CN101995839B - Safety-level equipment cabinet monitoring device - Google Patents

Abstract

The invention discloses a safety-level equipment cabinet monitoring device. The system comprises an equipment cabinet door switch monitoring module, an air blower rotating speed monitoring module, a power supply monitoring module and an equipment cabinet temperature monitoring module, wherein the power supply monitoring module monitors whether a power supply is over-voltage or under-voltage or not; signals obtained by monitoring are isolated or subjected to A/D (Analog to Digital) conversion and then transmitted to a CPLD (Complex Programable Logic Device) for logic processing and analysis, and monitoring results are locally displayed and reported to a main control room by using electric signals. The equipment cabinet monitoring, that is to say, multidirectional monitoring is carried out on an equipment cabinet by combining technologies together; and the safety-level equipment cabinet monitoring device is designed by completely adopting a hardware analog circuit and a logic analog circuit and can be called a non-intelligent unit without a processor or a software program, thus the safety and the reliability are greatly enhanced, and the requirements for nuclear safety standards are met.

Description

A kind of safety-level cabinet monitoring device

Technical field

The present invention relates to cabinet monitoring device, especially a kind of safety-level cabinet monitoring device.

Background technology

The safe level system can make correct response immediately when fortuitous event appears in nuclear power system, make the system and device emergency shut-down, takes place or expansion with the prevention accident, and equipment, the person and Environmental security are produced in protection to greatest extent.The development of nuclear safe level system and commercialization work checking system complicacy, test and work for inspection cycle are long, and domestic manufacturer is owing to reasons such as infrastructure investment is big, financial difficulty never make great progress.Current, nuclear power developing must adhere to walking the production domesticization road, break away from the safe level system receives external restriction to become extensive common recognition.If the independent development success of safe level system will improve the scientific and technological level and the manufacturing capacity of China.

Safety-level cabinet monitoring device is the important component part of safe level system, and at present domestic not this device is provided in real time, the state of the rack internal work condition of safe level system accurately.

Summary of the invention

The purpose of this invention is to provide a kind of safety-level cabinet monitoring device, the supervision through to supply voltage in temperature, blower fan, the cabinet in the system cabinet and cabinet door state provides in real time, the state of the rack internal work condition of safe level system accurately.

The technical scheme that the present invention adopts is:

A kind of safety-level cabinet monitoring device of the present invention, said system comprises following monitor module:

Keep watch on rack door switch module, send a switching value signal during said cabinet door switch, said switching value signal is through isolating or the A/D conversion is transferred to logic processing device and carries out logical process and parsing;

Keep watch on blower fan module, said detection blower fan module test rotation speed of fan is isolated the rotation speed of fan signal that records or the A/D conversion is transferred to logic processing device and carries out logical process and parsing;

Keep watch on power module, said power supply adopts redundant power, keeps watch on the whether overvoltage or under-voltage of said redundant power, with said overvoltage or under-voltage signal through isolating or the A/D conversion is transferred to logic processing device and carries out logical process and parsing;

Monitor temperature module, said temperature monitoring adopt thermal resistance to keep watch on the air themperature at rack air outlet place, and detected temperature signal is divided into two-way, and one the tunnel keeps watch on, and judge that cabinet temperature is whether within the reliable work scope; Another road is gathered and is transmitted, and the concrete numerical value of temperature is reported to master-control room, and master-control room is judged the cabinet temperature state with reference to both results.

Described switching value signal is a cabinet door when opening, and it is logical zero that out gate is opened alerting signal, and rack LED panel Over-The-Counter door display lamp DOR lights simultaneously, and glimmers with fixed frequency; When described switching value signal was the cabinet door pass, it was logical one that out gate closes alerting signal, and rack LED panel Over-The-Counter door pilot lamp DOR extinguishes simultaneously.

The blower fan of said supervision is the two-way blower fan, and when described rotation speed of fan was setting value, output blower fan alerting signal and fault-signal all were logical one, and rack LED panel fan display lamp FAN extinguishes simultaneously; When described rotation speed of fan was lower than setting value, output blower fan alerting signal was a logical zero, and rack LED panel fan display lamp FAN lights simultaneously, and with fixing frequency scintillation; When described rotation speed of fan was lower than setting value, output fan trouble signal was a logical zero, and rack LED panel fan display lamp FAN keeps long bright simultaneously.

Described redundant power is+5V redundant power and+24V redundant power, said+the 5V redundant power is under-voltage or the overvoltage limits value be its voltage ± 10%, said+the 24V redundant power is under-voltage or the overvoltage limits value be its voltage ± 20%.

When said+5V redundant power when wherein one tunnel+5V surpasses said limits value, said rack turn-offs this road power supply, and the out-put supply alerting signal is a logical zero, simultaneously on the rack LED panel+and the 5V display lamp lights, and glimmers with fixed frequency; When two-way+when the 5V redundant power all exceeded said limits value, the out-put supply fault-signal was a logical zero, simultaneously on the rack LED panel+the 5V display lamp is long bright; When said two-way redundant power was normal value, out-put supply alerting signal and fault-signal were logical one, simultaneously on the rack LED panel+and the 5V display lamp extinguishes.

Said power monitoring adopts monitor IC to carry out under-voltage to power supply and overvoltage is kept watch on.

Described temperature monitoring one tunnel, when the temperature that detects was setting value, output temperature alerting signal and fault-signal all were logical one, temperature display lamp TEM extinguishes on the rack LED panel simultaneously; When the temperature that detects is lower than setting value, the output temperature alerting signal is a logical zero, and temperature display lamp TEM lights on the rack LED panel simultaneously, and glimmers with fixed frequency; When the temperature that detects was lower than setting value, the output temperature fault-signal was a logical zero, and temperature display lamp TEM keeps long bright on the rack LED panel simultaneously.

Described temperature acquisition and transmission of one line are converted into the simulating signal of 4～40mA with temperature signal, are uploaded to the concrete numerical value that master-control room obtains temperature in the rack through after gathering.

Cabinet monitoring among the present invention passes through the supervision of cabinet door switch, blower fan supervision, power monitoring and temperature monitoring, and these surveillance technologies are combined rack is carried out multi-faceted supervision, and; This cabinet monitoring device adopts hardware simulation circuit and logical circuit to design non-processor fully; No software program; Can be described as non intelligent unit, strengthened its safe reliability greatly, and meet the nuclear safety standard requirement.

Description of drawings

Fig. 1 is the cabinet monitoring device schematic diagram of the cabinet monitoring method of a kind of safety-level cabinet monitoring device of the present invention;

Fig. 2 is the power supply monitoring circuit figure of the cabinet monitoring method of a kind of safety-level cabinet monitoring device of the present invention;

Fig. 3 is the thermal resistance Acquisition Circuit figure of temperature monitoring of the cabinet monitoring method of a kind of safety-level cabinet monitoring device of the present invention;

Fig. 4 is the temperature signal transmission circuit figure of temperature monitoring of the cabinet monitoring method of a kind of safety-level cabinet monitoring device of the present invention.

Embodiment

The invention reside in a kind of cabinet monitoring of safety-level cabinet monitoring device method that provides; Monitored object mainly contains cabinet door switch, two blower fans, two-way redundant power and No. one temperature sensors; The supervisory signal of monitored object is sent into logic processing device CPLD and is carried out logical process and parsing after isolation or A/D conversion; On the one hand monitor message is shown at panel, on the other hand supervisory signal is isolated the back and adopt a fixed range value level signal to report output, adopt 0～24V level signal to report output in the present embodiment; Wherein-and 3～8V is a logical zero, 16～28V is a logical one.In addition; The temperature monitoring signal is when carrying out the Digital Logic processing; Converted the simulating signal of 0～20mA to through the baric flow converter, can collect master-control room through harvester if desired, operating personnel can see the actual temp numerical value of this rack at master-control room.

Specify embodiments of the invention below in conjunction with accompanying drawing.

As shown in Figure 1; The cabinet monitoring device schematic diagram of the cabinet monitoring method of a kind of safety-level cabinet monitoring device of the present invention comprises: the door that the cabinet door switch is kept watch on is opened warning, and cabinet door is opened signal and adopted travel switch to design; When the cabinet door switch, can access a switching value signal.When cabinet door was opened, enclosure means was lighted LED panel Over-The-Counter door display lamp DOR, and glimmered with fixing frequency, and to open alerting signal be logical zero to out gate simultaneously; When door closed, rack LED panel Over-The-Counter door pilot lamp DOR extinguished, and door is opened alerting signal and is output as logical one.

The two-way blower fan is kept watch on, and to the supervision of blower fan, enclosure means adopts the blower fan of built-in measurement of rotating speed; When rotating speed was lower than certain setting value, enclosure means was lighted LED panel fan display lamp FAN, and glimmered with fixing frequency; Blower fan alerting signal output logic 0; When rotating speed is lower than setting value, it is long bright that rack LED panel fan display lamp FAN keeps, and the fan trouble signal is output as 0; Under the normal situation, when described rotation speed of fan was setting value, rack LED panel fan display lamp FAN extinguished, and fan trouble and alerting signal output all are 1.

Redundant power is kept watch on, and enclosure means can be kept watch on the two-way redundant power, and wherein one road redundant power is+5V, and promptly two-way+5V power supply carries out redundancy output, and another road redundant power is+24V that promptly two-way+24V power supply carries out redundancy output.For+the 5V redundant power; This device is kept watch on its power values whether overvoltage or under-voltage ± 10%, if wherein one tunnel+5V surpasses this restriction and surpasses setting value, this road power supply of this device shutoff; Panel LED+5V display lamp glimmers power supply alarming signal output logic 0 with fixing frequency; When two-way+5V power source voltage all exceeds restriction, panel LED+5V display lamp is long bright, power failure signal output logic 0; When the two-way redundant power is just often, panel LED+5V is shown as and goes out, power supply alarming and fault-signal output logic 1.For+the 24V redundant power; Its supply voltage limited range is ± 20%, if wherein one tunnel+24V surpasses this restriction above setting value, this device turn-offs this road power supply; Panel LED+5V display lamp glimmers power supply alarming signal output logic 0 with fixing frequency; When two-way+24V power source voltage all exceeds restriction, panel LED+24V display lamp is long bright, power failure signal output logic 0; When the two-way redundant power is just often, panel LED+24V is shown as and goes out, power supply alarming and fault-signal output logic 1.

Fig. 2 is the power supply monitoring circuit figure of the cabinet monitoring method of safety-level cabinet monitoring device of the present invention, and for the supervision of supply voltage, this device adopts single undervoltage and overvoltage monitor.

As shown in Figure 2, it is 2.3～6V that supply monitor detects the supply voltage scope, if surpass the 6V supply voltage, need between power supply supply voltage and power supply, connect current-limiting resistance Rz, makes to pour into power supply supply voltage electric current and be no more than 10mA.

Wherein, R _A, R _B, R _CThree resistance are the upper and lower bounds that are used for adjusting monitoring voltage, and it is following that formula specifically is set:

$R_A=|\frac{0.5V}{I_n}\·\frac{V_n}{V_{\mathrm{OV}}}|$ Formula 1

R _ABe used for being provided with overvoltage monitoring door limit value.

$R_B=|\frac{0.5V}{I_n}\·\frac{V_n}{V_{\mathrm{UV}}}|-R_A$ Formula 2

R _BBe used for being provided with under-voltage monitoring door limit value.

$R_c=\left|\frac{V_n}{I_n}\right|-R_A-{\mathrm{<figure-callout\; id="3"\; label="R\; B\; Formula"\; filenames="H200910249909XE00021.png,H200910249909XE00031.png"\; state="\{\{state\}\}">R</figure-callout>}}_B$ Formula 3

Referring to Fig. 3; Fig. 3 is the thermal resistance Acquisition Circuit figure of temperature monitoring of the cabinet monitoring method of safety-level cabinet monitoring device of the present invention; The air themperature that this device adopts thermal resistance to keep watch on rack air outlet place to the supervision of temperature, temperature signal at first gathering to the resistance of thermal resistance is converted into magnitude of voltage, is divided into two-way behind the signal condition; One the tunnel keeps watch on, and judges that the cabinet temperature scope is whether within the reliable work scope; When the temperature that detects was setting value, temperature display lamp TEM extinguished on the rack LED panel, and output temperature alerting signal and fault-signal all are logical one simultaneously; When the temperature that detects is lower than setting value, temperature display lamp TEM lights on the rack LED panel, and with the fixed frequency flicker, the output temperature alerting signal is a logical zero simultaneously; When the temperature that detects is lower than setting value, temperature display lamp TEM keeps long bright on the rack LED panel, and the output temperature fault-signal is a logical zero simultaneously.

Other one the tunnel is used for reporting to master-control room to the concrete numerical value of temperature, so carry out becoming after voltage/current V/I changes the current signal of 0～20mA, conveniently gathers.

This device is not high to the accuracy requirement of the collection of thermal resistance, and 1% precision just can satisfy the demands, so when design adopted accurate relatively 3 line value thermal resistances design.The reference source of thermal resistance adopts the form of current source, so that reduce the influence of the interior cabling of rack to acquisition precision.As shown in Figure 3, resistance signal is to the circuit theory of voltage signal conversion.This circuit has been selected integrated differential amplification chip for use.If the resistance of the line of three-way RTD signal is identical, be r, be RP with the C point, I is a constant, voltage " V (CH+)-V (CH-) " is only determined by the resistance of RTD.Aforementioned calculation shows, as long as the resistance of the line of three-way RTD signal is identical, and V _OUTOnly relevant with the resistance of RTD, line resistance is to the not influence of final operation result.So under the equal situation of the line resistance of RTD signal, this circuit can be eliminated the influence of line resistance to measuring accuracy fully.

As shown in Figure 4, the temperature signal transmission circuit figure of the temperature monitoring of the cabinet monitoring method of safety-level cabinet monitoring device of the present invention, the signal Vo that Fig. 3 thermal resistance Acquisition Circuit gained signal is amplified after 100 passes through R _INInsert the I of baric flow transmitter _IN

The circuit of the current transducer that constitutes by the baric flow transmitter, as shown in Figure 4, pin 3 is regarded as public ground, provide+supply voltage of 2.5V to strain bridge by pin 1.C is a noise reduction electric capacity; VT is outside NPN power tube; When the RTD measured temperature changes; The voltage signal of constant flow source measuring RTD circuit output at first zooms into the input voltage UIN of 0.8～4V through prime amplifier, convert the input current of 40～200mA again to through RIN, amplifies the electric current that obtains 4～20mA after 100 times at last.

Claims (7)

1. a safety-level cabinet monitoring device is characterized in that, said system comprises following monitor module:

Keep watch on rack door switch module, keep watch on rack door switch module and when said cabinet door switch, send a switching value signal, said switching value signal is through isolating or the A/D conversion is transferred to logic processing device and carries out logical process and parsing;

Keep watch on blower fan module, said supervision blower fan module test rotation speed of fan is isolated the rotation speed of fan signal that records or the A/D conversion is transferred to logic processing device and carries out logical process and parsing;

Keep watch on power module, said power supply adopts redundant power, keep watch on power module and keep watch on the whether overvoltage or under-voltage of said redundant power, with said overvoltage or under-voltage signal through isolating or the A/D conversion is transferred to logic processing device and carries out logical process and parsing;

Monitor temperature module, said monitor temperature module adopt thermal resistance to keep watch on the air themperature at rack air outlet place, and detected temperature signal is divided into two-way, and one the tunnel keeps watch on, and judge that cabinet temperature is whether within the reliable work scope; Another road is gathered and is transmitted, and the concrete numerical value of temperature is reported to master-control room, and master-control room is judged the cabinet temperature state with reference to both results.

2. a kind of safety-level cabinet monitoring device according to claim 1; It is characterized in that described switching value signal is a cabinet door when opening, it is logical zero that out gate is opened alerting signal; Rack LED panel Over-The-Counter door display lamp DOR lights simultaneously, and glimmers with fixed frequency; When described switching value signal was the cabinet door pass, it was logical one that out gate closes alerting signal, and rack LED panel Over-The-Counter door pilot lamp DOR extinguishes simultaneously.

3. a kind of safety-level cabinet monitoring device according to claim 1; It is characterized in that; Described redundant power is+5V redundant power and+24V redundant power; Said+the 5V redundant power is under-voltage or the overvoltage limits value be its voltage ± 10%, said+the 24V redundant power is under-voltage or the overvoltage limits value be its voltage ± 20%.

4. according to claim 1 or 3 described a kind of safety-level cabinet monitoring devices; It is characterized in that; When said+5V redundant power when wherein one tunnel+5V surpasses said limits value, said rack turn-offs this road power supply, and the out-put supply alerting signal is a logical zero; Simultaneously on the rack LED panel+the 5V display lamp lights, and glimmers with fixed frequency; When two-way+when the 5V redundant power all exceeded said limits value, the out-put supply fault-signal was a logical zero, simultaneously on the rack LED panel+the 5V display lamp is long bright; When said two-way redundant power was normal value, out-put supply alerting signal and fault-signal were logical one, simultaneously on the rack LED panel+and the 5V display lamp extinguishes.

5. a kind of safety-level cabinet monitoring device according to claim 4 is characterized in that, said power supply adopts monitor to carry out under-voltage to power supply and overvoltage is kept watch on.

6. a kind of safety-level cabinet monitoring device according to claim 1; It is characterized in that described temperature monitoring one tunnel is when the temperature that detects is setting value; Output temperature alerting signal and fault-signal all are logical one, and temperature display lamp TEM extinguishes on the rack LED panel simultaneously; When the temperature that detects is lower than setting value, the output temperature alerting signal is a logical zero, and temperature display lamp TEM lights on the rack LED panel simultaneously, and glimmers with fixed frequency; When the temperature that detects was lower than setting value, the output temperature fault-signal was a logical zero, and temperature display lamp TEM keeps long bright on the rack LED panel simultaneously.

7. a kind of safety-level cabinet monitoring device according to claim 1 is characterized in that, gathers and the road signal that transmits is converted into the simulating signal of 4～40mA, is uploaded to the concrete numerical value that master-control room obtains temperature in the rack through after gathering.

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