TWM558508U - Wireless passive light control device - Google Patents

Abstract

A wireless passive light control device includes: a plurality of infrared infrared sensor controllers, comprising a housing, the housing is provided with at least one sensing component, a driving component and a wireless transmission component, and the outer side of the housing Having a lens, wherein at least two sensing elements overlap to sense at least one illumination area, and perform a single-area overlap sensing control program, the single-area sensing control program causing the infrared sensing controller to generate at least one execution signal; a plurality of pedestals connected to a mains; and a plurality of wireless luminaires disposed on the pedestals and connected to the infrared sensation controllers by Zigbee wireless signals, wherein the wireless luminaires switch lights according to the execution signals; In this way, the Zigbee wireless signal is connected to the infrared sensing controllers, and the single-zone overlapping sensing control is used to precisely control the timing of starting the wireless lighting fixtures, and has more practicality, convenience and energy saving. effect.

Description

Wireless passive light control device

The creation department is related to a light control device, in particular to a wireless passive light control device that does not need to connect a smart gateway device (also called a bridge) and has a single-zone overlapping sensing control light fixture to open and close.

According to the era of high environmental awareness, the development and consumption of energy has been paid more attention. In terms of energy consumption, the main consideration is to save electricity. The traditional electric energy production process consumes a lot of environmental resources, and the use of electric energy will cause an environmental burden. In addition, in order to promote social welfare, governments of various countries have adopted measures to increase electricity prices to increase national finances, and indirectly promote the use of electricity to manage power consumption independently, and achieve environmental protection and energy conservation. Therefore, the power consumption can be effectively controlled, so that the consumption of electric energy can be maximized, and unnecessary waste can be avoided. In addition to increasing the economic efficiency of the industry, the cost management of the merchant is also quite helpful.

In order to prolong the activity time of human activities and increase the working environment, lighting equipment is an indispensable thing in daily life. Currently, lighting is mainly used as a light source or a light bulb. However, even if these devices have been improved many times, there are still some shortcomings. Tungsten wire emits light, the photoelectric conversion efficiency is low, and most of the energy is consumed in heat energy. Therefore, the power consumption is high, the reaction is slow or easy to be damaged, and in the lamp tube, in order to cause electrons to collide with each other to generate light, it is necessary to fill the mercury gas, but the mercury is applied to the environment. The pollution is inevitable and is not suitable for environmental protection applications. Replacing the mainstream technology of traditional light bulbs or lamps, Light-Emitting Diode (LED) has the highest voice, and it uses electrons to move light in the energy level of semiconductor materials to produce light. It has low power consumption and high efficiency. It is not like traditional light bulbs that emit light with filaments, so they have a long service life and are not easily damaged, or the mercury-filled gas causes significant pollution to the environment. It is just around the corner to use conventional light-emitting diodes instead of traditional lamps.

However, the lighting device certainly enhances human life, but the energy consumption is relatively increased. In order to avoid unnecessary waste, the general lighting device utilizes automatic design. When there is no one in the area, the lamp is turned off. When someone approaches, the general will When the light source is turned on, it is not necessary to keep the lighting device on and consume too much power. Most of the above-mentioned automation technologies are completed by a passive infrared sensor (PIR), which can sense the human body to generate infrared rays when a person approaches or passes, and then generates a signal to the back end device.

Moreover, conventional lighting fixtures typically use a passive infrared sensor (PIR) to detect moving objects, thereby controlling the opening or closing of the lighting to achieve both energy saving and instant lighting effects.

However, the principle of the above control method is that an object that generates heat energy will emit light that is invisible to the human eye, such as warm water, candlelight, light bulb, human body, sunlit objects, etc. Dissipating infrared rays. Therefore, by detecting the infrared rays emitted or reflected by the moving object, it is possible to detect whether the object appears or not to control the opening or closing of the corresponding lighting fixture.

In addition, the conventional infrared sensor (PIR) can only detect moving objects, but can not distinguish the type of moving objects. Frequently occurring problems such as: animal, insect or ground vibration in the detection range of infrared sensors (PIR) Inside, the infrared sensor (PIR) will act to control the lighting fixture to open, but in fact the above-mentioned animal, insect or ground vibration is not the moving object that the user pays attention to, which will cause user confusion. The use of infrared sensors (PIR) to detect moving objects to control the lighting fixtures can not determine the direction of movement of the object and first turn on the lighting fixtures, which will be subject to certain restrictions; more specifically, the above-mentioned infrared sensors (PIR) induction startup mode, obviously there are still inconveniences and defects, and needs to be improved.

Therefore, the creators of this case have observed the above-mentioned deficiencies, but have not produced this creation.

The main purpose of this creation is to provide a wireless passive light control device that uses Zigbee wireless signals to connect multiple infrared sensors and utilizes a method of overlapping sensing of an illumination area, thereby improving the conventional infrared sensor only The problem of detecting a moving object and not being able to discriminate the type of the moving object can also improve the problem that the conventional infrared sensor cannot determine the direction of the human body movement and first turn on the lighting fixture.

To achieve the above objective, the wireless passive light control device provided by the present invention comprises: a plurality of infrared infrared sensor controllers, comprising: a housing, wherein the housing is provided with at least one sensing component and a driving component And a wireless transmission component, wherein the housing is provided with at least one lens, and at least two sensing components respectively overlap and sense at least one illumination area, and perform a single-region overlap sensing control program, the single-region sensing control program The infrared sensing controller generates at least one execution signal; the plurality of bases are connected to a mains and are recessed with at least one set of slots; and the plurality of wireless lighting fixtures are respectively set on the bases The set of sockets is connected to the slots, and the wireless lighting fixtures are connected to the infrared sensing controllers, and the wireless lighting fixtures switch the lights according to the execution signals.

Preferably, the method further includes at least one wireless magnetic switch sensor, which has a first sensing component and a second sensing component, wherein the first sensing component is provided with at least one magnetic sexy component. The measuring unit, the at least one processing unit and the at least one signal transmitting unit are connected to the wireless lighting fixture by a wireless signal, and the second sensing component is provided with at least one magnetic component.

Preferably, the wireless magnetic switch sensor transmits at least one execution signal to the first sensing component when the first sensing component is not correspondingly magnetically attracted to the second sensing component. And other wireless lighting fixtures, and enable the wireless lighting fixtures to be activated according to the execution signal.

Preferably, the wireless lighting fixtures are connected by a ZigBee wireless communication protocol, and further connected to the remote control device, the infrared sensing controller and the wireless magnetic door sensor.

Preferably, the wireless lighting fixture has a set of shells, a driving processing module, a ZigBee wireless module, an LED light board and a lamp cover, and the driving processing module is disposed in the set of shells The ZigBee wireless module, the LED light board, and the light cover are assembled in the set of shells, and the LED light board is capable of generating a plurality of light-emitting colors.

Preferably, the method further includes at least one remote control device for generating a control signal, wherein the wireless lighting fixtures are connected to and connected to the wireless signal, and the wireless lighting fixtures are configured according to the execution signal or the control signal. The lighting is switched, and the remote control device is selected from one of a voice sound control device and a push button wireless control device.

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

Preferably, the infrared sensing controller sets the operating time of the sensing component to sense the illumination region by infrared rays in at least one interval, and the interval time is between 5 and 60 seconds.

Preferably, each of the two infrared sensing controllers overlaps and senses an illumination area.

Preferably, the single-region overlapping sensing control program is a complex infrared sensing controller corresponding to the overlapping sensing complex illumination regions.

The wireless passive light control device provided by the present invention mainly includes an execution action and a closing action through the single-area overlap sensing control program, wherein the performing action is that at least two sensing elements simultaneously sense the illumination area At least one of the human body, and transmitting an execution signal to the wireless lighting fixtures, and enabling the wireless lighting fixtures to be activated, wherein the closing action is that at least two sensing components are not sensing the human body in the illumination area, then the The infrared sensing controller transmits another execution signal to the wireless lighting fixtures and turns off the wireless lighting fixtures corresponding to the lighting area. Therefore, this creation mainly uses Zigbee wireless signals to connect these infrared sensing controllers, and utilizes a method of overlapping sensing of an illumination area, thereby improving the conventional infrared sensor to detect only moving objects, and cannot distinguish The problem of the type of moving object can also improve the problem that the conventional infrared sensor cannot determine the direction of the human body movement and first turn on the lighting fixture.

Please refer to FIG. 1 and FIG. 2 , and FIG. 3 , FIG. 4 and FIG. 5 , which are schematic diagrams of a preferred embodiment of the present invention, a schematic diagram of signal transmission, a perspective view of the infrared sensing controller 10 , and a wireless lighting fixture 30 . The exploded perspective view and the perspective view of the wireless magnetic switch sensor 40 disclose a wireless passive light control device 100. The wireless passive light control device 100 includes:

The plurality of infrared sensing controllers 10, as shown in FIG. 1, FIG. 2 and FIG. 3, include a housing 11 having at least one sensing component 12, a driving component 13, and a wireless transmission component. Wireless transmission component 14, and the housing 11 is provided with at least one lens 15, and at least two sensing components 12 respectively overlap and sense at least one illumination area A, and perform a single-area overlap sensing control program, the single zone The sensing control program causes the infrared sensing controllers 10 to generate at least one execution signal. In this embodiment, the wireless lighting fixtures 30 are connected by a ZigBee wireless communication protocol, and further wirelessly connect and pair the remote control devices 50. The infrared sensor controller 10 and the wireless door magnetic switch sensor 40.

Moreover, in the embodiment, the infrared sensing controller 10 sets the operating time of the sensing element 12 to sense the illumination area A by infrared rays in at least one interval, and the interval time is 5~. Between 60 seconds.

The plurality of bases 20 are connected to a mains 200 and are recessed with a plurality of array slots 21, and the mains 200 is electrically connected to the set of slots 21.

The plurality of wireless lighting fixtures 30 are respectively disposed in the connecting slots 21 of the bases 20, and the wireless lighting fixtures 30 are connected to the infrared sensing controllers 10, and the wireless lighting fixtures 30 are executed according to the execution. The signal is switched. In this embodiment, as shown in FIG. 4, the wireless lighting fixture 30 has a set of shells 31, a driving processing module 32, a ZigBee wireless module 33, and an LED panel 34. And a light cover 35, the driving processing module 32, the ZigBee wireless module 33, and the LED light board 34 are disposed in the set of shells 31, and the light cover 35 is assembled to the set of shells 31, The LED panel 34 is capable of generating a plurality of luminescent colors.

The at least one wireless magnetic sensor sensor 40 has a first sensing component 41 and a second sensing component 42 respectively. The first sensing component 41 is provided with at least one magnetic sensing unit 411. At least one processing unit 412 and at least one signal transmission unit 413, the signal transmission unit 413 is connected to the wireless lighting fixtures 30 by wireless signals, and the second sensing component 42 is provided with at least one magnetic component 421; In the embodiment, as shown in FIG. 2, the first sensing component 41 is disposed on a side of a door 300, and the second sensing component 42 is disposed on a wall 301 corresponding to the first sensing component 41. The wireless magnetic door sensor 40 is configured to transmit at least one execution signal when the first sensing member 41 is not correspondingly magnetically attracted to the second sensing member 42. The wireless lighting fixtures 30 are given and activated by the wireless lighting fixtures 30 in accordance with the execution signals.

At least one remote control device 50 generates a control signal, and the wireless lighting fixtures 30 are connected to and connected to the remote control device 50, and the wireless lighting fixtures 30 perform light switching according to the execution signal or the control signal. The remote control device 50 is selected from one of a voice sound 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 performs a light operation procedure of one of a wireless pairing mode, a light-on mode, a light-off mode, and a light situation setting mode according to the execution signal or the control signal. .

Referring to FIG. 2 again, each of the two infrared sensing controllers 10 overlaps and senses an illumination area A. In this embodiment, the present invention has a plurality of infrared sensing controllers 10, and the infrared sensing controllers The 10 series are arranged at intervals. Therefore, the single-area overlap sensing control program is such that the infrared sensing controllers 10 are associated with the overlapping sensing plurality of illumination areas A.

In order to further understand the characteristics of this creation, the use of technical means and the expected results, we will describe the use of this creation, and believe that we can have a deeper and more specific understanding of this creation, as follows:

Please refer to FIG. 1 and FIG. 2 , and FIG. 6 , FIG. 7 and FIG. 8 are schematic diagrams of a block diagram, a signal transmission diagram and a use state of a preferred embodiment of the present invention. In the state of use, the user sequentially passes through the illumination areas A. At this time, the infrared sensing controllers 10 initiate sensing, and execute the single-area overlap sensing control program, and the single-area overlap sensing control The program includes an execution action and a shutdown action. The execution action is as shown in FIGS. 6-8. At least two sensing elements 12 simultaneously sense the user moving in the illumination area A, and transmit an execution signal to the operation. The wireless lighting fixture 30 activates the wireless lighting fixture 30, and the closing action is as shown in FIG. 8. When the user moves from one lighting area A to another, the closing action is two sensing elements. 12 If the user is not in the illumination area A, the infrared sensing controllers 10 transmit another execution signal to the wireless lighting fixtures 30 and turn off the wireless lighting fixtures 30 corresponding to the lighting area A.

In more detail, the present invention mainly uses Zigbee wireless signals to connect the infrared sensing controllers 10, and utilizes overlapping sensing of a plurality of illumination areas A, thereby improving the conventional infrared sensor to detect only movements. The problem of the object, but the type of the moving object cannot be discriminated, can also improve the problem that the conventional infrared sensor cannot determine the direction of the human body movement and first turn on the lighting fixture.

Please refer to FIG. 9 again, which is a schematic diagram of the state of use of a preferred embodiment of the present invention. When the user opens the door body 300, when the first sensing member 41 does not correspondingly magnetically attract the second sensing member 42, the wireless door magnetic switch sensor 40 transmits at least one execution signal to The wireless lighting fixtures 30, and the wireless lighting fixtures 30 are activated according to the execution signal; more specifically, the creation not only matches the single-zone overlapping sensing control program described above, but also provides a user with the door opening. The wireless lighting fixtures 30 are directly turned on to provide the user with practicality and convenience in use.

Please refer to FIG. 10 again, which is a schematic diagram of the state of use of a preferred embodiment of the present invention. In the state of use, when the user opens the door 300, the user can control the remote control device 50 and generate at least one control signal, and the wireless lighting fixtures 30 are wirelessly connected and paired with the remote control device. 50, and the wireless lighting fixtures 30 perform light switching according to the execution signal or control signal. Moreover, the remote control device 50 can be a voice voice control device or a push button wireless control device, and the embodiment is controlled by voice. For example, in other words, only a single voice control device or a push-button wireless control device is operated, and the control signal is connected and transmitted to the plurality of wireless lighting fixtures 30 by Zigbee wireless signals, thereby achieving light switching, brightness and color control, and Therefore, each wireless lighting fixture 30 does not need to be connected with a smart gateway, so as to greatly reduce the product cost of the overall system equipment, and can also perform the function of the light voice control; in addition, the creation is not only matched with the single area mentioned above. Overlapping the sensing control program, and at the same time, providing the user with direct control of the wireless device when using the remote control device 50 The lighting fixture 30 is used to provide practicality and convenience for use.

It is worth mentioning that the term "wireless" in this subject matter 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 the central information operation as in the prior art. Handle the smart gateway of the source.

Hereby, the characteristics of this creation and its achievable expected effects are stated as follows:

The wireless passive light control device 100 of the present invention mainly connects the infrared sensing controllers 10 with Zigbee wireless signals, and is matched with the single-region overlapping sensing control program, and the performing operation is at least two sensing elements 12 Simultaneously sensing the user in the illumination area A, and transmitting an execution signal to the wireless lighting fixtures 30, and causing the wireless lighting fixtures 30 to be activated, and the closing action is that at least two sensing elements 12 are not sensed. In the illumination area A, the infrared sensing controllers 10 transmit another execution signal to the wireless lighting fixtures 30 and turn off the wireless lighting fixtures 30 corresponding to the lighting area A.

In this way, the author has the following implementation effects and technical effects:

First, the creation system only needs to be controlled by a single remote control device 50 or utilizes the sensing methods of the plurality of infrared sensing controllers 10 to connect and issue control commands to the plurality of wireless lighting devices by Zigbee wireless signals, thereby achieving light switching and brightness. And color control, and so that each wireless lighting fixture 30 does not need to connect the smart gateway, can greatly reduce the product cost of the overall system equipment, and eliminate the problems and shortcomings of the prior art.

Secondly, the author uses Zigbee wireless signals to connect multiple infrared sensors and uses a method of overlapping sensing on an illumination area A, so that the improved infrared sensor can only detect moving objects, but cannot identify moving objects. The problem of the type can also improve the problem that the conventional infrared sensor cannot determine the direction of the human body movement and first turn on the lighting fixture.

Thirdly, this creation mainly uses Zigbee wireless transmission protocol technology, because of its low power consumption, low cost and the ability to instantly switch, brightness and acquire status information of the LED components of the wireless remote control outdoor lighting device. The light-emitting diode (LED) component with high luminous efficiency, low energy consumption and long life makes the control system of the Zigbee wireless network remote control LED outdoor illumination lamp have the advantages of low energy consumption, low cost and high transmission efficiency.

Fourth, the wireless lighting fixtures 30 can be switched according to whether the target object exists in the sensing area or not. When there is no target object in the area, the wireless lighting fixtures 30 are turned off, and when the target object exists, In the area, the user can utilize the remote control device 50 to control the emission of the wireless lighting fixture 30 to a specific lower intensity (for example, but not limited to, 1/2, 1/3, 1/4 brightness of the lighting unit, etc.) The light is provided to provide illumination of lower illumination; thereby, the creation has better operational convenience and energy saving effects.

In summary, this creation has its excellent progress and practicality in similar products. At the same time, it has investigated the technical information about such structures at home and abroad. The same structure has not been found in the literature. This creation has already possessed new types of patent requirements, and applied for it according to law.

However, the above-mentioned embodiments are merely preferred embodiments of the present invention, and the equivalent structural changes that are applied to the present specification and the scope of the patent application are intended to be included in the scope of the present patent.

100‧‧‧Wireless passive light control device
10‧‧‧Infrared sensor controller
11‧‧‧Shell
12‧‧‧Sensor components
13‧‧‧Drive components
14‧‧‧Wireless transmission components
15‧‧‧ lens
20‧‧‧ Pedestal
21‧‧‧ group slot
30‧‧‧Wireless lighting
31‧‧‧Group shell
32‧‧‧Drive Processing Module
33‧‧‧ZigBee wireless module
34‧‧‧LED light board
35‧‧‧shade
40‧‧‧Wireless magnetic switch sensor
41‧‧‧First sensing part
411‧‧‧Magnetic sensing unit
412‧‧‧Processing unit
413‧‧‧Signal transmission unit
42‧‧‧Second sensing parts
421‧‧‧ Magnetic components
50‧‧‧Remote control
200‧‧‧Power
300‧‧‧
301‧‧‧ wall
A‧‧‧Lighting area

1 is a block diagram of a device in accordance with a preferred embodiment of the present invention. FIG. 2 is a schematic diagram of signal transmission inside a device according to a preferred embodiment of the present invention. 3 is a perspective view showing an infrared sensing controller in a preferred embodiment of the present invention. 4 is an exploded perspective view showing a wireless lighting fixture in a preferred embodiment of the present invention. Figure 5 is a perspective view showing a wireless magnetic door sensor in a preferred embodiment of the present invention. FIG. 6 is a schematic diagram showing the use state of the infrared sensing controller in performing an action in a preferred embodiment of the present invention. FIG. 7 is a schematic diagram showing the use state of the infrared sensing controller in performing an action in a preferred embodiment of the present invention. FIG. 8 is a schematic diagram showing the use state of the infrared sensing controller in the closing action in a preferred embodiment of the present invention. FIG. 9 is a schematic diagram showing the use state of the wireless door magnetic switch sensor in a preferred embodiment of the present invention. FIG. 10 is a schematic diagram showing the state of use of the remote control device in a preferred embodiment of the present invention.

Claims (10)

A wireless passive light control device comprising: a plurality of infrared infrared sensor controllers, comprising: a housing, wherein the housing is provided with at least one sensing component, a driving component and a wireless transmission component, and the housing The system 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 overlap sensing control program, wherein the single-area sensing control program causes the infrared sensing controllers to Generating at least one execution signal; a plurality of pedestals connected to a mains and recessed with at least one set of slots; and a plurality of wireless lighting fixtures respectively disposed in the splicing slots of the pedestals, and the same The wireless lighting fixture is connected to the infrared sensing controllers, and the wireless lighting fixtures perform light switching according to the execution signal; wherein the single-region overlapping sensing control program includes an execution action and a closing action, and the execution action is At least two sensing elements simultaneously sense at least one human body in the illumination area, and transmit an execution signal to the wireless lighting fixtures, and enable the wireless The lighting device is activated, and the closing operation is performed by the at least two sensing elements not sensing the human body in the illumination area, and the infrared sensing controllers transmit another execution signal to the wireless lighting fixtures, and turn off the corresponding lighting These wireless lighting fixtures in the area. The wireless passive light control device according to the first aspect of the invention, further comprising at least one wireless magnetic switch sensor, each having a first sensing component and a second sensing component, the first The sensing component is provided with at least one magnetic sensing unit, at least one processing unit and at least one signal transmission unit, wherein the signal transmission unit is connected to the wireless lighting fixture by a wireless signal, and the second sensing component is At least one magnetic element is provided. The wireless passive light control device according to the second aspect of the invention, wherein the wireless magnetic switch sensor is when the first sensing component does not correspondingly magnetically attract the second sensing component, the wireless The magnetic switch sensor transmits at least one execution signal to the wireless lighting fixtures, and causes the wireless lighting fixtures to be activated according to the execution signal. The wireless passive light control device according to claim 2, wherein the wireless lighting fixtures are connected by a ZigBee wireless communication protocol, further wirelessly connecting and pairing the remote control device, the infrared sensing controller, and the wireless Magnetic switch sensor. The wireless passive lighting control device according to claim 1, wherein the wireless lighting fixture has a set of shells, a driving processing module, a ZigBee wireless module, an LED light board and a lampshade The driving processing module, the ZigBee wireless module, and the LED light board are disposed in the set of shells, and the light cover is disposed in the set of shells, and the LED light board is capable of generating a plurality of light colour. The wireless passive light control device according to claim 1, further comprising at least one remote control device for generating a control signal, wherein the wireless lighting device is connected to the wireless signal and paired with the remote control device, and The wireless lighting fixture performs light switching according to the execution signal or the control signal, and the remote control device is selected from one of a voice sound control device and a push button wireless control device. The wireless passive light control device according to claim 5, wherein the wireless lighting device 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. Light operation program of one of the light-off mode and the light situation setting mode. The wireless passive light control device according to claim 1, wherein the infrared sensing controller sets an operating time of the sensing component to induce the illumination region by infrared rays in at least one interval time, and The intervals are between 5 and 60 seconds. The wireless passive light control device according to claim 1, wherein each of the two infrared sensing controllers overlaps and senses an illumination area. The wireless passive light control device according to claim 9, wherein the single-region overlapping sensing control program is a plurality of infrared sensing controllers corresponding to overlapping sensing complex illumination regions.