CN110300482A

CN110300482A - Intelligent lamp and remote monitoring system

Info

Publication number: CN110300482A
Application number: CN201810239900.XA
Authority: CN
Inventors: 陈德仁; 夏芳华; 徐建利
Original assignee: Shenzhen Rich Cinnamon Precision Industry Co Ltd
Current assignee: Shenzhen Rich Cinnamon Precision Industry Co Ltd
Priority date: 2018-03-22
Filing date: 2018-03-22
Publication date: 2019-10-01
Anticipated expiration: 2038-03-22
Also published as: CN110300482B; TWI706383B; TW201942886A

Abstract

A kind of intelligent lamp includes light emitting diode, include at least one light emitting diode, for accessing external equipment, wherein at least one light emitting diode corresponds at least one working condition of the external equipment, when receiving the control signal of the external equipment output, respective leds are lit；First converting unit is electrically connected at least one described light emitting diode, for the control signal to be converted into the of-state voltage of the light emitting diode；Central processing unit is electrically connected to first converting unit, for the of-state voltage received to be converted into status signal；Wireless communication unit, for the status signal to be wirelessly transmitted to Cloud Server.The present invention also provides a kind of remote monitoring systems, and by above-mentioned intelligent lamp and remote monitoring system, user can obtain the working condition of of-state voltage real-time monitoring equipment from Cloud Server.

Description

Intelligent lamp and remote monitoring system

Technical field

The present invention relates to a kind of warning light more particularly to a kind of intelligent lamp and remote monitoring systems.

Background technique

Warning light can be all installed in usual test equipment, with the working condition for prompting equipment current.But currently The most equipment used is all without network savvy, so that remote equipment can not obtain the real-time status information of equipment in time, and Lead to not realize long-range monitoring.Can solve this problem by reforming equipment, but the period of reforming equipment it is long, it is costly and Process is complicated.

Summary of the invention

In view of this, to solve the problems, such as to realize long-range monitoring test equipment, also must it is necessary to provide a kind of intelligent lamp A kind of remote monitoring system is provided.

The intelligent lamp that an embodiment of the present invention provides, comprising:

A kind of intelligent lamp characterized by comprising

Light emitting diode includes at least one light emitting diode, for accessing external equipment, wherein at least one hair Optical diode corresponds at least one working condition of the external equipment, when the control signal for receiving the external equipment output When, respective leds are lit；

First converting unit is electrically connected at least one described light emitting diode, for the control signal to be converted into The of-state voltage of the light emitting diode；

Central processing unit is electrically connected to first converting unit, for the of-state voltage received to be converted into Status signal；

Wireless transmission unit is electrically connected to the central processing unit, for transmitting wirelessly away the status signal.

Preferably, the light emitting diode further include:

Second converting unit is electrically connected at least one described light emitting diode, is used for the external equipment according to equipment The control signal of state output is converted into driving voltage, to light at least one described light emitting diode.

Preferably, different light emitting diodes, which is lit, represents the current different working condition of the external equipment.

Preferably, the intelligent lamp further include:

Alarm unit, when the light emitting diode for representing equipment fault is lit, the alarm unit is simultaneously emitted by sound Alarm.

Preferably, the light emitting diode further include:

Connector is electrically connected to second converting unit, for accessing external equipment.

Preferably, first converting unit includes:

At least conversion circuit all the way is corresponded at least one described light emitting diode；

Every road conversion circuit includes:

AC conversion unit, for the external equipment to be converted into directly according to the voltage that equipment current working status exports Galvanic electricity pressure.

Switch unit is electrically connected to the AC conversion unit and the central processing unit, when receiving the direct current When pressure, switching means conductive, output state voltage to the central processing unit.

Preferably, the switch unit includes:

Optocoupler, includes input terminal and output end, and the input terminal is electrically connected to the AC conversion unit；

Triode, includes base stage, emitter and collector, and the base stage is electrically connected to the output end of the optocoupler, institute Emitter ground connection is stated, the collector is electrically connected to external voltage.

Preferably, the central processing unit includes:

At least one input/output port, at least one described input/output port respectively at least conversion circuit one all the way One is correspondingly connected with, and receives the of-state voltage by least one described input/output port.

In addition, to solve the above-mentioned problems, the present invention also provides a kind of remote monitoring systems characterized by comprising

An at least test equipment, for according to current working condition output control signal；

Such as the described in any item intelligent lamps of claim 1-8, it is electrically connected to the test equipment, for believing the control Number it is converted into status signal, and transmits wirelessly the status signal；

Cloud Server, for storing the status signal；

Client, for obtaining the status signal from the Cloud Server, to monitor an at least test equipment Working condition.

Preferably, the client is also used to the status signal point according at least one test equipment got Analyse the mobility of at least one test equipment.

Compared with the existing technology, the intelligent lamp and remote monitoring system that embodiment of the present invention provides, pass through receiving unit root According to the voltage that equipment current working status exports, and it is converted into the of-state voltage of light emitting diode, wherein the shape of light emitting diode State voltage is corresponding with equipment current working status, and of-state voltage is finally sent to Cloud Server, and user is by from Cloud Server Obtain the working condition of of-state voltage real-time monitoring equipment.

Detailed description of the invention

Fig. 1 is the module diagram of one embodiment of intelligent lamp of the present invention.

Fig. 2 is the module diagram of another embodiment of intelligent lamp of the present invention.

Fig. 3 is the circuit diagram of one specific embodiment of conversion circuit of the present invention.

Fig. 4 is the module transition diagram of one embodiment of remote monitoring system of the present invention.

Main element symbol description

Remote monitoring system 1

Intelligent lamp 10,10a

Light emitting diode 100,100a

Light emitting diode 110,110a, 120a, 130a

First converting unit 101,101a

Cloud Server 30,30a

Test equipment 20,20a

Second converting unit 140a

Connector 150a

Conversion circuit 1011a, 1012a, 1013a

Central processing unit 102,102a

Wireless communication unit 103,103a

AC conversion unit AD1

Filter unit F1

Switch unit S1

Resistance R1-R4

Diode D1

Capacitor C1

Optocoupler Q1

Triode J1

The present invention that the following detailed description will be further explained with reference to the above drawings.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.

In order to make the objectives, technical solutions, and advantages of the present invention clearer, below with reference to attached drawing and embodiment party Formula, in the present invention Power processing circuit and emergency electric system is described in further detail and related description.

Shown in Figure 1, Fig. 1 is the module diagram of one embodiment of intelligent lamp of the present invention.In the present embodiment, intelligence Energy lamp 10 includes light emitting diode 100, the first converting unit 101 and central processing unit 102 and wireless transmission unit 103。

In the present embodiment, light emitting diode 100 includes at least one light emitting diode 110.Light-emitting diodes Pipe unit 100, for accessing test equipment 20, when the control signal for receiving test equipment 20 and being exported according to current working status When, one or more light emitting diode 110 at least one light emitting diode 110 is lit, wherein control signal is electricity Signal is pressed, at least one light emitting diode corresponds at least one working condition of the external equipment.Test equipment 20 is tradition There is no the equipment of network savvy or board, such as chip mounter, intelligent lamp 10 replaces the warning light of test equipment 20, and according to prompt Intelligent lamp 10 is connected to test equipment 20 with the original connection relationship of test equipment 20 by lamp, before being not required to transformation board with realization It puts, intelligent lamp 10a receives the control signal that test equipment 20 exports.

In present embodiment, the color of each light emitting diode at least one light emitting diode 110 is different, different face The light emitting diode 100 of color, which is lit, represents the current working condition of test equipment 20.Such as red light emitting diodes are lit Test equipment 20 is represented to break down, green LED, which is lit, represents the normal work of test equipment 20, and Yellow luminous two Pole pipe, which is lit, to be represented test equipment 20 and is on the alert, if temperature is more than preset value.

First converting unit 101 is electrically connected to each light emitting diode 110, for receive light emitting diode 110 The control signal that test equipment 20 is exported according to current working status is converted into the of-state voltage of light emitting diode 110.

Central processing unit 102 is electrically connected to the first converting unit 101, the shape for will export from the first converting unit 101 State voltage is converted into status signal.Wireless transmission unit 103 is electrically connected to central processing unit 103, is used for the status signal It is wirelessly transmitted to Cloud Server 30.

The of-state voltage of light emitting diode 110 represents respective leds 110 and is lit, and different light emitting diodes 110 are lit the different working conditions for representing equipment, by the way that the status signal is sent to external Cloud Server, by equipment Current working status be sent to Cloud Server 30.User can obtain the status signal from Cloud Server, and then understand in real time The working condition of test equipment 20.

Referring to fig. 2, Fig. 2 show the module diagram of another embodiment of intelligent lamp 10a of the present invention.The intelligent lamp of Fig. 2 10a is the improvement carried out on the basis of intelligent lamp 10 of Fig. 1.

In the present embodiment, intelligent lamp 10a includes light emitting diode 100a, the first converting unit 101a, center Processor 102a and wireless communication unit 103a.Wherein light emitting diode 100a includes light emitting diode 110a, shines Diode 120a, light emitting diode 130a (only illustrating by taking 3 light emitting diodes as an example, be not limited thereto), the second conversion are single First 140a and connector 150a.First converting unit 101a include No. three conversion circuit 1011a, 1012a and 1013a (only Illustrate by taking 3 tunnels as an example, be not limited thereto, conversion circuit and light emitting diode correspond), per the structure of conversion circuit all the way It is identical.Central processing unit 102a includes that input/output port IO1, IO2 and IO3 (are only said by taking 3 input/output ports as an example It is bright, be not limited thereto).

As shown in Fig. 2, connector 150a, for accessing test equipment 20a.Second converting unit 140a, the company of being electrically connected to Device 150a is met, when connector 150a receives the control signal that test equipment 20a is exported according to current working status, wherein Control signal is voltage signal.Converting unit 140 converts this voltage to driving voltage.Light emitting diode 110a-130a difference It is electrically connected to the second converting unit 140a, when one of light emitting diode 110a-130a is lighted by the driving voltage, is represented Test equipment 20a current working condition, i.e., different light emitting diodes are lit that represent the test equipment 20a currently different Working condition.Conversion circuit 1011a-1013a is electrically connected in connector 150a, for connector 150a to be received survey The control signal that is exported according to current working status of examination equipment 20a be converted into light emitting diode 110a or light emitting diode 120a or The of-state voltage of light emitting diode 130a, wherein control signal is voltage signal.

Conversion circuit 1011a-1013a is also electrically connected to the input/output port IO1-IO3 of central processing unit 102a one by one.Turn It changes circuit 1011a-1013a and of-state voltage is transmitted to central processing unit 102a by input/output port IO1-IO3.Central processing The of-state voltage is converted into status signal by device 102a.

Wireless transmission unit 103a is electrically connected to central processing unit 102a, for receive central processing unit 102a Status signal is wirelessly transmitted to external Cloud Server 30a.User can obtain the status signal, Jin Ershi from Cloud Server 30a When understand test equipment 20a working condition.

In a specific embodiment of the invention, light emitting diode 110a is red light emitting diodes, light emitting diode 120a is yellow light-emitting diode, and light emitting diode 130a is green LED.When red light emitting diodes are lit generation Table test equipment 20a breaks down, and green LED, which is lit, represents test equipment 20a normal work, and Yellow luminous two Pole pipe, which is lit, to be represented test equipment 20a and is on the alert, if temperature is more than preset value.Specifically, working as test equipment 20a When breaking down, the control signal that test equipment 20a is exported according to malfunction is converted into driving voltage by converting unit 140, The driving voltage lights red light emitting diodes 110a, while the conversion circuit being electrically connected with red light emitting diodes 110a Test equipment 20a is converted into the of-state voltage of red light emitting diodes 110a by 1011a according to the voltage that malfunction exports, and is turned It changes circuit 1011a and the of-state voltage of red light emitting diodes 110a is transmitted to by central processing unit by input/output port IO1 Of-state voltage is converted into status signal in turn by 102a, central processing unit 102a.And then wireless transmission unit 103a is by the state Voltage is sent to external Cloud Server 30a, thus by the current working status of equipment is sent to external Cloud Server 30a.

In other embodiments of the invention, intelligent lamp 10a may also include alarm unit (not shown), alarm unit, When the light emitting diode for representing equipment fault is lit, alarm unit is simultaneously emitted by audio alarm.

The circuit diagram of one embodiment of conversion circuit of the present invention is shown referring to Fig. 3, Fig. 3.

In the present embodiment, conversion circuit 1011 includes AC conversion unit AD1, and AC conversion unit AD1 includes the One input terminal, the second input terminal, the first output end and second output terminal, first input end is hanging, and the second input terminal passes through electricity Resistance R4 is electrically connected to connector 150, for external equipment to be converted into direct current according to the voltage that equipment current working status exports Voltage.In the present embodiment, AC conversion unit AD1 is preferably the rectifier bridge bridge heap of TAITRON company: MB6M.Switch unit S1 is electrically connected to the input/output port IO1 of AC conversion unit AD1 and central processing unit 102, when receiving DC voltage, Switch unit S1 conducting, output state voltage to central processing unit 102.

In the present embodiment, conversion circuit 1011 further includes filter unit F1, filter unit F1 include diode D1 with And capacitor C1, for DC voltage filtering.The anode of diode D1 is electrically connected to the first output of AC conversion unit AD1 End, the cathode of diode D1 are electrically connected to the second output terminal of AC conversion unit AD1.The anode of capacitor C1 is electrically connected to two poles The cathode of pipe D1, the cathode of capacitor C1 are electrically connected to the anode of diode D1.

In the present embodiment, switch unit S1 includes optocoupler Q1, resistance R1, resistance R2, resistance R3 and triode J1. The first input end of optocoupler Q1 is electrically connected to the anode of capacitor C1, and the second input terminal of optocoupler Q1 is electrically connected to the negative of capacitor C1 Pole, the defeated end of the second of optocoupler Q1 are electrically connected to voltage VCC (in embodiments, external voltage is+.3.V), and the first of optocoupler Q1 Output end is electrically connected to the base stage of triode J1 by resistance R1, and the first output end of optocoupler Q1 also passes through resistance R2 and is electrically connected to The emitter of triode J.The emitter of triode J1 is grounded, and the collector of triode J1 is electrically connected to voltage by resistance R3 VCC, the collector of triode J1 are also electrically coupled to the input/output terminal IO1 of central processing unit 102.When switch unit S1 is received When exchanging the DC voltage of converting unit AD1 output, optocoupler Q1 conducting, triode J1 conducting, the collector output of triode J1 Of-state voltage is to central processing unit 102.

Referring to fig. 4, Fig. 4 show the module diagram of one embodiment of remote monitoring system of the present invention.

In the present embodiment, remote monitoring system 1 include an at least test equipment 20, at least one intelligent lamp 10, Cloud Server 30 and client 40.

In the present embodiment, every test equipment 20 is electrically connected in an intelligent lamp 10, current for basis Working condition output voltage is to intelligent lamp 10.The internal structure and its working principle of intelligent lamp 10, it is above-mentioned to have elaborated, This is no longer described in detail.

In the present embodiment, intelligent lamp 10 is preferably integrated tri coloured lantern, can issue the light of red greenish-yellow three kinds of colors.Intelligence Energy lamp 10 issues different light and represents the current working condition of external equipment.Such as red represents external equipment and breaks down, it is green Color represents external equipment normal work, and yellow represents external equipment and is on the alert, if temperature is more than preset value.Intelligent lamp 10 Test equipment 20 is converted into the status signal of intelligent lamp 10 according to the control signal that current working condition exports and is wirelessly sent out It send to Cloud Server 30, the current working status photos and sending messages of test equipment is sent to Cloud Server 30.Cloud Server 30 is used for Store the status signal that intelligent lamp 10 transmits wirelessly.Client 40 is used to obtain status signal from Cloud Server 30, to monitor extremely The working condition of a few test equipment 20 is also used to according to the analysis of the status signal of the every test equipment 20 got The mobility of at least one test equipment 20.By remote monitoring system 1, user can monitor the work of every equipment 20 in real time State.

Compared with the existing technology, the intelligent lamp and remote monitoring system that embodiment of the present invention provides, pass through receiving unit root According to the voltage that equipment current working status exports, and it is converted into the of-state voltage of light emitting diode, wherein the shape of light emitting diode State voltage is corresponding with equipment current working status, and then of-state voltage is converted into state corresponding with test equipment working condition Status signal is finally sent to Cloud Server by signal, and user is by obtaining status signal real-time monitoring equipment from Cloud Server Working condition.

Finally it should be noted that the above examples are only used to illustrate the technical scheme of the present invention and are not limiting, although reference Preferred embodiment describes the invention in detail.Those skilled in the art should understand that can be to of the invention Technical solution is modified or equivalent replacement, without departing from the spirit and scope of the technical solution of the present invention.Also, based on the present invention In embodiment, every other implementation obtained by those of ordinary skill in the art without making creative efforts Example, will all belong to the scope of protection of the invention.

Claims

1. a kind of intelligent lamp characterized by comprising

Light emitting diode includes at least one light emitting diode, for accessing external equipment, wherein at least one luminous two Pole pipe corresponds at least one working condition of the external equipment, when receiving the control signal of the external equipment output, Respective leds are lit；

First converting unit is electrically connected at least one described light emitting diode, described for the control signal to be converted into The of-state voltage of light emitting diode；

Central processing unit is electrically connected to first converting unit, for the of-state voltage received to be converted into state Signal；

2. intelligent lamp as described in claim 1, which is characterized in that the light emitting diode further include:

Second converting unit is electrically connected at least one described light emitting diode, is used for the external equipment according to equipment state The control signal of output is converted into driving voltage, to light at least one described light emitting diode.

3. intelligent lamp as claimed in claim 2, which is characterized in that different light emitting diodes, which is lit, to be represented the outside and set Standby current different working condition.

4. intelligent lamp as claimed in claim 3, which is characterized in that further include:

Alarm unit, when the light emitting diode for representing equipment fault is lit, the alarm unit is simultaneously emitted by audio alarm.

5. intelligent lamp as claimed in claim 2, which is characterized in that the light emitting diode further include:

6. intelligent lamp as described in claim 1, which is characterized in that first converting unit includes:

Every road conversion circuit includes:

AC conversion unit, for the external equipment to be converted into direct current according to the voltage that equipment current working status exports Pressure；

Switch unit is electrically connected to the AC conversion unit and the central processing unit, when receiving the DC voltage, Switching means conductive, output state voltage to the central processing unit.

7. intelligent lamp as claimed in claim 6, which is characterized in that the switch unit includes:

Triode, includes base stage, emitter and collector, and the base stage is electrically connected to the output end of the optocoupler, the hair Emitter grounding, the collector are electrically connected to external voltage.

8. intelligent lamp as claimed in claim 6, which is characterized in that the central processing unit includes:

At least one input/output port, at least one described input/output port respectively with described at least conversion circuit one is a pair of all the way It should connect, the of-state voltage is received by least one described input/output port.

9. a kind of remote monitoring system characterized by comprising

Such as the described in any item intelligent lamps of claim 1-8, it is electrically connected to the test equipment, for turning the control signal It changes status signal into, and transmits wirelessly the status signal；

Cloud Server, for storing the status signal；

Client, for obtaining the status signal from the Cloud Server, to monitor the work of at least one test equipment Make state.

10. remote monitoring system as claimed in claim 9, it is characterised in that:

The client is also used to the status signal analysis described at least one according at least one test equipment got The mobility of platform test equipment.