CN217116473U - Wireless and pyroelectric infrared automatic lighting system - Google Patents

Abstract

The utility model relates to an automatic lighting technology field provides a wireless and heat release infrared automatic lighting system, include: the device comprises a pyroelectric infrared sensor, a controller and an illuminating lamp; the pyroelectric infrared sensor comprises: the pyroelectric infrared probe, the pyroelectric infrared chip, the sensor MCU and the sensor infrared interface; the pyroelectric infrared probe is connected with the pyroelectric infrared chip; the pyroelectric infrared chip is connected with the sensor MCU; the sensor MCU is connected with the sensor infrared interface; the controller includes: the controller comprises a controller infrared interface, a controller MCU, a dimming interface and a voltage and current collector; the infrared interface of the controller is connected with the pyroelectric infrared sensor; the controller MCU is respectively connected with the controller infrared interface, the dimming interface and the voltage and current collector; the dimming interface and the voltage and current collector are respectively connected with the illuminating lamp. The utility model discloses can realize the automatic illumination, practice thrift the electric energy.

Description

Wireless and pyroelectric infrared automatic lighting system

Technical Field

The utility model relates to an automatic lighting technology field especially relates to a wireless and heat release infrared automatic lighting system.

Background

In the existing automatic lighting system, the light controller mostly adopts sound detection, and the light controller is often activated by approaching the controller by passing people or actively making sound, so that the effect is poor and the light controller is not sensitive enough.

In addition, the current automatic lighting system cannot realize automatic control, effective management and electric quantity statistics cannot be realized, and the traditional pyroelectric infrared sensor is inconvenient to adjust.

SUMMERY OF THE UTILITY MODEL

The utility model discloses mainly solve prior art's automatic lighting system, light controller adopts the sound to detect more, often needs the past people to approach the controller or initiatively sends the sound and activates, and the effect is relatively poor, technical problem such as sensitive inadequately provides a wireless and heat release infrared automatic lighting system to realize the automatic lighting, practice thrift the electric energy.

The utility model provides a wireless and heat release infrared automatic lighting system, include: the device comprises a pyroelectric infrared sensor, a controller and an illuminating lamp;

the pyroelectric infrared sensor comprises: the pyroelectric infrared probe, the pyroelectric infrared chip, the sensor MCU and the sensor infrared interface;

the pyroelectric infrared probe is connected with the pyroelectric infrared chip; the pyroelectric infrared chip is connected with the sensor MCU; the sensor MCU is connected with the sensor infrared interface;

the controller includes: the controller comprises a controller infrared interface, a controller MCU, a dimming interface and a voltage and current collector;

the infrared interface of the controller is connected with the pyroelectric infrared sensor;

the controller MCU is respectively connected with the controller infrared interface, the dimming interface and the voltage and current collector;

and the dimming interface and the voltage and current collector are respectively connected with the illuminating lamp.

Preferably, the controller further includes: a nixie tube lamp panel;

the nixie tube lamp panel is connected with the controller MCU.

Preferably, the controller further includes: a controller voltage reduction module;

the controller voltage reduction module is connected with the controller MCU and used for an external power supply.

Preferably, the pyroelectric infrared sensor further comprises: a first carrier wave infrared receiving and transmitting module;

the first carrier infrared transceiving module is connected with the sensor MCU.

Preferably, the method further comprises the following steps: an infrared remote controller;

the infrared remote controller comprises: the second carrier infrared transceiving module and the remote control MCU;

and the second carrier infrared transceiving module is connected with the remote control MCU.

Preferably, the controller further includes: the controller wireless signal transceiving module;

the controller wireless signal receiving and transmitting module is connected with the controller MCU, and the controller wireless signal receiving and transmitting module is interacted with the cloud information through the signal conversion gateway;

the infrared remote controller further comprises: the remote controller wireless signal transceiving module;

the remote controller wireless signal transceiver module is connected with the remote controller MCU, and the remote controller wireless signal transceiver module is interacted with the cloud information through the signal conversion gateway.

Preferably, the signal conversion gateway includes: the gateway wireless signal transceiving module, the network module, the gateway voltage reduction module and the gateway MCU are arranged;

the gateway MCU is respectively connected with the network module, the gateway wireless signal transceiving module and the gateway voltage reduction module;

the gateway voltage reduction module is used for being externally connected with a power supply.

The utility model provides a pair of wireless and heat release infrared automatic lighting system, when personnel walk into heat release infrared sensor induction radius, heat release infrared sensor output signal gives the controller, and the controller is opened and can be adjusted luminance according to the signal control light, realizes automatic lighting, has effectively avoided the uncontrolled phenomenon of acoustic control lamp, has realized that the people comes the lamp to light, and the people walks the automatic control that the lamp put out, has practiced thrift the electric energy. The utility model discloses set up infrared carrier remote controller, needn't ascend a height and adjust heat and release infrared sensor, can manual remote control adjustment. Additionally, the utility model discloses can combine wireless signal transmission technique, can control the illumination lamp through the high in the clouds, also can reach the high in the clouds with electric quantity information upload, can carry out effectual management and electric quantity statistics, realize diversified control, intelligent control optimizes the energy distribution, reduces the cost of labor. The pyroelectric infrared automatic lighting system has a good application prospect in scenes such as factories, coal mines and the like.

Drawings

Fig. 1 is a schematic structural view of the wireless and pyroelectric infrared automatic lighting system provided by the present invention.

Reference numerals: 1. a cloud end; 2. a signal conversion gateway; 3. a controller; 4. a pyroelectric infrared sensor; 5. An infrared remote controller; 6. an illuminating lamp; 21. a gateway wireless signal transceiver module; 22. a network module; 23. a gateway voltage reduction module; 24. a gateway MCU; 31. a controller infrared interface; 32. a nixie tube lamp panel; 33. the controller wireless signal transceiving module; 34. a controller MCU; 35. a dimming interface; 36. a controller voltage reduction module; 37. a voltage current collector; 41. a pyroelectric infrared probe; 42. a pyroelectric infrared chip; 43. a sensor MCU; 44. a first carrier wave infrared receiving and transmitting module; 45. a sensor infrared interface; 51. a second carrier wave infrared receiving and transmitting module; 52. a remote controller MCU; 53. and the remote controller wireless signal transceiving module.

Detailed Description

In order to make the technical problem solved by the present invention, the technical solution adopted by the present invention and the technical effect achieved by the present invention clearer, the present invention will be further described in detail with reference to the accompanying drawings and the embodiments. It is to be understood that the specific embodiments described herein are merely illustrative of the invention and are not to be construed as limiting the invention. It should be further noted that, for the convenience of description, only some but not all of the relevant portions of the present invention are shown in the drawings.

As shown in fig. 1, the embodiment of the utility model provides a wireless and heat release infrared automatic lighting system, include: a controller 3, a pyroelectric infrared sensor 4 and an illuminating lamp 6.

The pyroelectric infrared sensor 4 includes: the pyroelectric infrared probe 41, the pyroelectric infrared chip 42, the sensor MCU43 and the sensor infrared interface 45; the pyroelectric infrared probe 41 is connected with the pyroelectric infrared chip 42; the pyroelectric infrared chip 42 is connected with the sensor MCU 43; the sensor MCU43 is connected with a sensor infrared interface 45. The pyroelectric infrared probe 41 collects infrared signals (analog quantity signals), the pyroelectric infrared chip 42 processes the infrared signals and outputs high and low level digital signals, and the pyroelectric infrared chip 42 can adopt a human body pyroelectric infrared induction control IC chip of SW06AT type; the sensor MCU43 transmits signals to the controller 3 through the sensor infrared interface 45.

The pyroelectric infrared sensor 4 can collect infrared signals of people in the sensing radius and send the infrared signals to the controller 3. The pyroelectric infrared sensor 4 is generally installed near the controller 3, is usually installed on a ceiling, and can acquire whether people exist within a certain radius range.

The controller 3 is a core for controlling the acquisition of the pyroelectric infrared sensor 4. The controller 3 includes: a controller infrared interface 31, a controller MCU34, a dimming interface 35 and a voltage current collector 37. The controller infrared interface 31 is connected with the pyroelectric infrared sensor 4, specifically connected with the sensor infrared interface 45, so as to realize signal transmission between the pyroelectric infrared sensor 4 and the controller 3; the controller MCU34 is respectively connected with the controller infrared interface 31, the dimming interface 35 and the voltage and current collector 37; the dimming interface 35 and the voltage and current collector 37 are respectively connected with the illuminating lamp 6. The controller MCU34 controls the dimming interface 35 according to the signal input by the controller infrared interface 31, and the dimming interface 35 controls the lighting lamp 6 to be turned on and can adjust the brightness. The voltage and current collector 37 feeds back voltage and current signals of the lighting lamp 6 to the controller MCU34, so as to calculate the power consumption and judge the status of the lighting lamp 6. The sensor MCU43 adopts an STM32F103 series single chip microcomputer. The controller MCU34 is used for logic control, signal acquisition, and the like of the entire controller 3.

Further, the controller 3 further includes: a nixie tube lamp panel 32; the nixie tube lamp panel 32 is connected with the controller MCU 34. The nixie tube lamp panel 32 is provided with a four-digit nixie tube for displaying information of controller ID and group ID, and the nixie tube lamp panel is provided with four-digit LED lamp beads capable of displaying information of the working state of the illuminating lamp 6 and the like.

Further, the controller 3 further includes: a controller voltage reduction module 36; the controller voltage reduction module 36 is connected with the controller MCU34, and the controller voltage reduction module 36 is used for being externally connected with a power supply, reducing the voltage of the accessed 220V, inputting the voltage into the controller 3, and supplying power for the controller 3.

On the basis of the above scheme, the pyroelectric infrared sensor 4 further includes: a first carrier infrared transceiver module 44; the first carrier infrared transceiving module 44 is connected with the sensor MCU 43. The pyroelectric infrared automatic lighting system further comprises: an infrared remote controller 5; the infrared remote controller 5 includes: a second carrier infrared transceiving module 51 and a remote controller MCU 52; the second carrier infrared transceiving module 51 is connected with the remote controller MCU 52. In this embodiment, the infrared remote controller 5 is provided, the pyroelectric infrared sensor 4 is provided with the first carrier infrared transceiver module 44, the first carrier infrared transceiver module 44 receives a carrier infrared signal from the infrared remote controller 5, the time threshold and the sensitivity threshold of the pyroelectric infrared chip 42 are adjusted, and the carrier infrared signal is modulated by the sensor MCU43 and then fed back to the remote controller 3, so that the pyroelectric infrared sensor 4 can be remotely controlled without ascending the height to adjust the pyroelectric infrared sensor 4, and the parameter adjustment of the pyroelectric infrared sensor 4 is realized.

The embodiment of the utility model provides a wireless and heat release infrared automatic lighting system's working process: the pyroelectric infrared sensor 4 continuously works to collect signals, when a person walks into the pyroelectric infrared sensor 4 to sense the radius, the pyroelectric infrared sensor 4 outputs high and low level digital signals to the controller 3, and the controller 3 is controlled by the signal to control the lighting lamp 6 to be turned on and can adjust the brightness, so that automatic illumination is realized. When the person leaves the sensing radius of the pyroelectric infrared sensor 4, the controller 3 controls the illuminating lamp 6 to be turned off.

As the preferred scheme of this embodiment, the utility model discloses can also combine wireless signal transmission technique, specifically as follows:

the controller 3 further includes: a controller wireless signal transceiver module 33, which is a radio frequency signal transmission part of the controller 3; the controller wireless signal transceiver module 33 is connected with the controller MCU34, and the controller wireless signal transceiver module 33 is in information interaction with the cloud 1 through the signal conversion gateway 2. In this embodiment, each wireless signal transceiver module is built by using the ZIGBEE ad hoc network technology.

The infrared remote controller 5 further includes: a remote controller wireless signal transceiving module 53; the remote controller wireless signal transceiver module 53 is connected with the remote controller MCU 52, and the remote controller wireless signal transceiver module 53 is in information interaction with the cloud 1 through the signal conversion gateway 2.

The signal conversion gateway 2 includes: the gateway wireless signal transceiver module 21, the network module 22, the gateway voltage reduction module 23 and the gateway MCU 24; the gateway MCU 24 is respectively connected with the network module 22, the gateway wireless signal transceiving module 21 and the gateway voltage reduction module 23; the gateway voltage reduction module 23 is used for connecting an external power supply, reducing the voltage of the accessed 220V voltage, inputting the voltage into the signal conversion gateway 2, and supplying power to the signal conversion gateway 2. And the gateway MCU 24 adopts an STM32F103 singlechip. The signal conversion gateway 2 mainly receives a control command from the cloud 1, modulates and converts a signal of the controller 3 into a TCP/IP protocol signal and converts the TCP/IP protocol signal to the cloud 1, the gateway wireless signal transceiver module 21 is a gateway radio frequency signal transmission part which is built by adopting a ZIGBEE ad hoc network technology, and the network module 22 is a hardware TCP/IP integrated chip.

This embodiment can carry out the information interaction through high in the clouds 1 and controller 3 and infrared remote controller 5, can control controller 3 and infrared remote controller 5, realizes adjusting light 6 and adjusting infrared remote controller 5 at high in the clouds 1 control controller 3 in high in the clouds. Controller 3 can feed back data such as 6 electric quantities of light to high in the clouds 1, can realize effectual management and electric quantity statistics.

The utility model discloses combine wireless signal transmission technology's working process: as a preferred scheme, the personnel can wear indoor positioner, and indoor positioner sends position signal to high in the clouds 1, and high in the clouds 1 passes through signal conversion gateway 2 and sends the signal to controller 3 when the position accords with, is opened and can adjust luminance by controller 3 according to signal control light 6, realizes automatic illumination. The utility model discloses a two kinds of working form can complement each other.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: it is to be understood that modifications may be made to the technical solutions described in the foregoing embodiments, or some or all of the technical features may be equivalently replaced, without substantially departing from the scope of the technical solutions of the embodiments of the present invention.

Claims (7)

1. A wireless and pyroelectric infrared automatic lighting system, characterized by comprising: the device comprises a pyroelectric infrared sensor (4), a controller (3) and an illuminating lamp (6);

the pyroelectric infrared sensor (4) comprises: the pyroelectric infrared detector comprises a pyroelectric infrared probe (41), a pyroelectric infrared chip (42), a sensor MCU (43) and a sensor infrared interface (45);

the pyroelectric infrared probe (41) is connected with the pyroelectric infrared chip (42); the pyroelectric infrared chip (42) is connected with the sensor MCU (43); the sensor MCU (43) is connected with the sensor infrared interface (45);

the controller (3) comprises: the device comprises a controller infrared interface (31), a controller MCU (34), a dimming interface (35) and a voltage and current collector (37);

the controller infrared interface (31) is connected with the pyroelectric infrared sensor (4);

the controller MCU (34) is respectively connected with the controller infrared interface (31), the dimming interface (35) and the voltage and current collector (37);

the dimming interface (35) and the voltage and current collector (37) are respectively connected with the illuminating lamp (6).

2. The wireless and pyroelectric infrared automatic lighting system according to claim 1, characterized in that the controller (3) further comprises: a nixie tube lamp panel (32);

the nixie tube lamp panel (32) is connected with the controller MCU (34).

3. The wireless and pyroelectric infrared automatic lighting system according to claim 2, characterized in that the controller (3) further comprises: a controller voltage reduction module (36);

the controller voltage reduction module (36) is connected with the controller MCU (34), and the controller voltage reduction module (36) is used for being externally connected with a power supply.

4. Wireless and pyroelectric infrared automatic lighting system according to claim 1 or 3, characterized in that the pyroelectric infrared sensor (4) further comprises: a first carrier infrared transceiver module (44);

the first carrier wave infrared transceiving module (44) is connected with the sensor MCU (43).

5. The wireless and pyroelectric infrared automatic lighting system as claimed in claim 4, further comprising: an infrared remote controller (5);

the infrared remote control (5) comprises: a second carrier wave infrared transceiving module (51) and a remote control MCU (52);

the second carrier wave infrared transceiving module (51) is connected with the remote control MCU (52).

6. Wireless and pyroelectric infrared automatic lighting system according to claim 5, characterized in that the controller (3) further comprises: a controller wireless signal transceiving module (33);

the controller wireless signal receiving and transmitting module (33) is connected with the controller MCU (34), and the controller wireless signal receiving and transmitting module (33) is in information interaction with the cloud end (1) through the signal conversion gateway (2);

the infrared remote controller (5) further comprises: a remote controller wireless signal receiving and transmitting module (53);

the remote controller wireless signal transceiver module (53) is connected with the remote controller MCU (52), and the remote controller wireless signal transceiver module (53) is in information interaction with the cloud end (1) through the signal conversion gateway (2).

7. Wireless and pyroelectric infrared automatic lighting system according to claim 6, characterized in that said signal conversion gateway (2) comprises: the gateway wireless signal transceiving module (21), the network module (22), the gateway voltage reduction module (23) and the gateway MCU (24);

the gateway MCU (24) is respectively connected with the network module (22), the gateway wireless signal transceiving module (21) and the gateway voltage reduction module (23);

the gateway voltage reduction module (23) is used for an external power supply.

Images