CN112969357A - Anti-strong electromagnetic pulse reinforcement method for nuclear security system and nuclear security system - Google Patents

Abstract

The invention relates to a strengthening method for resisting strong electromagnetic pulses of a nuclear security system and the nuclear security system, which comprises the following steps: 1) the method comprises the steps of utilizing a structural box body for shielding, 2) utilizing an optical isolation signal for shielding, 3) carrying out internal processing on equipment, 4) improving a power supply, 5) improving a circuit of a circuit board, wherein a nuclear security system comprises an entrance guard host, an alarm center end, an alarm extension, a switch, a nuclear shield platform, an infrared detector, a microwave detector, a camera, a door lock and a button.

Description

Anti-strong electromagnetic pulse reinforcement method for nuclear security system and nuclear security system

Technical Field

The invention particularly relates to a strengthening method for resisting strong electromagnetic pulses of a nuclear security system and the nuclear security system.

Background

The high-altitude nuclear electromagnetic pulse (HEMP) is one of main killing factors generated by high-altitude nuclear explosion, and has the characteristics of high energy intensity, high peak field intensity, extremely wide coverage range and the like. The HEMP can be coupled to almost all electronic and electrical equipment on a macro scale as a strong interference source, interfere or destroy relevant important social infrastructure such as the electronic equipment, a command communication system and electronic and electrical equipment, and cause damage and functional disorder of system hardware, so that the reliability and safety of the system are reduced. At present, a nuclear security system used in nuclear-involved places such as nuclear power stations, nuclear raw material plants and the like does not have the capacity of resisting the high-altitude nuclear electromagnetic pulse, and an access control host and an alarm branch machine of the nuclear security system are damaged by the high-altitude nuclear electromagnetic pulse, so that the alarm cannot be effectively uploaded in emergency situations, and the door cannot be normally opened and closed at an access.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to overcome the defects of the prior art, a strengthening method for resisting strong electromagnetic pulses of a nuclear security system and the nuclear security system are provided.

The technical scheme adopted by the invention for solving the technical problems is as follows: a strengthening method for anti-strong electromagnetic pulse of a nuclear security system comprises the following steps:

1) shielding by using a structural box body: a galvanized sheet shielding box body is arranged outside, and the power adapter and the extension set are placed in the box body;

2) shielding by using an optical isolation signal: the optical module is used for converting network and switching value signals into optical signals, the optical module is installed in the box body, and a 220V power supply interface and a light interface are externally arranged on the box body;

3) and (3) internal processing of the equipment: a. the door opening modes of the alarm extension and the entrance guard host adopt a row hinge mode, and long and narrow gaps between door covers are eliminated; b. the radiating holes are changed into small round holes from strip-shaped holes, and the positions are changed into diagonal arrangement, so that convection heat radiation is facilitated; c. the end surface of the lower end of the box body is directly grounded, so that the contact area with the ground is increased; d. the internal power module and the optical module are shielded by a shielding case; e. the inside adopts ultra-six types of shielding net wires and shielding cables;

4) and (3) power supply improvement: the 220V power supply input adopts a built-in anti-electromagnetic pulse interference filter power supply seat, and the 12V power supply with internal power supply adopts a power adapter with ferrite beads and strong anti-interference capability;

5) the circuit of the circuit board is improved: in the signal detection circuit, the sampling voltage is set to be 12V, a nanosecond TVS tube is arranged, and a voltage dependent resistor is added at the front end of the circuit.

Preferably, the signal detection circuit in step 5) comprises a first resistor, a second resistor, a third resistor, a voltage dependent resistor, a TVS tube, a first diode and a second diode, one end of the first resistor is externally connected with 12V sampling voltage, the other end of the first resistor is connected with the second resistor and the third resistor in series and then is grounded, the piezoresistor is connected in parallel with a series circuit of a second resistor and a third resistor, one end of the second resistor and one end of the third resistor which are connected with each other are both connected with an external analog signal input end, the TVS tube is connected with the third resistor in parallel, the analog signal input end is externally connected with a 3.3V power supply through the first diode, the conducting direction of the first diode is that the analog signal input end points to a 3.3V power supply, the analog signal input end is grounded through a second diode, and the conducting direction of the second diode is that the grounding end points to the analog signal input end.

Preferably, the TVS tube is a bidirectional voltage regulator tube.

The nuclear security system comprises a door control host, an alarm center end, an alarm extension, a switch, a nuclear shield platform, an infrared detector, a microwave detector, a camera, a door lock and a button, wherein the nuclear shield platform, the alarm center end, the door control host and the alarm extension are all electrically connected with the switch, the infrared detector, the microwave detector and the camera are all electrically connected with the alarm extension, and the door lock and the button are all electrically connected with the door control host.

Preferably, the distance between the door lock and the button and the entrance guard host is less than 20m, the distance between the infrared detector, the microwave detector, the camera and the alarm extension is less than 50m, the distance between the alarm center end and the switch is less than 20m, the distance between the nuclear shield platform and the switch is less than 20m, and the distances between the entrance guard host and the alarm extension and the switch are less than 2 km.

The strengthening method and the strengthening system have the advantages that the anti-strong electromagnetic pulse strengthening method and the nuclear security system can effectively improve the anti-interference capability of the nuclear security system to resist the nuclear electromagnetic pulse, and ensure that the nuclear security system can still normally work when high-altitude explosion occurs.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a circuit diagram of a nuclear security system anti-strong electromagnetic pulse reinforcing method and a signal detection circuit of the nuclear security system;

FIG. 2 is a system schematic diagram of the nuclear security system reinforcing method against strong electromagnetic pulses and the nuclear security system of the present invention;

in the figure: r1, a first resistor, R2, a second resistor, R3, a third resistor, D1, a first diode, D2., a second diode, D3, a TVS tube, and Z1. piezoresistors.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Example (b): a strengthening method for anti-strong electromagnetic pulse of a nuclear security system comprises the following steps:

1) shielding by using a structural box body: a galvanized sheet shielding box body is arranged outside, and the power adapter and the extension set are placed in the box body;

the box body is actually a square box body with a conventional structure, and as a large number of exposed switching value input and output interfaces exist in the alarm extension of the nuclear security system, nuclear electromagnetic pulses are easily coupled into equipment through the interfaces to damage the IO ports of the chips, and a power adapter and the extension are placed inside the equipment to achieve a good protection effect.

2) Shielding by using an optical isolation signal: the optical module is used for converting network and switching value signals into optical signals, the optical module is installed in the box body, and a 220V power supply interface and a light interface are externally arranged on the box body;

the network cable and the switching value twisted-pair line of the alarm extension and the entrance guard host are long in line, and nuclear power pulses are easily coupled into equipment through the network cable and the twisted-pair line to cause equipment damage, so that the network and the switching value signals are converted into optical signals through the optical module, the optical module is installed inside the box body, the box body only has a 220V power interface and an optical fiber interface outwards, and a path of nuclear electromagnetic pulses coupled through the line can be cut off.

3) And (3) internal processing of the equipment: a. the door opening modes of the alarm extension and the entrance guard host adopt a row hinge mode, and long and narrow gaps between door covers are eliminated; b. the radiating holes are changed into small round holes from strip-shaped holes, and the positions are changed into diagonal arrangement, so that convection heat radiation is facilitated; c. the end surface of the lower end of the box body is directly grounded, so that the contact area with the ground is increased; d. the internal power module and the optical module are shielded by a shielding case; e. the inside adopts ultra-six types of shielding net wires and shielding cables;

the original alarm extension and the original entrance guard host generally adopt a hinge door opening mode, the gap is long, and the long and narrow gap between the door covers can be eliminated by adopting a row hinge mode; in fact, the exterior of the tank is not painted, which makes it possible to maintain the lower end of the tank in good contact with the ground.

4) And (3) power supply improvement: the 220V power supply input adopts a built-in anti-electromagnetic pulse interference filter power supply seat, and the 12V power supply with internal power supply adopts a power adapter with ferrite beads and strong anti-interference capability;

5) the circuit of the circuit board is improved: in the signal detection circuit, the sampling voltage is set to be 12V, a nanosecond TVS tube is arranged, and a voltage dependent resistor is added at the front end of the circuit.

The switching value signal detection circuit of the alarm extension adopts the IO port of the MCU to collect voltage, although the TVS tube is added to a simulation prototype before reinforcement, the IO port is still punctured during testing. The model machine after reinforcing improves acquisition voltage to 12V from 3.3V, can improve the interference killing feature, has increased resistance partial pressure simultaneously and can play certain cushioning effect, changes millisecond's TVS pipe into nanosecond in addition, and the front end increases the piezo-resistor protection, and multiple protection can effectively improve the ability of withstanding the surge.

As shown in fig. 1, the signal detection circuit in step 5) includes a first resistor, a second resistor, a third resistor, a voltage dependent resistor, a TVS tube, a first diode and a second diode, one end of the first resistor is externally connected with 12V sampling voltage, the other end of the first resistor is connected with the second resistor and the third resistor in series and then is grounded, the piezoresistor is connected in parallel with a series circuit of a second resistor and a third resistor, one end of the second resistor and one end of the third resistor which are connected with each other are both connected with an external analog signal input end, the TVS tube is connected with the third resistor in parallel, the analog signal input end is externally connected with a 3.3V power supply through the first diode, the conducting direction of the first diode is that the analog signal input end points to a 3.3V power supply, the analog signal input end is grounded through a second diode, and the conducting direction of the second diode is that the grounding end points to the analog signal input end.

Preferably, the TVS tube is a bidirectional voltage regulator tube.

As shown in fig. 2, the nuclear security system adopting the method for reinforcing the nuclear security system against strong electromagnetic pulses comprises a door control host, an alarm center end, an alarm extension, a switch, a nuclear shield platform, an infrared detector, a microwave detector, a camera, a door lock and a button, wherein the nuclear shield platform, the alarm center end, the door control host and the alarm extension are all electrically connected with the switch, the infrared detector, the microwave detector and the camera are all electrically connected with the alarm extension, and the door lock and the button are all electrically connected with the door control host.

Preferably, the distance between the door lock and the button and the entrance guard host is less than 20m, the distance between the infrared detector, the microwave detector, the camera and the alarm extension is less than 50m, the distance between the alarm center end and the switch is less than 20m, the distance between the nuclear shield platform and the switch is less than 20m, and the distances between the entrance guard host and the alarm extension and the switch are less than 2 km.

When the nuclear security system reinforced by the reinforcing method is used for simulating high-altitude nuclear explosion experiments, namely irradiation experiments, the nuclear power pulse environment parameters are set as follows: the intensity is set to be 50kv/m, the rise time equipment of the time waveform is 2.3 plus or minus 0.5ns, the full width at half maximum is 23 plus or minus 5ns, and the system can ensure normal operation work through the replacement of 3 placing directions and 9 times of irradiation tests.

Compared with the prior art, the strengthening method for resisting the strong electromagnetic pulse of the nuclear security system and the nuclear security system can effectively improve the anti-interference capability of the nuclear security system for resisting the nuclear electromagnetic pulse, and ensure that the nuclear security system can still normally work when high-altitude explosion occurs.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (5)

1. A strengthening method for strong electromagnetic pulse resistance of a nuclear security system is characterized by comprising the following steps:

1) shielding by using a structural box body: a galvanized sheet shielding box body is arranged outside, and the power adapter and the extension set are placed in the box body;

2) shielding by using an optical isolation signal: the optical module is used for converting the network and the switching value signal into an optical signal,

the optical module is arranged in the box body, and the box body is externally provided with a 220V power interface and a light interface;

3) and (3) internal processing of the equipment: a. the door opening modes of the alarm extension and the entrance guard host adopt a row hinge mode, and long and narrow gaps between door covers are eliminated; b. the radiating holes are changed into small round holes from strip-shaped holes, and the positions are changed into diagonal arrangement, so that convection heat radiation is facilitated; c. the end surface of the lower end of the box body is directly grounded, so that the contact area with the ground is increased;

d. the internal power module and the optical module are shielded by a shielding case; e. the inside adopts ultra-six types of shielding net wires and shielding cables;

4) and (3) power supply improvement: the 220V power supply input adopts a built-in anti-electromagnetic pulse interference filter power supply seat, and the 12V power supply with internal power supply adopts a power adapter with ferrite beads and strong anti-interference capability;

5) the circuit of the circuit board is improved: in the signal detection circuit, the sampling voltage is set to be 12V, a nanosecond TVS tube is arranged, and a voltage dependent resistor is added at the front end of the circuit.

2. The method for strengthening the anti-strong electromagnetic pulse of the nuclear security system according to claim 1, wherein the signal detection circuit in the step 5) comprises a first resistor, a second resistor, a third resistor, a voltage dependent resistor, a TVS tube, a first diode and a second diode, one end of the first resistor is externally connected with 12V sampling voltage, the other end of the first resistor is connected with the second resistor and the third resistor in series and then grounded, the voltage dependent resistor is connected with the series circuit of the second resistor and the third resistor in parallel, one end of the second resistor and one end of the third resistor, which are connected with each other, are both connected with an external analog signal input end, the TVS tube is connected with the third resistor in parallel, the analog signal input end is externally connected with 3.3V power supply through the first diode, the first diode is conducted in a direction from the analog signal input end to the 3.3V power supply, the analog signal input end is grounded through the second diode, the conducting direction of the second diode is from the grounding end to the analog signal input end.

3. The method for reinforcing strong electromagnetic pulse resistance of the nuclear security system according to claim 2, wherein the TVS tube is a bidirectional voltage regulator tube.

4. A nuclear security system adopting the strengthening method against strong electromagnetic pulses of the nuclear security system according to any one of claims 1 to 3, which is characterized by comprising an entrance guard host, an alarm center end, an alarm extension, a switch, a nuclear shield platform, an infrared detector, a microwave detector, a camera, a door lock and a button, wherein the nuclear shield platform, the alarm center end, the entrance guard host and the alarm extension are all electrically connected with the switch, the infrared detector, the microwave detector and the camera are all electrically connected with the alarm extension, and the door lock and the button are all electrically connected with the entrance guard host.

5. The nuclear security system of claim 4, wherein the distance between the door lock and the button and the entrance guard host is less than 20m, the distance between the infrared detector, the microwave detector and the camera and the alarm extension is less than 50m, the distance between the alarm center and the switch is less than 20m, the distance between the nuclear shield platform and the switch is less than 20m, and the distances between the entrance guard host and the alarm extension and the switch are less than 2 km.

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