CN105042383A - Environment-friendly and energy-saving remote control integrated fluorescent lamp - Google Patents

Abstract

The invention relates to an environment-friendly and energy-saving remote control integrated fluorescent lamp. The environment-friendly and energy-saving remote control integrated fluorescent lamp comprises a lamp rack. A first lamp holder and a second lamp holder are arranged at the two ends of the lamp rack respectively. Ballasts are arranged on the first lamp holder and the second lamp holder respectively. Modulator tubes are turned on and turned off through the ballasts corresponding to the modulator tubes in a one-to-one correspondence manner. The ballasts are connected with a control circuit which is connected with a signal processing unit. A photoelectric sensor set is arranged indoors and comprises at least two photoelectric sensors which independently collect indoor light ray information. The brightness degrees of multiple indoor points are judged in a redundancy judgment manner; and in addition, the modulator tubes are controlled to be turned on and turned off in a remote wireless control manner, the indoor brightness can be automatically controlled, electric energy is saved, and the requirement of users for brightness is quite conveniently met.

Description

A kind of environmental protection and energy saving remote-control integral fluorescent lamp

Technical field

The present invention relates to electricity-saving lamp field, particularly relate to a kind of environmental protection and energy saving remote-control integral fluorescent lamp.

Background technology

Fluorescent lamp of the prior art often bright-dark degree can not control, and when not needing light, still capacity operation, causes the waste of electric energy; Although or can regulate, need manual adjustments, can not environmentally change real-time adjustment.

As China Patent Publication No.: 20200204U discloses a kind of tube stand, can be regulated the brightness of fluorescent lamp by the mode of remote control, this kind of regulative mode can not regulate in real time, and energy-saving effect is not good, and illuminating effect is not good yet.

In view of above-mentioned defect, creator of the present invention obtains this creation finally through long research and practice.

Summary of the invention

The object of the present invention is to provide a kind of environmental protection and energy saving remote-control integral fluorescent lamp, in order to overcome above-mentioned technological deficiency.

For achieving the above object, the invention provides a kind of environmental protection and energy saving remote-control integral fluorescent lamp, comprise lamp bracket, the two ends of lamp bracket are respectively arranged with the first lamp socket and the second lamp socket, and the first lamp socket and the second lamp socket are provided with ballast;

The opening and closing of each fluorescent tube by with its one to one ballast control, ballast is connected with control circuit, described control circuit is connected with signal processing unit, a photoelectric sensor group is provided with in indoor, photoelectric sensor group comprises at least two photoelectric sensors, gathers indoor light information respectively;

The multiple image data of described signal processing unit to often kind of signal judges, determines whether to exceed threshold range; In signal processing unit, be provided with a comparison module, be specially comparator, gather the voltage and current value that each sensor gathers respectively; It carries out calculation process to the electric current stored in all signal processing units and voltage acquisition signal;

In signal processing unit, be provided with a comparison module, it comprises data processing unit and data storage, and data processing unit comprises MCU processor, and it obtains registration threshold value P from data storage ₀, described MCU processor is by the coincidence angle value of described calculating gained and registration threshold value P ₀compare, if described coincidence angle value is greater than threshold value, then conclude that a certain monitoring index surpasss the expectation, then described signal processing unit sends control signal to control circuit.

Further, described control circuit is connected with the first ballast and the second ballast respectively, and when the light that photoelectric sensor detects is stronger, then described control circuit controls arbitrary ballast action, closes one group of fluorescent tube; When the light that photoelectric sensor detects is more weak, then described control circuit controls at least one ballast action, opens at least one group of fluorescent tube.

Further, comparison module calculates the second sensor in many groups electric current of a certain sample magnitude and voltage signal according to the following equation and first sensor is gathered to the registration P of numerical value ₂₁,

$P_{21}(u_1,i_1)=\frac{{\mathrm{\Σ}}_{u_2,i_2}(T(u_2,i_2)*I\′(u_1+u_2,i_1+i_2))}{\sqrt{{\mathrm{\Σ}}_{u_2,i_2}T{(u_2,i_2)}^2*{\mathrm{\Σ}}_{u_2,i_2}I{(u_1+u_2,i_1+i_2)}^2}}$ (1)

In formula, P ₂₁(u ₁, i ₁) represent the registration often organizing electric current and voltage signal, u ₁and i ₁represent voltage signal, current signal that first sensor gathers respectively, u ₂and i ₂represent voltage signal, current signal that described second sensor gathers respectively, T represents mean square deviation computing, I and I ' represents integral operation.

Further, described second sensor is to the signal registration P of first sensor ₂₁calculate according to the following equation;

$P_{21}(u,i)=\frac{\underset{j=1}{\overset{M}{\mathrm{\Σ}}}{P}_{1j}(u_1,i_1)}{M}$ (2)

In formula, M represents sampling group number, and j represents sequence number, P _1j(u ₁, i ₁) represent and often organize the second sensor described in signal to the signal registration of first sensor.

Further, the first described fluorescent tube is arranged on inside the first lamp socket; Second fluorescent tube is arranged on the inner side of the second lamp socket.

Further, the length of the first described fluorescent tube is longer than the length of the second fluorescent tube.

Further, described signal processing unit and control circuit are integrated in a mobile terminal, and described mobile terminal sends wireless control signal to ballast;

Wireless transmitting terminals is provided with in described mobile terminal, it is Bluetooth transmission end or WIFI transmitter, realize point-to-point by low bandwidth electric wave, or the information interchange between point-to-multipoint, WIFI transmitter is by the point-to-point wireless telecommunications of base station and terminal, link layer adopts Ethernet protocol to be core, to realize addressing and the verification of information transmission.

Beneficial effect of the present invention is compared with prior art: in the present invention, the opening and closing of each described fluorescent tube by with its one to one ballast control, ballast is connected with control circuit, described control circuit is connected with signal processing unit, is provided with a photoelectric sensor group in indoor.By the mode that redundancy judges, judge the bright degree of indoor multipoint, and, the opening and closing of fluorescent tube is controlled by the mode of remote wireless control, can light in automatic control room, save electric energy, the brightness demand of person greatly easy to use.

Accompanying drawing explanation

Fig. 1 is the structural representation of environmental protection and energy saving remote-control integral fluorescent lamp of the present invention;

Fig. 2 is the functional block diagram of environmental protection and energy saving remote-control integral fluorescent lamp of the present invention.

Detailed description of the invention

Below in conjunction with accompanying drawing, to above-mentioned being described in more detail with other technical characteristic and advantage of the present invention.

Refer to shown in Fig. 1, it is the structural representation of environmental protection and energy saving remote-control integral fluorescent lamp of the present invention, in embodiments of the present invention, fluorescent tube is provided with at least two or two groups, respectively by different ballast driven, control unit, according to the light levels of indoor, controls the duty of fluorescent tube, opens or close.

In embodiments of the present invention, the two ends of lamp bracket 1 are respectively arranged with the first lamp socket 23 and the second lamp socket 12, and the first lamp socket 23 and the second lamp socket 12 are provided with ballast, and the first fluorescent tube 11 is arranged on inside the first lamp socket 23; Second fluorescent tube 21 is arranged on the inner side of the second lamp socket 22.

In embodiments of the present invention, the first lamp socket 23 and the second lamp socket 12 are arranged on the not ipsilateral of lamp bracket 1; In actual use, on each side of lamp bracket 1, fluorescent tube can be set respectively as required; The situation that the present embodiment only arranges fluorescent tube with two sides is described; It is identical with the control mode that each face arranges fluorescent tube.

In order to ensure to have the space of installing fluorescent tube on lamp bracket 1, in embodiments of the present invention, the length of the first fluorescent tube is longer than the length of the second fluorescent tube; Further, the quantity of the first fluorescent tube and the second fluorescent tube can suitably increase, and arranges two fluorescent tubes respectively in the present embodiment in each side; Also namely, the first fluorescent tube comprises two fluorescent tubes, opens or closes simultaneously.

In embodiments of the present invention, the opening and closing of each fluorescent tube by with its one to one ballast control, ballast is connected with control circuit, described control circuit is connected with signal processing unit, a photoelectric sensor group is provided with in indoor, in the present embodiment, photoelectric sensor group comprises at least two photoelectric sensors, gathers indoor light information respectively.

The present embodiment is described for three photoelectric sensors, and the multiple image data of described signal processing unit to often kind of signal judges, determines whether to exceed threshold range; In signal processing unit, be provided with a comparison module, be specially comparator, gather the voltage and current value that each sensor gathers respectively; It carries out calculation process to the electric current stored in all signal processing units and voltage acquisition signal, and calculates the second sensor in many groups electric current of a certain sample magnitude and voltage signal according to the following equation and first sensor is gathered to the registration P of numerical value ₂₁,

$P_{21}(u_1,i_1)=\frac{{\mathrm{\Σ}}_{u_2,i_2}(T(u_2,i_2)*I\′(u_1+u_2,i_1+i_2))}{\sqrt{{\mathrm{\Σ}}_{u_2,i_2}T{(u_2,i_2)}^2*{\mathrm{\Σ}}_{u_2,i_2}I{(u_1+u_2,i_1+i_2)}^2}}$ (1)

In formula, P ₂₁(u ₁, i ₁) represent the registration often organizing electric current and voltage signal, u ₁and i ₁represent voltage signal, current signal that first sensor gathers respectively, u ₂and i ₂represent voltage signal, current signal that described second sensor gathers respectively, T represents mean square deviation computing, I and I ' represents integral operation;

Described second sensor is to the signal registration P of first sensor ₂₁calculate according to the following equation;

$P_{21}(u,i)=\frac{\underset{j=1}{\overset{M}{\mathrm{\Σ}}}{P}_{1j}(u_1,i_1)}{M}$ (2)

In formula, M represents sampling group number, and j represents sequence number, P _1j(u ₁, i ₁) represent and often organize the second sensor described in signal to the signal registration of first sensor.

$P_{31}(u_1,i_1)=\frac{{\mathrm{\Σ}}_{u_3,i_3}(T(u_3,i_3)*I\′(u_1+u_3,i_1+i_3))}{\sqrt{{\mathrm{\Σ}}_{u_3,i_3}T{(u_3,i_3)}^2*{\mathrm{\Σ}}_{u_3,i_3}I{(u_1+u_3,i_1+i_3)}^2}}$ (3)

In formula, P ₃₁(u ₁, i ₁) represent the registration often organizing electric current and voltage signal, u ₁and i ₁represent voltage signal, current signal that first sensor gathers respectively, u ₃and i ₃represent voltage signal, current signal that described 3rd sensor gathers respectively, T represents mean square deviation computing, I and I ' represents integral operation;

Described comparing unit calculates the signal registration P of the second sensor to sensor ₂₁, the 3rd sensor is to the signal registration P of first sensor ₃₁, the 3rd sensor is to the signal registration P of the second sensor ₃₂.

In signal processing unit, be provided with a comparison module, it comprises data processing unit and data storage, and data processing unit comprises MCU processor, and it obtains registration threshold value P from data storage ₀, described MCU processor is by the coincidence angle value of described calculating gained and registration threshold value P ₀compare, if described coincidence angle value is greater than threshold value, then conclude that a certain monitoring index surpasss the expectation, then described signal processing unit sends control signal to control circuit.

In embodiments of the present invention, described control circuit is connected with the first ballast and the second ballast respectively, and when the light that photoelectric sensor detects is stronger, then described control circuit controls arbitrary ballast action, closes one group of fluorescent tube; When the light that photoelectric sensor detects is more weak, then described control circuit controls at least one ballast action, opens at least one group of fluorescent tube, ensures that indoor light intensity is in the scope preset.

In embodiments of the present invention, described signal processing unit and control circuit are integrated in a mobile terminal, and described mobile terminal sends wireless control signal to ballast; Realize Remote.

Wireless transmitting terminals is provided with in described mobile terminal, it is Bluetooth transmission end or WIFI transmitter, realize point-to-point by low bandwidth electric wave, or the information interchange between point-to-multipoint, WIFI transmitter is by the point-to-point wireless telecommunications of base station and terminal, link layer adopts Ethernet protocol to be core, to realize addressing and the verification of information transmission.

In the present invention, the opening and closing of each described fluorescent tube by with its one to one ballast control, ballast is connected with control circuit, and described control circuit is connected with signal processing unit, is provided with a photoelectric sensor group in indoor.By the mode that redundancy judges, judge the bright degree of indoor multipoint, and, the opening and closing of fluorescent tube is controlled by the mode of remote wireless control, can light in automatic control room, save electric energy, the brightness demand of person greatly easy to use.

User according to self actual demand setting bright degree, can realize the high-end demand customized.

The foregoing is only preferred embodiment of the present invention, is only illustrative for invention, and nonrestrictive.Those skilled in the art is understood, and can carry out many changes in the spirit and scope that invention claim limits to it, amendment, even equivalence, but all will fall within the scope of protection of the present invention.

Claims (7)

1. an environmental protection and energy saving remote-control integral fluorescent lamp, is characterized in that, comprises lamp bracket, and the two ends of lamp bracket are respectively arranged with the first lamp socket and the second lamp socket, and the first lamp socket and the second lamp socket are provided with ballast;

The opening and closing of each fluorescent tube by with its one to one ballast control, ballast is connected with control circuit, described control circuit is connected with signal processing unit, a photoelectric sensor group is provided with in indoor, photoelectric sensor group comprises at least two photoelectric sensors, gathers indoor light information respectively;

The multiple image data of described signal processing unit to often kind of signal judges, determines whether to exceed threshold range; In signal processing unit, be provided with a comparison module, be specially comparator, gather the voltage and current value that each sensor gathers respectively; It carries out calculation process to the electric current stored in all signal processing units and voltage acquisition signal;

In signal processing unit, be provided with a comparison module, it comprises data processing unit and data storage, and data processing unit comprises MCU processor, and it obtains registration threshold value P from data storage ₀, described MCU processor is by the coincidence angle value of described calculating gained and registration threshold value P ₀compare, if described coincidence angle value is greater than threshold value, then conclude that a certain monitoring index surpasss the expectation, then described signal processing unit sends control signal to control circuit.

2. environmental protection and energy saving remote-control integral fluorescent lamp according to claim 1, it is characterized in that, described control circuit is connected with the first ballast and the second ballast respectively, when the light that photoelectric sensor detects is stronger, then described control circuit controls arbitrary ballast action, closes one group of fluorescent tube; When the light that photoelectric sensor detects is more weak, then described control circuit controls at least one ballast action, opens at least one group of fluorescent tube.

3. environmental protection and energy saving remote-control integral fluorescent lamp according to claim 2, is characterized in that, comparison module calculates the second sensor in many groups electric current of a certain sample magnitude and voltage signal according to the following equation and first sensor gathered to the registration P of numerical value ₂₁,

$P_{21}(u_1,i_1)=\frac{{\mathrm{\Σ}}_{u_2,i_2}(T(u_2,i_2)*I^{\′}(u_1+u_2,i_1+i_2))}{\sqrt{{\mathrm{\Σ}}_{u_2,i_2}T{(u_2,i_2)}^2*{\mathrm{\Σ}}_{u_2,i_2}I{(u_1+u_2,i_1+i_2)}^2}}---\left(1\right)$

In formula, P ₂₁(u ₁, i ₁) represent the registration often organizing electric current and voltage signal, u ₁and i ₁represent voltage signal, current signal that first sensor gathers respectively, u ₂and i ₂represent voltage signal, current signal that described second sensor gathers respectively, T represents mean square deviation computing, I and I ' represents integral operation.

4. environmental protection and energy saving remote-control integral fluorescent lamp according to claim 3, is characterized in that, described second sensor is to the signal registration P of first sensor ₂₁calculate according to the following equation;

$P_{21}(u,i)=\frac{\underset{j=1}{\overset{M}{\mathrm{\Σ}}}{P}_{1j}(u_1,i_1)}{M}---\left(2\right)$

In formula, M represents sampling group number, and j represents sequence number, P _1j(u ₁, i ₁) represent and often organize the second sensor described in signal to the signal registration of first sensor.

5. environmental protection and energy saving remote-control integral fluorescent lamp according to claim 2, is characterized in that, the first described fluorescent tube is arranged on inside the first lamp socket; Second fluorescent tube is arranged on the inner side of the second lamp socket.

6. environmental protection and energy saving remote-control integral fluorescent lamp according to claim 2, is characterized in that, the length of the first described fluorescent tube is longer than the length of the second fluorescent tube.

7. environmental protection and energy saving remote-control integral fluorescent lamp according to claim 2, is characterized in that, described signal processing unit and control circuit are integrated in a mobile terminal, and described mobile terminal sends wireless control signal to ballast;

Wireless transmitting terminals is provided with in described mobile terminal, it is Bluetooth transmission end or WIFI transmitter, realize point-to-point by low bandwidth electric wave, or the information interchange between point-to-multipoint, WIFI transmitter is by the point-to-point wireless telecommunications of base station and terminal, link layer adopts Ethernet protocol to be core, to realize addressing and the verification of information transmission.