CN109347976A - Robot remote real-time monitoring system based on cloud computing - Google Patents

Abstract

The invention discloses the robot remote real-time monitoring systems based on cloud computing, including signal receiving circuit, enhance push-pull circuit and amplifier output circuit, the signal receiving circuit receives the data-signal that the robot remote controlling terminal based on cloud computing receives signal signal transmission passage input terminal, the enhancing push-pull circuit uses triode Q1, triode Q2 and triode Q3 and variable resistance RW1, variable resistance RW2 forms signal intensifier circuit adjustment signal frequency, transport and placing device AR4 is devised simultaneously, the rectification circuit of diode D4 and resistance R11 composition is to signal rectification, and use triode Q5, triode Q6 and diode D6, diode D7 forms push-pull circuit and eliminates signal self-excitation, the last amplifier output circuit is steady with triode Q7 and voltage-stabiliser tube D8 composition triode It is exported after volt circuit pressure stabilizing, real-time detection robot remote controlling terminal receives the signal of signal signal transmission passage input terminal, and can calibrate automatically to signal, eliminates signal self-excitation.

Description

Robot remote real-time monitoring system based on cloud computing

Technical field

The present invention relates to field of circuit technology, more particularly to the robot remote real-time monitoring system based on cloud computing.

Background technique

Robot is to automatically control machine (Robot) to be commonly called as, automatically control machine include all simulation human behaviors or The machinery (such as robot dog, Doraemon etc.) of thought and simulation other biological, wherein the robot based on cloud computing is to research and develop at present One of Main way, that is to say based on cloud computing, remote control terminal controls multiple robots work simultaneously, however is based on cloud The robot remote controlling terminal of calculating receives signal and is easy in the transmission with the data-signal of signal transmission passage input terminal There is signal self-excitation phenomena, or even will appear abnormal signal, leads to distorted signals, it is remote to seriously affect the robot based on cloud computing The analysis to signal of process control terminal is handled, to issue the control instruction of mistake.

So the present invention provides the new scheme of one kind to solve the problems, such as this.

Summary of the invention

For above situation, for the defect for overcoming the prior art, purpose of the present invention is to provide the machines based on cloud computing Device people's remote real time monitoring system, have be skillfully constructed, the characteristic of human oriented design, robot of the real-time detection based on cloud computing Remote control terminal receives the signal of signal signal transmission passage input terminal, and can calibrate automatically to signal, eliminates signal certainly Swash.

Its technical solution solved is the robot remote real-time monitoring system based on cloud computing, including signal receives electricity Road, enhancing push-pull circuit and amplifier output circuit, the signal receiving circuit receive the robot remote control based on cloud computing The data-signal of terminal received signals signal transmission passage input terminal, with inductance L1 and capacitor C1, capacitor C2 composition π type filter After wave circuit filtering in input enhancing push-pull circuit, the enhancing push-pull circuit uses triode Q1, triode Q2 and triode Q3 and variable resistance RW1, variable resistance RW2 form signal intensifier circuit adjustment signal frequency, while devising transport and placing device The rectification circuit of AR4, diode D4 and resistance R11 composition uses triode Q5, triode Q6 and two poles to signal rectification Pipe D6, diode D7 form push-pull circuit and eliminate signal self-excitation, wherein in triode Q4 feedback signal to signal intensifier circuit, adjust Signal intensifier circuit output signal current potential is saved, the last amplifier output circuit uses transport and placing device AR2 with phase amplified signal, simultaneously With exporting after triode Q7 and voltage-stabiliser tube D8 composition triode voltage regulator circuit pressure stabilizing, machine of the input based on cloud computing that is to say People's remote control terminal receives in signal signal transmission passage；

The enhancing push-pull circuit includes triode Q1, one end of the base stage connecting resistance R1 of triode Q1, resistance R2, triode Q1 Collector connecting transistor Q2 emitter, the other end of the base stage connecting resistance R1 of triode Q2, the collector of triode Q2 connects One end of resistance R8 and the anode of diode D2, another termination power+10V of resistance R8, the emitter of triode Q1 connect capacitor One end of C3 and one end of resistance R3, the contact 1 of another termination variable resistance RW1 of capacitor C3 and one end of resistance R4, resistance The other end of R2- resistance R4 is grounded, and the contact 2 of variable resistance RW1 connects one end of capacitor C4, and the contact 3 of variable resistance RW2 connects three One end of the other end of the emitter of pole pipe Q3 and capacitor C4, resistance R5, the collector of triode Q3 connect the touching of variable resistance RW2 The contact 3 of point 2, variable resistance RW2, the base stage of triode Q3 connect one end of capacitor C5, resistance R6, resistance R7 and resistance R10, electricity Hold the other end ground connection of C5, resistance R7, the cathode of the other end of the 1 connecting resistance R6 of contact of variable resistance RW2 and diode D2 with And the anode of diode D3, the non-inverting input terminal of another termination transport and placing device AR4 of resistance R10 and the base stage of triode Q4, three poles The other end of the emitter connecting resistance R5 of pipe Q4, the collector of triode Q4 connect the anode of the anode of diode D5, diode D4 With the output end of transport and placing device AR4, transport and placing device AR4 anti-phase input termination diode D4 cathode and resistance R11, resistance R9 one End, the other end ground connection of resistance R9, the cathode of another terminating diode D5 of resistance R11 and cathode, the diode of diode D6 The anode of D7, the anode of diode D6 connect triode Q5 base stage and resistance R14 one end you, the emitter of triode Q5 connects electricity Hinder the other end of R14 and the cathode of diode D3, the one of the emitter of the collector connecting transistor Q6 of triode Q5 and resistance R13 End, the other end of the collector connecting resistance R12 of triode Q6, resistance R13.

Due to the use of above technical scheme, the present invention has the following advantages that compared with prior art；

1. forming signal enhancing with triode Q1, triode Q2 and triode Q3 and variable resistance RW1, variable resistance RW2 Circuit adjustment signal frequency, triode Q1, triode Q2 play the effect of enhancing signal, by adjusting variable resistance RW1, can be changed The adjustable signal frequency size of the resistance value of resistance RW2, capacitor C4, capacitor C5 are filter capacitor, while devising transport and placing device The rectification circuit of AR4, diode D4 and resistance R11 composition plays the effect for filtering out abnormal signal clutter, stablizes to signal rectification Signal, and signal self-excitation is eliminated with triode Q5, triode Q6 and diode D6, diode D7 composition push-pull circuit, prevent Stop signal distortion, for further stabilization signal, in triode Q4 feedback signal to signal intensifier circuit, adjustment signal increases Strong circuit output signal current potential, preventing signal potential from crossing conference keeps signal frequency abnormal, realizes the automatic calibration to signal, prevents Stop signal distortion.

Detailed description of the invention

Fig. 1 is that the present invention is based on the module maps of the robot remote real-time monitoring system of cloud computing.

Fig. 2 is that the present invention is based on the schematic diagrams of the robot remote real-time monitoring system of cloud computing.

Specific embodiment

For the present invention aforementioned and other technology contents, feature and effect, in following cooperation with reference to figures 1 through attached drawing 2 To in the detailed description of embodiment, can clearly present.The structure content being previously mentioned in following embodiment is with specification Attached drawing is reference.

Embodiment one, the robot remote real-time monitoring system based on cloud computing, including signal receiving circuit, enhancing are recommended Circuit and amplifier output circuit, the signal receiving circuit receive the robot remote controlling terminal based on cloud computing and receive signal With the data-signal of signal transmission passage input terminal, after inductance L1 and capacitor C1, capacitor C2 composition π type filter circuit filtering In input enhancing push-pull circuit, the enhancing push-pull circuit uses triode Q1, triode Q2 and triode Q3 and can power transformation Hinder RW1, variable resistance RW2 form signal intensifier circuit adjustment signal frequency, while devise transport and placing device AR4, diode D4 and The rectification circuit of resistance R11 composition uses triode Q5, triode Q6 and diode D6, diode D7 to signal rectification It forms push-pull circuit and eliminates signal self-excitation, wherein in triode Q4 feedback signal to signal intensifier circuit, adjustment signal enhancing electricity Road output signal current potential, the last amplifier output circuit uses transport and placing device AR2 with phase amplified signal, while using triode Q7 It is exported after forming the pressure stabilizing of triode voltage regulator circuit with voltage-stabiliser tube D8, that is to say and input the robot remote control based on cloud computing eventually The termination collection of letters number is in signal transmission passage；

The enhancing push-pull circuit uses triode Q1, triode Q2 and triode Q3 and variable resistance RW1, variable resistance RW2 forms signal intensifier circuit adjustment signal frequency, and triode Q1, triode Q2 play the effect of enhancing signal, pass through adjusting The adjustable signal frequency size of resistance value of variable resistance RW1, variable resistance RW2, capacitor C4, capacitor C5 are filter capacitor, together When devise transport and placing device AR4, diode D4 and resistance R11 composition rectification circuit to signal rectification, play and filter out abnormal signal The effect of clutter, stabilization signal, and push-pull circuit is formed with triode Q5, triode Q6 and diode D6, diode D7 Signal self-excitation is eliminated, distorted signals is prevented, for further stabilization signal, with triode Q4 feedback signal to signal enhancing electricity In road, adjustment signal enhances circuit output signal current potential, and preventing signal potential from crossing conference keeps signal frequency abnormal, realizes to letter Number automatic calibration, prevent distorted signals, one end of the base stage connecting resistance R1 of triode Q1, resistance R2, the current collection of triode Q1 Pole meets the emitter of triode Q2, the other end of the base stage connecting resistance R1 of triode Q2, the collector connecting resistance R8 of triode Q2 One end and diode D2 anode, another termination power+10V of resistance R8, the emitter of triode Q1 meets the one of capacitor C3 The one end at end and resistance R3, the contact 1 of another termination variable resistance RW1 of capacitor C3 and one end of resistance R4, resistance R2- resistance The other end of R4 is grounded, and the contact 2 of variable resistance RW1 connects one end of capacitor C4, and the contact 3 of variable resistance RW2 meets triode Q3 Emitter and the other end of capacitor C4, resistance R5 one end, the collector of triode Q3 connect variable resistance RW2 contact 2, can Power transformation hinders the contact 3 of RW2, and the base stage of triode Q3 connects one end of capacitor C5, resistance R6, resistance R7 and resistance R10, capacitor C5, The other end of resistance R7 is grounded, the other end of the 1 connecting resistance R6 of contact of variable resistance RW2 and cathode and two poles of diode D2 The anode of pipe D3, the non-inverting input terminal of another termination transport and placing device AR4 of resistance R10 and the base stage of triode Q4, triode Q4's The other end of emitter connecting resistance R5, the collector of triode Q4 connect the anode of diode D5, the anode of diode D4 and amplifier The output end of device AR4, the cathode of the anti-phase input termination diode D4 of transport and placing device AR4 and one end of resistance R11, resistance R9, electricity Hinder the other end ground connection of R9, the cathode of the cathode of another terminating diode D5 of resistance R11 and diode D6, diode D7 are just Pole, the anode of diode D6 connect triode Q5 base stage and resistance R14 one end you, the emitter connecting resistance R14 of triode Q5 The other end and diode D3 cathode, the emitter of the collector connecting transistor Q6 of triode Q5 and one end of resistance R13, three The other end of the collector connecting resistance R12 of pole pipe Q6, resistance R13.

Embodiment two, on the basis of example 1, the amplifier output circuit is with transport and placing device AR2 with mutually amplification letter Number, while with being exported after triode Q7 and voltage-stabiliser tube D8 composition triode voltage regulator circuit pressure stabilizing, signal is further stabilized, It is that robot remote controlling terminal of the input based on cloud computing receives in signal signal transmission passage, transport and placing device AR2's is anti- Mutually one end of input terminating resistor R17, resistance R18, the other end ground connection of resistance R17, another termination transport and placing device of resistance R18 One end of the output end of AR2 and the collector of triode Q7 and resistance R19, the base stage connecting resistance R19's of triode Q7 is another The cathode at end and voltage-stabiliser tube D8, the plus earth of voltage-stabiliser tube D8, one end of the emitter connecting resistance R20 of triode Q4, resistance R20 Another termination signal output port.

Embodiment three, on the basis of example 1, it is remote that the signal receiving circuit receives the robot based on cloud computing The data-signal of process control terminal received signals signal transmission passage input terminal, with inductance L1 and capacitor C1, capacitor C2 group Enhance in push-pull circuit at input after the filtering of π type filter circuit, improves the anti-interference of signal, a termination signal of inductance L1 is defeated One end of the cathode and capacitor C1 of inbound port and voltage-stabiliser tube D1, the plus earth of voltage-stabiliser tube D1, the other end ground connection of capacitor C1, One end of another termination capacitor C2 of inductance L1 and the base stage of triode Q1, the other end ground connection of capacitor C2.

When the present invention is specifically used, the robot remote real-time monitoring system based on cloud computing, including signal receiving circuit, Enhance push-pull circuit and amplifier output circuit, the signal receiving circuit receives the robot remote controlling terminal based on cloud computing The data-signal for receiving signal signal transmission passage input terminal forms π type filtered electrical with inductance L1 and capacitor C1, capacitor C2 Road filtering after input enhancing push-pull circuit in, the enhancing push-pull circuit use triode Q1, triode Q2 and triode Q3 with And variable resistance RW1, variable resistance RW2 form signal intensifier circuit adjustment signal frequency, triode Q1, triode Q2 play increasing The effect of strong signal, by adjusting the adjustable signal frequency size of resistance value of variable resistance RW1, variable resistance RW2, capacitor C4, capacitor C5 are filter capacitor, while devising the rectification circuit of transport and placing device AR4, diode D4 and resistance R11 composition to signal Rectification, plays the effect for filtering out abnormal signal clutter, stabilization signal, and with triode Q5, triode Q6 and diode D6, Diode D7 forms push-pull circuit and eliminates signal self-excitation, distorted signals is prevented, for further stabilization signal, with triode Q4 In feedback signal to signal intensifier circuit, adjustment signal enhances circuit output signal current potential, and preventing signal potential from crossing conference makes letter Number frequency anomaly, realizes the automatic calibration to signal, prevents distorted signals, and the last amplifier output circuit uses transport and placing device AR2 that is to say with phase amplified signal, while with exporting after triode Q7 and voltage-stabiliser tube D8 composition triode voltage regulator circuit pressure stabilizing The robot remote controlling terminal based on cloud computing is inputted to receive in signal signal transmission passage.

The above is that further detailed description of the invention, and it cannot be said that the present invention in conjunction with specific embodiment Specific implementation is limited only to this；Belonging to the present invention and for those skilled in the technology concerned, it is being based on skill of the present invention Under the premise of art scheme thinking, it is made expansion and operating method, data replacement, should all fall in the scope of the present invention it It is interior.

Claims (3)

1. the robot remote real-time monitoring system based on cloud computing, including signal receiving circuit, enhancing push-pull circuit and amplifier Output circuit, which is characterized in that the signal receiving circuit receives the robot remote controlling terminal based on cloud computing and receives letter Number with the data-signal of signal transmission passage input terminal, with inductance L1 and capacitor C1, capacitor C2 composition π type filter circuit filtering Afterwards in input enhancing push-pull circuit, the enhancing push-pull circuit is with triode Q1, triode Q2 and triode Q3 and can be changed Resistance RW1, variable resistance RW2 form signal intensifier circuit adjustment signal frequency, while devising transport and placing device AR4, diode D4 Rectification circuit with resistance R11 composition uses triode Q5, triode Q6 and diode D6, diode to signal rectification D7 forms push-pull circuit and eliminates signal self-excitation, wherein in triode Q4 feedback signal to signal intensifier circuit, adjustment signal enhancing Circuit output signal current potential, the last amplifier output circuit uses transport and placing device AR2 with phase amplified signal, while using triode It is exported after Q7 and voltage-stabiliser tube D8 composition triode voltage regulator circuit pressure stabilizing, that is to say the robot remote control inputted based on cloud computing In terminal received signals signal transmission passage；

The enhancing push-pull circuit includes triode Q1, one end of the base stage connecting resistance R1 of triode Q1, resistance R2, triode Q1 Collector connecting transistor Q2 emitter, the other end of the base stage connecting resistance R1 of triode Q2, the collector of triode Q2 connects One end of resistance R8 and the anode of diode D2, another termination power+10V of resistance R8, the emitter of triode Q1 connect capacitor One end of C3 and one end of resistance R3, the contact 1 of another termination variable resistance RW1 of capacitor C3 and one end of resistance R4, resistance The other end of R2- resistance R4 is grounded, and the contact 2 of variable resistance RW1 connects one end of capacitor C4, and the contact 3 of variable resistance RW2 connects three One end of the other end of the emitter of pole pipe Q3 and capacitor C4, resistance R5, the collector of triode Q3 connect the touching of variable resistance RW2 The contact 3 of point 2, variable resistance RW2, the base stage of triode Q3 connect one end of capacitor C5, resistance R6, resistance R7 and resistance R10, electricity Hold the other end ground connection of C5, resistance R7, the cathode of the other end of the 1 connecting resistance R6 of contact of variable resistance RW2 and diode D2 with And the anode of diode D3, the non-inverting input terminal of another termination transport and placing device AR4 of resistance R10 and the base stage of triode Q4, three poles The other end of the emitter connecting resistance R5 of pipe Q4, the collector of triode Q4 connect the anode of the anode of diode D5, diode D4 With the output end of transport and placing device AR4, transport and placing device AR4 anti-phase input termination diode D4 cathode and resistance R11, resistance R9 one End, the other end ground connection of resistance R9, the cathode of another terminating diode D5 of resistance R11 and cathode, the diode of diode D6 The anode of D7, the anode of diode D6 connect triode Q5 base stage and resistance R14 one end you, the emitter of triode Q5 connects electricity Hinder the other end of R14 and the cathode of diode D3, the one of the emitter of the collector connecting transistor Q6 of triode Q5 and resistance R13 End, the other end of the collector connecting resistance R12 of triode Q6, resistance R13.

2. the robot remote real-time monitoring system based on cloud computing as described in claim 1, which is characterized in that the amplifier is defeated Circuit includes transport and placing device AR2 out, and one end of the anti-phase input terminating resistor R17 of transport and placing device AR2, resistance R18, resistance R17's is another One end ground connection, the one of the output end of another termination transport and placing device AR2 of resistance R18 and the collector of triode Q7 and resistance R19 End, the other end of the base stage connecting resistance R19 of triode Q7 and the cathode of voltage-stabiliser tube D8, the plus earth of voltage-stabiliser tube D8, triode One end of the emitter connecting resistance R20 of Q4, another termination signal output port of resistance R20.

3. the robot remote real-time monitoring system based on cloud computing as claimed in claim 1 or 2, which is characterized in that the letter Number receiving circuit includes inductance L1, and the one of a termination signal input port of inductance L1 and the cathode of voltage-stabiliser tube D1 and capacitor C1 End, the plus earth of voltage-stabiliser tube D1, the other end ground connection of capacitor C1, one end of another termination capacitor C2 of inductance L1 and triode The base stage of Q1, the other end ground connection of capacitor C2.