CN204228633U - Channel-type X-ray backward scattering human-body safety scanning system - Google Patents

Abstract

The utility model relates to a kind of channel-type X-ray backward scattering human-body safety scanning system, it is characterized in that, comprise the X ray backward scattering human-body safety scanner that two structures are identical, two X ray backward scattering human-body safety scanners are staggered relatively, define scan channel in the middle of it; Also include the sheet differential control apparatus that control two X ray backward scattering human-body safety scanners realize differential detection.Adopt technique scheme, can at short notice once by checking double-face person volume image, do not need personnel to be parked on original place and turn round and carry out pros and cons twice detection, quick, simple, convenient, thus shorten the time of human body duplex scanning, be reduced to about 10 seconds by original more than 20 second; Because scanning does not have any contact with human body, much artificial trouble can be exempted, thus can do the hidden inspection of channel-type at special occasions.In addition, the utility model volume is little, structure is compacter; The utility model swings up and down while horizontal lifting, and the scope of scanning expands greatly, in addition the cooperation of major-minor column, improves the stability of operation.

Description

Channel-type X-ray backward scattering human-body safety scanning system

Technical field

The utility model belongs to radiation safety detection technique field, particularly relate to a kind of for the safety detection of public place to people, when by security check passage, the channel-type X-ray backward scattering human-body safety scanning system of various metal below people's clothes entrained by body surface and nonmetal contraband goods can be detected fast.

Background technology

X ray backward scattering human-body safety scanner is based on compton backscattering image-forming principle, the non-coherent scattering effect that equipment utilization X ray and matter interaction occur, the free electron of incident x-ray photons and tested substance collides, the portion of energy of photon passes to free electron to be made it to become recoil electron, himself off-energy also changes direction and becomes scattered photon, the x-ray photon of detected material scattering collected by the special scattering detector of equipment, generates the scattered x-ray image of checking matter.

Due to X ray Compton back scattering tomography can highlight by low-Z element form containing enriching carbon, hydrogen, oxygen, nitrogen composition, density has larger material, particularly very effective to detection thin layer shape dangerous substance, so the nonmetal contraband goodss such as sintex, plastic bomb, explosive and drugs that human body carries can be detected.

Back scattering X-ray checkout equipment adopts flying-spot scanner image-forming principle within the unit interval, checking matter only has any to accept radiation exposure, the single of equipment check dosage and leakage agent dose rate extremely low, normally 1/10th of legacy equipment is even lower, to human body fanout free region.

Detector and the X ray emissive source of back scattering X-ray checkout facility are positioned at the same side, make the simple for structure compact of equipment, can implement the hidden inspection to detected material.

When ray energy can not penetrate detected material, back scattering X-ray checkout equipment can implement bilateral inspection to checking matter, within the shortest time, obtain full figure, convenient and swift.

Current X ray security scanner utilizes flying-spot scanner mechanism flying-spot scanner to be divided into horizontal scanning and vertical sweep bidimensional module, but existing defects in vertical sweep process, due to the height limitation of scanner, namely often there will be scanning height inadequate, also there will be dead band in the bottom of scanning simultaneously, also just cannot to scan by the head of scanning person and foot when insufficient height with regard to saying, in order to address the aforementioned drawbacks, way general is at present that the short transverse by scanner extends, coordinate scanning person's standing platform simultaneously, the scanning of whole body can be carried out like this, the defect adopting this technical scheme to exist is exactly the volume greatly increasing scanner, too increase manufacturing cost simultaneously, transportation cost etc., in addition, some scanners increase flying-spot scanner mechanism and in scanning process, swing up and down certain angle, the whole height of reduction scanner that like this can be suitable, but still can not thoroughly solve.

Summary of the invention

The utility model provides one can at short notice once by checking double-face person's volume image for solving in known technology the technical matters that exists, stable, expand linear sweep limit, ensure the channel-type X-ray backward scattering human-body safety scanning system of scanning linearity.

The technical scheme that the utility model is taked for the technical matters existed in solution known technology is:

A kind of channel-type X-ray backward scattering human-body safety scanning system, it is characterized in that, comprise the X ray backward scattering human-body safety scanner that two structures are identical, two X ray backward scattering human-body safety scanners are staggered relatively, define scan channel in the middle of it; Described X ray backward scattering human-body safety scanner,

Comprise chassis, column, electrical arrangement frame, power distribution cabinet, scanning platform and the flying-spot scanner mechanism be arranged on surface sweeping platform and signal sensor, described scanning platform is provided with the tilting mechanism driving flying-spot scanner mechanism to swing up and down; Described column is arranged on chassis by securing member, inside described column, be provided with cant board, and described column is provided with the elevating mechanism of driving side riser oscilaltion; Cant board connects tilting mechanism by back shaft, and power distribution cabinet is arranged on the offside of column, and is connected with chassis by securing member; Also include the sheet differential control apparatus that control two X ray backward scattering human-body safety scanners realize differential detection.

The utility model can also adopt following technical measures:

Also be provided with secondary column between described power distribution cabinet and column, described secondary column is provided with secondary balance weight mechanism, and secondary balance weight mechanism is provided with and is connected with secondary column link.

The anglec of rotation of the tilting mechanism that described driving flying-spot scanner mechanism swings up and down is-60 ° ~ 60 °.

Described elevating mechanism comprises being arranged on inside column and is provided with the first line slideway, on described cant board, corresponding first line slideway position is fitted with the first linear slider that linearly guide rail slides up and down, described cant board is connected with the drive unit that driving side riser slides up and down along the first line slideway, described drive unit mainly comprises drive motor, reductor, leading screw and the feed screw nut coordinated with leading screw, wherein said drive motor and reductor are positioned at the top of column, the output terminal of described reductor drives leading screw, described feed screw nut is packed on cant board, described leading screw is vertically mounted on column, in the upper end of the first line slideway and bottom, correspondence is provided with upper limit travel switch and lower limit travel switch respectively.

Described tilting mechanism comprises the swing riser connecting flying-spot scanner mechanism, and described swing riser is arranged on cant board by back shaft, and the lower end of described swing riser connects scanning platform; Described swing riser is provided with wobble gear, described wobble gear engagement transition gear, described transition gear engagement driving wheel, described driving wheel connects reductor, and reductor connects drive motor, and described drive motor and reductor are mounted on cant board.

Described column is also provided with main balance weight mechanism, described main balance weight mechanism mainly comprises capstan support, capstan, leading chain and main balancing weight, wherein said capstan support is fixedly mounted on the top of column, capstan support is provided with two capstans, described capstan is fitted with leading chain, the end connection side riser of described leading chain in the inner side of column, in the outside of column, the end of described leading chain connects main balancing weight; In the outside of column, corresponding main balancing weight position is provided with the second line slideway, and described main balancing weight is provided with the second linear slider coordinated with the second line slideway.

Described secondary balance weight mechanism mainly comprises the secondary guide chain on auxiliary connection column link, and described secondary guide chain is engaged on secondary guide wheel, and described secondary guide wheel is arranged on secondary wheel bracket, the end auxiliary connection balancing weight of described secondary guide chain in the outside of secondary column; In the outside of secondary column, corresponding secondary balancing weight position is provided with the 3rd line slideway, and described secondary balancing weight is provided with the 3rd linear slider coordinated with the 3rd line slideway.

Described sheet differential control apparatus controls two X ray backward scattering human-body safety scanners and realizes the startup of row difference, mainly comprise computing machine, described computing machine controls two independent PLC arranged, and two PLC control 1 ~ 50, the startup interval scan line of two X ray backward scattering human-body safety scanners; Each PLC connects two servo controllers respectively, and described servo controller controls to control respectively the oscillating motor of X ray backward scattering human-body safety scanner and lifting motor starts simultaneously; Detector on two X ray backward scattering human-body safety scanners gathers positive information and the reverse side information of human body respectively; The information of collection is passed to computing machine by detector after treatment, and described computing machine connects image display.

Described sheet differential control apparatus controls two X ray backward scattering human-body safety scanners and realizes the startup of colleague's point difference, mainly comprise computing machine, described computing machine controls two independent PLC arranged, and two PLC control two X ray backward scattering human-body safety scanners, and at same scan line interval, 10 ~ 200 points start; Each PLC connects two servo controllers respectively, and described servo controller controls to control respectively the oscillating motor of X ray backward scattering human-body safety scanner and lifting motor starts simultaneously; Detector on every platform X ray backward scattering human-body safety scanner gathers positive information and the reverse side information of human body respectively; Detector passes to computing machine by after the information processing of collection, and described computing machine connects image display.

Described sheet differential control apparatus controls two X ray backward scattering human-body safety scanners and realizes the startup of different rows point difference, mainly comprise computing machine, described computing machine controls two independent PLC arranged, two PLC control two X ray backward scattering human-body safety scanners and start in different rows point difference, interval 1 ~ 50 row, simultaneously 10 ~ 200, interval point; Each PLC connects two servo controllers respectively, and described servo controller controls to control respectively the oscillating motor of X ray backward scattering human-body safety scanner and lifting motor starts simultaneously; Detector on every platform X ray backward scattering human-body safety scanner gathers positive information and the reverse side information of human body respectively; Detector passes to computing machine by after the information processing of collection, and described computing machine connects image display.

The advantage that the utility model has and good effect are: because the utility model adopts technique scheme, can at short notice once by checking double-face person's volume image, do not need people to be parked on original place to turn round and carry out pros and cons twice detection, fast, simply, conveniently, thus shorten the time of human body duplex scanning, be reduced to about 10 seconds by original more than 20 second; Because scanning does not have any contact with human body, much artificial trouble can be exempted, thus can do the hidden inspection of channel-type at special occasions.Separate unit X ray backward scattering human-body safety scanner structure is compacter, reduces the overall volume size of scanner; Tilting mechanism of the present utility model and elevating mechanism action simultaneously, namely while horizontal lifting, swing up and down, the scope of scanning expands greatly; The balance weight mechanism set up in addition improves the stability that scanner runs, and ensure that scanning linearity simultaneously.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model embodiment 1;

Fig. 2 is the structural drawing of separate unit scanner in embodiment 1;

Fig. 3 is A direction view in Fig. 2;

Fig. 4 is B direction view in Fig. 2;

Fig. 5 is C direction view in Fig. 2;

Fig. 6 is D direction view in Fig. 2;

Fig. 7 is control principle drawing;

Fig. 8 is that X ray backward scattering human-body safety scanner realizes the startup of colleague's point difference;

Fig. 9 is that X ray backward scattering human-body safety scanner realizes the startup of row difference;

Figure 10 is that X ray backward scattering human-body safety scanner realizes the startup of colleague's point difference;

Figure 11 is embodiment 2 structural representation;

In figure: 1, chassis; 2, column; 3, electrical arrangement frame; 4, power distribution cabinet; 5, surface sweeping platform; 6, flying-spot scanner mechanism; 7, tilting mechanism; 7-1, swing riser; 7-2, back shaft; 7-3, wobble gear; 7-4, transition gear; 7-5, driving wheel; 7-6, reductor; 7-7, drive motor; 8, column; 8-1, cant board; 9, secondary column; 10, elevating mechanism; 10-1, the first line slideway; 10-2, the first linear slider; 10-3, drive unit; 10-30, drive motor; 10-31, reductor; 10-32, leading screw; 10-33, feed screw nut; 10-4, upper limit travel switch; 10-5, lower limit travel switch; 11, secondary column link; 12, secondary balance weight mechanism; 12-1, secondary guide chain; 12-2, secondary guide wheel; 12-3, secondary wheel bracket; 12-4, secondary balancing weight; 12-5, the 3rd line slideway; 12-6, the 3rd linear slider; 13, main balance weight mechanism; 13-1, capstan support; 13-2, capstan; 13-3, leading chain; 13-4, main balancing weight; 13-5, the second line slideway; 13-6, the second linear slider; 14, signal sensor.

Embodiment

For summary of the invention of the present utility model, Characteristic can be understood further, especially exemplified by following examples, and accompanying drawing is coordinated to be described in detail as follows:

Embodiment 1, refer to Fig. 1 to Figure 10, a kind of channel-type X-ray backward scattering human-body safety scanning system, comprise the X ray backward scattering human-body safety scanner that two structures are identical, two X ray backward scattering human-body safety scanners are staggered relatively, define scan channel in the middle of it; Every platform X ray backward scattering human-body safety scanner comprises chassis 1, column 2, electrical arrangement frame 3, power distribution cabinet 4, surface sweeping platform 5 and the flying-spot scanner mechanism 6 be arranged on surface sweeping platform and signal sensor 14, described scanning platform is connected with the tilting mechanism 7 driving flying-spot scanner mechanism to swing up and down; Described column is provided with two, be respectively column 8 and secondary column 9, column and secondary column by securing member respectively symmetry be arranged on chassis 1, inside described column, be provided with cant board 8-1, described column is provided with the elevating mechanism 10 of driving side riser 8-1 oscilaltion; Cant board 8-1 connects tilting mechanism 7 by back shaft, and described cant board 8-1 is also provided with and is connected with secondary column link 11, described secondary column is provided with secondary balance weight mechanism 12; This secondary balance weight mechanism mainly alleviates leading screw in load, improves the stability that equipment runs.In the outside of secondary column 9, power distribution cabinet 4 is installed; Above-mentioned separate unit X ray backward scattering human-body safety scanner imaging technique and principle of work belong to prior art, no longer repeat at this.

Native system also includes the sheet differential control apparatus that control two X ray backward scattering human-body safety scanners realize differential detection.

Above-mentioned sheet differential control apparatus controls two X ray backward scattering human-body safety scanners and realizes the startup of row difference, mainly comprise computing machine, described computing machine controls two independent PLC arranged, and two PLC control two X ray backward scattering human-body safety scanner interval 1 ~ 50 row and start; Temporally calculate difference 5 milliseconds ~ 250 milliseconds; Each PLC connects two servo controllers respectively, and described servo controller controls to control respectively the oscillating motor of X ray backward scattering human-body safety scanner and lifting motor starts simultaneously; Detector on every platform X ray backward scattering human-body safety scanner gathers positive information and the reverse side information of human body respectively; The information of collection is passed to computing machine by detector.

Above-mentioned sheet differential control apparatus controls two X ray backward scattering human-body safety scanners and realizes the startup of colleague's point difference, mainly comprise computing machine, described computing machine controls two independent PLC arranged, and two PLC control 10 ~ 200, two X ray backward scattering human-body safety scanner intervals point and start; Temporally calculate difference 0.1 millisecond ~ 2 milliseconds, each PLC connects two servo controllers respectively, and described servo controller controls to control respectively the oscillating motor of X ray backward scattering human-body safety scanner and lifting motor starts simultaneously; Detector on every platform X ray backward scattering human-body safety scanner gathers positive information and the reverse side information of human body respectively; The information of collection is passed to computing machine by detector.

Above-mentioned sheet differential control apparatus controls two X ray backward scattering human-body safety scanners and realizes the startup of different rows point difference, mainly comprise computing machine, described computing machine controls two independent PLC arranged, two PLC control two X ray backward scattering human-body safety scanners and start in different rows point difference, interval 1 ~ 50 row, 10 ~ 200, interval point, temporally calculates difference 5.1 milliseconds ~ 252 milliseconds, realizes two scanning light beam optimal spacing distances simultaneously; Each PLC connects two servo controllers respectively, and described servo controller controls to control respectively the oscillating motor of X ray backward scattering human-body safety scanner and lifting motor starts simultaneously; Detector on every platform X ray backward scattering human-body safety scanner gathers positive information and the reverse side information of human body respectively; Detector passes to computing machine by after the information processing of collection.

The anglec of rotation of the tilting mechanism 7 that described driving flying-spot scanner mechanism swings up and down is-60 ° ~ 60 °.

Described elevating mechanism 10 comprises being arranged on inside column and is provided with the first line slideway 10-1, on described cant board 8-1, corresponding first line slideway position is fitted with the first linear slider 10-2 that linearly guide rail slides up and down, described cant board 8-1 is connected with the drive unit 10-3 that driving side riser 8-1 slides up and down along the first line slideway, described drive unit mainly comprises drive motor 10-30, reductor 10-31, leading screw 10-32 and the feed screw nut 10-33 coordinated with leading screw, wherein said drive motor 10-30 and reductor 10-31 is positioned at the top of column 8, the output terminal of described reductor 10-31 drives leading screw 10-32, described feed screw nut 10-33 is packed on cant board 8-1, described leading screw is vertically mounted on column 8, in the upper end of the first line slideway and bottom, correspondence is provided with upper limit travel switch 10-4 and lower limit travel switch 10-5 respectively.

Described tilting mechanism 7 comprises the swing riser 7-1 connecting flying-spot scanner mechanism 6, and described swing riser is arranged on cant board 8-1 by back shaft 7-2, and the lower end of described swing riser 7-1 connects scanning platform 5; Described swing riser is provided with wobble gear 7-3, described wobble gear engagement transition gear 7-4, described transition gear engagement driving wheel 7-5, described driving wheel connects reductor 7-6, reductor connects drive motor 7-7, and described drive motor and reductor are mounted on cant board 8-1.

Described column is also provided with main balance weight mechanism 13, this balance weight mechanism mainly alleviates leading screw in load, improves the stability that equipment runs; Described main balance weight mechanism 13 mainly comprises capstan support 13-1, capstan 13-2, leading chain 13-3 and main balancing weight 13-4, wherein said capstan support 13-1 is fixedly mounted on the top of column 8, capstan support 13-1 is provided with two capstan 13-2, described capstan is fitted with leading chain 13-3, the end connection side riser 8-1 of described leading chain 13-3 in the inner side of column 8, in the outside of column 8, the end of described leading chain 13-3 connects main balancing weight 13-4; In the outside of column, corresponding main balancing weight position is provided with the second line slideway 13-5, and described main balancing weight 13-4 is provided with the second linear slider 13-6 coordinated with the second line slideway.

Described secondary balance weight mechanism 12 mainly comprises the secondary guide chain 12-1 on auxiliary connection column link 11, described secondary guide chain is engaged on secondary guide wheel 12-2, described secondary guide wheel 12-2 is arranged on secondary wheel bracket 12-3, at the end auxiliary connection balancing weight 12-4 of the described secondary guide chain 12-1 in the outside of secondary column 9; In the outside of secondary column, corresponding secondary balancing weight position is provided with the 3rd line slideway 12-5, and described secondary balancing weight is provided with the 3rd linear slider 12-6 coordinated with the 3rd line slideway.

The rear side hinged installation electrical arrangement frame 3 of described power distribution cabinet 4, can reduce the volume size of power distribution cabinet so further, improve integral space utilization ratio.

Adopt technique scheme, can at short notice once by checking double-face person volume image, do not need people to be parked on original place and turn round and carry out pros and cons twice detection, quick, simple, convenient, thus shorten the time of human body duplex scanning, be reduced to about 10 seconds by original more than 20 second; Because scanning does not have any contact with human body, much artificial trouble can be exempted, thus can do the hidden inspection of channel-type at special occasions; The utility model structure is compacter, reduces the overall volume size of scanner; Tilting mechanism of the present utility model and elevating mechanism action simultaneously, namely while horizontal lifting, swing up and down, the scope of scanning expands greatly; The balance weight mechanism set up in addition improves the stability that scanner runs, and ensures scanning linearity simultaneously.

Embodiment 2, refers to Figure 11, a kind of channel-type X-ray backward scattering human-body safety scanning system, it is characterized in that, comprise the X ray backward scattering human-body safety scanner that two structures are identical, two X ray backward scattering human-body safety scanners are staggered relatively, define scan channel in the middle of it; Described X ray backward scattering human-body safety scanner comprises chassis 1, column 2, electrical arrangement frame 3, power distribution cabinet 4, surface sweeping platform 5 and the flying-spot scanner mechanism 6 be arranged on surface sweeping platform and signal sensor 14, described scanning platform is connected with the tilting mechanism 7 driving flying-spot scanner mechanism to swing up and down; Described column is arranged on chassis 1 by securing member, is provided with cant board 8-1 inside described column, and described column is provided with the elevating mechanism 10 of driving side riser 8-1 oscilaltion; Cant board 8-1 connects tilting mechanism 7 by back shaft, and power distribution cabinet is arranged on the offside of column, and is connected with chassis by securing member; Also include the sheet differential control apparatus that control two X ray backward scattering human-body safety scanners realize differential detection.The difference of the present embodiment and embodiment 1 is, the column of the present embodiment adopts a column, and all the other structures, control method are all identical with embodiment 1.

The above is only to preferred embodiment of the present utility model, not any pro forma restriction is done to the utility model, every according to technical spirit of the present utility model to any simple modification made for any of the above embodiments, equivalent variations and modification, all belong in the scope of technical solutions of the utility model.

Claims (10)

1. a channel-type X-ray backward scattering human-body safety scanning system, is characterized in that, comprises the X ray backward scattering human-body safety scanner that two structures are identical, and two X ray backward scattering human-body safety scanners are staggered relatively, defines scan channel in the middle of it; Described X ray backward scattering human-body safety scanner comprises chassis, column, electrical arrangement frame, power distribution cabinet, scanning platform and the flying-spot scanner mechanism be arranged on surface sweeping platform and signal sensor, described scanning platform is provided with the tilting mechanism driving flying-spot scanner mechanism to swing up and down; Described column is arranged on chassis by securing member, inside described column, be provided with cant board, and described column is provided with the elevating mechanism of driving side riser oscilaltion; Cant board connects tilting mechanism by back shaft, and power distribution cabinet is arranged on the offside of column, and is connected with chassis by securing member; Also include the sheet differential control apparatus that control two X ray backward scattering human-body safety scanners realize differential detection.

2. channel-type X-ray backward scattering human-body safety scanning system according to claim 1, it is characterized in that: between described power distribution cabinet and column, be also provided with secondary column, described secondary column is provided with secondary balance weight mechanism, and secondary balance weight mechanism is provided with and is connected with secondary column link.

3. channel-type X-ray backward scattering human-body safety scanning system according to claim 1, is characterized in that: the anglec of rotation of the tilting mechanism that described driving flying-spot scanner mechanism swings up and down is-60 ° ~ 60 °.

4. channel-type X-ray backward scattering human-body safety scanning system according to claim 1, it is characterized in that: described elevating mechanism comprises being arranged on inside column and is provided with the first line slideway, on described cant board, corresponding first line slideway position is fitted with the first linear slider that linearly guide rail slides up and down, described cant board is connected with the drive unit that driving side riser slides up and down along the first line slideway, described drive unit mainly comprises drive motor, reductor, leading screw and the feed screw nut coordinated with leading screw, wherein said drive motor and reductor are positioned at the top of column, the output terminal of described reductor drives leading screw, described feed screw nut is packed on cant board, described leading screw is vertically mounted on column, in the upper end of the first line slideway and bottom, correspondence is provided with upper limit travel switch and lower limit travel switch respectively.

5. channel-type X-ray backward scattering human-body safety scanning system according to claim 1, it is characterized in that: described tilting mechanism comprises the swing riser connecting flying-spot scanner mechanism, described swing riser is arranged on cant board by back shaft, and the lower end of described swing riser connects scanning platform; Described swing riser is provided with wobble gear, described wobble gear engagement transition gear, described transition gear engagement driving wheel, described driving wheel connects reductor, and reductor connects drive motor, and described drive motor and reductor are mounted on cant board.

6. channel-type X-ray backward scattering human-body safety scanning system according to claim 1, it is characterized in that: described column is also provided with main balance weight mechanism, described main balance weight mechanism mainly comprises capstan support, capstan, leading chain and main balancing weight, wherein said capstan support is fixedly mounted on the top of column, capstan support is provided with two capstans, described capstan is fitted with leading chain, the end connection side riser of described leading chain in the inner side of column, in the outside of column, the end of described leading chain connects main balancing weight; In the outside of column, corresponding main balancing weight position is provided with the second line slideway, and described main balancing weight is provided with the second linear slider coordinated with the second line slideway.

7. channel-type X-ray backward scattering human-body safety scanning system according to claim 2, it is characterized in that: described secondary balance weight mechanism mainly comprises the secondary guide chain on auxiliary connection column link, described secondary guide chain is engaged on secondary guide wheel, described secondary guide wheel is arranged on secondary wheel bracket, the end auxiliary connection balancing weight of described secondary guide chain in the outside of secondary column; In the outside of secondary column, corresponding secondary balancing weight position is provided with the 3rd line slideway, and described secondary balancing weight is provided with the 3rd linear slider coordinated with the 3rd line slideway.

8. according to the arbitrary described channel-type X-ray backward scattering human-body safety scanning system of claim 1 to 7, it is characterized in that: described sheet differential control apparatus controls two X ray backward scattering human-body safety scanners and realizes the startup of row difference, mainly comprise computing machine, described computing machine controls two independent PLC arranged, and two PLC control 1 ~ 50, the startup interval scan line of two X ray backward scattering human-body safety scanners; Each PLC connects two servo controllers respectively, and described servo controller controls to control respectively the oscillating motor of X ray backward scattering human-body safety scanner and lifting motor starts simultaneously; Detector on two X ray backward scattering human-body safety scanners gathers positive information and the reverse side information of human body respectively; The information of collection is passed to computing machine by detector after treatment, and described computing machine connects image display.

9. according to the arbitrary described channel-type X-ray backward scattering human-body safety scanning system of claim 1 to 7, it is characterized in that: described sheet differential control apparatus controls two X ray backward scattering human-body safety scanners and realizes the startup of colleague's point difference, mainly comprise computing machine, described computing machine controls two independent PLC arranged, and two PLC control two X ray backward scattering human-body safety scanners, and at same scan line interval, 10 ~ 200 points start; Each PLC connects two servo controllers respectively, and described servo controller controls to control respectively the oscillating motor of X ray backward scattering human-body safety scanner and lifting motor starts simultaneously; Detector on every platform X ray backward scattering human-body safety scanner gathers positive information and the reverse side information of human body respectively; Detector passes to computing machine by after the information processing of collection, and described computing machine connects image display.

10. according to the arbitrary described channel-type X-ray backward scattering human-body safety scanning system of claim 1 to 7, it is characterized in that: described sheet differential control apparatus controls two X ray backward scattering human-body safety scanners and realizes the startup of different rows point difference, mainly comprise computing machine, described computing machine controls two independent PLC arranged, two PLC control two X ray backward scattering human-body safety scanners and start in different rows point difference, interval 1 ~ 50 row, simultaneously 10 ~ 200, interval point; Each PLC connects two servo controllers respectively, and described servo controller controls to control respectively the oscillating motor of X ray backward scattering human-body safety scanner and lifting motor starts simultaneously; Detector on every platform X ray backward scattering human-body safety scanner gathers positive information and the reverse side information of human body respectively; Detector passes to computing machine by after the information processing of collection, and described computing machine connects image display.