CN201212885Y - Pedestrian safety check door for detecting drug, explosive article and metal - Google Patents

Abstract

The utility model discloses a passerby safety inspection door for drug, exploder and metal detection, which comprises a metal detecting subsystem and a drug/exploder detecting subsystem, wherein the metal detecting subsystem is arranged on the drug/exploder detecting subsystem in series, the safety inspection door is provided with an insulator which enables the metal detecting subsystem and the special nuclear matter /radioactive matter detecting subsystem to be insulated from each other without mutual interference. The passerby safety inspection door first combines the metal detecting subsystem and the drug/exploder detecting subsystem together to form a novel safety inspection door, therefore, the passerby safety inspection door can simultaneously inspect metal dangerous goods and drugs/exploders. Besides, the passerby safety inspection door is also provided with the insulator which enables the metal detecting subsystem and the drug/exploder detecting subsystem to be insulated from each other without mutual interference, thereby the detection reliability and accuracy are improved.

Description

Detect the pedestrains safety inspection door of drugs, explosive and metal

Technical field

The utility model relates to a kind of safety check door, relates in particular to a kind of safety check door that can check metal dangerous material and drugs/explosive simultaneously.

Background technology

Since " 911 " incident, anti-terrorism becomes the common topic of global range.Terrorist incident all took place in states such as the U.S., Russia, Britain, Egypt, Spain, Indonesia, India, and two wars have also been started for this reason by the U.S..The terrorist utilizes " people's bullet " to attack becomes a kind of important failure mode, and common people's safety life and society stable constituted huge threat.But the popular in the market safety door at pedestrian's inspection generally can only be surveyed magnetic metal, and is powerless to non-magnetic object.Therefore to explosive and drugs, common safety door can't be discerned, and this is undoubtedly a great leak concerning safety inspection.

Along with the development of drugs, explosive detection (IMS) technology, suspicious detection of particulates such as the drugs that the pedestrian is carried, explosive becomes possibility.Recent years, external expert has carried out a lot of researchs to gate-type pedestrian's inspection technology of application IMS technology, and has applied for multinomial patent.As: EP1286151A1, US5915268A1, US6073499A1 and US2001049926A1 or the like.In these patents,, the structure of multiple door has been proposed for the ease of collecting air-flow; In order to improve collection efficiency, the proposition that has concentrated thought (as US6073499A1 etc.); In order to blow off carrying suspicious particulate in the human body clothing, blow checked pedestrian (as US2001049926A1) by what begin with continuous flow, blow and beat clothing to the shower nozzle that adds the spray gases at high pressure again, the air-flow and the jet direction of shower nozzle of blowing, or upward, or, want to have use up various ways (as EP1286151A1, US5915268A1 and US6073499A1) downwards.

Detecting connection metal, patent CN1834690 has proposed a kind of through type metal detecting system, has improved the uneven defective of detection Distribution of Magnetic Field by two two receipts formula antennas and corresponding circuit, software etc., has improved the ability of distinguishing metal object.Patent CN1802675A (WO2004/097456) has proposed a kind of metal detector that has portable structure, by heavily loaded duty cycle and pulse working mode are set, makes it can utilize battery or AC power operation the long period.

But for various reasons, do not find to detect simultaneously the device of drugs/explosive and metal in the market as yet.

The utility model content

Therefore, the utility model aims to provide a kind of safety inspection device that can check metal dangerous material and drugs/explosive simultaneously.

The utility model provides a kind of pedestrains safety inspection door that detects drugs, explosive and metal, comprise metal detection subsystem and drugs/explosive detection subsystem, described metal detection subsystem in series is installed on described drugs/explosive detection subsystem, wherein, described safety check door is provided with spacer assembly, and described spacer assembly makes between described metal detection subsystem and the described drugs/explosive detection subsystem to be isolated mutually, do not disturb mutually.

The utility model lumps together the installation check door that forms a kind of novelty with metal detection subsystem and drugs/explosive detection groups of subsystems first, thereby can check metal dangerous material and drugs/explosive simultaneously.In addition, the utility model also be provided with make between metal detection subsystem and the drugs/explosive detection subsystem mutually isolate, non-interfering spacer assembly, thereby improved the reliability and the accuracy that detect.

Description of drawings

Fig. 1 is the one-piece construction stereographic map with safety check door of metal detection subsystem and drugs/explosive detection subsystem of the present utility model;

Fig. 2 is the cut-open view of the drugs/explosive detection subsystem of safety check door of the present utility model;

Fig. 3 is half a stereographic map of the drugs/explosive detection subsystem of safety check door of the present utility model;

Fig. 4 is the partial enlarged view of nozzle placement layer A;

Fig. 5 is along the partial enlarged view of F to the air knife of watching;

Fig. 6 is the vertical view with safety check door of metal detection subsystem and drugs/explosive detection subsystem of the present utility model.

Embodiment

Fig. 1 shows the one-piece construction stereographic map with safety check door of metal detection subsystem and drugs/explosive detection subsystem of the present utility model.Fig. 6 shows the vertical view with safety check door of metal detection subsystem and drugs/explosive detection subsystem of the present utility model.

As shown in Figure 1, safety check door comprises metal detection subsystem 31 and drugs/explosive detection subsystem 30, wherein drugs/explosive detection subsystem 30 in series is installed on the inlet of metal detection subsystem 31, thereby forms a complete safe inspection door.Certainly, drugs/explosive detection subsystem 30 also in series is installed in the outlet of metal detection subsystem 31.

As shown in Figure 1, be provided with pilot lamp 25 on the top of the porch of metal detection subsystem 31, this pilot lamp 25 is used for indication and is examined pedestrian's several states of living in: checking (amber light); Idle (green light); Report to the police by (red light).

As shown in Figure 1, the outside surface of drugs/explosive detection subsystem 30 is provided with the display as user terminal, is used to show testing result.

As shown in Figure 1, the metal detection subsystem 31 in the utility model is detection systems of surveying metal material by launching electromagnetic wave, and it can adopt any metal detecting system that is suitable in the prior art.Therefore this paper explanation of omitting the concrete structure of metal detection subsystem 31.

Because metal detection subsystem 31 adjoins each other and is in the same place with drugs/explosive detection subsystem 30, so many metal parts (for example metal shell, metal pipe line etc.) in drugs/explosive detection subsystem 30, can cause interference to metal detection subsystem 31, have a strong impact on the result of detection of metal detection subsystem 31.Particularly, when 31 work of metal detection subsystem, the electromagnetic wave of its emission will inevitably be diffused on the above-mentioned metal parts of drugs/explosive detection subsystem 30, turns back to then in the metal detection subsystem 31, so just causes metal detection subsystem 31 wrong report to occur.

And, owing to also have many Electromagnetic Interference source (for example compressor, blower fan, solenoid valve etc.) in drugs/explosive detection subsystem 30, therefore the electromagnetic wave that goes out of these Electromagnetic Interference source emissions can enter in the metal detection subsystem 31 equally, metal detection subsystem 31 is produced disturb.

Disturb for fear of drugs/30 pairs of metal detection subsystems of explosive detection subsystem 31, as Fig. 1 and shown in Figure 6, outer circumferential side at metal detection subsystem 31 is provided with absorbing material 21 (corresponding to a kind of spacer assembly in the utility model), this absorbing material 21 have absorb 31 emissions of metal detection subsystem, the electromagnetic wave that propagates into the perimeter and electromagnetic wave or the echo that outside the metal detection zone, is produced, to weaken and to prevent that extra-regional electromagnetic wave of metal detection or echo from entering in the metal detection zone.Particularly, this absorbing material 21 can absorb by the electromagnetic wave of metal detection zone interface and with it and change into heat energy, thereby minimizing external electromagnetic ripple or echo are to the influence of metal detection subsystem 31.

On the other hand, because the various signal wires of metal detection subsystem 31 and drugs/explosive detection subsystem 30 all must be connected to overhead control cabinet 14, therefore be easy to occur signal cross-talk between two subsystems.

Signal cross-talk appears between two subsystems, as shown in Figure 6, the controller 22 of metal detection subsystem 31 links to each other with signal isolator 10 (corresponding to the another kind of spacer assembly in the utility model) by signal wire 20 earlier, and signal isolator 10 communicates by the computing machine 13 in signal wire 12 and the overhead control cabinet 14 then.Particularly, the signal isolator in the present embodiment 10 is arranged on wave filter, decoupling device and the photoisolator etc. on signal wire, power lead and the ground wire of metal detection subsystem 31.

In order further to prevent the mutual interference mutually of the metal detection subsystem 31 and the signal wire of drugs/explosive detection subsystem 30, the signal wire of two subsystems should separate cabling as far as possible, promptly spatially should separate as far as possible.When signal wire intersects, also to reduce mutually and disturb by the mode of right-angled intersection.

Fig. 2 is the cut-open view of the drugs/explosive detection subsystem of safety check door of the present utility model.Fig. 3 is half a stereographic map of the drugs/explosive detection subsystem of safety check door of the present utility model.Fig. 4 is the partial enlarged view of nozzle placement layer A.

As shown in Figures 2 and 3, two sidewalls of the inspection passage of drugs/explosive detection subsystem 30 are provided with a plurality of nozzle placement layers, are provided with five nozzle placement layers in the present embodiment altogether, are respectively A layer, B layer, C layer, D layer and E layer.

Shown in 4, nozzle placement layer A comprises six nozzles 8, and six nozzles 8 on the nozzle placement layer A all point to the center O of the nozzle placement layer A at its place.The benefit of this layout is the air-flow of a plurality of nozzles 8 to be collected in a point, strengthens the ability of the suspicious particulate that carries in the piping and druming clothing.

Fig. 5 is along the partial enlarged view of F to the air knife of watching.As Fig. 2 and shown in Figure 5, the roof of the inspection passage of drugs/explosive detection subsystem 30 is provided with the air knife 6 that vertically blows air down, and in the present embodiment, air knife 6 comprises four big air knives and two little air knives, four big air knives form a circle, and two little air knives are centered on by four big air knives.

Describe principle of work of the present utility model below in detail.

1. the principle of work of drugs/explosive detection subsystem 30

As shown in Figure 2, air compressor 1 provides gases at high pressure, and pressure 0.2～0.8MPa is preferably about 0.5MPa.Gases at high pressure are provided for air nozzle 8 by air nozzle draft tube 5, each air nozzle 8 all passes through a solenoid valve 9 its jet/closed conditions of control.The sequential that system's control computer 13 is opened and closed by parts such as overhead control cabinet 14 and gas circuit control signal wire 29 control electromagnetic valve 9, air compressor 1, carrier gas air-flow blower fans 2.Air compressor 1 and carrier gas air-flow blower fan 2 inhaled airs are from air intake opening 3.

Air nozzle 8 general ON/OFF simultaneously with one deck; The air nozzle 8 timesharing ON/OFF of different layers generally open or close from top to bottom successively, wait each layer air nozzle 8 all to spray once after, circulation from top to bottom finishes up to jet process again; Its switching sequence is sent by overhead control cabinet 14, realizes by the solenoid valve 9 of controlling each air nozzle 8 back.

When the air nozzle 8 of the A of the superiors was started working for the 1st time, carrier gas air-flow blower fan 2 was also started working, and gave air knife 6 air feed as shown in Figure 5, provided 4 big air knives 6 and 2 little air knives 6 among the figure.Air-flow blows out from the air knife inflatable mouth 7 of air knife 6, forms the carrier gas air-flow, and its flow direction is shown in carrier gas air current flow direction 28.The effect of carrier gas air-flow is to drive air entry 19 blown down the suspicious particulate that comes by air nozzle 8.

The carrier gas air-flow of the test space 27 is by suction fan 16 inhale mouths 19.When the air communication that contains suspicious particulate that enters air entry 19 was crossed precondenser 18, suspicious particulate was adsorbed in the precondenser 18, and the air-flow after the filtration is discharged to through suction fan 16, gas outlet 15, exhausr port 11 among the atmosphere of outside.In the process of desorption, precondenser 18 is explained the suspicious particulate that is adsorbed onto out, is sucked and analyzes by drugs, explosive detection device (IMS) 17, and waste gas is discharged among the atmosphere of outside through gas outlet 15, exhausr port 11.

Deliver to overhead control cabinet 14 by the data that drugs, explosive detection device (IMS) 17 are surveyed by data circuit, send into system's control computer 13 again and analyze, the result shows on user terminal 24 and pilot lamp 25.

When beginning to check, pilot lamp 25 shows idle (green light is bright), and the assigned address station that checked pedestrian enters the test space 28 is good; That system begins is jet, blow, collect gas, delivers to drugs then, explosive detection device (IMS) 17 is surveyed, and finally provides analysis result by system's control computer 13.If find the vestige of Poison, explosive, then give the alarm pilot lamp 25 warnings (blinking red lamp) simultaneously; If do not find suspicious item, then these drugs, explosive inspection finish, and whether pilot lamp 25 which kind of state, also will continue to wait for the analysis result of next step metal detection subsystem.After to the last the result came out, if there is not suspicious item, pilot lamp 25 just showed idle (green light is bright), waits for entering of next tested person.

2. metal detection subsystem 31 principle of work

When drugs, explosive check subsystem 30 stop jet after, tested pedestrian can move on by metal inspection subsystem 23.The signal that detects will pass to signal isolator 10 by controller 22, the signal wire 20 of metal inspection subsystem 31, then through signal isolator 10 to overhead control cabinet signal wire 12, overhead control cabinet 14, communicate by letter with system control computer 13.Behind system's control computer 13 communications analysis,, report to the police pilot lamp 25 warnings (blinking red lamp) simultaneously immediately if find suspicious item.If data are normal, also need wait for the data analysis result of drugs/explosive detection subsystem 30, just can draw comprehensive result, whether report to the police with decision systems.

After drugs/30 samplings of explosive detection subsystem finished, drugs, explosive detection device (IMS) 17 were analyzed data and are still needed several seconds, but metal detection subsystem 23 synchronizing detection analyses at this moment.After synthesis result was to the last come out, if there is not suspicious item, pilot lamp 25 just showed idle (green light is bright), waits for entering of next tested person.

In a word, survey subsystem for two and combine, can finish the tasks such as drugs, explosive and metal of checking that the pedestrian carries simultaneously, improved checking efficiency.

Although illustrated and described embodiment of the present utility model, for the ordinary skill in the art, be appreciated that under the situation that does not break away from principle of the present utility model and spirit and can change that scope of the present utility model is limited by claims and equivalent thereof to these embodiment.

Claims (10)

1. pedestrains safety inspection door that detects drugs, explosive and metal, comprise metal detection subsystem and drugs/explosive detection subsystem, described metal detection subsystem in series is installed on described drugs/explosive detection subsystem, it is characterized in that, described safety check door is provided with spacer assembly, and described spacer assembly makes between described metal detection subsystem and the described drugs/explosive detection subsystem to be isolated mutually, do not disturb mutually.

2. the pedestrains safety inspection door of detection drugs according to claim 1, explosive and metal, wherein said spacer assembly comprises the absorbing material that is installed in the described metal detection subsystem outside, described absorbing material absorb the emission of described metal detection subsystem, the electromagnetic wave that propagates into the perimeter and electromagnetic wave or the echo that outside the metal detection zone, is produced, to weaken and to prevent that extra-regional electromagnetic wave of metal detection or echo from entering in the metal detection zone.

3. the pedestrains safety inspection door of detection drugs according to claim 1, explosive and metal, wherein said spacer assembly comprises signal isolator, described signal isolator is isolated signal wire, power lead and the ground wire of described metal detection subsystem and signal wire, power lead and the ground wire of described drugs/explosive detection subsystem mutually, so that prevent the signal cross-talk between described metal detection subsystem and the described drugs/explosive detection subsystem.

4. the pedestrains safety inspection door of detection drugs according to claim 1, explosive and metal, wherein

Described spacer assembly comprises the absorbing material that is installed in the described metal detection subsystem outside, described absorbing material absorb the emission of described metal detection subsystem, the electromagnetic wave that propagates into the perimeter and electromagnetic wave or the echo that outside the metal detection zone, is produced, to weaken and to prevent that extra-regional electromagnetic wave of metal detection or echo from entering in the metal detection zone;

Described spacer assembly also comprises signal isolator, described signal isolator is isolated signal wire, power lead and the ground wire of described metal detection subsystem and signal wire, power lead and the ground wire of described drugs/explosive detection subsystem mutually, so that prevent the signal cross-talk between described metal detection subsystem and the described drugs/explosive detection subsystem.

5. according to the pedestrains safety inspection door of claim 3 or 4 described detection drugs, explosive and metal, wherein said signal isolator is arranged on wave filter, decoupling device and the photoisolator etc. on signal wire, power lead and the ground wire of described metal detection subsystem or described drugs/explosive detection subsystem.

6. the pedestrains safety inspection door of detection drugs according to claim 5, explosive and metal, the signal wire of the signal wire of wherein said metal detection subsystem and described drugs/explosive detection subsystem spatially is separated from each other.At the point that must intersect, adopt right-angled intersection to cross collimation method.

7. the pedestrains safety inspection door of detection drugs according to claim 1, explosive and metal, two sidewalls of the inspection passage of wherein said drugs/explosive detection subsystem are provided with a plurality of nozzle placement layers, each nozzle placement layer comprises a plurality of nozzles, and a plurality of nozzles on described each nozzle placement layer all point to the center of the nozzle placement layer at its place.

8. the pedestrains safety inspection door of detection drugs according to claim 1, explosive and metal, the roof of the inspection passage of wherein said drugs/explosive detection subsystem is provided with the air knife that vertically blows air down, described air knife comprises four big air knives and two little air knives, and described four big air knives are arranged around two little air knives.

9. the pedestrains safety inspection door of detection drugs according to claim 1, explosive and metal, wherein said safety check door also comprise the display lamp that shows the inspection state.

10. the pedestrains safety inspection door of detection drugs according to claim 1, explosive and metal, wherein said safety check door also comprises the terminal display that shows check result.

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