to supply power to a lamp by using a simulation touch screen according to claim 1, wherein the numerical control power supply comprises a constant current module and a parallel constant current module thereof, the constant current module is a module for controlling the numerical control constant current power supply to supply power to an LED branch circuit by using the simulation touch screen to supply power to the lamp, and the structure of the constant current module is as follows: the front 220V rectifying and filtering part is removed from the LED power supply with the working voltage of 220V, the constant current power supply part input by the rear 300V direct current power supply is reserved, and the LED power supply is packaged according to the structure of the patch module, so that heat conduction during installation on a PCB is facilitated; the power of the main brightness constant current module is about 30W, and the power of the auxiliary brightness constant current module and the decorative lighting constant current module is about 15W;

13. The system for controlling a numerical control power supply to supply power to a lamp by using a simulation touch screen according to claim 4, wherein the simulation liquid crystal television wall painting consists of a simulation liquid crystal television wall painting body hung on a wall and a numerical control power supply arranged in a pre-buried bottom of the wall; the simulated liquid crystal television wall painting is provided with: an LED backlight power supply input port and an infrared remote control receiving head port, wherein the infrared remote control receiving head is arranged on a frame of the simulated liquid crystal television wall painting; the numerical control power supply is provided with: 220V power input port, LED backlight power supply port, infrared remote control receiving head port; the 220V power input port of the numerical control power supply is connected with the 220V power input in the embedded bottom of the wall, and the LED backlight power supply port of the numerical control power supply is connected with the LED backlight power input port of the simulated liquid crystal television wall painting through a common power negative flat cable; the port of the infrared remote control receiving head of the numerical control power supply is connected with the infrared remote control receiving head of the simulated liquid crystal television wall painting through a common power supply negative flat cable;

The 5V voltage output port of the decoding module is connected with a 5V power line of the port of the integrated receiving head, the signal input port of the infrared remote control receiving head of the decoding module is connected with the signal output of the infrared remote control receiving head in the integrated receiving head, the numerical control alternating current power supply is designed to be an infrared remote controller control function, the signal input port of the infrared remote control receiving head of the decoding module is connected with the signal line of the infrared remote control receiving head in the integrated receiving head, and the remote control of the infrared remote controller on the LED backlight of the simulated liquid crystal television wall painting is realized;

14. The system for controlling the numerical control power supply to supply power to the lamp by using the simulation touch screen according to claim 1, wherein when the simulation touch screen controls the numerical control power supply to supply power to the lamp for automatically switching solar energy and alternating current, the front end of the simulation touch screen controlling the numerical control constant current power supply to supply power to the lamp is required to be connected with a solar energy and alternating current automatic switching power supply control box, and the simulation touch screen switch and the numerical control constant current power supply are changed from the original 220V alternating current power supply type to the 300V direct current power supply type;

15. The system for controlling a digital control power supply to supply power to a lamp using a simulated touch screen as claimed in claim 1, wherein said simulated touch screen comprises a screen of a simulated touch screen and an on-screen PCB; the screen of the simulation touch screen adopts a keyboard icon; the PCB board is provided with: a capacitive touch keyboard corresponding to the keyboard icon, a backlight LED branch and a trademark indicator lamp; the simulation touch screen comprises a screen, wherein a coding chip of a simulation touch screen is arranged on the back of a PCB (printed Circuit Board) in the screen, the coding chip is provided with signal input ports of each touch keyboard, each signal input port of the touch keyboard is connected with each capacitive touch keyboard touch signal output of the PCB, the screen of the simulation touch screen adopts a capacitive touch technology, touch keyboard icons are designed on the secondary outer layer of an LED backlight, the lower surface layer of each touch keyboard icon accurately corresponds to the touch keyboard on the PCB, and the number of the purposes of designing the touch keyboard icons is 2: the 1 st is to provide a virtual touch screen interface for the simulation touch screen, so that the simulation touch screen has the same effect as the touch screen; the 2 nd is in order to accurately position the touch keyboard corresponding to the PCB board when the finger touches, the touch operation of the finger is input to the touch signal input port of the coding chip, the coding chip amplifies the touch signal and then carries out operation identification on the touch signal, and the touch signal is sent to the coding circuit after the operation identification to output the coding signal or carry out coding control after coding.

16. The system for controlling a numerical control power supply to supply power to a lamp by using a simulation touch screen according to claim 1, wherein the simulation touch screen comprises an all-solid-state simulation touch screen building intercom host, the all-solid-state simulation touch screen building intercom host comprises an all-solid-state simulation touch screen building intercom host composed of a simulation touch screen building intercom host two-wire coding chip and the chip, and the all-solid-state simulation touch screen building intercom host is composed of a screen of the simulation touch screen and a PCB (printed circuit board) in the screen; the screen of the all-solid-state simulation touch screen adopts a touch keyboard icon corresponding to the capacitive touch keyboard, a PCB board is arranged below the screen of the all-solid-state simulation touch screen, and the front surface of the PCB board is provided with: the backlight LED branch and the touch keyboard icons correspond to a capacitive touch keyboard below the LED backlight screen, and meanwhile, a digital display part is also arranged on the PCB; the back of the PCB is provided with a simulation touch screen building intercom host 2-line coding chip and a buzzer; the touch signal input port of the PCB front capacitive touch keyboard, the backlight LED branch and the drive port of the digital display part are connected with corresponding circuits on the chip through the through holes of the PCB, the screen of the all-solid-state simulation touch screen building intercom host also designs a touch keyboard icon on the screen of the LED backlight secondary outer layer by utilizing the capacitive touch technology, the touch control is carried out on the keyboard on the corresponding PCB on the lower layer on the screen secondary outer layer touch keyboard icon, and building intercom coding signals are output on the data output port of the 2-wire coding chip of the all-solid-state simulation touch screen building intercom host;

The simulation touch screen building intercom system comprises a simulation touch screen building intercom system, a simulation touch screen building intercom system and a simulation touch screen building intercom system, wherein the simulation touch screen building intercom system two-wire coding chip is a two-wire coding chip which is developed by matching with an all-solid simulation touch screen building intercom system, the simulation touch screen building intercom system two-wire coding chip and a keyboard of a traditional building intercom system chip are in a corresponding relation, the simulation touch screen building intercom system touch keyboard and the traditional building intercom system touch keyboard operate in the same mode, and coding signals output by a chip output port are the same as coding signals output by a data output port of the traditional building intercom system two-wire coding chip, so that the simulation touch screen building intercom system two-wire coding chip and the keyboard of the traditional building intercom system are decoded by an intra-extension decoding module and have the same control result; the two-line coding chip of the simulation touch screen building intercom main machine adopts a signal input mode of a touch keyboard, and the two-line coding chip of the traditional building intercom main machine adopts a signal input mode of a touch keyboard, and the signal input modes of the keyboards are different;

the simulation touch screen building intercom main machine two-wire coding chip changes a touch keyboard signal input port of a light touch keyboard signal input port of a traditional building intercom main machine two-wire coding chip into a touch keyboard signal input port, and an LED backlight output port is correspondingly increased, and the simulation touch screen building intercom main machine two-wire coding chip has the effects that: when any keyboard on the simulated touch screen building intercom host is touched, the LED backlight is lightened, corresponding floor codes are input according to the coding scheme, the simulated touch screen building intercom host is controlled to unlock after confirmation of a two-wire coding chip of the simulated touch screen building intercom host, or the unlocking codes are sent to the host after confirmation of a floor user and then the simulated touch screen building intercom host is controlled to unlock, and meanwhile, the LED backlight is automatically extinguished after a certain time delay after the LED backlight is lightened.

17. The system for controlling a numerical control power supply to supply power to a lamp by using a simulated touch screen according to claim 2, wherein the simulated touch screen comprises an all-solid-state simulated touch screen coded lock, the all-solid-state simulated touch screen coded lock comprises a simulated touch screen coded lock coding chip and an all-solid-state simulated touch screen coded lock formed by the simulated touch screen coded lock coding chip, the simulated touch screen coded lock coding chip is a coded chip developed by the simulated touch screen coded lock, the simulated touch screen coded lock coding chip has a structure similar to that of the simulated touch screen coded chip, and the simulated touch screen coded lock is composed of: the screen of the simulation touch screen and the PCB in the screen consist of 2 parts; the screen of emulation touch-sensitive screen adopts the touch keyboard icon with capacitive touch keyboard correspondence, is equipped with the PCB board below the screen of emulation touch-sensitive screen, and the front of PCB board is equipped with: a backlight LED branch circuit, wherein the touch keyboard icon corresponds to a capacitive touch keyboard below the LED backlight screen, and a digital display part is arranged on the PCB; the back of the PCB is provided with a simulated touch screen coded lock coding chip and a buzzer; the touch signal input port of the capacitive touch keyboard on the front surface of the PCB board, the backlight LED branch circuit is connected with a corresponding circuit on the chip through a via hole of the PCB board, a screen simulating the touch screen also utilizes the capacitive touch technology, touch keyboard icons are designed on the screen of the secondary outer layer of the LED backlight, and touch control is carried out on the keyboard on the PCB board corresponding to the lower layer on the screen secondary outer layer touch keyboard icons.

18. The system for controlling a numerical control power supply to supply power to a lamp by using a simulation touch screen according to claim 2, wherein the simulation touch screen comprises a simulation touch screen parallel switch, and a 10-path simulation touch screen parallel switch control chip is similar to the simulation touch screen chip in structure, and the structure is also that: the screen of the simulation touch screen and the PCB in the screen consist of 2 parts; the screen of emulation touch-sensitive screen adopts the touch keyboard icon with capacitive touch keyboard correspondence, is equipped with the PCB board below the screen of emulation touch-sensitive screen, and the front of PCB board is equipped with: a backlight LED branch circuit, wherein the touch keyboard icon corresponds to a capacitive touch keyboard below the LED backlight screen; a chip of a simulation touch screen which is not controlled by a lamp and a buzzer are arranged on the back surface of the PCB, and a relay is driven; the touch signal input port of the capacitive touch keyboard on the front surface of the PCB board, the backlight LED branch circuit and the corresponding circuit on the chip are connected through the via hole of the PCB board, the screen simulating the touch screen also designs a touch keyboard icon on the screen of the secondary outer layer of the LED backlight by utilizing the capacitive touch technology, and the touch control is carried out on the keyboard on the PCB board corresponding to the lower layer on the screen secondary outer layer touch keyboard icon; after the chips of the simulated touch screen parallel switches encode and decode the operation of the touch keys according to an encoding and decoding scheme, driving voltages are output at corresponding driving ports of the chips, and the movable contacts of the relay perform switch control on the control ends connected with the movable contacts;

The coding chip comprises 10 paths of simulation touch screen control chips, wherein the 10 paths of simulation touch screen control chips are chips for the development of simulation touch screen series switches, the chips are applied to the development of 2 paths to 10 paths of series simulation touch screens, corresponding functional ports are developed during the development, and unused ports are left empty;

The 10-path simulation touch screen control chip is provided with: 1. a power input port; 2. k1 total power/1 st switch touch keyboard signal input port; 3. a K2 touch keyboard signal input port, a 4.K3 touch keyboard signal input port, a 5.K4 touch keyboard signal input port, a 6.K5 touch keyboard signal input port, a 7.K6 touch keyboard signal input port, an 8.K7 touch keyboard signal input port, a 9.K8 touch keyboard signal input port, a 10.K9 touch keyboard signal input port, a 11.K10 touch keyboard signal input port, and a 12.1st switch driving port; 13. a 2 nd switch driving port; 14. a 3 rd switch drive port; 15. a 4 th switch drive port; 16. a 5 th switch drive port; 17. a 6 th switch driving port; 18. a 7 th switch drive port; 19. an 8 th switch drive port; 20. a 9 th switch drive port; 21. a 10 th switch drive port; an led backlight control level output port; 23. a buzzer driving port; 24. a crystal oscillator port; 25. a reset port;

1. the power input port is connected with a 5V power input;

2. the K1 main power supply/touch keyboard signal input port is connected with a touch keyboard K1 on a PCB in the simulated touch screen wall switch screen;

23. the buzzer driving port is connected with the buzzer;

24. the crystal oscillator port is connected with the crystal oscillator;

25. the reset port is connected with the reset circuit.

19. The system for controlling the numerical control power supply to supply power to the lamp by utilizing the simulation touch screen according to claim 1, wherein the simulation touch screen is an integrated screen formed by the simulation touch screen and the display screen, and the simulation touch screen and the display screen are designed in one external screen, so that the effect that the integrated screen formed by the simulation touch screen and the display screen has the same effect as the touch screen is ensured.