CN103330624B - Vehicle-mounted shelter CT system for field environment - Google Patents

Abstract

The invention provides a vehicle-mounted shelter CT system for a field environment. The vehicle-mounted shelter CT system comprises a carrier vehicle, a shelter and a conformal radiation graded defense system. The conformal radiation graded defense system comprises a plurality of lead plates which are different in thickness and are arranged on the side wall of the shelter. The lead plates are arranged through the following steps: a CT device scattered radiation dose distribution curve is acquired, the shelter is divided into a plurality of subregions, the thickness H of the lead plate which needs to be arranged on the side wall, in each subregion, of the shelter is determined according to a specific formula, and the lead plate with the thinness H is arranged on the side wall, in each subregion, of the shelter and serves as a shield. The vehicle-mounted shelter CT system for the field environment enables the overall weight to be greatly lowered on the premises of safety and radiation resistance, is quite high in capacity for medical service and good in maneuverability, and reduces cost.

Description

For the vehicle mounted square cabin CT system of wild environment

Technical field

The present invention relates to a kind of vehicle mounted square cabin CT system for wild environment.More particularly, a kind of vehicle mounted square cabin CT system with conformal radiation classified protection system is related to.

Background technology

CT equipment take X-ray as the area of computer aided imaging device of human body tomoscan transmission potential, become the Checking and diagnosis armarium of hospital's popularization, CT examination is obviously better than X-ray in display transverse section, can provide the instructive information of most worthy for the surgical operation in emergency.China is the frequent generation of the country that a natural disaster takes place frequently, the natural disasters such as earthquake in recent years, flood, mud-rock flow, Operation Medical Treatment Clinique, shelter hospital system with the feature of its fast reserve for earthquake relief work has played important function.The development of shelter CT equipment, for field emergency provides strong instrument.

Such as, disclose a kind of field operations CT shelter in Chinese patent ZL201210396745.5, described cabin body is Manual push-pull turnover plate type two expansion plank frame, described shelter front portion is provided with H type frame, described shelter inside is divided into CT Control Room and CT Scan Room, described CT Control Room is positioned at shelter front portion, be furnished with image acquisition workstation, image processing workstations, medical display, work chair, film viewer and diagnosis report printer in CT Control Room, described CT Scan Room is furnished with CT main frame, gantry, scanning bed, CT damping frame and medical film printer.This shelter can load transport with self-loading and unloading vehicle, and possess powerful maneuverability, inside has CT equipment and effect support equipment facility, can meet for shelter hospital CT examination provides safeguard.

But CT device take X-ray as detection methods, ionizing radiation has larger harm to human body, and Radiation Exposure must be taked in its working space.The leakage that the lead screen layer preventing X-ray from penetrating effectively can prevent X-ray is wrapped up at fixing inspection chamber wall.Existing CT device is fixed in the inspection chamber of hospital usually, and lead screen layer thickness adopts non-uniform thickness, and therefore the lead screen layer weight of a Multi-section CT equipment is about 2 tons, and this inspection chamber fixed for position there is not any problem.

In order to adapt to the demand of field medical, CT equipment need be installed in shelter, by Automobile Transportation by shelter CT device.All adopt the haulage vehicle of load capacity as Move tool in prior art, directly fixing inspection chamber is loaded on truck.But such mode is very high to the performance requirement of automobile, and due to whole shelter system equipment numerous, deadweight is very large, and automobile seems heavy when mobile, and mobility is poor.On the other hand, in order to meet flexible user demand, the length over ends of body of vehicle and loading capacity just must limit to some extent, and this restriction makes vehicle cannot carry whole fixing inspection chamber weight, so this is the conflict existed in prior art.Again on the one hand, the number of devices in the body of cabin can be considered to reduce, but the equipment of smaller amounts will reduce the medical services ability of whole shelter, and that is, medical services ability will become low, cannot meet the demand of field medical.

Therefore, be necessary to study a kind of shelter CT system for wild environment, its weight is reduced, its medical services ability and level of security is kept while its mobility of raising, applicant is through concentrating on studies, propose a kind of vehicle mounted square cabin CT system for wild environment, to solve the above-mentioned one or more problem existed in prior art.

Summary of the invention

Consider at least one the problems referred to above and complete the present invention, and one object of the present invention is to provide a kind of vehicle mounted square cabin CT system for wild environment.By this system, making cannot under the prerequisite of weight reduction at other equipment, can according to CT radiation of equipment feature and environment for use requirement, guaranteeing under the prerequisite that radiation protection is up to standard, reduce the gross mass of radiation protection shielding layer, thus reduce shelter gross weight, improve the maneuverability of vehicle mounted square cabin.Particularly, a kind of vehicle mounted square cabin CT system for wild environment, comprise transport vehicle, shelter and conformal radiation classified protection system, this shelter is the two large board-like cabin body expanding structure of turnover plate type, described shelter inside comprises CT Control Room and CT Scan Room, described CT Control Room is positioned at shelter front portion, image acquisition workstation is furnished with in CT Control Room, image processing workstations, medical display, work chair, film viewer and diagnosis report printer, CT device is provided with in CT Scan Room, described conformal radiation classified protection system comprises the different multiple stereotypes of thickness that shelter sidewall is arranged, described multiple stereotype is arranged by following method: 1) obtain CT device scattering radiation dose profile, 2) shelter is divided into multiple subregion, 3) the thickness H of stereotype is set needed on the shelter sidewall determining every sub regions according to following formula:

$B=\frac{{5d}^2}{D_0\·d_0^2\·T\·W}---\left(1\right)$

$H=B\·\left(\frac{1+\cos \mathrm{\θ}}{2}\right)---\left(2\right)$

In formula

B represents the greatest irradiation transmittance of every sub regions;

D represents the distance of personnel to scanning center;

D ₀, d ₀represent apart from scanning center d ₀the radiation dose of place's Single Slice Mode is D ₀;

W represents to provide D ₀the condition of scanning of value is all normalizing workloads under reference conditions;

T represents that the personnel at d place of CT Scan Room external distance scanning center persistence the factor;

θ represents radiant flux and the angle perpendicular to shield normal to a surface;

4) on the shelter sidewall of every sub regions, thickness setting is that the stereotype of H is as shield respectively.

According to a further aspect of the invention, described multiple stereotype comprises CT Control Room first area stereotype, CT Control Room second area stereotype, idle region stereotype, observation window region, control room stereotype, the first room and clear area stereotype, the second room and clear area stereotype, the first inner corridor area stereotype and the second inner corridor area stereotype.

According to a further aspect of the invention, the stereotype thickness H obtained in step 3) is multiplied by empirical value factor j and obtains final stereotype thickness, and the stereotype of this final thickness is arranged on the shelter sidewall of every sub regions.

According to a further aspect of the invention, the span of empirical value factor j is 100%-143%.

According to a further aspect of the invention, the top of described shelter and bottom do not arrange stereotype.

According to a further aspect of the invention, described guard system also comprises computer and radiation measurement assembly, the greatest irradiation transmittance B of each subregion is stored in described computer, this radiation measurement assembly is arranged on position corresponding to each subregion greatest irradiation transmittance B, when the real-time radiation transmittance that radiation measurement assembly obtains is greater than the greatest irradiation transmittance stored in computer, computer stops CT device automatically, and sends warning information.

Compared with prior art, beneficial effect of the present invention is: the vehicle mounted square cabin CT system for wild environment of the present invention makes under the radiation-resistant prerequisite of safety, and the gross weight of shelter reduces greatly, and shelter medical services ability is higher, and mobility is good, and cost reduces.

Accompanying drawing explanation

Fig. 1 is according to the preferred embodiment of the invention for the vehicle mounted square cabin CT system schematic of wild environment.

Fig. 2 is according to the preferred embodiment of the invention for the scattering radiation dose profile figure (nGy/mAs) of the CT device of the vehicle mounted square cabin CT system of wild environment.

Fig. 3 is the schematic diagram after the expansion of shelter in Fig. 1, illustrated therein is shelter subregion distribution situation according to the preferred embodiment of the invention.

Fig. 4 is according to the preferred embodiment of the invention for the interior layout schematic diagram of the shelter of wild environment.

Fig. 5 is the shelter sidewall position view corresponding with the shelter subregion of Fig. 3.

Detailed description of the invention

Below in conjunction with accompanying drawing; by preferred embodiment, preferred forms of the present invention is described; here detailed description of the invention is to explain the present invention; and should not be construed as limitation of the present invention; when not departing from spirit of the present invention and essential scope; can make various changes and modifications, these all should be included within protection scope of the present invention.

Embodiment 1

See Fig. 1, illustrated therein is the vehicle mounted square cabin CT system schematic for wild environment of the preferred embodiment of the present invention.See Fig. 4, it illustrates according to the preferred embodiment of the invention for the interior layout schematic diagram after the shelter expansion of wild environment.This shelter is the two large board-like cabin body expanding structure of turnover plate type, and described shelter inside comprises CT Control Room 31 and CT Scan Room, and described CT Control Room is positioned at shelter front portion, is provided with CT device 34 in CT Scan Room.Image acquisition workstation, image processing workstations, medical display, work chair, film viewer and diagnosis report printer is furnished with in CT Control Room 31.

In order to enable shelter use, the present invention proposes a kind of vehicle mounted square cabin CT system for wild environment in the wild.This radiation protecting systems comprises transport vehicle, shelter and conformal radiation classified protection system.Conformal radiation classified protection system comprises the different multiple stereotypes of thickness that shelter sidewall is arranged.Described multiple stereotype is arranged by following method: 1) obtain CT device 34 scattering radiation dose profile, see Fig. 2, illustrated therein is a kind of CT device 34 scattering radiation dose profile figure; 2) shelter is divided into multiple subregion; 3) the thickness H of stereotype is set needed on the shelter sidewall determining every sub regions according to following formula:

$B=\frac{{5d}^2}{D_0\·d_0^2\·T\·W}---\left(1\right)$

$H=B\·\left(\frac{1+\cos \mathrm{\θ}}{2}\right)---\left(2\right)$

In formula

B represents the greatest irradiation transmittance of every sub regions;

D represents the distance (cm) of personnel to scanning center;

D ₀, d ₀represent apart from scanning center d ₀(cm) radiation dose of place's Single Slice Mode is D ₀(μ Gy/ layer);

W represents to provide D ₀the condition of scanning of value is all normalizing workloads (layer/week) under reference conditions;

T represents that the personnel at CT Scan Room external distance scanning center d (cm) place persistence the factor;

θ represents radiant flux and the angle perpendicular to shield normal to a surface;

4) on the shelter sidewall of every sub regions, thickness setting is that the stereotype of H is as shield respectively.

Preferably, see Fig. 3, described multiple subregion comprises CT Control Room first area 1, CT Control Room second area 2, idle region 3, room, observation window region, control room 4, first and room, clear area 5, second and clear area 6, first inner corridor area 7 and the second inner corridor area 8.Be understandable that, described multiple stereotype comprises CT Control Room first area stereotype, CT Control Room second area stereotype, idle region stereotype, observation window region, control room stereotype, the first room and clear area stereotype, the second room and clear area stereotype, the first inner corridor area stereotype and the second inner corridor area stereotype.

Preferably, according to another embodiment of the present invention, in order to make radiation protection, there is higher Safety Redundancy amount, the stereotype thickness H obtained in step 3) can be multiplied by empirical value factor j and obtain final stereotype thickness, and the stereotype of this final thickness is arranged on the shelter sidewall of every sub regions.

Preferably, the span of empirical value factor j is 100%-143%.

Preferably, the top of described shelter and bottom do not arrange stereotype.

Preferably, described guard system also comprises computer and radiation measurement assembly, the greatest irradiation transmittance B of each subregion is stored in described computer, this radiation measurement assembly is arranged on position corresponding to each subregion greatest irradiation transmittance B, when the real-time radiation transmittance that radiation measurement assembly obtains is greater than the greatest irradiation transmittance stored in computer, computer stops CT device automatically, and sends warning information.

Be understandable that, due to vehicle mounted square cabin CT system in use, be different from the CT Examination Room of hospital, the top of shelter and bottom do not have personnel and exist, and therefore can save the stereotype of this position, the overall weight of shelter is reduced further, increase the mobility of shelter, and reduce cost.

Embodiment 2

Another preferred embodiment of the present invention more specifically will be described below, more comprehensively to show above-mentioned advantage of the present invention and beneficial effect.

As shown in Figure 4, described CT shelter deployed condition interior layout can be arranged further as follows: CT Control Room 31 is positioned at front portion, whole cabin (along transport direction of advance), CT Scan Room is positioned at whole cabin afterbody, is furnished with scanning bed 33, CT device 34, CT damping frame 35, cabin body dividing plate 37, control room dividing plate 38 and control room observation window 39.Such as, CT shelter deployed condition inside dimension is 3900 (L) x5800 (W) x1950 (H) (mm).Be understandable that, these concrete structures and parameter are all adjustable, can not as any limitation of the invention.Preferably, the structure about CT shelter can also see Chinese patent ZL201210396745.5, and this patent is introduced here by combining.

Such as, the self-loading and unloading vehicle equipment quality 8T shown in Fig. 1, cabin body assembly (containing H frame, skid, levelling gear) quality is 4.7T, CT machine, air-conditioning and affiliated facility gross mass are 2.4T.

Such as, described CT device selects GE Brivo325 type, and limit conditions of exposure is tube voltage 140KV, tube current 160mA.The radiation shield transmittance (B) of personnel's exposure dosage control needed for 5uSv/ week (corresponding to 0.25mSv/) can be calculated as follows by formula (1):

$B=\frac{{5d}^2}{D_0\·d_0^2\·T\·W}---\left(1\right)$

In formula

D represents the distance (cm) of personnel to scanning center;

D ₀, d ₀represent apart from scanning center d ₀(cm) radiation dose of place's Single Slice Mode is D ₀(μ Gy/ layer);

W represents to provide D ₀the condition of scanning of value is all normalizing workloads (layer/week) under reference conditions;

T represents that the personnel at CT Scan Room external distance scanning center d (cm) place persistence the factor.

Such as, when described CT machine daily inspection amount is 50 person-times, W value was defined as 2500 (layer/weeks).

Such as, different with frequency according to the time that described CT machine scanning gantry surrounding different places personnel persistence, determine that personnel persistence the factor.CT Cabin top and the bilge are all unoccupied, and Radiation Shielding Re design can not consider the protection at the bottom of roof and car.Shelter surrounding can be divided into resident area, inner corridor and idle district, such as, T value can be defined as 1,1/4,1/16 respectively.Be understandable that, W and T value can suitably adjust as the case may be.

Utilize described formula (1) to calculate the numerical value of shelter surrounding radiation shield transmittance, determine required shielding material respective thickness; This numerical value is multiplied by oblique fire modifying factor, and (1+cos θ)/2(θ is ray incident angle) after, determine cabin body each position stereotype thickness.θ represents radiant flux and the angle perpendicular to shield normal to a surface.

For example, see Fig. 3, according to the layout of shelter hospital, shelter wall can be divided into 8 regions: operating room side walls 3 is outer is idle district; Outside frame and examinating couch axis side walls 5,6, left side is x-ray inspection trolley, band 1mm lead protection, and right side is free area, without persistencing personnel in 20m; On rear side of frame, outer about 1 meter of of wall 7,8 is inner corridor.By above condition, in conjunction with shelter layout dimension, radiation transmission ratio (B) can be calculated, as shown in table 1:

Table 1 radiation transmission ratio (B) relevant parameter table

According to the result of calculation of radiation transmission ratio (B) in table 1, B.3 the radiation shield specification sheet looking into GBZT180-2006 medical X-ray CT machine room can obtain the thickness of stereotype.After being multiplied by oblique fire modifying factor (1+cos θ)/2, factor j finally can determine cabin body each position stereotype thickness based on experience value, as shown in table 2:

Table 2 protective lead plate thickness correction chart

Preferably, process for ease of cabin body, form needed for feature and each position according to cabin body and shield thickness, shielding thickness proximate region is merged and gets the maximum shielding material thickness in this region, be divided into each region as shown in Figure 5, i.e. front, control room 9, side 10, control room observation window 11 inspection chamber antetheca 12, inspection chamber sidewall 13,14 and offside, inspection chamber rear wall is divided into rear flank wall 7 and positive rear wall 8.The weight of the whole radiation classified protection system obtained according to the result of table 2 is at 770.6kg.

Be understandable that, as lead screen layer gross mass does not meet the load-carrying requirement of automobile, region can be repartitioned, recalculate.

In sum, beneficial effect of the present invention is: the vehicle mounted square cabin CT system for wild environment of the present invention makes under the radiation-resistant prerequisite of safety, and the gross weight of shelter reduces greatly, and shelter medical services ability is higher, and mobility is good, and cost reduces.

The invention is not restricted to above-mentioned specific embodiment.Be understandable that, when not departing from spirit of the present invention and essential scope, can make various changes and modifications, these all should be included within protection scope of the present invention.

Claims (2)

1. the vehicle mounted square cabin CT system for wild environment, it is characterized in that comprising transport vehicle, shelter and conformal radiation classified protection system, this shelter is the two large board-like cabin body expanding structure of turnover plate type, described shelter inside comprises CT Control Room and CT Scan Room, described CT Control Room is positioned at shelter front portion, image acquisition workstation is furnished with in CT Control Room, image processing workstations, medical display, work chair, film viewer and diagnosis report printer, CT device is provided with in CT Scan Room, described conformal radiation classified protection system comprises the different multiple stereotypes of thickness that shelter sidewall is arranged, described multiple stereotype is arranged by following method:

Obtain CT device scattering radiation dose profile;

Shelter is divided into multiple subregion;

The thickness H of stereotype is set needed on the shelter sidewall determining every sub regions according to following formula:

$B=\frac{{5d}^2}{D_0\·d_0^2\·T\·W}---\left(1\right)$

$H=B\·\left(\frac{1+\cos \mathrm{\θ}}{2}\right)---\left(2\right)$

In formula

B represents the greatest irradiation transmittance of every sub regions;

D represents the distance of personnel to scanning center;

D ₀, d ₀represent apart from scanning center d ₀the radiation dose of place's Single Slice Mode is D ₀;

W represents to provide D ₀the condition of scanning of value is all normalizing workloads under reference conditions;

T represents that the personnel at d place of CT Scan Room external distance scanning center persistence the factor;

θ represents radiant flux and the angle perpendicular to shield normal to a surface;

The stereotype thickness H obtained is multiplied by empirical value factor j and obtains final stereotype thickness, and is separately positioned on the shelter sidewall of every sub regions using the stereotype of this final thickness as shield;

Wherein, described multiple stereotype comprises CT Control Room first area stereotype, CT Control Room second area stereotype, idle region stereotype, observation window region, control room stereotype, the first room and clear area stereotype, the second room and clear area stereotype, the first inner corridor area stereotype and the second inner corridor area stereotype; The empirical value factor j that above-mentioned multiple stereotype is corresponding in turn to is 10/7,15/14,100/87,10/7,4/3,1,15/14 and 10/9;

Described vehicle mounted square cabin CT system also comprises computer and radiation measurement assembly, the greatest irradiation transmittance of each subregion is stored in described computer, this radiation measurement assembly is arranged on position corresponding to each subregion greatest irradiation transmittance, when the real-time radiation transmittance that radiation measurement assembly obtains is greater than the greatest irradiation transmittance stored in computer, computer stops CT device automatically, and sends warning information.

2. the vehicle mounted square cabin CT system for wild environment according to claim 1, is characterized in that the top of described shelter and bottom do not arrange stereotype.