CN203424940U - X-ray photographing system - Google Patents

Abstract

Provided is an X-ray photographing system. The X-ray photographing system comprises an X-ray generator and a machine frame, and the X-ray generator is arranged on the machine frame. The X-ray photographing system further comprises a control member suitable for controlling movement of the machine frame and a parameter setting unit which is connected with the X-ray generator and is suitable for adjusting exposure parameters of the X-ray generator according to attribute information; the control member and the parameter setting unit are integrated into the same shell. According to the X-ray photographing system, the control member and the parameter setting unit are arranged in the same shell, the integrity of a DR system is improved, the error rate during operation is reduced, and therefore the imaging accuracy of the DR system is improved.

Description

X-ray shooting system

Technical field

This utility model relates to technical field of medical instruments, particularly a kind of X-ray shooting system.

Background technology

In recent years, medical institutions often use X-ray examination when patient is carried out routine examination.And, along with the development of computer technology and microelectric technique, driven the digitized process of medical information and medical image.

At present, the man-machine interactive system that on market, most digital radiography (DR, Digital Radiography) systems provides mainly comprises: PC work station, remote controller, gantry motion button, beam-defining clipper control knob etc.; Wherein, gantry motion button comprises bulb gantry motion button, breast photograph shelf movement buttons peace bed motion button etc.

The all parts of the man-machine interactive system that existing DR system provides is independent setting respectively, and the residing position of these parts disperses relatively, and the conformability of DR system is bad.Doctor, when operation DR system, need to repeatedly operate back and forth outward with inspection chamber in inspection chamber, particularly can be with reference to figure 1.

As shown in Figure 1, doctor when patient is taken, first will be outside inspection chamber on PC work station, carry out patient's registration, and select relevant inspection agreement, regulate exposure parameter.Then enter in inspection chamber, according to the inspection agreement of having selected and patient's practical situation, at indoor moving frame, adjusting beam-defining clipper, and patient is put to position, if there are special circumstances in patient, injured can not standing for example, or go into a coma, doctor needs to come back to PC work station and checks the selection of agreement and the setting of exposure parameter so; Secondly, doctor also needs to get back to PC work station and confirms whether system mode is ready to, as: the position of bulb and flat panel detector whether centering, whether because pendulum position has caused a change for exposure parameter; Finally after all completing, all preparation exposes and output image on PC work station.

At present, doctor is when operation DR system, in PC work station that need to be outside inspection chamber and inspection chamber, carry out alternation and confirmation, and need to operate a plurality of parts in diverse location, for example remote controller, gantry motion button, PC work station etc. complete whole inspection work.Because the conformability of existing DR system is inadequate, therefore make the fault rate of doctor when operation higher, and finally cause the accuracy of imaging poor.

Utility model content

What this utility model solved is the problem of DR system imaging poor accuracy in prior art.

For addressing the above problem, this utility model provides a kind of X-ray shooting system, comprise: x ray generator and frame, described x ray generator is arranged in described frame, it is characterized in that, also comprise: be suitable for controlling the control of described gantry motion, and connect described x ray generator, be suitable for regulating according to attribute information the parameter set unit of the exposure parameter of described x ray generator; Described control and described parameter set unit are integrated in same housing.

Optionally, described housing has touch screen.

Optionally, described touch screen is projecting type capacitor screen.

Optionally, the length range of described housing is 24cm～28cm, and width range is 16cm～20cm, and altitude range is 1cm～2cm.

Optionally, described control comprises the first blue tooth interface, and described frame comprises the second blue tooth interface matching with described the first blue tooth interface.

Optionally, described parameter set unit comprises a WIFI interface, and described x ray generator comprises the 2nd WIFI interface matching with a described WIFI interface.

Optionally, described X-ray shooting system also comprises: be suitable for the collecting unit of acquisition attributes information, described collecting unit is arranged in described housing and connects described parameter set unit.

Optionally, described X-ray shooting system also comprises: the graphics processing unit that detector and the view data that is suitable for that described detector is detected are processed, described detector is arranged in described frame, and described graphics processing unit is arranged in described housing and connects described detector.

Optionally, described graphics processing unit comprises the 3rd WIFI interface, and described detector comprises the 4th WIFI interface matching with described the 3rd WIFI interface.

Optionally, described X-ray shooting system also comprises: be suitable for alignment unit that described frame is calibrated, described alignment unit is arranged in described housing and connects described frame.

Compared with prior art, the technical solution of the utility model has the following advantages:

X-ray shooting system of the present utility model, comprises the control and the parameter set unit that are arranged in same housing, and described control is used for controlling gantry motion, and described parameter set unit is for regulating the exposure parameter of x ray generator according to attribute information.Because described control and parameter set unit are arranged in same housing, so doctor only need check described in in-house operation that housing can complete whole inspection work, the fault rate while having reduced operation, and then improved the accuracy of X-ray shooting system imaging.

Further, in X-ray shooting system of the present utility model, the small volume of described housing, doctor can carry out single-hand handling & the described housing line operate of going forward side by side, and the mobility of described housing is high, thereby has improved the motility that operates described X-ray shooting system.

Further, described housing has touch screen, described touch screen is projecting type capacitor screen, improved the sensitivity while touching, like this, even if doctor also can operate when wearing glove, thereby avoided the operation failure that causes owing to wearing glove, the accuracy while therefore further having improved operation and the accuracy of X-ray shooting system imaging.

Accompanying drawing explanation

Fig. 1 is the application scenarios schematic diagram of X-ray shooting system in prior art;

Fig. 2 is embodiment mono-structural representation of this utility model X-ray shooting system;

Fig. 3 is the structural representation of the embodiment bis-of this utility model X-ray shooting system;

Fig. 4 is the structural representation of the embodiment tri-of this utility model X-ray shooting system.

The specific embodiment

As described in the background art, doctor need to operate a plurality of parts simultaneously and complete corresponding inspection when by existing DR system, for example, PC work station, remote controller, bulb gantry motion button, breast photograph shelf movement buttons or level bed movement buttons, beam-defining clipper control knob etc.These parts are dispersed in different positions, what have is arranged in inspection chamber, what have is arranged on outside inspection chamber, therefore doctor need to operate at indoor and outdoor commute when patient is checked, this has increased the complexity of doctor's operation undoubtedly, fault rate while making to check is higher, and has affected the accuracy of DR system imaging.

This utility model provides a kind of X-ray shooting system, and this system comprises the control that is suitable for controlling described gantry motion and is connected x ray generator, is suitable for regulating according to attribute information the parameter set unit of the exposure parameter of described x ray generator; Described control and described parameter set unit are integrated in same housing.Because described control and described parameter set unit are arranged in same housing, so the conformability of DR system is better.And doctor can realize the operation to DR system by operating this housing, and a plurality of buttons of repeatable operation, a plurality of parts again, thus the error while having reduced operation finally improved the accuracy of imaging.

For above-mentioned purpose of the present utility model, feature and advantage can more be become apparent, below in conjunction with accompanying drawing, specific embodiment of the utility model is described in detail.

Embodiment mono-

Fig. 2 is the structural representation of the embodiment mono-of this utility model X-ray shooting system.With reference to figure 2, described X-ray shooting system comprises: x ray generator 10 and frame 20.Wherein, described x ray generator 10 is arranged in described frame 20.

Described X-ray shooting system also comprises: be suitable for controlling the control 32 of described gantry motion and connect described x ray generator 10, being suitable for regulating according to attribute information the parameter set unit 31 of the exposure parameter of described x ray generator 10.Described control 32 and described parameter set unit 31 are integrated in same housing 30.

In concrete application, the small volume of described housing 30, particularly, the length range of described housing 30 is 24cm～28cm, and width range is 16cm～20cm, and altitude range is 1cm～2cm.Because the size of described housing 30 is less, doctor can operate by one hand, not only easy to carry, and because the mobility of described housing is high, the motility that has therefore improved DR system.

Doctor is when checking patient, only need hand-held described housing 30 in inspection chamber, to wait for patient, the setting that can realize the exposure parameter of x ray generator 10 by described parameter set unit 31 then and there, does not need the enterprising line parameter setting of the PC work station outside inspection chamber again.

After setting up exposure parameter, doctor can directly control described frame 20 by the control 32 in described housing 30 and move in inspection chamber, thereby completes the pendulum position to patient, and adjusts exposure parameter according to practical situation, then confirms the state of DR system.

Finally, the hand-held described housing 30 of doctor directly exposes outward to inspection chamber.

As above, doctor can realize the control to DR system by operating described housing 30, does not need alternation and confirmation repeatedly on the different parts in inspection chamber and outside inspection chamber again, has not only greatly shortened the time checking, has improved the efficiency checking; And because the conformability of DR system is better, therefore, fault rate when doctor operates is significantly reduced, thereby improved the accuracy of DR system imaging.

In the present embodiment, particularly, described control 32 comprises the first blue tooth interface, and described frame 20 comprises the second blue tooth interface matching with described the first blue tooth interface.That is to say, between described control 32 and described frame 20, by bluetooth, carry out signal transmission.When doctor is controlled described frame and moved by described control 32, described control 32 sends Bluetooth signal, when described frame 20 receives by described the second blue tooth interface the Bluetooth signal that described control 32 sends, moves accordingly.

Described parameter set unit 31 comprises a WIFI interface, and described x ray generator 10 comprises the 2nd WIFI interface matching with a described WIFI interface.Particularly, when doctor operates described parameter set unit 31, carry out exposure parameter while arranging, the exposure parameter setting sends by a described WIFI interface; Described x ray generator 10 receives described exposure parameter by described the 2nd WIFI interface, and produces X ray according to described exposure parameter.Described exposure parameter specifically can comprise: the dosage of X ray, time of exposure etc., and design parameter can carry out relative set according to practical situation or experience by doctor, and this utility model does not limit this.

In the present embodiment, between described control 32 and described frame 20, by bluetooth, communicate, between described parameter set unit 31 and described x ray generator 10, by WIFI, communicate.By being set, separated communication interface improved the safety when the transfer of data of DR system.

In the present embodiment, described housing 30 can have touch screen (not shown in Fig. 2).Described touch screen can shield for projecting type capacitor, and certainly, this utility model does not limit this.The sensitivity of projecting type capacitor screen is very high, even if therefore doctor does not affect operation when having worn glove yet, so just avoided cannot operating because doctor wears glove or the problem of operation failure, thereby improved the accuracy to the operation of DR system, and then improved the accuracy of the final imaging of DR system.

Embodiment bis-

Fig. 3 shows the structural representation of the embodiment bis-of this utility model X-ray shooting system.With reference to figure 3, embodiment bis-is with the difference of embodiment mono-: described X-ray shooting system also comprises: the graphics processing unit 34 that detector 40, the view data that is suitable for that described detector 40 is detected are processed and the collecting unit 33 that is suitable for acquisition attributes information.

Described detector 40 is arranged in described frame 20, and described graphics processing unit 34 is arranged in housing 30 and connects described detector 40.

In the present embodiment, described graphics processing unit 34 comprises the 3rd WIFI interface, and described detector 40 comprises the 4th WIFI interface matching with described the 3rd WIFI interface.That is to say, the image data transmission between described graphics processing unit 34 and described detector 40 is by WIFI network.

Continuation is with reference to figure 3, and described collecting unit 33 is arranged in described housing 30 and connects described parameter set unit 31.

The attribute information that described collecting unit 33 collects can comprise: name information, identity information, certificate address information, contact method and inspection item etc.

In the present embodiment, between described collecting unit 33 and described parameter set unit 31, also can communicate by WIFI network.That is to say, the corresponding attribute information that described collecting unit 33 can collect by the WIFI interface transmission of self is to described parameter set unit 31.

In the DR system of the present embodiment, by WIFI network, can improve the capacity of resisting disturbance of transmission speed and the raising DR system of data.

In the present embodiment, described detector 40 can be flat panel detector, can be also Charge Coupled Device (CCD) (CCD, Charge-Coupled-Device) detector, and this utility model does not limit this.

Described graphics processing unit 34 can also can separate independent setting with described parameter set unit 31 or/and described collecting unit 33 is integrated on a functional chip, and it should not limit protection domain of the present utility model.

Embodiment tri-

In prior art, when frame is calibrated, first need on the PC work station outside inspection chamber, start calibration flow process and select relevant calibration steps.In calibration process, may need to carry out a plurality of steps and just can complete calibration operation.Therefore, starting calibration flow process and selecting after first calibration steps, operator need to enter in inspection chamber, by operating relevant gantry motion button, as bulb movement buttons etc. completes frame calibration for the first time.After completing frame calibration for the first time, operator need again to come back on the external PC work station of inspection chamber and select second calibration steps, and then get back to and check the corresponding gantry motion button of in-house operation, as level bed movement buttons completes frame calibration for the second time ... by that analogy, until selected all calibration steps, and complete all frame calibrations.

From analyzing above, existing calibration flow process is very loaded down with trivial details, and operator need to operate back and forth outward with inspection chamber in inspection chamber, and the alignment time is very long, efficiency is not high.

For solving the problem that calibration flow process is loaded down with trivial details, the alignment time is time-consuming of prior art mid frame, this utility model provides a kind of X-ray shooting system that comprises alignment unit.By this system, operator can directly can realize all calibration operations by operating a device in inspection chamber, thereby have simplified calibration flow process and improved the efficiency of calibration.

Fig. 4 shows the structural representation of the embodiment tri-of this utility model X-ray shooting system.With reference to figure 4, the difference of the present embodiment and embodiment mono-is: described X-ray shooting system also comprises and be suitable for alignment unit 35 that described frame 20 is calibrated, and described alignment unit 35 is arranged in housing 30 and connects described frame 20.

In the present embodiment, operator, can directly start the calibration flow process of frames by described alignment unit 35 and operate described alignment unit 35 and select the first calibration steps when frame 20 is calibrated described;

After having selected first calibration steps, 32 pairs of frames of control that operator can control in described housing 30 have moved first calibration steps.

After this, then by described alignment unit 35 select second calibration steps; And again operate 32 pairs of frames of described control and moved second calibration steps ..., by that analogy, until complete all calibration steps.

Alignment unit 35 in embodiment tri-is arranged in housing 30, and when frame 20 is calibrated, operator can avoid in inspection chamber and inspection chamber operation back and forth outward, thereby have improved the efficiency of frame calibration operation, have both saved the time and have provided cost savings.

Although this utility model discloses as above, this utility model is not defined in this.Any those skilled in the art, within not departing from spirit and scope of the present utility model, all can make various changes or modifications, and therefore protection domain of the present utility model should be as the criterion with claim limited range.

Claims (10)

1. an X-ray shooting system, comprise: x ray generator and frame, described x ray generator is arranged in described frame, it is characterized in that, also comprise: the control that is suitable for controlling described gantry motion, and connect described x ray generator, be suitable for regulating according to attribute information the parameter set unit of the exposure parameter of described x ray generator; Described control and described parameter set unit are integrated in same housing.

2. X-ray shooting system as claimed in claim 1, is characterized in that, described housing has touch screen.

3. X-ray shooting system as claimed in claim 2, is characterized in that, described touch screen is projecting type capacitor screen.

4. X-ray shooting system as claimed in claim 1, is characterized in that, the length range of described housing is 24cm～28cm, and width range is 16cm～20cm, and altitude range is 1cm～2cm.

5. X-ray shooting system as claimed in claim 1, is characterized in that, described control comprises the first blue tooth interface, and described frame comprises the second blue tooth interface matching with described the first blue tooth interface.

6. X-ray shooting system as claimed in claim 1, is characterized in that, described parameter set unit comprises a WIFI interface, and described x ray generator comprises the 2nd WIFI interface matching with a described WIFI interface.

7. X-ray shooting system as claimed in claim 1, is characterized in that, also comprises: be suitable for the collecting unit of acquisition attributes information, described collecting unit is arranged in described housing and connects described parameter set unit.

8. X-ray shooting system as claimed in claim 1, it is characterized in that, described X-ray shooting system also comprises: the graphics processing unit that detector and the view data that is suitable for that described detector is detected are processed, described detector is arranged in described frame, and described graphics processing unit is arranged in described housing and connects described detector.

9. X-ray shooting system as claimed in claim 8, is characterized in that, described graphics processing unit comprises the 3rd WIFI interface, and described detector comprises the 4th WIFI interface matching with described the 3rd WIFI interface.

10. X-ray shooting system as claimed in claim 1, is characterized in that, also comprises: be suitable for alignment unit that described frame is calibrated, described alignment unit is arranged in described housing and connects described frame.

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