CN207835863U - Wireless Passive Light Control Device - Google Patents

Abstract

A wireless passive lamp control device, comprising: the infrared sensing controllers comprise a shell, the shell is provided with at least one sensing element, a driving element and a wireless transmission element, the outer side of the shell is provided with a lens, the at least two sensing elements sense at least one lighting area in an overlapped mode and execute a single-area overlapped sensing control program, and the single-area sensing control program enables the infrared sensing controllers to generate at least one execution signal; the bases are connected with a mains supply; the wireless lighting lamps are assembled on the base and connected with the infrared induction controller through Zigbee wireless signals, and the wireless lighting lamps switch light according to the execution signals; therefore, the Zigbee wireless signal is mainly connected with the infrared sensing controller, and the starting time of the wireless lighting lamp is accurately controlled in a single-region overlapping sensing control mode, and the wireless lighting lamp has higher practicability, convenience and energy-saving effect.

Description

Wireless Passive Light Control Device

technical field

The utility model relates to a light control device, in particular to a wireless passive light control device that does not need to be connected to an intelligent gateway (also known as a bridge) and has a single-zone overlapping sensing to control the opening and closing of lamps. .

Background technique

By the way, in today's era of high awareness of environmental protection, the development and consumption of energy has been paid more attention. In terms of energy consumption, saving electricity is the main consideration, because the traditional electric energy production process consumes a lot of environmental resources, and the use of electric energy will cause environmental burdens. In addition, in order to promote social welfare, the governments of various countries often adopt measures to increase electricity prices to increase national finances, and indirectly promote electricity users to independently manage electricity consumption to achieve the effect of environmental protection and energy conservation. Therefore, if the power consumption can be effectively controlled to maximize the efficiency of power consumption and avoid unnecessary waste, it will not only increase the economic benefits of the industry, but also be of great help to the cost management of businesses.

In order to extend the time of human activities and increase the working environment, lighting equipment is an indispensable thing in daily life. At present, light bulbs or lamp tubes are the main light source for common lighting, but these devices still have their shortcomings even after many improvements. Among them, light bulbs are The tungsten filament emits light, the photoelectric conversion efficiency is low, and most of the energy is consumed in heat energy, so the power consumption is high, the reaction is slow or easy to be damaged, and the lamp tube needs to be filled with mercury gas in order to make the electrons collide with each other to generate light, but mercury is harmful to the environment. Pollution is inevitable and is not suitable for environmental protection applications. As the mainstream technology to replace traditional light bulbs or tubes, Light-Emitting Diode (LED) is the most popular. It uses the characteristics of electrons moving in the energy level of semiconductor materials to generate light. It has low power consumption and high efficiency. Traditional light bulbs use filaments to emit light, so they have a long service life and are not easily damaged, or mercury gas filling will cause serious pollution to the environment, and the widespread use of light-emitting diodes to replace traditional lamps is just around the corner.

However, although lighting devices increase the life time of human beings, the energy consumption is also relatively increased. In order to avoid unnecessary waste, general lighting devices use automatic design. When there is no one in the area, the lamps are turned off. The light source is turned on, so there is no need to keep the lighting device on, which consumes too much power. Most of the above-mentioned automation technologies are completed with passive infrared sensors (PIR), which can sense the human body to generate infrared rays when people approach or pass by, and then generate a signal to the back-end device.

In addition, the existing lighting fixtures usually use a Passive Infrared Sensor (PIR) to detect moving objects, so as to control the turning on or off of the lighting fixtures, so as to achieve both energy saving and real-time lighting effects.

However, the principle of the above-mentioned control method is that an object that generates heat energy will more or less emit light that is invisible to the human eye—infrared rays, such as warm water, candles, light bulbs, human bodies, objects exposed to sunlight...etc. infrared. Therefore, by detecting the infrared rays emitted or reflected by moving objects, it is possible to detect whether the object appears and control the lighting on or off accordingly.

In addition, the existing infrared sensor (PIR) can only detect moving objects, but cannot distinguish the type of moving object. Frequent problems such as: animals, insects or ground vibrations are within the detection range of the infrared sensor (PIR) In the interior, the infrared sensor (PIR) will act to control the lighting to turn on, but in fact the above-mentioned animals, insects or ground vibrations are not the moving objects that the user pays attention to. This will really cause trouble for the user. In addition, the method of using an infrared sensor (PIR) to detect moving objects to control lighting fixtures cannot judge the moving direction of the object and turn on the lighting fixtures first, which will be subject to certain restrictions in use; more specifically, the above-mentioned infrared sensor The device (PIR) induction starting mode obviously still has inconvenience and defect, and needs to be improved.

Therefore, after the author of this case observed the above-mentioned deficiency, he then had the generation of the utility model.

Utility model content

The main purpose of this utility model is to provide a wireless passive light control device, which uses Zigbee wireless signals to connect multiple infrared sensors, and utilizes the overlapping sensing method of an illumination area, so as to improve the conventional infrared sensors It can only detect moving objects, but cannot distinguish the type of moving objects. It can also improve the problem that the existing infrared sensor cannot judge the direction of human body movement and turn on the lighting lamps first.

In order to achieve the above purpose, the wireless passive light control device provided by the utility model includes: a plurality of infrared induction controllers, which include a housing, and at least one sensing element, a driving element and A wireless transmission element, and the casing is provided with at least one lens, and at least two sensing elements respectively overlap and sense at least one illumination area, and execute a single-area overlapping sensing control program, and the single-area sensing control program enables all The infrared induction controller will generate at least one execution signal; multiple bases, which are connected to a commercial power supply, and are provided with at least one set of connection slots; and multiple wireless lighting fixtures, which are respectively assembled on the bases The connecting slot, and the signal of the wireless lighting fixture is connected to the infrared sensor controller, and the wireless lighting fixture performs light switching according to the execution signal.

Preferably, it further includes at least one wireless door magnetic switch sensor, which respectively has a first sensing element and a second sensing element, and at least one magnetic sensing unit is arranged in the first sensing element . At least one processing unit and at least one signal transmission unit, the signal transmission unit is wirelessly connected to the wireless lighting fixture, and at least one magnetic element is arranged in the second sensing element.

Preferably, when the wireless door magnetic switch sensor has no corresponding magnetic attraction to the second sensing part, the wireless door magnetic switch sensor transmits at least one execution signal to the wireless lighting lamps, and make the wireless lighting lamps start according to the execution signal.

Preferably, the wireless lighting fixtures are further connected and paired with at least one remote control device, the infrared induction controller and the wireless door magnetic switch sensor by wireless signals using the ZigBee wireless communication protocol.

Preferably, the wireless lighting fixture has a set of connecting shells, a drive processing module, a ZigBee wireless module, LED lamp board and a lampshade, and the drive processing module, the ZigBee wireless module are arranged in the connecting shell 1. The LED lamp board, and the lampshade is assembled on the assembly housing, and the LED lamp board can produce multiple luminous colors.

Preferably, it further includes at least one remote control device, which generates a control signal, and the wireless lighting fixture wirelessly connects and pairs with the remote control device, and the wireless lighting fixture performs light switching according to the execution signal or control signal , Also, the remote control device is selected from one of a voice control device and a push-button wireless control device.

Preferably, the wireless lighting fixture receives the execution signal or the control signal, and performs lighting in one of the wireless pairing mode, light-on mode, light-off mode and lighting situation setting mode according to the execution signal or the control signal operating procedures.

Preferably, the infrared sensing controller sets the action time of the sensing element so that it senses the illuminated area with infrared rays in at least one interval, and the interval is between 5 and 60 seconds.

Preferably, an illumination area is sensed overlapping between every two infrared induction controllers.

Preferably, the single-zone overlapping sensing control program is for multiple infrared sensor controllers to correspondingly overlap and sense multiple lighting areas.

The wireless passive light control device provided by the utility model mainly includes an execution action and a closing action through the single-zone overlapping sensing control program, and the execution action is to simultaneously sense the lighting by at least two sensing elements At least one human body in the area, and transmit an execution signal to the wireless lighting fixture, and enable the wireless lighting fixture to start, and the closing action is that at least two sensing elements do not sense the human body in the lighting area, then the The infrared sensing controller transmits another execution signal to the wireless lighting fixture, and turns off the wireless lighting fixture corresponding to the lighting area. In this way, the utility model mainly connects the infrared sensor controller with Zigbee wireless signal, and utilizes the overlapping sensing method of a lighting area, so as to improve the existing infrared sensor which can only detect moving objects, but cannot distinguish The problem of the type of moving object can also improve the problem that the existing infrared sensor cannot judge the direction of human body movement and turn on the lighting lamp first.

Description of drawings

Fig. 1 is a schematic block diagram of a device in a preferred embodiment of the present invention.

FIG. 2 is a schematic diagram of signal transmission inside the device of a preferred embodiment of the present invention.

Fig. 3 is a perspective view showing an infrared sensor controller in a preferred embodiment of the present invention.

Fig. 4 is an exploded perspective view showing a wireless lighting fixture in a preferred embodiment of the present invention.

Fig. 5 is a perspective view showing a wireless door magnetic switch sensor in a preferred embodiment of the present invention.

FIG. 6 is a schematic view showing the use state of the infrared sensor controller performing actions in a preferred embodiment of the present invention.

FIG. 7 is a schematic view showing the use state of the infrared sensor controller performing actions in a preferred embodiment of the present invention.

FIG. 8 is a schematic view showing the use state of the infrared sensor controller in the closing action in a preferred embodiment of the present invention.

FIG. 9 is a schematic view showing the use status of the wireless door magnetic switch sensor in a preferred embodiment of the present invention.

Fig. 10 is a schematic view showing the use status of the remote control device in a preferred embodiment of the present invention.

Wherein, the reference signs are explained as follows:

100 wireless passive light control device

10 Infrared sensor controller

11 housing

12 Sensing element

13 drive elements

14 Wireless Transmission Components

15 lenses

20 base

21 gang slots

30 Wireless Lighting Fixtures

31 Combination shell

32 drive processing module

33 ZigBee wireless module

34 LED light panels

35 shade

40 Wireless Door Magnetic Switch Sensor

41 The first sensor

411 Magnetic sensing unit

412 processing unit

413 signal transmission unit

42 Second sensor

421 Magnetic components

50 remote control

200 electricity

300 doors

301 wall

A lighting area

Detailed ways

Please refer to Fig. 1 and Fig. 2, together with Fig. 3, Fig. 4 and Fig. 5, it is a schematic block diagram of a preferred embodiment of the present invention, a schematic diagram of signal transmission, a perspective view of the infrared sensor controller 10, and a wireless lighting fixture 30 The exploded perspective view and the perspective view of the wireless door magnetic switch sensor 40 disclose a wireless passive light control device 100, the wireless passive light control device 100 includes:

A plurality of infrared induction controllers 10, as shown in Fig. 1, Fig. 2, and Fig. 3, it includes a casing 11, and at least one sensing element 12, a driving element 13 and a wireless transmission element are arranged in the casing 11. The transmission element 14, and the casing 11 is provided with at least one lens 15, and at least two sensing elements 12 respectively overlap and sense at least one illumination area A, and execute a single-zone overlapping sensing control program, the single-zone sensing control The program causes the infrared sensor controller 10 to generate at least one execution signal; in this embodiment, the wireless lighting fixture 30 uses the ZigBee wireless communication protocol to further connect and pair the remote control device 50, the infrared sensor control device 10 and the wireless door magnetic switch sensor 40.

Moreover, in this embodiment, the infrared sensor controller 10 sets the action time of the sensing element 12 so that it senses the illumination area A with infrared rays in at least one interval, and the interval is 5-60 between seconds.

A plurality of bases 20 are connected to a commercial power supply 200 and are recessed with a plurality of connecting grooves 21 , and the commercial power supply 200 is electrically connected to the connecting grooves 21 .

A plurality of wireless lighting fixtures 30, which are respectively assembled in the assembly slots 21 of the base 20, and the wireless lighting fixtures 30 are connected to the infrared sensor controller 10 with signals, and the wireless lighting fixtures 30 are executed according to the execution signal Carry out light switch; In the present embodiment, as shown in Figure 4, described wireless lighting fixture 30 it has a group of connecting shell 31, a drive processing module 32, a ZigBee wireless module 33, LED lamp board 34 and a lampshade 35 The drive processing module 32, the ZigBee wireless module 33, and the LED lamp board 34 are arranged in the assembly housing 31, and the lampshade 35 is assembled in the assembly housing 31, and the LED lamp board 34 can produce Various glow colors.

At least one wireless door magnetic switch sensor 40, which has a first sensing element 41 and a second sensing element 42 respectively, the first sensing element 41 is provided with at least one magnetic sensing unit 411, at least one A processing unit 412 and at least one signal transmission unit 413, the signal transmission unit 413 is wirelessly connected to the wireless lighting fixture 30, and at least one magnetic element 421 is provided in the second sensing element 42; in this embodiment, As shown in Figure 2, the first sensing element 41 is arranged on the side of a door body 300, and the second sensing element 42 is arranged on the side edge of a wall 301 corresponding to the position of the first sensing element 41, the wireless The door magnetic switch sensor 40 transmits at least one execution signal to the wireless lighting fixture 30 when the first sensing element 41 has no corresponding magnetic attraction to the second sensing element 42 , And make the wireless lighting fixture 30 start according to the execution signal.

At least one remote control device 50, which generates a control signal, and the wireless lighting fixture 30 is wirelessly connected and paired with the remote control device 50, and the wireless lighting fixture 30 performs light switching according to the execution signal or control signal, and, the The remote control device 50 is selected from one of a voice control device and a push-button wireless control device.

In addition, the wireless lighting fixture 30 receives the execution signal or the control signal, and according to the execution signal or the control signal, performs one of the light operation procedures of the wireless pairing mode, the light-on mode, the light-off mode and the lighting situation setting mode .

Please refer to Fig. 2 again, each two infrared sensor controllers 10 overlap and sense an illumination area A. In this embodiment, the utility model has a plurality of infrared sensor controllers 10, and the infrared sensor controllers The detectors 10 are arranged at intervals, therefore, the single-zone overlapping sensing control program is that the infrared sensing controller 10 correspondingly overlaps and senses a plurality of illumination areas A.

In order to further understand the structural features of the utility model, the use of technical means and the expected effects, hereby describe the usage of the utility model. I believe that this will give a deeper and more specific understanding of the utility model, as follows:

Please continue to refer to Fig. 1 and Fig. 2, together with Fig. 6, Fig. 7 and Fig. 8, it is a schematic block diagram, a schematic diagram of signal transmission and a schematic diagram of a use state of a preferred embodiment of the present invention. In the state of use, the user passes through the lighting area A in sequence. At this time, the infrared sensor controller 10 starts sensing and executes the single-zone overlapping sensing control program, and the single-zone overlapping sensing control program It includes an execution action and a closing action. As shown in FIGS. 6-8 , the execution action is that at least two sensing elements 12 simultaneously sense a user moving in the lighting area A, and transmit an execution signal to the wireless lighting fixture 30 , and the wireless lighting fixture 30 is activated, and the closing action is shown in FIG. Or in the lighting area A, the infrared sensor controller 10 transmits another execution signal to the wireless lighting fixture 30, and turns off the wireless lighting fixture 30 corresponding to the lighting zone A.

In more detail, the utility model mainly connects the infrared sensor controller 10 with Zigbee wireless signal, and utilizes the way of overlapping and sensing multiple lighting areas A, so as to improve the existing infrared sensor which can only detect movement Objects, but cannot distinguish the type of moving objects, and can also improve the problem that the existing infrared sensors cannot judge the direction of human body movement and turn on the lighting lamps first.

Please refer to FIG. 9 again, which is a schematic diagram of a use state of a preferred embodiment of the present invention. In the state of use, when the user opens the door body 300, and the first sensing element 41 has no corresponding magnetic attraction to the second sensing element 42, the wireless door magnetic switch sensor 40 transmits at least one execution signal to the wireless lighting fixture 30, and make the wireless lighting fixture 30 start according to the execution signal; more specifically, the utility model is not only equipped with the above-mentioned single-zone overlapping sensing control program, but also provides users with The wireless lighting fixture 30 is directly turned on, so as to provide users with practicability and convenience in use.

Please refer to FIG. 10 again, which is a schematic diagram of a use state of a preferred embodiment of the present invention. In the use state, when the user opens the door body 300, the user can control the remote control device 50 and make it generate at least one control signal, and the wireless lighting fixture 30 is wirelessly connected and paired with the remote control device 50, and The wireless lighting fixture 30 performs lighting switching according to the execution signal or the control signal, and the remote control device 50 can be a voice control device or a push-button wireless control device, and this embodiment takes voice control as an example, in other words, It only needs to be operated by a single voice control device or button-type wireless control device, and the Zigbee wireless signal is used to connect and transmit the control signal to multiple wireless lighting fixtures 30, so as to achieve light switching, brightness and color control, and make each None of the wireless lighting fixtures 30 needs to be connected to an intelligent gateway, so as to greatly reduce the product cost of the overall system equipment, and can also perform lighting and voice control functions; At the same time, when using the remote control device 50, the user can directly control the wireless lighting fixture 30, so as to achieve practicality and convenience in use.

It is worth mentioning that "wireless" in the object of this utility model means that the voice control device is connected to the wireless lighting device through the zigbee wireless communication protocol, and "passive" means that the present invention does not need to set up a central information calculation as in the prior art An intelligent gateway that handles the source.

Hereby, the features of the present utility model and the expected effect that can be achieved are stated as follows:

The wireless passive light control device 100 of the present utility model is mainly connected to the infrared sensor controller 10 through Zigbee wireless signals, and is matched with the single-zone overlapping sensing control program. The execution action is at least two sensing elements 12 at the same time. Sensing the user in the lighting area A, and transmitting an execution signal to the wireless lighting fixture 30, and enabling the wireless lighting fixture 30 to start, and the closing action is that at least two sensing elements 12 do not sense the use Or in the lighting area A, the infrared sensor controller 10 transmits another execution signal to the wireless lighting fixture 30, and turns off the wireless lighting fixture 30 corresponding to the lighting zone A.

Thereby, the utility model has following implementation effect and technical effect:

First, the utility model only needs to be controlled by a single remote control device 50 or use the sensing method of the multiple infrared induction controllers 10 to connect with Zigbee wireless signals and issue control commands to multiple wireless lighting devices, so as to achieve lighting switching , brightness and color control, and make each wireless lighting fixture 30 not need to be connected to an intelligent gateway, which can greatly reduce the product cost of the overall system equipment, and eliminate the problems and shortcomings of the previous technology.

Second, the utility model connects multiple infrared sensors with Zigbee wireless signals, and utilizes the overlapping sensing method of an illumination area A, so as to improve the conventional infrared sensors that can only detect moving objects, but cannot distinguish moving objects. The problem of the type of object can also improve the problem that the existing infrared sensor cannot judge the direction of human body movement and turn on the lighting lamp first.

Third, the utility model mainly uses the Zigbee wireless transmission communication protocol technology, because of its low power consumption, low cost and real-time wireless remote control of the switch, brightness and status information of the light-emitting diode elements of the outdoor lighting device, and with the luminous efficiency Light-emitting diode (LED) components with high efficiency, low energy consumption and long life make the Zigbee wireless network remote control LED outdoor lighting control system have the advantages of low energy consumption, low cost, and high transmission efficiency.

Fourth, the wireless lighting fixture 30 can be switched according to whether the target exists in the sensing area. When there is no target in the area, the wireless lighting 30 will be turned off, and when there is a target in the area, the wireless lighting 30 will be turned off. , the user can use the remote control device 50 to control the wireless lighting fixture 30 to emit light with a specific lower intensity (for example, but not limited to, 1/2, 1/3, 1/4 brightness of the light-emitting unit, etc.) , to provide lighting with lower illuminance; thereby, the utility model has better operation convenience and energy-saving effect.

To sum up, the utility model has excellent progressive practicability among similar products. At the same time, the technical data about this type of structure has been searched at home and abroad, and no similar structure has been found in the literature. Therefore, The utility model already possesses the requirements of a new patent, and the application shall be filed in accordance with the law.

However, the above description is only a preferred embodiment of the utility model, so all equivalent structural changes made by applying the specification and claims of the utility model should be included in the patent scope of the utility model.

Claims (10)

1. A wireless passive light control device, characterized in that it comprises: A plurality of infrared induction controllers, which include a casing, at least one sensing element, a driving element and a wireless transmission element are arranged in the casing, and at least one lens is arranged in the casing, and at least two sensing elements are respectively overlapping sensing at least one lighting area, and executing a single area overlapping sensing control program, the single area sensing control program causes the infrared sensing controller to generate at least one execution signal; a plurality of bases connected to a mains and recessed with at least one set of sockets; and A plurality of wireless lighting fixtures, which are respectively assembled in the assembly slots of the base, and the signals of the wireless lighting fixtures are connected to the infrared sensor controller, and the wireless lighting fixtures switch lights according to the execution signal; Wherein, the single-zone overlapping sensing control program includes an execution action and a closing action, the execution action is that at least two sensing elements simultaneously sense at least one human body in the lighting area, and transmit an execution signal to the wireless lighting Lamps, and the wireless lighting fixtures are activated, and the closing action is that at least two sensing elements do not sense the human body in the lighting area, then the infrared sensor controller transmits another execution signal to the wireless lighting fixtures, And turn off the wireless lighting fixtures corresponding to the lighting area. 2. The wireless passive light control device according to claim 1, further comprising at least one wireless door magnetic switch sensor, which respectively has a first sensing element and a second sensing element, The first sensing part is provided with at least one magnetic sensing unit, at least one processing unit and at least one signal transmission unit, and the signal transmission unit is wirelessly connected to the wireless lighting fixture, and the second sensing part is provided with There is at least one magnetic element. 3. The wireless passive light control device according to claim 2, wherein when the wireless door magnetic switch sensor is not magnetically attracted to the second sensing part by the first sensing part, the wireless door The magnetic switch sensor transmits at least one execution signal to the wireless lighting fixture, and makes the wireless lighting fixture start according to the execution signal. 4. The wireless passive light control device according to claim 2, wherein the wireless lighting fixture uses the ZigBee wireless communication protocol to further connect and pair at least one remote control device, the infrared sensor controller and the Wireless door magnetic switch sensor. 5. The wireless passive light control device according to claim 1, wherein the wireless lighting fixture has a set of connecting shells, a drive processing module, a ZigBee wireless module, an LED lamp board and a lampshade, the The drive processing module, the ZigBee wireless module, and the LED lamp board are arranged in the assembly housing, and the lampshade is assembled in the assembly housing, and the LED lamp board can produce multiple luminous colors. 6. The wireless passive light control device according to claim 1, further comprising at least one remote control device, which generates a control signal, and the wireless lighting fixture wirelessly connects and pairs with the remote control device, and The wireless lighting fixture switches lights according to the execution signal or the control signal, and the remote control device is selected from one of a voice control device and a push-button wireless control device. 7. The wireless passive light control device according to claim 6, wherein the wireless lighting fixture receives the execution signal or the control signal, and performs wireless pairing mode and light-on mode according to the execution signal or the control signal , the light operation program in one of the light off mode and the light scene setting mode. 8. The wireless passive light control device according to claim 1, wherein the infrared sensing controller sets the action time of the sensing element so that it senses the lighting area with infrared rays within at least one interval, The interval time is between 5 and 60 seconds. 9 . The wireless passive light control device according to claim 1 , wherein an illumination area is sensed overlappingly between every two infrared sensor controllers. 10 . The wireless passive light control device according to claim 9 , wherein the single-zone overlapping sensing control program is for a plurality of infrared sensor controllers to correspondingly overlap and sense a plurality of lighting areas. 11 .