CN102004087A

CN102004087A - Transmission type Terahertz wave real-time image scanning device

Info

Publication number: CN102004087A
Application number: CN 201010299912
Authority: CN
Inventors: 张存林; 邓朝; 梁来顺
Original assignee: Capital Normal University
Current assignee: Capital Normal University
Priority date: 2010-09-29
Filing date: 2010-09-29
Publication date: 2011-04-06
Anticipated expiration: 2030-09-29
Also published as: CN102004087B

Abstract

The invention discloses a transmission type Terahertz wave real-time image scanning device, which comprises a polyhedral drum, a Terahertz lens, a Terahertz detector, a front amplifier, a data acquisition card, a camera, an image acquisition card and an imaging unit, wherein the polyhedral drum rotates around the rotating shaft of the polyhedral drum and swings reciprocally around the swinging shaft of the polyhedral drum and is used for irradiating and/or reflecting the Terahertz waves of a target to be scanned onto the Terahertz lens; the Terahertz lens is used for converging the Terahertz waves onto the Terahertz detector; the Terahertz detector is used for converting the Terahertz waves into a voltage signal; the front amplifier is used for filtering and amplifying the voltage signal; the data acquisition card is used for performing the A/D conversion of the output signal of the front amplifier and data acquisition to obtain a digital signal; the camera is used for acquiring the optical image of the target to be scanned; the image acquisition card is used for acquiring the image to obtain a digital image signal; and the imaging unit is used for acquiring the Terahertz wave image, the inverse image of the Terahertz wave image and the optical image of the target to be scanned according to the digital signal and the digital image signal, and transmitting the images to a display unit for partition synchronous display.

Description

Transmission-type THz wave real time imagery scanister

Technical field

The present invention relates to THz wave Image Acquisition and process field, in particular to a kind of transmission-type THz wave real time imagery scanister.

Background technology

Terahertz (Terahertz, THz) ripple is commonly referred to as frequency and is in electromagnetic wave between 0.1THz～10THz (wavelength is at 3mm～30 μ m), between microwave and infrared between.THz wave has very strong penetration power to materials such as plastics, the scraps of paper, textile and leathers, and these materials can hinder visible light and ultrared propagation fully; The THz ripple has the wavelength shorter than millimeter wave, and this makes the image that is become by the THz ripple have higher spatial resolution; The photon energy of 1THz is 4.1meV only, compares with X ray, and it can not cause ionization damage to biological tissue.In addition, the not outside radiated electromagnetic wave of passive type terahertz imaging has high concealment performance and security.As seen, passive type terahertz imaging technology might become a kind of novel safety check technology, can form effective complementation with traditional safety check means.

At present, because the detector of terahertz wave band is subjected to the restriction of processing technology, it is extremely expensive not only to make difficulty but also cost, so terahertz imaging can't reach picture CCD (Charge-coupled Device, charge coupled cell) camera or the flat array of infrared Jiao forms two dimensional image like that easily.Therefore, most of terahertz imagings adopt the scanning imagery pattern.In scanning imagery, because the mechanical scanning imagery of pointwise need take a long time, this has limited its practicality in safety check; And adopt 2-D vibration mirror to carry out scanning imagery, though can improve sweep velocity, the requirement for the required high resolving power of safety check, big visual field, fast imaging exists bigger difficulty in implementation procedure.

Summary of the invention

The invention provides a kind of transmission-type THz wave real time imagery scanister, in order to satisfy the requirement of safety check middle high-resolution, big visual field, fast imaging.

The invention provides a kind of transmission-type THz wave real time imagery scanister, this device comprises: polyhedron rotary drum, THz wave lens, terahertz wave detector, prime amplifier, data collecting card, camera, image pick-up card, image-generating unit and display unit, wherein, the polyhedron rotary drum is around its turning axle rotation, and, be used for the THz wave of target emanation to be scanned and/or reflection is reflexed to the THz wave lens simultaneously along the axis of swing reciprocally swinging; The THz wave lens are used for the THz wave that scanning obtains is converged to terahertz wave detector; Terahertz wave detector is used for being converted to voltage signal with detecting THz wave; Prime amplifier is used for voltage signal is carried out filtering, amplification; Data collecting card is used for the output signal of prime amplifier is carried out A/D conversion and data acquisition obtains digital signal; Camera is used to obtain the optical imagery of target to be scanned; Image pick-up card is used for image is collected data image signal; Image-generating unit is used for obtaining the THz wave image of target to be scanned, the inverse video and the optical imagery of THz wave image according to digital signal and data image signal, and the inverse video of Terahertz image, Terahertz image and optical imagery are sent to display unit carry out subregion and show simultaneously.

The foregoing description carries out two-dimensional scan horizontal and vertical to target to be scanned by the polyhedron rotary drum, and adopt camera to obtain the optical imagery of target to be scanned, and then obtain the THz wave image that resolution is higher, the visual field is bigger, the inverse video and the optical imagery of THz wave image quickly, satisfied the demand of safety check, reduce cost, overcome problems of the prior art.

Description of drawings

In order to be illustrated more clearly in the embodiment of the invention or technical scheme of the prior art, to do to introduce simply to the accompanying drawing of required use in embodiment or the description of the Prior Art below, apparently, accompanying drawing in describing below only is some embodiments of the present invention, for those of ordinary skills, under the prerequisite of not paying creative work, can also obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the front view of first embodiment of the invention;

Fig. 2 is the structure cut-open view of pentahedron rotary drum among Fig. 1 embodiment;

Fig. 3 is the front view of second embodiment of the invention;

Fig. 4 is the front view of third embodiment of the invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the invention, the technical scheme in the embodiment of the invention is clearly and completely described, obviously, described embodiment only is the present invention's part embodiment, rather than whole embodiment.Based on the embodiment among the present invention, those of ordinary skills belong to the scope of protection of the invention not paying the every other embodiment that is obtained under the creative work prerequisite.

Transmission-type THz wave real time imagery scanister is used for the THz wave imaging of target according to an embodiment of the invention, and this device comprises sweep test and image acquisition section.Sweep test comprises: window, be positioned at target to be scanned after, enter transmission-type THz wave real time imagery scanister inside in order to block parasitic light, dust etc.; The polyhedron rotary drum is located on the light path behind the window, in order to horizontal and vertical two-dimensional scan target to be scanned; The Terahertz lens are on the light path behind the polyhedron rotary drum of position, to converge the target institute's radiation to be measured that the scanning of polyhedron rotary drum obtains and/or the THz wave of reflection; Terahertz wave detector is positioned on the light path behind the Terahertz lens, receives that the Terahertz lens converge and the target institute's radiation to be scanned that comes and/or the terahertz signal of reflection.Image acquisition section comprises: prime amplifier, be connected with the output port of terahertz detector, and carry out processing such as filtering, amplification in order to the signal that terahertz detector is exported; Data collecting card is installed in computer-internal, in order under the control of computing machine to carry out operations such as A/D conversion, data acquisition from the output signal of prime amplifier; Camera (as the CCD camera) is positioned at by the polyhedron rotary drum, is used to obtain the optical imagery of target to be scanned; Image pick-up card is installed in computer-internal, and the picture signal that is used under the control of computing machine camera being obtained is gathered, and obtains data image signal; Image-generating unit, be used for obtaining the Terahertz image of target to be scanned, the inverse video and the optical imagery of Terahertz image, and on display, be divided into three zones and show three width of cloth realtime graphics simultaneously: the inverse video of the optical imagery of imaging region, Terahertz image and Terahertz image according to digital signal and data image signal.

In an embodiment of the present invention, the direction of the turning axle of polyhedron rotary drum is parallel to horizontal direction, and its axis of swing is perpendicular to turning axle and in vertical direction with the angle of setting (as 45 °); Also axis of swing can be parallel to horizontal direction, turning axle is perpendicular to axis of swing and in vertical direction with the angle of setting (for example 45 °).

Fig. 1 is the front view of first embodiment of the invention, THz wave light path with glancing incidence is the example explanation, the polyhedron rotary drum is a pentahedron rotary drum in the present embodiment, the axis of swing of this pentahedron rotary drum 3 is parallel to horizontal direction, turning axle is perpendicular to axis of swing and in vertical direction with the angle of setting, target 1 to be scanned places the place ahead of this pentahedron rotary drum 3.

Biconvex Terahertz lens 4 are located on the light path behind the pentahedron rotary drum 3, be positioned at the below of the scanning plane of pentahedron rotary drum 3, and the center of biconvex Terahertz lens 4 overlaps with the center of the scanning plane of described pentahedron rotary drum 3, can arrive on the biconvex Terahertz lens 4 from the THz wave that the scanning plane (rotating to the face at target to be scanned rear) of pentahedron rotary drum 3 is reflected guaranteeing.Biconvex Terahertz lens 4 are used for the THz wave from target to be scanned that the scanning of polyhedron rotary drum obtains is converged to terahertz wave detector 5.

During scanning, pentahedron rotary drum 3 rotates around its turning axle, and its turning axle can be reflected on the biconvex Terahertz lens 4 with the THz wave of assurance from target emanation to be measured from the horizontal by be arrangeding in parallel.Each face of pentahedron rotary drum 3 forwards the rear of target 1 to be scanned to, all can carry out the quick scanning of one dimension to the horizontal direction of target 1 to be scanned, and pentahedron rotary drum 3 revolutions moved for 1 week, can realize the fine scanning to target 1 to be scanned, and the line number of scanning is 5 row.

Pentahedron rotary drum 3 also carries out reciprocally swinging around its axis of swing when its turning axle rotates, promptly changes the angle at pentahedron rotary drum 3 and angle that vertical plane becomes, and the position on the object point vertical direction is changed, thereby realizes scanning longitudinally.Allow pentahedron rotary drum 3 rotation and swing the speed that synchronous continuous motion can improve scanning, can make whole motion steady, realize two dimensional surface scanning.The CCD camera is arranged near pentahedron rotary drum (not shown in Fig. 1), is used to obtain the optical imagery of target 1 to be scanned.

The terahertz signal that scans converts voltage signal to by terahertz wave detector 5, processing such as the filtering of this signal by prime amplifier, amplification, pass to the data collecting card that is contained in computer-internal then, under the control of computing machine, synchronizing signal trigger data acquisition card by sweep test, signal from prime amplifier is gathered, spliced reconstruct and demonstration by image-generating unit then, finish the two-dimensional scan imaging of complete target to be scanned 1.Image pick-up card is installed in computer-internal, and the optical image signal that is used under the control of computing machine camera being obtained is gathered, and obtains data image signal; Image-generating unit is used for obtaining the Terahertz image of target to be scanned, the inverse video and the optical imagery of Terahertz image according to digital signal and data image signal.Be divided into three zones on the display and show three width of cloth realtime graphics simultaneously: the Terahertz image of imaging region, the inverse video of Terahertz image and optical imagery.

The polyhedron rotary drum can be hollow honeycomb shape structure in the foregoing description, and its material can be aluminium alloy.

Fig. 2 is the structure cut-open view of pentahedron rotary drum among Fig. 1 embodiment.As shown in Figure 2,1 is the turning axle of pentahedron rotary drum, and 2 is the axis of swing of pentahedron rotary drum, and 3 is the pentahedron rotary drum, and 4 is the shell of pentahedron rotary drum.

Present embodiment can also be applied to infrared and real time scan imaging millimeter wave band except the real time scan imaging that can be applied to terahertz wave band.

For example, embodiments of the invention can be applied to mm-wave imaging.When mm-wave imaging, just can carry out the real time scan imaging to target to be measured by changing Terahertz lens and terahertz wave detector into work in millimeter wave band millimeter wave lens and millimeter wave detector.

Again for example, embodiments of the invention also can be applied to infrared thermal imaging.When infrared thermal imaging, just can carry out the REAL TIME INFRARED THERMAL IMAGE thermal imaging to target to be measured by changing the Infrared Lens and the infrared eye that work in infrared band into through Terahertz lens and terahertz wave detector.

Embodiments of the invention can be applied to the imaging and passive imaging pattern, also can be applied to the Active Imaging pattern.When the imaging and passive imaging pattern, the transmission-type THz wave real time imagery scanister of the embodiment of the invention directly receives the THz wave of target to be scanned self radiation, carries out the real time scan imaging.

When the Active Imaging pattern, need be by external source to target 1 emission THz wave to be scanned, imaging device receives the THz wave of target 1 reflection to be scanned.In the first embodiment of the present invention, this external light source can be arranged at a side of polyhedron rotary drum 3, and the illumination of target 1 to be scanned is provided with the light source of broad.Perhaps, the THz wave transceiver that THz wave can be launched and receive to utilization replaces terahertz wave detector 5, because light path is reversible, the THz wave that the THz wave transceiver sends arrives target 1 to be scanned via sweep test, and the exterior lighting of target 1 to be scanned is provided.Thus, embodiments of the invention can work in initiatively or the imaging and passive imaging pattern, and range of application is more widely arranged.

First example is that the high-speed rotation by the polyhedron rotary drum realizes the transversal scanning to target to be scanned, realizes target longitudinal scanning to be scanned is realized target two-dimensional real-time imaging to be scanned with this by the reciprocally swinging of polyhedron rotary drum simultaneously.It is sphere and another side is aspheric biconvex lens that the Terahertz lens adopt the one side that is made by teflon.This example is that the high-speed rotation by the polyhedron rotary drum realizes the longitudinal scanning to target to be scanned, realizes realizing transversal scanning to target to be scanned to target two-dimensional real-time imaging to be scanned with this by the reciprocally swinging of polyhedron rotary drum simultaneously.To adopt the polymkeric substance (TPX) of 4-methylpentene to be made into the one side that forms be aspheric biconvex lens for the sphere another side to the Terahertz lens in this example.In addition, the polymkeric substance of employed 4-methylpentene (TPX) material is transparent to visible light in the present embodiment, therefore can greatly reduce difficulty in imaging device making and the debug process.

Fig. 3 is the front view of second embodiment of the invention.Light path with the THz wave of glancing incidence is that example describes below.The polyhedron rotary drum is a pentahedron rotary drum in the present embodiment, and the direction of the turning axle of this pentahedron rotary drum 3 is parallel to horizontal direction, and its axis of swing is perpendicular to turning axle and in vertical direction with the angle of setting, target 1 to be scanned is positioned at the place ahead of this pentahedron rotary drum.

Terahertz lens 4 are located on the light path behind the pentahedron rotary drum 3, Terahertz lens 4 are positioned at the below of the scanning plane of pentahedron rotary drum, and the center of Terahertz lens 4 overlaps with the center of the scanning plane of pentahedron rotary drum 3, can arrive on the Terahertz lens 4 with the THz wave that scanning plane was reflected of assurance from pentahedron rotary drum 3.Terahertz lens 4 are used for the THz wave from target to be scanned is converged to terahertz wave detector 5.

During scanning, pentahedron rotary drum 3 rotates around its turning axle, and its turning axle can be reflected on the Terahertz lens 4 with the THz wave of assurance from target emanation to be measured from the horizontal by be arrangeding in parallel.Each face of pentahedron rotary drum 3 forwards the rear of target 1 to be scanned to, all can carry out the quick scanning of one dimension to the vertical direction of target 1 to be scanned, and pentahedron rotary drum 3 revolutions moved for 1 week, can realize the multiple row scanning to target 1 to be scanned, and the line number of scanning is 5 row.

Pentahedron rotary drum 3 is when its turning axle rotates, also carry out reciprocally swinging around its axis of swing, axis of swing is perpendicular to turning axle and in vertical direction with the angle of setting (as 45 °), promptly change the angle at pentahedron rotary drum 3 and angle that vertical plane becomes, position on the object point horizontal direction is changed, thereby realize horizontal scanning.Allow pentahedron rotary drum 3 rotation and swing the speed that synchronous continuous motion can improve scanning, can make whole motion steady, realize two dimensional surface scanning to object space.The CCD camera is arranged near pentahedron rotary drum (not shown in Fig. 3), is used to obtain the image of target 1 to be scanned.

The terahertz signal that scans converts voltage signal to by terahertz wave detector 5, processing such as the filtering of this signal by prime amplifier, amplification, pass to the data collecting card that is contained in computer-internal then, under the control of computing machine, synchronizing signal trigger data acquisition card by sweep test, signal from prime amplifier is gathered, spliced reconstruct and demonstration by computing machine then, finish the two-dimensional scan imaging of complete target to be scanned 1.Image pick-up card is installed in computer-internal, and the picture signal that is used under the control of computing machine camera being obtained is gathered, and obtains data image signal.Image-generating unit is used for obtaining the Terahertz image of target to be scanned, the inverse video and the optical imagery of Terahertz image according to digital signal and data image signal.Be divided into three zones on the display and show three width of cloth realtime graphics simultaneously: imaging region Terahertz image, the inverse video of Terahertz image and optical imagery.

Present embodiment can also be applied to the real time scan imaging of millimeter wave and infrared band except the real time imagery that can be applied to terahertz wave band.

For example, embodiments of the invention can be applied to mm-wave imaging.When mm-wave imaging, just can carry out real time imagery to target to be measured by changing Terahertz lens and terahertz wave detector into work in millimeter wave band millimeter wave lens and millimeter wave detector.

The present invention can be applied to the imaging and passive imaging pattern, can also be applied to the Active Imaging pattern.When the imaging and passive imaging pattern, the transmission-type THz wave real time imagery scanister of the embodiment of the invention directly receives the THz wave of target to be scanned self radiation, carries out real time imagery.

When the Active Imaging pattern, need be by external source to target emission THz wave to be scanned, imaging device receives the THz wave of target reflection to be scanned.In the second embodiment of the present invention, this external light source can be arranged at the side of polyhedron rotary drum 3, and the illumination of target to be scanned is provided with the light source of broad.Perhaps, the THz wave transceiver that THz wave can be launched and receive to utilization replaces terahertz wave detector, because light path is reversible, the THz wave that the THz wave transceiver sends arrives target to be scanned via terahertz wave fast imaging scanner, and the exterior lighting of target to be scanned is provided.Thus, embodiments of the invention can work in initiatively or the imaging and passive imaging pattern, and range of application is more widely arranged.

Among first embodiment is that high-speed rotation by the polyhedron rotary drum realizes the transversal scanning to target to be scanned, realize target longitudinal scanning to be scanned is realized target two-dimensional real-time imaging to be scanned with this by the reciprocally swinging of polyhedron rotary drum simultaneously.The Terahertz lens adopt teflon to be made into and form, for one side is that sphere simultaneously is aspheric biconvex lens.Among second embodiment is that high-speed rotation by the polyhedron rotary drum realizes the longitudinal scanning to object space, realizes target lateral scanning to be scanned is realized target two-dimensional real-time imaging to be scanned with this by the reciprocally swinging of polyhedron rotary drum simultaneously.And the Terahertz lens adopt the polymkeric substance (TPX) of 4-methylpentene to be made, for one side is that sphere simultaneously is aspheric biconvex lens.The Terahertz Fresnel Lenses that Terahertz lens in the present embodiment adopt polymkeric substance (TPX) material by the 4-methylpentene to form.In addition, the polymkeric substance of employed 4-methylpentene (TPX) material is transparent to visible light in the present embodiment, therefore can reduce the difficulty in imaging device making and the debug process greatly.

Fig. 4 is the front view of third embodiment of the invention, is the example explanation with the light path of the THz wave of glancing incidence.The polyhedron rotary drum is a pentahedron rotary drum in the present embodiment, and the rotating shaft parallel of this pentahedron rotary drum 3 is in horizontal direction, and its axis of swing is perpendicular to turning axle and in vertical direction with the angle of setting, target 1 to be scanned is positioned at the place ahead of this pentahedron rotary drum 3.

The Terahertz Fresnel Lenses 4 that is formed by polymkeric substance (TPX) material of 4-methylpentene is located on the light path behind the pentahedron rotary drum 3, Terahertz Fresnel Lenses 4 is positioned at the below of the scanning plane of pentahedron rotary drum 3, and the center of Terahertz Fresnel Lenses 4 overlaps with the center of the scanning plane of described pentahedron rotary drum 3, can arrive on the Terahertz Fresnel Lenses 4 with the THz wave that scanning plane was reflected of assurance from pentahedron rotary drum 3.Terahertz Fresnel Lenses 4 is used for the THz wave that scanning obtains is converged to terahertz wave detector 5.

During scanning, pentahedron rotary drum 3 rotates around its turning axle, and its turning axle can be reflected on the Terahertz Fresnel Lenses 4 with the THz wave of assurance from target emanation to be measured from the horizontal by be arrangeding in parallel.Each face of pentahedron rotary drum 3 forwards the rear of target 1 to be scanned to, all can carry out the quick scanning of one dimension to the vertical direction of target 1 to be scanned, and pentahedron rotary drum 3 revolutions moved for 1 week, can realize the multiple row scanning to target to be scanned, and the line number of scanning is 5 row.

Pentahedron rotary drum 3 also carries out reciprocally swinging around its reciprocally swinging axle when its turning axle rotates, promptly changes the angle at pentahedron rotary drum 3 and angle that vertical plane becomes, and the position on the object point horizontal direction is changed, thereby realize horizontal scanning.Allow the pentahedron rotary drum rotation and swing the speed that synchronous continuous motion can improve scanning, can make whole motion steady, realize two dimensional surface scanning to object space.The CCD camera is arranged near pentahedron rotary drum (not shown in Fig. 4), is used to obtain the image of target 1 to be scanned.

The terahertz signal that scans converts voltage signal to by terahertz wave detector 5, processing such as the filtering of this voltage signal by prime amplifier, amplification, pass to the data collecting card that is contained in computer-internal then, under the control of computing machine, synchronizing signal trigger data acquisition card by scanner, signal from prime amplifier is gathered, spliced reconstruct and demonstration by image-generating unit then, finish the two-dimensional scan imaging of complete target to be scanned.Image pick-up card is installed in computer-internal, and the picture signal that is used under the control of computing machine camera being obtained is gathered, and obtains data image signal; Image-generating unit is used for obtaining the Terahertz image of target to be scanned, the inverse video and the optical imagery of Terahertz image according to digital signal and data image signal.Be divided into three zones on the display and show three width of cloth realtime graphics simultaneously: the Terahertz image of imaging region, the inverse video of Terahertz image, optical imagery.

Present embodiment can also be applied to the real time scan imaging of millimeter wave and infrared band except the real time scan imaging that can be applied to terahertz wave band.

For example, embodiments of the invention can be applied to mm-wave imaging.When mm-wave imaging,, just can carry out real time imagery to target to be measured or space by changing Terahertz diaphotoscope and terahertz wave detector into work in millimeter wave band millimeter wave diaphotoscope and millimeter wave detector.

Again for example, embodiments of the invention also can be applied to infrared thermal imaging.When infrared thermal imaging,, just can carry out the REAL TIME INFRARED THERMAL IMAGE thermal imaging to target to be measured by changing infrared transmission mirror and the infrared eye that works in infrared band into through Terahertz diaphotoscope and terahertz wave detector.

Embodiments of the invention can be applied to the imaging and passive imaging pattern, can also be applied to the Active Imaging pattern.When the imaging and passive imaging pattern, transmission-type THz wave real time imagery scanister of the present invention directly receives the THz wave of target to be scanned self radiation, carries out the real time scan imaging.

When the Active Imaging pattern, need be by external source to target 1 emission THz wave to be scanned, imaging device receives the THz wave of target 1 reflection to be scanned.In the third embodiment of the present invention, this external light source can be arranged at the side of polyhedron rotary drum 3, and the illumination of target 1 to be scanned is provided with the light source of broad.Perhaps, the THz wave transceiver that THz wave can be launched and receive to utilization replaces terahertz wave detector 5, because light path is reversible, the THz wave that the THz wave transceiver sends arrives target 1 to be scanned via imaging device, and the exterior lighting of target 1 to be scanned is provided.Thus, the present invention can work in initiatively or the imaging and passive imaging pattern, and range of application is more widely arranged.

One of ordinary skill in the art will appreciate that: accompanying drawing is the synoptic diagram of an embodiment, and module in the accompanying drawing or flow process might not be that enforcement the present invention is necessary.

One of ordinary skill in the art will appreciate that: the module in the device among the embodiment can be described according to embodiment and be distributed in the device of embodiment, also can carry out respective change and be arranged in the one or more devices that are different from present embodiment.The module of the foregoing description can be merged into a module, also can further split into a plurality of submodules.

The invention described above embodiment sequence number is not represented the quality of embodiment just to description.

It should be noted that at last: above embodiment only in order to technical scheme of the present invention to be described, is not intended to limit; Although with reference to previous embodiment the present invention is had been described in detail, those of ordinary skill in the art is to be understood that: it still can be made amendment to the technical scheme that previous embodiment is put down in writing, and perhaps part technical characterictic wherein is equal to replacement; And these modifications or replacement do not make the essence of appropriate technical solution break away from the spirit and scope of embodiment of the invention technical scheme.

Claims

1. transmission-type THz wave real time imagery scanister, it is characterized in that, comprise: polyhedron rotary drum, THz wave lens, terahertz wave detector, prime amplifier, data collecting card, camera, image pick-up card, image-generating unit and display unit, wherein

Described polyhedron rotary drum rotates around its turning axle, and simultaneously along the axis of swing reciprocally swinging, is used for the THz wave of target emanation to be scanned and/or reflection is reflexed to described THz wave lens;

The THz wave from described target to be scanned that described THz wave lens are used for being obtained by described polyhedron rotary drum scanning converges to described terahertz wave detector;

The described THz wave that described terahertz wave detector is used for detecting is converted to voltage signal;

Described prime amplifier is used for described voltage signal is carried out filtering, amplification;

Described data collecting card is used for the output signal of described device prime amplifier is carried out A/D conversion and data acquisition obtains digital signal;

Described camera is used to obtain the optical imagery of described target to be scanned;

Described image pick-up card is used for described optical imagery is collected data image signal;

Described image-generating unit, be used for obtaining the THz wave image of described target to be scanned, the inverse video and the optical imagery of THz wave image, and the inverse video of described THz wave image, described THz wave image and described optical imagery are sent to described display unit carry out subregion and show simultaneously according to described digital signal and described data image signal.

2. transmission-type THz wave real time imagery scanister according to claim 1 is characterized in that, also comprises:

Window, be positioned at described target to be scanned after, be used to block parasitic light and dust and enter described transmission-type THz wave real time imagery scanister.

3. transmission-type THz wave real time imagery scanister according to claim 1 is characterized in that described polyhedron rotary drum is a hollow honeycomb shape structure, and the material of described polyhedron rotary drum is an aluminium alloy.

4. transmission-type THz wave real time imagery scanister according to claim 1 is characterized in that:

Described axis of swing is parallel to horizontal direction, and described turning axle is perpendicular to described axis of swing and in vertical direction with the angle of setting; Or

Described rotating shaft parallel is in horizontal direction, and described axis of swing is perpendicular to described turning axle and in vertical direction with the angle of setting.

5. transmission-type THz wave real time imagery scanister according to claim 2 is characterized in that described Terahertz lens are aspheric surface simple lens or Fresnel simple lens.

6. transmission-type THz wave real time imagery scanister according to claim 2 is characterized in that the material of described Terahertz lens is the polymkeric substance TPX of teflon or 4-methylpentene.

7. transmission-type THz wave real time imagery scanister according to claim 2 is characterized in that, replaces described terahertz wave detector with the THz wave transceiver, is used for emission and receives THz wave.