CN205176293U - Ultra -thin high definition mobile X -ray unit - Google Patents

Abstract

The utility model discloses an ultra -thin high definition mobile X -ray unit, including X ray transmission and the control unit, the X ray converts digital image unit and image transmission unit to, the X ray transmission includes the X ray source with the control unit, control line and remote controller, X ray source connection control line, the remote controller is connected to the control line, the X ray converts the digital image unit to and adopts caesium iodide - non -crystalline silicon flat panel detector, the image transmission unit includes power and communication system module box and each part connection cable, caesium iodide - non -crystalline silicon flat panel detector connects and communication system module box through the attached cable of detector, built -in high performance AC dual -frenquency router of power and communication system module box and control module and high performance lithium ion battery group. Compared with the prior art, the utility model discloses the range of application is wide, can use by on -the -spot fast assembly, it is very clear to form images, and the formation of image area is big, field operation is efficient, uses high -power gamma ray source penetration power higher.

Description

A kind of ultra-thin high definition mobile X-ray unit

Technical field

The utility model relates to a kind of X-ray machine, is specifically related to a kind of ultra-thin high definition mobile X-ray unit.

Background technology

At present when police and military battlefield personnel are in safety check, explosive, the scenes such as investigation, to suspicious item (gun apparatus, drugs, the article such as dagger) carry out fluoroscopic observation, eliminate danger dangerous things (explosive, blast timing device, the control utensils such as firearms) time, or forensic autopsy, when whether having foreign matter in inspection corpse, or the Non-Destructive Testing of industrial sector, as to aluminium casting, when integrated package or high voltage package etc. detect, or security authority, customs, in the situations such as the safety inspection of postal and telecommunication entities, all need to use X-ray machine to carry out work, in prior art, traditional X-ray machine structure is comparatively heavy, it is convenient not to use, image imaging area is less.

Utility model content

The purpose of this utility model is to provide a kind of applied range, can use by on-the-spot rapid-assembling; Imaging is very clear, and imaging area is large; Execute-in-place efficiency is high, uses the ultra-thin high definition mobile X-ray unit that high-power radiographic source penetration power is higher.

For achieving the above object, the utility model provides following technical scheme:

A kind of ultra-thin high definition mobile X-ray unit, comprise X ray to launch and control module, X ray converts digital image unit and image transmitting unit to, X ray is launched and control module comprises x-ray source, control line and telepilot, x-ray source connection control line, control line connects telepilot, X ray converts digital image unit to and adopts cesium iodide-Amorphous silicon flat-panel detectors, image transmitting unit comprises power supply and communication system modular cartridge and each parts connection cable, cesium iodide-Amorphous silicon flat-panel detectors connects power supply and communication system modular cartridge by the attached cable of detector, power supply and communication system modular cartridge built-in high-performance AC double frequency router and control module and high performance lithium ion battery group, power supply and communication system modular cartridge are provided with some interfaces.

As the further improvement of above-mentioned technology, the amorphous silicon layer that described cesium iodide-Amorphous silicon flat-panel detectors coats photodiode effect by scintillator or luminescent coating adds tft array again and forms.

As the further improvement of above-mentioned technology, described cesium iodide-Amorphous silicon flat-panel detectors outside is provided with carbon fiber board.

As the further improvement of above-mentioned technology, described interface is respectively cesium iodide-Amorphous silicon flat-panel detectors access port, x-ray source access port, charging inlet and power interface.

Compared with prior art, the beneficial effects of the utility model are: 1. applied range, and different radiographic source can play different effects in different occasion, can use by on-the-spot rapid-assembling; 2. imaging plate adopts amorphous silicon technology, so imaging is very clear, and 16bits, imaging area is large; 3. can rear straighforward operation, improve execute-in-place efficiency, high-power radiographic source penetration power is higher.

Accompanying drawing explanation

The x-ray source structural representation that Fig. 1 is.

Fig. 2 is the structural representation of cesium iodide-Amorphous silicon flat-panel detectors.

Fig. 3 is fundamental diagram of the present utility model.

In figure: 1-X radiographic source, 2-luminescent coating, 3-amorphous silicon layer.

Embodiment

Be described in more detail below in conjunction with the technical scheme of embodiment to this patent.

A kind of ultra-thin high definition mobile X-ray unit, comprise X ray to launch and control module, X ray converts digital image unit and image transmitting unit to, X ray is launched and control module comprises x-ray source, control line and telepilot, x-ray source inside is furnished with battery, general use is all with battery operated, x-ray source is furnished with charge port, just can charge to self-contained battery with special charger, x-ray source launches X ray three kinds of modes, i.e. fuselage handle Metal snap, telepilot and remote switch carry out the transmitting of X ray, three switches are in parallel, x-ray source connection control line, control line connects telepilot, X ray converts digital image unit to and adopts cesium iodide-Amorphous silicon flat-panel detectors, the amorphous silicon layer that cesium iodide-Amorphous silicon flat-panel detectors coats photodiode effect by scintillator or luminescent coating adds tft array again and forms, radioscopic image can be converted to digital picture by cesium iodide-Amorphous silicon flat-panel detectors, for various X-ray image acquisition application provides high-resolution image information, coordinate image acquisition and the process software of specialty, the digitizing of radioscopic image can be completed, it is the critical component of Digitized X-ray image system, there is imaging window size large, good imaging quality, ultra-thin lightly portable advantage, is furnished with the portable low dose X-ray source of high-quality simultaneously, specialized image Acquire and process software forms the x-ray imaging system of a set of high-end portable, display resolution is higher, image is more clear, can fast and effeciently detect all kinds of dangerous material, army and police's safety check can be met explosive, industrial nondestructive testing, forensic autopsy, customs, post and telecommunications, the different industries safety inspection demands such as security authority, cesium iodide-Amorphous silicon flat-panel detectors outside is provided with carbon fiber board, carbon fiber board is low-density, X ray absorptivity is low, the protective seam of high strength, image transmitting unit comprises power supply and communication system modular cartridge and each parts connection cable, cesium iodide-Amorphous silicon flat-panel detectors connects power supply and communication system modular cartridge by the attached cable of detector, power supply and communication system modular cartridge built-in high-performance AC double frequency router and control module and high performance lithium ion battery group, power supply for responsible cesium iodide-Amorphous silicon flat-panel detectors and communication system supplies and X ray emission control function, power supply and communication system modular cartridge are provided with some interfaces, interface is respectively cesium iodide-Amorphous silicon flat-panel detectors access port, x-ray source access port, charging inlet and power interface.

During utility model works, power supply and communication system modular cartridge are passed through on WIFI mode wireless access notebook computer, power supply and communication system modular cartridge are passed through in access in radio power supply and communication system modular cartridge, x-ray source controls X ray by telepilot wireless transmit, under the noiseless state of spaciousness, be not less than within the scope of 30 meters by being effectively connected distance controlling between notebook with cesium iodide-Amorphous silicon flat-panel detectors, x-ray source remote control distance is controlled be not less than 30 meters, then cesium iodide-Amorphous silicon flat-panel detectors utilizes fluorescent material (cesium iodide) that X ray is converted into visible ray, electric signal is converted to again by photodiode array, electric signal is detected by tft array and quantizes with A/D (analog/digital) conversion, high-quality image is obtained again after complex calculations and imaging processing, caesium iodide scintillator is made up of the material of high atomic number usually, higher receptivity is had to X ray, the combination of cesium iodide and amorphous silicon is the material with the highest DQE value (quantum measurement efficiency), when detecting, cesium iodide-Amorphous silicon flat-panel detectors data-interface (VGA15 core) is connected to communication box " TODR " port, press the start of communication box " POWER " button, wait for that about one minute system starts complete, now " DR connection " and " wireless status " pilot lamp light, open notebook computer and enter operating system, notebook acquiescence is connected to communication box automatically, x-ray source is put to correct position and opening power, at 5 seconds green countdown bar just started or middle time press x-ray source firing button and send out X ray, the rollback of 5 seconds countdown bars is complete enters integration imaging state automatically, imaging is carried out by imaging software, imaging time normally completed within 5 seconds (being connected with direct relation with notebook and communication box network), exposure status is automatically returned to after software image, now can carry out aftertreatment to image or continue next width image acquisition, image imaging effect and x-ray source placement location have direct cause-effect relationship, and x-ray source distance flat panel detector is crossed and ray energy closely can be caused to concentrate, and effective picture area is too small, and easily causes exposure uneven, and image has black circle, hypertelorism can cause power dissipation, and X ray penetrability is poor, and imaging effect is poor, because the X ray emission angle in different x-ray source is different, optimum distance is not identical yet, according to the x-ray source angle of radiation COMPREHENSIVE CALCULATING that this money high definition X-ray machine is equipped with, for 17 " × 14 " flat panel detector, x-ray source is positioned over center, flat panel detector dead ahead and is about 60cm place and can obtains full image, advise that x-ray source ray goes out to restraint mouth anomaly partitioned detector 75 to 120cm in actual use the most suitable, for materials of low density (plastics, suitcase etc.), X ray penetrability is high, energy is unsuitable excessive, energy is excessive easily causes image overexposure, and now image also easily produces black circle, the high-density matter (steel, iron, lead etc.) that atomic number is high is good to X ray shield effectiveness, and energy is unsuitable too small again, and the very few imaging effect of the X ray that too small flat panel detector collects is not good equally.Energy adjusting method: have two kinds of modes to adjust emitted energy for the machine x-ray source, one is knob adjustment emissive power, and clockwise direction rotates knob increasing power, counterclockwise rotates knob and reduces power; Two is change ray emission time, by firing button time longer energy larger (single emission time due to software control reason also should more than 5 seconds); Relatively more effective for adjustment emissive power the article that X ray not easily penetrates; All positive effect is had for two kinds of adjustment modes the article that X ray easily penetrates.

The foregoing is only the utility model preferred embodiment; not thereby embodiment of the present utility model and protection domain is limited; to those skilled in the art; the equivalent replacement that all utilization the utility model instructionss and diagramatic content are made and the scheme that apparent change obtains should be recognized, all should be included in protection domain of the present utility model.

Claims (4)

1. a ultra-thin high definition mobile X-ray unit, comprise X ray to launch and control module, X ray converts digital image unit and image transmitting unit to, it is characterized in that, X ray is launched and control module comprises x-ray source, control line and telepilot, x-ray source connection control line, control line connects telepilot, X ray converts digital image unit to and adopts cesium iodide-Amorphous silicon flat-panel detectors, image transmitting unit comprises power supply and communication system modular cartridge and each parts connection cable, cesium iodide-Amorphous silicon flat-panel detectors connects power supply and communication system modular cartridge by the attached cable of detector, power supply and communication system modular cartridge built-in high-performance AC double frequency router and control module and high performance lithium ion battery group, power supply and communication system modular cartridge are provided with some interfaces.

2. ultra-thin high definition mobile X-ray unit according to claim 1, is characterized in that, the amorphous silicon layer that described cesium iodide-Amorphous silicon flat-panel detectors coats photodiode effect by scintillator or luminescent coating adds tft array again and forms.

3. ultra-thin high definition mobile X-ray unit according to claim 1, is characterized in that, described cesium iodide-Amorphous silicon flat-panel detectors outside is provided with carbon fiber board.

4. ultra-thin high definition mobile X-ray unit according to claim 1, is characterized in that, described interface is respectively cesium iodide-Amorphous silicon flat-panel detectors access port, x-ray source access port, charging inlet and power interface.