CN105899135A - Medical imaging system and workstation and x-ray detector thereof - Google Patents
Medical imaging system and workstation and x-ray detector thereof Download PDFInfo
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- CN105899135A CN105899135A CN201480072529.2A CN201480072529A CN105899135A CN 105899135 A CN105899135 A CN 105899135A CN 201480072529 A CN201480072529 A CN 201480072529A CN 105899135 A CN105899135 A CN 105899135A
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- ray detector
- information
- ray
- detector
- distribution
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B6/00—Apparatus for radiation diagnosis, e.g. combined with radiation therapy equipment
- A61B6/54—Control of apparatus or devices for radiation diagnosis
- A61B6/548—Remote control of the apparatus or devices
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B6/00—Apparatus for radiation diagnosis, e.g. combined with radiation therapy equipment
- A61B6/42—Apparatus for radiation diagnosis, e.g. combined with radiation therapy equipment with arrangements for detecting radiation specially adapted for radiation diagnosis
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B6/00—Apparatus for radiation diagnosis, e.g. combined with radiation therapy equipment
- A61B6/44—Constructional features of apparatus for radiation diagnosis
- A61B6/4411—Constructional features of apparatus for radiation diagnosis the apparatus being modular
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B6/00—Apparatus for radiation diagnosis, e.g. combined with radiation therapy equipment
- A61B6/44—Constructional features of apparatus for radiation diagnosis
- A61B6/4494—Means for identifying the diagnostic device
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B6/00—Apparatus for radiation diagnosis, e.g. combined with radiation therapy equipment
- A61B6/54—Control of apparatus or devices for radiation diagnosis
- A61B6/547—Control of apparatus or devices for radiation diagnosis involving tracking of position of the device or parts of the device
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B6/00—Apparatus for radiation diagnosis, e.g. combined with radiation therapy equipment
- A61B6/56—Details of data transmission or power supply, e.g. use of slip rings
- A61B6/563—Details of data transmission or power supply, e.g. use of slip rings involving image data transmission via a network
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61B—DIAGNOSIS; SURGERY; IDENTIFICATION
- A61B6/00—Apparatus for radiation diagnosis, e.g. combined with radiation therapy equipment
- A61B6/58—Testing, adjusting or calibrating apparatus or devices for radiation diagnosis
- A61B6/581—Remote testing of the apparatus or devices
-
- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H30/00—ICT specially adapted for the handling or processing of medical images
- G16H30/20—ICT specially adapted for the handling or processing of medical images for handling medical images, e.g. DICOM, HL7 or PACS
-
- G—PHYSICS
- G16—INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR SPECIFIC APPLICATION FIELDS
- G16H—HEALTHCARE INFORMATICS, i.e. INFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR THE HANDLING OR PROCESSING OF MEDICAL OR HEALTHCARE DATA
- G16H40/00—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices
- G16H40/60—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices
- G16H40/67—ICT specially adapted for the management or administration of healthcare resources or facilities; ICT specially adapted for the management or operation of medical equipment or devices for the operation of medical equipment or devices for remote operation
Abstract
The invention discloses a workstation which includes a receiver configured to receive identification information of an X-ray detector from the X-ray detector; a controller configured to set assign indicator information of the X-ray detector, based on the received identification information of the X-ray detector; an output unit configured to display the set assign indicator information of the X-ray detector; and a transmitter configured to transmit the set assign indicator information of the X-ray detector to the X-ray detector. The X-ray detector includes a transmitter configured to transmit the identification information of the X-ray detector to the workstation; a receiver configured to receive the assign indicator information from the workstation after the transmitter transmits the identification information of the X-ray detector to the workstation; and an output unit configured to display an assign indicator based on the received assign indicator information.
Description
Technical field
The equipment consistent with exemplary embodiment and method relate to a kind of medical image system, workbench and
X-ray detector, more particularly, relates to a kind of distribution designator that can arrange X-ray detector
The workbench of information and the X-ray detector of distribution designator can be shown.
Background technology
It is said that in general, X-ray be have 0.01 toWavelength and the electromagnetism of object can be penetrated
Ripple.Therefore, electromagnetic wave generally can (such as the medical science of the image within shooting live body sets being widely applied
Standby and non-destructive testing equipment for industrial application) in use.
The X-ray capture apparatus using X-ray allows the X launched by X-ray tube (or x-ray source)
Ray penetrates object, and by using X-ray detector detection district between the intensity of the X-ray passed
Not, thus identify the internal structure of object.X-ray imaging equipment can be by using the transmission of X-ray
The principle that coefficient changes according to the density of object and the atomic number of the atom of object easily identifies object
Internal structure.Along with the wavelength of X-ray shortens, the transmission coefficient of X-ray increases and on screen
Picture become apparent from.
Summary of the invention
Technical problem
When there is same type or different types of multiple X-ray detector in single x-ray imaging room
Time, the plurality of X-ray detector is mutually distinguished or selection will in the plurality of X-ray detector
The X-ray detector used in x-ray imaging is probably confusion.
Technical scheme
One side according to exemplary embodiment, it is provided that a kind of workbench, including: receptor, it is configured
For receiving the identification information of X-ray detector from X-ray detector;Controller, is configured to based on connecing
The identification information of the X-ray detector received is to arrange the distribution indicator information of X-ray detector;Defeated
Go out unit, be display configured to the distribution indicator information of set X-ray detector;Transmitter,
It is configured to the distribution indicator information to the X-ray detector set by X-ray detector transmission.
Beneficial effect
User can be high according to the workbench of one or more exemplary embodiments and X-ray equipment by using
Multiple X-ray detectors are classified and select to be suitable for the X of X-ray shooting environmental efficiently by effect ground
Ray detector.
Accompanying drawing explanation
From the description below in conjunction with the exemplary embodiment of accompanying drawing, above and/or other aspect will become clear
Chu and being easier to understand, wherein:
Fig. 1 is the block diagram of x-ray system;
Fig. 2 is the perspective view of fixed pattern X-ray equipment;
Fig. 3 is to illustrate the ability to perform X-ray shooting operation and do not consider to perform the shifting in the place of shooting operation
The diagram of the configuration of dynamic X-ray equipment;
Fig. 4 is the diagram of the detailed configuration illustrating indirect-type detector;
Fig. 5 is each operation for explaining the workbench according to exemplary embodiment and X-ray detector
Diagram;
Fig. 6 is the schematic diagram of the workbench according to exemplary embodiment;
Fig. 7 is the block diagram of the X-ray detector according to exemplary embodiment;
Fig. 8 illustrates that the workbench of Fig. 6 positional information based on X-ray detector arranges X-ray detector
The operation of distribution indicator information;
Fig. 9 illustrates each operation of the X-ray detector of the distribution indicator information according to Fig. 8;
Figure 10 illustrates that the workbench of Fig. 6 unique information based on X-ray detector arranges X-ray detector
The operation of distribution indicator information;
Figure 11 illustrates each operation of the X-ray detector of the distribution indicator information according to Figure 10;
Figure 12 illustrates the identification information of the network that the workbench of Fig. 6 has been coupled to based on X-ray detector
The operation of the distribution indicator information of X-ray detector is set;
Figure 13 illustrates each operation of the X-ray detector of the distribution indicator information according to Figure 12;
Figure 14 is for describing according to each of the workbench of another exemplary embodiment and X-ray detector
The diagram of operation;
Figure 15 A and Figure 15 B illustrates the X-ray detection the most all showing distribution designator and status information
Device;
Figure 16 illustrates the behaviour of the workbench display X-ray detector icon of the Fig. 6 according to exemplary embodiment
Make;
Figure 17 A-Figure 18 B illustrates that the workbench of the Fig. 6 according to one or more exemplary embodiments activates X
The operation of ray detector;
Figure 19 A-Figure 19 C illustrates the X-ray detector according to exemplary embodiment and includes wherein
Optical waveguide;
Figure 20 A and Figure 20 B is the cross sectional view of the optical waveguide according to another exemplary embodiment;
Figure 21 is the flow chart of the method catching radioscopic image according to exemplary embodiment.
Preferred forms
One or more exemplary embodiments include a kind of distribution designator that can control X-ray detector
Workbench and can effectively be different from the X-ray of other X-ray detector by display distribution designator
Detector.
Additional aspect partly will be set forth in the description that follows, partly will become clear from describe
Chu, or can be learned by the practice of exemplary embodiment.
One side according to exemplary embodiment, it is provided that a kind of workbench, including: receptor, it is configured
For receiving the identification information of X-ray detector from X-ray detector;Controller, is configured to based on connecing
The identification information of the X-ray detector received arranges the distribution indicator information of X-ray detector;Output
Unit, is display configured to the distribution indicator information of set X-ray detector;Transmitter, quilt
It is configured to the distribution indicator information to the X-ray detector set by X-ray detector transmission.
Described workbench also includes: input block, is configured to receive for resetting set X-ray
The input of the distribution indicator information of detector.Described controller can be additionally configured in response to described input
Distribution indicator information set by replacement.
The identification information of X-ray detector can include selected in unique information and specification information to
Few one, wherein, unique information includes serial number (SN) and the Internet protocol (IP) of X-ray detector
At least one in address, specification information includes the size of X-ray detector and can detect with X-ray
At least one in the type of the sensor (receptor) of device combination.
The identification information of X-ray detector can also include the positional information of X-ray detector, described control
Device can be additionally configured to based on from selected in the unique information and specification information of X-ray detector at least
X-ray detector is authenticated and positional information based on authentic X-ray detector sets by one
Put the distribution indicator information of authentic X-ray detector.
The positional information of X-ray detector can include from instruction X-ray detector with vertical sensor
Information and instruction X that the information of combination, instruction X-ray detector have combined with desk-top sensor penetrate
At least one selected in the information that thread detector not yet combines with any sensor.
The identification information of X-ray detector can also include the knowledge of the network that X-ray detector has been coupled to
Other information, described controller can be additionally configured to believe based on from unique information and the specification of X-ray detector
X-ray detector is authenticated by least one selected in breath, and based on authentic X-ray
The identification information of the network that detector has been coupled to arranges the distribution instruction of authentic X-ray detector
Symbol information.
The identification information of the network that X-ray detector has been coupled to can include the service set identifier of network
(SSID)。
Described output unit can be display configured to represent identification information and the X-ray of X-ray detector
The X-ray detector icon of the distribution indicator information of detector.
Described receptor can be additionally configured to receive the status information of X-ray detector, described output unit
Display can be additionally configured to and represent that the status information of X-ray detector and the distribution of X-ray detector refer to
Show the X-ray detector icon of symbol information.
Described output unit can be additionally configured to the status information according to X-ray detector makes X-ray detect
Device icon flashes.
The status information of X-ray detector can include from the remaining battery capacity about X-ray detector
Information, the information and about X-ray detector the most of communication sensitivity about X-ray detector
At least one selected in information through being activated.
Described receptor and transmitter can be additionally configured to communicate with external equipment via wireless network.
Set distribution indicator information can include that instruction is from character, numeral, symbol, color and image
Selected in the information of at least one.
One side according to another exemplary embodiment, it is provided that a kind of X-ray detector, including: send
Device, is configured to send the identification information of X-ray detector to workbench;Receptor, is configured to
Transmitter receives distribution indicator information from workbench after workbench sends described identification information;Output
Unit, is configured to based on the distribution indicator information display distribution designator received.
Described receptor can be additionally configured to the replacement letter received for resetting shown distribution designator
Breath, described output unit can be additionally configured to change distribution designator based on the reset information received and show
Show the distribution designator after change.
The identification information sent can include selected in unique information and specification information at least one
Individual, wherein, unique information includes serial number (SN) and the Internet protocol (IP) of X-ray detector
At least one in address, specification information includes the size of X-ray detector and can detect with X-ray
At least one in the type of the sensor of device combination.
The identification information sent can also include the positional information of X-ray detector.
The positional information of X-ray detector can include from instruction X-ray detector with vertical sensor
Information and instruction X that the information of combination, instruction X-ray detector have combined with desk-top sensor penetrate
At least one selected in the information that thread detector not yet combines with any sensor.
The identification information sent can also include the identification letter of the network that X-ray detector has been coupled to
Breath.
The identification information of the network that X-ray detector has been coupled to can include the service set identifier of network
(SSID)。
X-ray detector can also include: controller, is configured to obtain the state letter of X-ray detector
Breath.Described output unit can be additionally configured to the status information of X-ray detector that display obtained and
Distribution designator.
The status information of the X-ray detector obtained can include from the residue electricity about X-ray detector
The information of tankage, about the information of communication sensitivity of X-ray detector and detect about X-ray
At least one selected in the information that device has been activated.
The status information that described output unit can be additionally configured to according to the X-ray detector received makes institute
State distribution designator flicker.
Described receptor and transmitter can be additionally configured to communicate with external equipment via wireless network.
The distribution indicator information received can include that instruction is from character, numeral, symbol, color and image
Selected in the information of at least one.
Described output unit comprises the steps that light source, is configured to produce by the face of distribution indicator information instruction
The light of color;Optical waveguide, is positioned at least one edge of X-ray detector and direct light is according to specific
Direction is propagated.
Described optical waveguide comprises the steps that the first reflector, for direct light in optical waveguide according to specific
Direction is propagated.
The side of described optical waveguide comprises the steps that irregular body (irregularity), is used for making light to institute
State the external communication of optical waveguide.
The irregular body formed on the described side of described optical waveguide can be repeated, and described does not advises
Then the recurrence interval of body can be shortened according to the direction away from described light source.
X-ray detector can also include: the second reflector, be positioned on the side of described optical waveguide and
Make light to the external communication of described optical waveguide.
One side according to another exemplary embodiment, it is provided that a kind of X-ray equipment, including: X-ray
Radiating element, is configured to X-radiation to object;Actuation unit, is configured to handle X-ray
Radiating element.Described actuation unit comprises the steps that receptor, is configured to receive X from X-ray detector
The identification information of ray detector;Controller, is configured to knowledge based on the X-ray detector received
Other information arranges the distribution indicator information of X-ray detector;Output unit, is display configured to set
The distribution indicator information of the X-ray detector put;Transmitter, is configured to send out to X-ray detector
Send the distribution indicator information of set X-ray detector.
One side according to another exemplary embodiment, it is provided that a kind of x-ray system, including: X-ray
Equipment, including X-radiation unit and X-ray detector;Workbench, is configured to control described X
Ray equipment.
Described workbench comprises the steps that receptor, is configured to receive X-ray detection from X-ray detector
The identification information of device;Controller, is configured to identification information based on the X-ray detector received and sets
Put the distribution indicator information of X-ray detector;Output unit, is display configured to set X and penetrates
The distribution indicator information of thread detector;Transmitter, is configured to X-ray detector transmission set
The distribution indicator information of X-ray detector.
X-ray detector comprises the steps that transmitter, is configured to send X-ray detection to described workbench
The identification information of device;Receptor, is configured to send X-ray detector at transmitter to described workbench
Identification information after from described workbench receive distribution indicator information;Output unit, is configured to base
In the distribution indicator information display distribution designator received.
One side according to another exemplary embodiment, it is provided that a kind of method catching radioscopic image, bag
Include: identification information based on X-ray detector arranges the distribution indicator information of X-ray detector;Base
Distribution indicator information in set X-ray detector shows distribution instruction on X-ray detector
Symbol;Have shown that the X-ray detector of described distribution designator catches X-ray thereon by using
Image.
Detailed description of the invention
It is more fully described certain exemplary embodiments now with reference to accompanying drawing.There is provided and limit in the description
Item (such as detailed configuration and element) with help understand exemplary embodiment comprehensively.But, can press
Implement the present invention according to many multi-forms, and should not invention is construed as being limited to example set forth herein
Property embodiment;On the contrary, provide these exemplary embodiments to make the disclosure to be thorough and complete,
And the structure of the present invention being defined by the claims its scope will be passed on fully to those skilled in the art
Think.Additionally, due to known function or structure will utilize unnecessary details to obscure exemplary embodiment,
Therefore they be will not be discussed in detail.
Hereinafter, will be briefly described term used in the description, then will be described in example
Property embodiment.
Although it is contemplated that its function selecting is currently being widely used specific general term for describing exemplary enforcement
Example, but these general terms can be according to the intention of those of ordinary skill in the art, precedent, new technique
Occur waiting and changing.May be alternatively used for specific feelings by the optional term of the applicant of exemplary embodiment
In condition.In this case, the implication of given described term in the detailed description of exemplary embodiment.
Therefore, based on its implication and the content of entire disclosure rather than limited by term described in plain statement
These terms.
Running through description, " image " may indicate that by discrete image elements (such as, in two dimension (2D) image
Pixel and three-dimensional (3D) image in voxel) multi-dimensional data that formed.Such as, image is permissible
It is by X-ray equipment, computed tomography (CT) equipment, nuclear magnetic resonance (MRI) equipment, surpasses
The medical image of the object that audio clinic equipment or another medical imaging devices obtain.
It addition, " object " can be the part of people, animal or human or animal.Such as, described object
Organ (such as, liver, heart, uterus, brain, chest or abdominal part), blood vessel or a combination thereof can be included.
Described object can be model (phantom).Described model representation have the volume with live body, density and
The material of volume, density and effective atomic number that effective atomic number is about the same.Such as, described model can
To be the sphere model of the attribute with the attribute similarity with human body.
It addition, " user " can be (but are not limited to) medical expert's (such as, doctor, nurse, medical science
Laboratory Technician or medical imaging expert) or the technical staff of repairing Medical Equipment.
X-ray equipment is by being transmitted through the image that the X-ray of human body obtains the internal structure of object
Medical imaging devices.Comparing other medical imaging devices including MRI machine and CT equipment, X-ray sets
The standby medical image that can more simply obtain object within the shorter time.Therefore, shoot in simple thoracic cavity,
Simple abdominal part shooting, the shooting of simple bone lattice, the shooting of simple nasal sinuses, the shooting of simple neck soft, chest
X-ray equipment is widely used in shooting etc..
Fig. 1 is the block diagram of x-ray system 1000.
With reference to Fig. 1, x-ray system 1000 includes X-ray equipment 100 and workbench 110.In Fig. 1
The X-ray equipment 100 illustrated can be fixed pattern X-ray equipment or mobile X-ray equipment.X-ray
Equipment 100 can include X-radiation unit 120, high voltage generator 121, detector 130, handle
Unit 140 and controller 150.Controller 150 can control the integrated operation of X-ray equipment 100.
High voltage generator 121 produces the high voltage for producing X-ray, and by high voltage applications in X
Radiographic source 122.
X-radiation unit 120 includes: x-ray source 122, receives high electricity from high voltage generator 121
Press to produce and radiation X ray;Collimator 123, for guiding the X from x-ray source 122 radiation to penetrate
The path of line also adjusts by the irradiation area of X-radiation.
X-ray source 122 includes: X-ray tube, can be implemented as including vacuum tube two pole of negative electrode and anode
Pipe.The inside of X-ray tube can be set the high vacuum state of about 10mmHg, and the filament of anode is heated
To high temperature to produce thermoelectron.Described filament can be voltage and the electricity of about 3 to 5A of tungsten filament, about 10V
Stream can be applied to be connected to the electric wire of filament with heat filament.
It addition, when applying the high voltage of about 10 to about 300kVp between a cathode and an anode, thermoelectron
Accelerated with the target material collision with negative electrode, then produce X-ray.X-ray is radiated via window
To outside, described window can be formed by beryllium film.In this case, collide with described target material
Most of energy of electronics is consumed as heat, and dump energy is converted into X-ray.
Negative electrode can mainly be formed by copper, and described target material is disposed in the opposite of anode.Described target material
Material can be high-resistance material, such as chromium (Cr), ferrum (Fe), cobalt (Co), nickel (Ni), tungsten (W)
Or molybdenum (Mo).Described target material can be made to rotate by rotating field.When making described target material rotate, electricity
Sub-impact area increases, and the heat accumulation rate of per unit area can be added at least 10 times by institute
State target material fixing in the case of the heat accumulation rate of per unit area.
The voltage applied between the negative electrode and anode of X-ray tube is referred to as " tube voltage ", produces from high voltage
Raw device 121 applies tube voltage, and the magnitude of tube voltage can be expressed by peak value (kVp).When tube voltage increases
Added-time, thermionic speed increases, therefore, and the X produced when thermoelectron collides with described target material
The energy (that is, the energy of photon) of ray also increases.In X-ray tube, the electric current of flowing is referred to as " pipe
Electric current ", wherein, tube current can be expressed as meansigma methods (mA).When tube current increases, send out from filament
The thermionic quantity penetrated increases, and therefore, the X produced when thermoelectron collides with described target material penetrates
Line dosage (that is, the quantity of x-ray photon) increases.
Therefore, can according to tube voltage adjust X-ray energy, can according to tube current and X-ray exposure time
Between adjust intensity or the x-ray dose of X-ray.
Detector 130 detects the X-ray radiating and having already passed through object from X-radiation unit 120.
Detector 130 can be digital detector.Can be by using thin film transistor (TFT) (TFT) or charge-coupled device
Part (CCD) examinations device 130.Although X-ray equipment 100 in FIG includes detector 130,
But detector 130 can be as being connected to X-ray equipment 100 or from X-ray equipment 100
The X-ray detector of the isolated system separated.
X-ray equipment 100 can also include the interface for providing a user with manipulation X-ray equipment 100
Actuation unit 140.Actuation unit 140 can include output unit 141 and input block 142.Input block
142 can receive the order for handling X-ray equipment 100 from user and shoot relevant to X-ray
Various types of information.Controller 150 can control according to the information received by input block 142 or behaviour
Vertical X-ray equipment 100.Output unit 141 can export expression and shooting under control of the controller 150
The sound of the information that operation (such as X-radiation) is relevant.
Workbench 110 and X-ray equipment 100 can wire or wirelessly be connected with each other.When workbench 110
During with X-ray equipment 100 wireless connections each other, can also include the device for clock signal synchronized with each other
(not shown).Workbench 110 and X-ray equipment 100 may be present in physically individually in space.
Workbench 110 can include output unit 111, input block 112 and controller 113.Output unit
111 and input block 112 provide a user with for handling workbench 110 and the boundary of X-ray equipment 100
Face.Controller 113 can control workbench 110 and X-ray equipment 100.
X-ray equipment 100 can be controlled via workbench 110 or can be included by X-ray equipment 100
Controller 150 control X-ray equipment 100.Therefore, user can control X via workbench 110 and penetrates
Line equipment 100 or can be via the actuation unit 140 included at X-ray equipment 100 and controller 150
Control X-ray equipment 100.In other words, user can remotely control X-ray equipment via workbench 110
100 or can directly control X-ray equipment 100.
Although the controller 113 of workbench 110 is independent of the controller of X-ray equipment 100 in FIG
150, but Fig. 1 is only example.Can be integrated as another example, controller 113 and controller 150
In single controller, and can only in workbench 110 and X-ray equipment 100 include
Described single controller.Hereinafter, controller 113 and controller 150 can represent workbench 110
The controller 150 of controller 113 and/or X-ray equipment 100.
The output unit 111 of workbench 110 and input block 112 can provide a user with and penetrate for handling X
The interface of line equipment 100, the output unit 141 of X-ray equipment 100 and input block 142 also can be to
User provides the interface for handling X-ray equipment 100.Although workbench 110 and X is penetrated in FIG
Beta radiation unit 100 includes output unit 111 and output unit 141 respectively and includes that input is single respectively
Unit 112 and input block 142, but exemplary embodiment is not limited to this.Such as, only workbench 110
Output unit or input block can be included with in X-ray equipment 100.
Hereinafter, input block 112 and input block 142 can represent the input block of workbench 110
112 and/or the input block 142 of X-ray equipment 100, output unit 111 and output unit 141 can
Represent output unit 111 and/or the output unit 141 of X-ray equipment 100 of workbench 110.
The example of input block 112 and input block 142 can include keyboard, mouse, touch screen, voice
Evaluator, Fingerprint Identification Unit, iris identification device and be known for those of ordinary skills
And other input equipment that will not be described in further detail.User can be via input block 112 He
Input block 142 input is for the order of radiation X ray, and input block 112 and input block 142
The switch for inputting described order can be included.Described switch can be configured to can only when described switch by by
When pressing twice, input is for the radiation order of radiation X ray.
In other words, when user presses described switch, can be by described switch input for performing for X
The warning order of the warm-up operation of x radiation x, then, when user presses described switch again, can lead to
Cross described switch input for performing the radiation order of the X-radiation of essence.When user described above grasps
During vertical described switch, controller 113 and controller 150 are produced and the life being handled input by described switch
Make corresponding signal (that is, ready signal), and produced signal is sent to generation is used for producing X and penetrates
The high-tension high voltage generator 121 of line.
When high voltage generator 121 receives ready signal from controller 113 and controller 150, high
Voltage generator 121 starts warm-up operation, and when preheating completes, high voltage generator 121 is to controller
113 and controller 150 export ready signal.Further, since detector 130 is also required to penetrate for detection X
Line is prepared, therefore, when high voltage generator 121 performs warm-up operation, and controller 113 and control
Device 150 sends ready signal to detector 130 so that detector 130 can be to detect the X through object
Ray is prepared.Detector 130 is prepared, when for detection for detection X-ray in response to ready signal
When being ready to complete, detector 130 is to controller 113 and controller 150 ready for sending signal.Detection
Device 130 is referred to alternatively as " activation " etc. for the preparation of detection.
When the warm-up operation of high voltage generator 121 complete and detector 130 be ready to detect X-ray
Time, controller 113 and controller 150 send radiation signal, high voltage product to high voltage generator 121
Raw device 121 produces and is applied to by high voltage x-ray source 122, x-ray source 122 radiation X ray.
When controller 113 and controller 150 send radiation signal to high voltage generator 121, control
Device 113 and controller 150 can send voice output signal to output unit 111 and output unit 141,
Output unit 111 and output unit 141 is made to export predetermined sound so that user and/or object are (such as,
By the patient of X-radiation) radiation of recognizable X-ray.In addition to X-radiation, output unit
The sound of the information that 111 expressions the most exportable with output unit 141 are relevant to shooting.In FIG, exist
Actuation unit 140 includes output unit 141;But, exemplary embodiment is not limited to this, and output is single
A part for unit 141 or output unit 141 can be located at other places.Such as, output unit 141 can be located at
On the wall of the inspection chamber wherein performing the X-ray shooting of object.
Controller 113 and controller 150 control X-radiation list according to by the shooting condition of user setup
Unit 120 and the position of detector 130, shooting timing and shooting condition.
More particularly, controller 113 and controller 150 are according to single via input block 112 and input
The order of unit 142 input controls high voltage generator 121 and detector 130, in order to control X-ray
Radiation sequential, the intensity of X-ray and by the region of X-radiation.It addition, controller 113 and control
Device 150 processed adjusts the position of detector 130 according to predetermined shooting condition and controls the operation of detector 130
Regularly.
It addition, controller 113 and controller 150 are by using the image received via detector 130
Data produce the medical image of object.Specifically, controller 113 and controller 150 can be from detectors
130 receive view data, then by removing noise from view data and adjusting the dynamic of view data
Scope and intertexture produce the medical image of object.
Output unit 111 and output unit 141 is exportable is produced by controller 113 and controller 150
Medical image.Output unit 111 and the exportable user of output unit 141 handle X-ray equipment 100 institute
Required information, such as, user interface (UI), user profile or object information.Output unit 111 He
The example of output unit 141 can include speaker, printer, cathode ray tube (CRT) display, liquid
Crystal display (LCD), Plasmia indicating panel (PDP), Organic Light Emitting Diode (OLED) display,
Field Emission Display (FED), light emitting diode (LED) display, vacuum fluorescent display (VFD),
Digital light processes (DLP) display, flat faced display (FPD), three-dimensional (3D) display, transparent aobvious
Show device and other various output devices known for those of ordinary skills.
The workbench 110 that figure 1 illustrates can also include can being connected to server via network 160
162, the communication unit (not shown) of Medical Equipment 164 and portable terminal 166.
Communication unit can be wired or wirelessly connected to network 160 to cure with external server 162, outside
Equipment 164 or external portable terminal 166 communicate.Communication unit can send via network 160
Or receive the data relevant to the diagnosis of object and also can send or receive by Medical Equipment 164 (such as,
CT equipment, MRI machine or X-ray equipment) medical image that captures.Additionally, communication unit can be from
Server 162 receives the medical history of object (such as, patient) or treats schedule to diagnose the disease of object.
It addition, communication unit can be with portable terminal 166 (mobile phone of such as doctor or client, individual number
Word assistant (PDA) or laptop computer) and hospital in server 162 or Medical Equipment 164 hold
Row data communication.
Communication unit can include the one or more elements realizing the communication with external equipment.Such as, communication
Unit can include short-range communication module, wire communication module and wireless communication module.
Short-range communication module refers to the mould for performing short haul connection with the equipment being positioned at preset distance
Block.The example of short-range communication technique can include, but is not limited to WLAN (LAN), Wi-Fi,
Bluetooth, ZigBee, Wi-Fi direct (WFD), ultra broadband (UWD), Infrared Data Association (IrDA),
Bluetooth low-yield (BLE) and near-field communication (NFC).
Wire communication module refers to for the module by using the signal of telecommunication or optical signal to communicate.Wired
The example of communication technology can include using paired cable, coaxial cable and the cable communicating technology of fiber optic cables
And other cable communicating technology known to for those of ordinary skill in the art.
Wireless communication module with selected in base station, external equipment and server from mobile communications network
At least one send and receive wireless signal.Here, the example of wireless signal can include that audio call is believed
Number, video call signal and the various types of data according to text/multimedia message transmission.
The X-ray equipment 100 that figure 1 illustrates can include multiple digital signal processor (DSP), surpass
Slim calculator and for special purposes (such as, High Speed Analog/numeral (A/D) conversion, high speed Fu
Vertical leaf transformation and ARRAY PROCESSING) process circuit.
It addition, high speed digital interface (such as low-voltage differential signal (LVDS)), asynchronous serial can be used
(such as error is same for communication (such as universal asynchronous receiver transmitter (UART)), low latency procotol
Step serial communication or controller local area network (CAN)) or known for those of ordinary skill in the art
Other various communication means any perform the communication between workbench 110 and X-ray equipment 100.
Fig. 2 is the perspective view of fixed pattern X-ray equipment 200.Fixed pattern X-ray equipment 200 can be
Another embodiment of the X-ray equipment 100 of Fig. 1.Fixed pattern X-ray equipment 200 include with
The assembly that the assembly of the X-ray equipment 100 of Fig. 1 is identical uses identical drawing reference numeral, will omit it heavy
Multiple description.
With reference to Fig. 2, fixed pattern X-ray equipment 200 includes: actuation unit 140, provide a user with for
Handle the interface of X-ray equipment 200;X-radiation unit 120, to object radiation X ray;Detection
Device 130, detection has already passed through the X-ray of object;First motor the 211, second motor 212 and the 3rd electricity
Machine 213, it is provided that driving force is to transmit X-radiation unit 120, guide rail 220, movable machine frame (moving
Carriage) 230 and post frame (post frame) 240.Form guide rail 220, movable machine frame 230
And post frame 240 is with by using driving of first motor the 211, second motor 212 and the 3rd motor 213
Power transmits X-radiation unit 120.
Guide rail 220 includes the first guide rail 221 and second being provided as relative to each other being formed predetermined angular
Guide rail 222.First guide rail 221 and the second guide rail 222 can be according to each other 90 ° of intersections (that is, vertical)
Direction each extend over.
First guide rail 221 may be provided as being disposed with wherein the variola of the inspection chamber of X-ray equipment 200
On plate.
Second guide rail 222 is positioned at below the first guide rail 221 and is installed to be along the first guide rail 221 sliding
Dynamic.Can may be provided as at the first guide rail 221 along the roller (not shown) that the first guide rail 221 moves
On.Second guide rail 222 is connected to roller to move along the first guide rail 221.
First direction D1 is positioned as the direction that the first guide rail 221 extends, and second direction D2 is positioned as
The direction that second guide rail 222 extends.Therefore, first direction D1 and second direction D2 90 ° of intersections each other
And the ceiling of inspection chamber can be parallel to.
Movable machine frame 230 is disposed in below the second guide rail 222 to move along the second guide rail 222.
The roller (not shown) moved along the second guide rail 222 may be provided as on movable machine frame 230.
Therefore, movable machine frame 230 can move according to first direction D1 together with the second guide rail 222, and
Can move along the second guide rail 222 according to second direction D2.
Post frame 240 is fixed on movable machine frame 230 and is positioned at below movable machine frame 230.Post machine
Frame 240 can include multiple post 241,242,243,244 and 245.
The plurality of post 241,242,243,244 and 245 is connected to each other to folding, therefore,
Post frame 240 can have when be in be fixed to movable machine frame 230 while can be according to inspection
The length that the vertical direction of room adjusts.
Third direction D3 is defined as the direction that the length of post frame 240 is increased or decreased.Therefore, the 3rd
Direction D3 can be perpendicular to first direction D1 and second direction D2.
Detector 130 detects the X-ray through object, and can be with desk-top sensor 290 or vertical sense
Receiver 280 combines.
Swivel joint 250 is disposed between X-radiation unit 120 and post frame 240.Rotation connects
250 allow X-radiation unit 120 be connected to post frame 240 and support to be applied to X-radiation
The load of unit 120.
The X-radiation unit 120 being connected to swivel joint 250 can be perpendicular to the flat of third direction D3
Rotate on face.In this case, the direction of rotation of X-radiation unit 120 can be defined as the 4th
Direction D4.
X-ray rotating unit 120 can be configured to can revolve in the plane of ceiling being perpendicular to inspection chamber
Turn.Therefore, X-radiation unit 120 can rotate according to the 5th direction D5, wherein, and the 5th direction D5
It is about the rotation side of the axle parallel with first direction D1 or second direction D2 relative to swivel joint 250
To.
First motor the 211, second motor the 212, the 3rd motor 213 may be provided as making X-radiation list
Unit 120 moves according to first direction D1, second direction D2 and third direction D3.First motor 211,
Second motor 212 and the 3rd motor 213 can be electrically driven, and first motor the 211, second motor 212
Encoder can be included respectively with the 3rd motor 213.
First motor the 211, second motor 212 and the 3rd motor 213 it is contemplated that design convenience and by cloth
Put in various positions.Such as, the first motor 211 that the second guide rail 222 moves is made according to first direction D1
Can be disposed in around the first guide rail 221, make that movable machine frame 230 moves according to second direction D2 second
Motor 212 can be disposed in around the second guide rail 222, makes the length of post frame 240 according to third direction
The 3rd motor 213 that D3 is increased or decreased can be disposed in movable machine frame 230.In another example,
First motor the 211, second motor 212 and the 3rd motor 213 can be connected to power transmission unit (not
Illustrate) to make X-radiation unit 120 according to first direction D1, second direction D2 and third party
Linearly move to D3.Driving force transmission unit can be conventional belt and the combination of pulley, chain and chain
The combination of wheel, axle etc., and will not be described in detail again.
In another example, motor (not shown) can be disposed in swivel joint 250 and post frame 240
Between and between swivel joint 250 and X-radiation unit 120, in order to make X-radiation list
Unit 120 rotates according to fourth direction D4 and the 5th direction D5.
Actuation unit 140 can be disposed in the side of X-radiation unit 120.
Although Fig. 2 is shown attached to the fixed pattern X-ray equipment 200 of the ceiling of inspection chamber, but
Fixed pattern X-ray equipment 200 is only the example for ease of understanding.It is to say, except the fixed pattern of Fig. 2
Beyond X-ray equipment 200, can include that there is this area according to the X-ray equipment of exemplary embodiment general
The X-ray equipment of various structures known to logical technical staff, such as C-arm X-ray equipment and blood vessel are made
Shadow X-ray equipment.
Fig. 3 is to illustrate the ability to perform X-ray shooting operation and do not consider to perform the shifting in the place of shooting operation
The diagram of the configuration of dynamic X-ray equipment 300.Mobile X-ray equipment 300 can be the X-ray of Fig. 1
Another embodiment of equipment 100.The X-ray with Fig. 1 included at mobile X-ray equipment 300 sets
The assembly that the assembly of standby 100 is identical uses the drawing reference numeral identical with the drawing reference numeral used in Fig. 1, general
Omit its repeated description.
With reference to Fig. 3, mobile X-ray equipment 300 includes: delivery unit 370, comprises for transmitting movement
The wheel of X-ray equipment 300;Master unit 305;X-radiation unit 120;Detector 130, inspection
Survey the X-ray radiating and passing object from X-radiation unit 120 to object.Master unit 305 includes:
Actuation unit 140, provides a user with the interface for handling mobile X-ray equipment 300;High voltage produces
Raw device 121, produces the high voltage being applied to x-ray source 122;Controller 150, controls mobile X-ray
The integrated operation of equipment 300.X-radiation unit 120 includes: x-ray source 122, produces X-ray;
Collimator 123, guides from path along the produced X-ray of x-ray source 355 transmitting and adjusts by X
The irradiation area of x radiation x.
Although in figure 3 detector 130 being combined with desk-top sensor 390, but detector 130 being also
Can combine with vertical sensor.
In figure 3, during actuation unit 140 is included in master unit 305;But, exemplary embodiment is not
It is limited to this.Such as, the actuation unit 140 moving X-ray equipment 300 can be disposed in X-radiation
The side of unit 120.
Fig. 4 is the schematic diagram of the detailed configuration illustrating detector 400.Detector 400 can be Fig. 1-figure
The embodiment of the detector 130 of 3.Detector 400 can be indirect-type detector.
With reference to Fig. 4, detector 400 can include the detection substrate 410 of flasher (not shown), light, biasing
Driver element 430, drive element of the grid 450 and signal processing unit 470.
Flasher receives the X-ray from x-ray source 122 radiation and X-ray is converted to light.
Light detection substrate 410 receives light from flasher and converts light to the signal of telecommunication.Light detection substrate 410
Gate lines G L, data wire DL, TFT 412, photodiode 414 and offset line BL can be included.
Can according to first direction DR1 formed gate lines G L, can according to first direction DR1 intersect second
Direction DR2 forms data wire DL.First direction DR1 and second direction DR2 can perpendicular to one another intersect.Figure
4 illustrate that four gate lines G L and four data line DL are as example.
According to first direction DR1 and second direction DR2, TFT 412 can be arranged as matrix.Each TFT 412
In be all electrically connected in gate lines G L and data wire DL one.The grid of TFT 412 can
Being electrically connected to gate lines G L, the source electrode of TFT 412 may be electrically connected to data wire DL.In the diagram,
16 TFT 412 (according to the arrangement mode of 4x 4) are illustrated as example.
According to first direction DR1 and second direction DR2, photodiode 414 can be arranged as matrix so that
The most corresponding to TFT 412.Each photodiode 414 may be electrically connected to one in TFT 412.
The N lateral electrode of each photodiode 414 may be electrically connected to the drain electrode of TFT 412.Fig. 4 illustrates 16
Individual photodiode 4 (according to the arrangement mode of 4x 4) is as example.
Offset line BL is electrically connected to photodiode 414.Every offset line BL may be electrically connected to light
The P lateral electrode of the array of electric diode 414.Such as, offset line BL can be formed to be arranged essentially parallel to
Second direction DR2 is to be electrically connected to photodiode 414.On the other hand, offset line BL can be formed
For being arranged essentially parallel to first direction DR1 to be electrically connected to photodiode 414.Fig. 4 is showing along
Four offset line BL that second direction DR2 is formed are as example.
Biasing driver element 430 is electrically connected to offset line BL so that driving voltage is applied to offset line
BL.Reverse bias voltage or forward bias voltage are optionally applied to light by biasing driver element 430
Electric diode 414.The N lateral electrode of photodiode 414 can be applied a reference voltage to.Can be via letter
Number processing unit 470 applies reference voltage.Biasing driver element 430 can be by the voltage less than reference voltage
It is applied to the P lateral electrode of photodiode 414, in order to reverse bias voltage is applied to photodiode
414.On the other hand, biasing driver element 430 can will be greater than the voltage of reference voltage and be applied to photoelectricity two pole
The P lateral electrode of pipe 414, in order to forward bias voltage is applied to photodiode 414.
Drive element of the grid 450 is electrically connected to gate lines G L and thus signal can be applied to grid
Line GL.Such as, when signal is applied to gate lines G L, TFT 412 can be opened by signal.
On the other hand, when signal not being applied to gate lines G L, TFT 412 can be closed.
Signal processing unit 470 is electrically connected to data wire DL.When received by light detection substrate 410
When light is converted into the signal of telecommunication, the signal of telecommunication can be read out via data wire DL by signal processing unit 470.
The operation of detector 400 be will now be described.During the operation of detector 400, biasing drives single
Reverse bias voltage can be applied to photodiode 414 by unit 430.
When TFT 412 is closed, each photodiode 414 can receive light from flasher and produce electricity
Sub-hole is to stored charge.In each photodiode 414 quantity of electric charge of accumulation can with receive
The intensity of X-ray light is corresponding.
Then, signal can be applied in order by drive element of the grid 450 along second direction DR2
Gate lines G L.When signal being applied to gate lines G L and Open from This Side is connected to the TFT of gate lines G L
When 412, photoelectric current can be because of accumulation in being connected to the photodiode 414 of TFT 412 being unlocked
Electric charge and flow in signal processing unit 470 via data wire DL.
The photoelectric current received can be converted to view data view data is defeated by signal processing unit 470
Go out to outside.View data can be to be analogue signal corresponding with photoelectric current or the form of digital signal.
Although the most not shown, but if the detector that figure 4 illustrates 400 is radio detection
Device, then detector 400 can also include battery unit and wireless communication interface unit.
As it has been described above, detector unit 130 can be as being connectable to X-ray equipment 100 or from X
The X-ray detector of the isolated system that ray equipment 100 separates.Specifically, X-ray detector can
Be physically connected to X-ray equipment 100 or from X-ray equipment 100 physical separation and can via wired or
Wireless network communicates with X-ray equipment 100.
Wired X-ray detector is connected to vertical sensor 280 or desk-top sensor 290 the most not
Can move freely.On the other hand, wireless X-ray detector may be connected to sensor and maybe can be free of attachment to sense
Receiver.
Specifically, wireless X-ray detector can be penetrated with X-ray equipment 100 or X via wireless network
Wire system 1000 communicates.Therefore, in the case of being not attached to sensor, user can be according to will be by
The position of the object of shooting uses wireless X-ray detector in various positions.
Owing to wireless X-ray detector is not dependent on the specification information about sensor, therefore can be identical
X-ray equipment or identical x-ray system in use there is the wireless X-ray of various sizes and shape
Detector.The size and dimension of the X-ray detector being suitable for x-ray imaging can be according to being taken
The position of object and different.
Therefore, same type or different types of multiple X-ray detector may be present in single X-ray
As, in room, user needs the object selecting to be suitable for being taken among the plurality of X-ray detector
Position and the X-ray detector of imaging circumstances.But, when same type or different types of multiple
When X-ray detector is present in single x-ray imaging room, by the plurality of X-ray detector each other
Distinguish or in the plurality of X-ray detector, select the X-ray detection that will use in x-ray imaging
Device is probably difficulty.
Therefore, can show according to the X-ray detector of one or more exemplary embodiments and set by workbench
The distribution designator put.Therefore, by each distribution designator with reference to X-ray detector, Yong Huke
Efficiently multiple X-ray detectors are distinguished from each other and can select efficiently among X-ray detector by
The X-ray detector used in x-ray imaging.
Will be described in now to arrange X-ray detector according to one or more exemplary embodiments
The workbench of distribution indicator information and the X-ray detector of distribution designator can be shown.
Fig. 5 is for describing the workbench 500 according to exemplary embodiment and X-ray detector 510
The block diagram of each operation.X-ray detector 510 includes the output unit for showing distribution designator
511a。
At operation S520, X-ray detector 510 is by the identification information 570 of X-ray detector 510
Deliver to workbench 500.Running through description, the identification information 570 of X-ray detector 510 is to instigate X to penetrate
Thread detector 510 is different from the predetermined information about X-ray detector 510 of other X-ray detector.
Such as, it is other type of that identification information 570 can include making X-ray detector 510 not only be different from
X-ray detector and be different from the X of the X-ray detector identical with X-ray detector 510 type
The unique information 571 of ray detector 510.Such as, unique information 571 can include detecting from X-ray
At least one selected in the serial number (SN) of device 510 and Internet protocol (IP) address information thereof.
Specifically, the SN of X-ray detector 510 is to be distributed during the manufacture of X-ray detector 510
Unique identifier.The IP address information of X-ray detector 510 can include at X-ray detector 510
The IP address value used when communicating with one another with access point (AP).
Identification information 570 may also comprise and makes X-ray detector 510 be different from the inspection of other kinds of X-ray
Survey the specification information 572 of the X-ray detector 510 of device.Such as, specification information 572 can include from X
The size of ray detector 510 and can be with institute in the type of the sensor of X-ray detector 510 combination
At least one selected.As it has been described above, the different sizes and shapes of X-ray detector are suitably adapted for basis
The x-ray imaging at the position of object that will be taken.Therefore, the size of X-ray detector 510 is permissible
It it is user's standard of selecting to be suitable for the X-ray detector of imaging.Additionally, when user wants X-ray
When detector 510 is combined to predetermined sensor, can be with the class of the sensor of X-ray detector 510 combination
Type can be the standard that user selects to be suitable for the X-ray detector of imaging.
Such as, when can be by user by the vertical sensor 280 of 17x17 inch X-ray detector Yu Fig. 2
When combining and can be combined by the desk-top sensor 290 of 14x14 inch X-ray detector Yu Fig. 2, X penetrates
The specification information 572 of thread detector 510 can be the X-ray detector that user selects to be suitable for imaging
Standard.
The specification information 572 of X-ray detector 510 be not limited to X-ray detector 510 size and
Can be with the type of the sensor of X-ray detector 510 combination.Such as, the rule of X-ray detector 510
Lattice information 572 can also include the information about the material detected by X-ray detector 510, about X
The information of the geometry of ray detector 510 and measure the side of signal about X-ray detector 510
The information of method.Specifically, the information about the material detected by X-ray detector 510 includes light
Detection type and direct charge detection type.Information about the geometry of X-ray detector 510 includes one
Dimension (1D) array type and two dimension (2D) domain type.The side of signal is measured about X-ray detector 510
The information of method can include whole detection type and coefficient detection type.
In addition to unique information 571 and specification information 572, the identification information 570 of X-ray detector 510
Can also include that positional information 573 and the X-ray detector 510 of X-ray detector 510 have connected
The identification information 574 of the network arrived.Retouch in more detail later with reference to Fig. 8, Fig. 9, Figure 12 and Figure 13
State the positional information 573 of X-ray detector 510 and the identification information 574 of described network.
At operation S530, workbench 500 identification based on X-ray detector 510 information 570 arranges X
The distribution indicator information of ray detector 510.Running through description, distribution designator refers to by X-ray
The virtual designator that the output unit 511a of detector 510 shows, and can be to help user to select
Select the visual notification signal of X-ray detector by being used for imaging.Run through description, distribute designator
Information refers to the information of the distribution designator for controlling X-ray detector 510 display.Workbench 500
Distribution indicator information is set and distribution indicator information is sent to X-ray detector 510.Concrete and
Speech, distribution designator can include at least selected in character, numeral, symbol, color and image
Individual.Distribution indicator information can include that instruction is selected in character, numeral, symbol, color and image
The information of at least one.
At operation S540, set distribution indicator information is sent to X-ray detection by workbench 500
Device 510.
At operation S550, X-ray detector 510 is based on the distribution indicator information display distribution received
Designator.Such as, will instruction when workbench 500 specification information based on X-ray detector 510 572
The information of yellow is set to the distribution indicator information for 17x17 inch X-ray detector and will indicate
When blue information is set to the distribution indicator information for 14x14 inch X-ray detector, 17x17
The output unit 511b of inch X-ray detector 510 can show and corresponding with yellow distributes designator.
User can be indicated by the distribution with reference to yellow shown on X-ray detector 510 or blueness
Symbol comes efficiently by 14x14 inch X-ray detector 510 and 17x17 inch X-ray detector 510
Distinguish mutually.Such as, when 17x17 inch X-ray detector 510 can combine with vertical sensor 280,
User be readily able to select display yellow distribution designator X-ray detector and can be by selected
X-ray detector combines with vertical sensor 280.
Fig. 6 is the block diagram of the workbench 600 according to exemplary embodiment.Workbench 600 includes receptor
610, controller 620, output unit 630 and transmitter 650, and can also include input block 640.
When including the workbench 600 of Fig. 6 at the x-ray system 1000 of Fig. 1, the workbench of Fig. 6
600 can be corresponding to the workbench 110 of Fig. 1.Specifically, the workbench 600 of Fig. 6 controller 620,
Output unit 630 and input block 640 can be with the controller 113 of the workbench 110 of Fig. 1, output lists
Unit 111 and input block 112 are the most corresponding.The receptor 610 of the workbench 600 of Fig. 6 and transmitter
650 can wire or wirelessly communicate with X-ray equipment 100 and also can be via the network 160 of Fig. 1
Communicate with external equipment.Therefore, its repeated description will be omitted.
The receptor 610 of workbench 600 can receive the identification letter of X-ray detector from X-ray detector
Breath.Such as, when including the workbench 600 of Fig. 6 at the x-ray system 1000 of Fig. 1, receptor
610 can penetrate via the corresponding X of detector 130 directly received with the communication of X-ray detector with Fig. 1
The identification information of thread detector.When X-ray detector is connected to sensor, receptor 610 can be through
The identification information of X-ray detector is indirectly received by the communication with sensor.
The controller 620 of workbench 600 can identification information based on the X-ray detector received set
Put the distribution indicator information of X-ray detector.
As it has been described above, the identification information of X-ray detector can include from unique information, specification information, position
Selected in the identification information of the network that confidence breath and X-ray detector have been coupled at least one
Individual.
When the unique information setting point that controller 620 includes based on the identification information at X-ray detector
When joining indicator information, distribution designator shown on X-ray detector can be different from all its
Distribution designator shown on its X-ray detector.
When the specification information setting point that controller 620 includes based on the identification information at X-ray detector
When joining indicator information, the X-ray detector with same size information can show same allocated designator.
When the positional information setting point that controller 620 includes based on the identification information at X-ray detector
When joining indicator information, the X-ray detector being positioned at same position can show same allocated designator.X
The positional information of ray detector can include having been coupled to vertical sensor from instruction X-ray detector
Information (hereinafter referred to as " upright locations information "), instruction X-ray detector have been coupled to platform
The information (hereinafter referred to as " desk-top positional information ") of formula sensor and instruction X-ray detector
Not yet it is attached in the information (hereinafter referred to as " portable position information ") of any sensor selected
At least one selected.But, the positional information of X-ray detector is not limited to this, and X-ray detection
The positional information of device can include the biography included via the sensor in x-ray imaging room or x-ray system
The additional location information that sensor obtains.Describe in detail later with reference to Fig. 8 and Fig. 9 and detect according to X-ray
Distribution indicator information set by the positional information of device.
The X-ray detector included based on the identification information at X-ray detector when controller 620 is
When the identification information of the network through being connected to arranges distribution indicator information, it is connected to the X of identical network
Ray detector can show same allocated designator.Specifically, each when multiple x-ray imaging rooms
When room uses heterogeneous networks, the X-ray detector being present in identical x-ray imaging room can show identical
Distribution designator, and the X-ray detector being present in different x-ray imaging chamber can show that different distribution refers to
Show symbol.It is more fully described later with reference to Figure 12 and Figure 13 and has been coupled to according to X-ray detector
The distribution indicator information set by identification information of network.
The output unit 630 of workbench 600 can show the X-ray detection arranged by controller 620
The distribution indicator information of device.Specifically, output unit 630 can show and represents X-ray detector
The X-ray detector icon of distribution indicator information.
Therefore, user can be not only by with reference to distribution shown on the output unit of X-ray detector
Designator and by with reference to X-ray detector shown on the output unit 630 of workbench 600
Distribution indicator information to be distinguished from each other by multiple X-ray detectors efficiently and select efficiently will be
The X-ray detector used during imaging.
Workbench 600 can also include the input block 640 for receiving user's input.Can be by controller 620
The distribution indicator information of X-ray detector is arbitrarily set, and set distribution can be changed by user
Indicator information.Specifically, input block 640 can receive replacement by the X set by controller 620
The distribution indicator information of ray detector, controller 620 may be in response to described input and resets X-ray inspection
Survey the distribution indicator information of device.
Similarly, the optional X-ray detector received by receptor 610 of controller 620 is multiple
In identification information one as arrange X-ray detector distribution indicator information standard (
Hereinafter referred to " distribution indicator information arranges standard ").
Distribution indicator information can be changed by user and standard is set.Specifically, input block 640 can connect
Receive and change the input that standard is set by the distribution indicator information selected by controller 620, and controller
620 may be in response to described input change distribution indicator information arranges standard.
Input block 640 can be touch pad.Specifically, input block 640 can include and export
The touch pad (not shown) that the display floater (not shown) that unit 630 includes connects.Output unit
630 show user interface (UI) image on a display panel.When user is by touching the spy on UI image
When fixed point inputs order, touch pad can sense input operation and identify the order that user inputs.
Specifically, when input block 640 is touch pad and user touches the specified point on UI image,
Input block 640 senses the point being touched.Then, input block 640 can send sense to controller 620
The information measured.Subsequently, controller 620 recognizable user corresponding with the information sensed request or life
Order also can perform user's request or the order identified.
The transmitter 650 of workbench 600 can refer to the distribution of X-ray detector transmission X-ray detector
Show symbol information.Such as, when the x-ray system 1000 of Fig. 1 includes the workbench 600 of Fig. 6, send out
Send the device 650 can be corresponding via the detector 130 directly transmitted with the communication of X-ray detector with Fig. 1
The distribution indicator information of X-ray detector.When X-ray detector combines with sensor, transmitter
650 can be via the distribution indicator information receiving and sending X-ray detector between the communication of sensor.
The receptor 610 of the workbench 600 of Fig. 6 and transmitter 650 can be via cable network or wireless networks
Network and the external equipment including X-ray detector communicate.
Can in the actuation unit 140 of the X-ray equipment 100 of Fig. 1 implementation platform 600.
Specifically, including for by X-radiation unit 120 He on X-radiation to object
In the X-ray equipment 100 handling the actuation unit 140 of X-radiation unit 120, handle single
Unit 140 comprises the steps that receptor (corresponding to receptor 610), for receiving the identification of X-ray detector
Information;Controller (corresponding to controller 620), for identification based on the X-ray detector received
Information arranges the distribution indicator information of X-ray detector;Output unit (corresponding to output unit 630),
For showing the distribution indicator information of X-ray detector;Transmitter (corresponding to transmitter 650), uses
In the distribution indicator information sending X-ray detector to X-ray detector.
When implementation platform 600 in the actuation unit 140 at the X-ray equipment 100 of Fig. 1, do not having
In the case of the outside workbench 110 provided of X-ray equipment 100 is provided, X-ray detector can via with X
The communication of the actuation unit 140 of ray equipment 100 shows distribution designator.
Fig. 7 is the block diagram of the X-ray detector 700 according to exemplary embodiment.
X-ray detector 700 can include receptor 710, output unit 730 and transmitter 740.X penetrates
Thread detector 700 can also include controller 720.When the X-ray equipment 100 at Fig. 1 includes that X penetrates
During thread detector 700, X-ray detector 700 can be corresponding to the detector 130 of Fig. 1.As it has been described above,
X-ray detector 700 can be connected to the X-ray equipment 100 of Fig. 1 or break from X-ray equipment 100
Open.Therefore, its repeated description will be omitted.
The transmitter 740 of X-ray detector 700 can send the knowledge of X-ray detector 700 to workbench
Other information.When including X-ray detector 700 at the x-ray system 1000 of Fig. 1, X-ray is examined
The transmitter 740 surveying device 700 can directly transmit X-ray detector 700 to the workbench 100 of Fig. 1
Identification information.When X-ray detector 700 and the sensor combination of X-ray equipment 100, transmitter
740 can receive and send the identification of X-ray detector 700 via with communicating of sensor between workbench 110
Information.
After transmitter 740 sends identification information, the receptor 710 of X-ray detector 700 can be from
Workbench 600 receives distribution indicator information.As it has been described above, distribution indicator information can include indicate from
The information of at least one selected in character, numeral, symbol, color and image.
When including X-ray detector 700 at the x-ray system 1000 of Fig. 1, X-ray detector
The receptor 710 of 700 directly can receive distribution indicator information from the workbench 110 of Fig. 1.When X penetrates
During the sensor combination of thread detector 700 and X-ray equipment 100, receptor 710 can via with impression
The communication of device receives distribution indicator information from workbench 110 indirectly.
X-ray detector 700 can be wired X-ray detector or wireless X-ray detector.Work as X
When ray detector 700 is wireless X-ray detector, receptor 710 and transmitter 740 can be via nothings
Gauze network communicates with external equipment.
The output unit 730 of X-ray detector 700 can be based on the receptor by X-ray detector 700
The distribution indicator information display distribution designator that 710 receive.Such as, X-ray detector 700 is defeated
Go out unit 730 can include for showing the distribution liquid crystal display (LCD) of designator, Light-Emitting Diode
Or light-emitting device (LED).
Output unit 730 can include the optics ripple being positioned at least one edge of X-ray detector 700
Lead.X-ray detector 700 can more efficiently show via optical waveguide that it distributes designator.After a while will
It is more fully described optical waveguide with reference to Figure 19 and Figure 20.
The controller 720 of X-ray detector 700 can obtain the status information of X-ray detector 700.
Such as, the status information of X-ray detector 700 can include the remaining power from X-ray detector 700
Capacity information, the communication sensitivity information of X-ray detector 700 and about X-ray detector 700
At least one selected in the information being activated.More detailed later with reference to Figure 14-Figure 18
Ground describes the status information of X-ray detector 700.
Fig. 8 illustrates that workbench 600 positional information based on X-ray detector of Fig. 6 arranges X-ray inspection
Survey the operation of the distribution indicator information of device.Specifically, Fig. 8 is shown in the output list of workbench 600
UI image 800 and 850 shown in unit 630.
With reference to Fig. 6 and Fig. 8, the receptor 610 of workbench 600 can receive the identification of X-ray detector
Information, wherein, the identification information of X-ray detector includes the unique information from X-ray detector and X
Selected in the specification information of ray detector at least one and also include the position of X-ray detector
Information.
The controller 620 of workbench 600 can be based on the X-ray detection received by receptor 610
X-ray detector is authenticated by least one selected in the unique information of device and specification information.
Such as, X-ray detector can be entered by detector S/N 802 based on X-ray detector by workbench 600
Row certification.
Running through description, workbench means that to the certification of X-ray detector workbench earlier registration will be
The X-ray detector used in x-ray imaging.It addition, workbench can allow authentic X-ray to examine
Survey device and communicate or activate authentic X-ray detector (or preparing for detection).
The output unit 630 of workbench 600 can show by workbench 600 via UI image 800
The list 810 of the X-ray detector 811 of certification, X-ray detector 812 and X-ray detector 813.
Output unit 630 can simple displaying X-ray detection in the list 810 of authentic X-ray detector
The identification information of device, the detector S/N 802 of such as X-ray detector and positional information 801.
The output unit 630 of workbench 600 also can show the X-ray inspection selected in list 810
Survey the more detailed of device 811 and identify information 820.The identification information of selected X-ray detector 811
The 820 IP addresses that can be additionally included in unshowned selected X-ray detector 811 in list 810 and
Can be with the type of the sensor of X-ray detector 811 combination.
The controller 620 of workbench 600 can be arranged and recognized by positional information 801 based on X-ray detector
The distribution indicator information of the X-ray detector of card.In other words, X-ray can be detected by controller 620
The positional information 801 of device is set to distribute indicator information and arranges standard 860.
When the input block 640 of workbench 600 receives the input 840 selecting icon 830, controller
620 can arrange each of X-ray detector 811, X-ray detector 812 and X-ray detector 813
Distribution indicator information.Alternatively, controller 620 can arrange X-ray detector 811, X-ray immediately
Detector 812 and X-ray detector 813 each distribution indicator information and without waiting for receiving use
In the input 840 selecting icon 830.
Specifically, controller 620 can to the desk-top positional information 861 of authentic X-ray detector,
Upright locations information 862 and portable position information 863 carry out classifying and for having identical bits confidence
The X-ray detector of breath arranges identical distribution indicator information and for the X with diverse location information
Ray detector arranges different distribution indicator information.
Such as, controller 620 can be arranged for the desk-top corresponding X-ray detector of positional information 861
The distribution indicator information 871 of yellow, for X-ray detector corresponding with upright locations information 862
The distribution indicator information 872 of purple is set, for X-ray corresponding with portable position information 863
Detector arranges the distribution indicator information of blueness.
The positional information of X-ray detector can change along with the position change of X-ray detector.Such as,
When X-ray detector is wireless X-ray detector, X-ray detector can be at first time point and Fig. 2
Vertical sensor 280 combine and can separate with vertical sensor 280 at the second time point.Therefore,
Positional information at the X-ray detector that first time point is received by the receptor 610 of workbench 600
Can be upright locations information, at the X that the second time point is received by the receptor 610 of workbench 600
The positional information of ray detector can be portable position information.
Therefore, controller 620 needs to specify time point so that positional information based on X-ray detector 801
The distribution indicator information of X-ray detector is set.Such as, the controller 620 of workbench 600 can base
Positional information in the X-ray detector at the authentic time point of X-ray detector arranges X-ray
The distribution indicator information of detector.
Specifically, the controller 620 of workbench 600 can be believed based on from the identification at X-ray detector
X-ray detector is recognized by least one selected in unique information that breath includes and specification information
Demonstrate,prove and can arrange based on the positional information included in same identification information the distribution of X-ray detector
Indicator information.
If the positional information at the X-ray detector of the authentic time point of X-ray detector is vertical
Positional information, then X-ray detector can have the size and specification that can combine with vertical sensor.
As another example, if the position of the X-ray detector at the authentic time point of X-ray detector
Information is desk-top positional information, then X-ray detector can have and can combine with desk-top sensor
Size and specification.Therefore, user can be by with reference to distribution designator shown on X-ray detector
Being readily determined can be with the type of the sensor of X-ray detector combination.
Output unit 630 can show the distribution instruction of the X-ray detector arranged by controller 620
Symbol information 870.Such as, output unit 630 can show dividing of X-ray detector via UI image 850
Join indicator information 870.Output unit 630 also can be via UI image 850 display distribution indicator information
Standard 860 is set.
Input block 640 can receive the distribution indicator information arranged for replacement by controller 620
871, distribution indicator information 872 and distribution indicator information 873.Such as, input block 640 can be through
By UI image-receptive for by the distribution designator with the desk-top corresponding X-ray detector of positional information 861
Information resets to the input of redness.Controller 620 may also respond to by input block 640 receive defeated
Enter to reset the distribution indicator information of X-ray detector.Input block 640 can receive for distribution being referred to
Show that symbol information 871, distribution indicator information 872 and distribution indicator information 873 reset all are identical
The input of color.
Input block 640 also can receive the distribution indicator information arranged by controller 620 for replacement and set
Put the input of standard.Such as, input block 640 can receive for distribution indicator information is arranged standard
860 inputs resetting to detector S/N.Then, controller 620 may be in response to by input block 640
The input received resets the distribution indicator information of X-ray detector and arranges standard 860.
Input block 640 also can receive the input of the distribution indicator information for adding X-ray detector.
Such as, when input block 640 receives the input for selecting the additional icon 880, controller 620
The distribution designator letter of green can be set extraly for the X-ray detector that its positional information is not determined
Breath.
Input block 640 also can receive the input of the distribution indicator information deleting X-ray detector.Example
As, controller 620 selecting of may be in response to that input block 640 has been received by deletes the defeated of icon 890
Enter to delete predetermined distribution indicator information.
Fig. 9 illustrates the distribution indicator information 871 according to Fig. 8, distribution indicator information 872 and distribution
The operation of the X-ray detector of indicator information 873.
Specifically, X-ray detector 900 corresponding with upright locations information can receive distribution designator
Information 871, X-ray detector 910 corresponding with desk-top positional information can receive distribution indicator information
872, X-ray detector 920 corresponding with portable position information can receive distribution indicator information 873.
The output unit of the X-ray detector 900 with upright locations information can connect based on being received by device
The distribution indicator information 871 received shows the distribution designator of yellow, has the X of desk-top positional information
The output unit of ray detector 910 can be based on being received by the distribution indicator information 872 that device receives
The distribution designator of display purple, has the output list of the X-ray detector 920 of portable position information
Unit can show blue distribution designator based on being received by the distribution indicator information 873 that device receives.
The receptor of X-ray detector 900, X-ray detector 910 and X-ray detector 920 also may be used
Receive the reset information for the distribution designator shown by replacement respectively.Such as, there is upright locations letter
The receptor of the X-ray detector 900 of breath can receive the replacement for distribution designator resets to redness
Information.Then, the output unit of the X-ray detector 900 with upright locations information can show redness
Distribution designator.
As it has been described above, user can be by with reference at X-ray detector 900, X-ray detector 910 and X
Distribution designator shown on the output unit of ray detector 920 selects to be suitable for imaging efficiently
The X-ray detector of environment.Such as, when needing the X-ray that can combine with desk-top sensor 290 to detect
During device, user may select the X-ray detector 910 of the distribution designator of display purple.
Figure 10 illustrates that workbench 600 unique information based on X-ray detector of Fig. 6 arranges X-ray inspection
Survey the operation of the distribution indicator information of device.Specifically, Figure 10 is shown in the output list of workbench 600
UI image 1050 shown in unit 630.
The UI image 1050 of Figure 10 can be corresponding to the UI image 800 of Fig. 8.Therefore, can be omitted it heavy
Multiple description.
With reference to Fig. 6 and Figure 10, the receptor 610 of workbench 600 can receive and include from X-ray detector
Unique information and X-ray detector specification information selected in the X-ray detector of at least one
Identification information.Being contrasted with Fig. 8, the identification information of X-ray detector may not include X-ray inspection
Survey the positional information of device.
The controller 620 of workbench 600 can be based on from the X-ray inspection received by receptor 610
X-ray detector is authenticated by least one selected in the unique information of survey device and specification information.
Such as, X-ray detector can be entered by detector S/N 1002 based on X-ray detector by workbench 600
Row certification.
The output unit 630 of workbench 600 can show by workbench 600 via UI image 1050
The X-ray detector 1021 of certification, X-ray detector 1022 and the list of X-ray detector 1023
1020.The output unit 630 of workbench 600 can show the list 1020 from authentic X-ray detector
Selected in the information 1010 that identifies in detail of X-ray detector 1021.
The controller 620 of workbench 600 can be arranged IP address 1011 based on X-ray detector 1021
The distribution indicator information of authentic X-ray detector 1021.In other words, controller 620 can be by X
The IP address 1011 of ray detector 1021 is set to distribute indicator information and arranges standard.
It is said that in general, X-ray detector has unique IP address.Therefore, controller 620 can by by
Each of the X-ray detector 1021 of certification, X-ray detector 1022 and X-ray detector 1023
IP address carries out classifying and for authentic X-ray detector 1021, X-ray detector 1022 and X
Each setting in ray detector 1023 uniquely distributes indicator information.But, when authentic X penetrates
When thread detector 1021, X-ray detector 1022 and X-ray detector 1023 have identical ip addresses,
Controller 620 can be for authentic X-ray detector 1021, X-ray detector 1022 and X-ray
Each in detector 1023 arranges identical distribution indicator information.
Such as, as described in further detail later in reference to Figure 11, controller 620 can be for having
191.168.197.80 the X-ray detector 1021 of IP address 1011 the distribution instruction of yellow is set
Symbol information, for the X-ray detector 1022 of the IP address (not shown) with 191.168.197.81
The distribution indicator information of purple is set, for the IP address (not shown) with 191.168.197.82
X-ray detector 1023 arrange blueness distribution indicator information.
Input block 640 can receive the distribution indicator information arranged for replacement by controller 620
The input of 1013.Such as, input block 640 can receive for will be with via UI image (not shown)
191.168.197.80 the corresponding X-ray detector 1021 in IP address 1011 distribution designator letter
Breath 1013 resets to the input of redness.Controller 620 may also respond to be received by input block 640
Input resets the distribution indicator information of X-ray detector.
Figure 11 illustrates that the X-ray detector 1100 of the distribution indicator information according to Figure 10, X-ray are examined
Survey each operation of device 1110 and X-ray detector 1120.
Specifically, X-ray detector 1100, X-ray detector 1110 and X-ray detector 1120
Receptor receive respectively by the distribution indicator information of the Figure 10 set by workbench 600.
Based on the distribution indicator information received by receptor, there is the IP ground of 191.168.197.80
The output unit of the X-ray detector 1100 of location can show the distribution designator of yellow, has
The output unit of the X-ray detector 1110 of IP address 191.168.197.81 can show dividing of purple
Join designator, there is the output unit of the X-ray detector 1120 of the IP address of 191.168.197.82
The distribution designator of blueness can be shown.
X-ray detector 1100, X-ray detector 1110 and the receptor of X-ray detector 1120
Also the reset information for the distribution designator shown by replacement respectively can be received.Such as, have
The receptor of the X-ray detector 1100 of IP address 191.168.197.80 can receive for distributing
Designator resets to the reset information of redness.Then, the output unit of X-ray detector 1100 can show
Red distribution designator.
As it has been described above, user can be by with reference at X-ray detector 1100, X-ray detector 1110
The distribution designator shown with on X-ray detector 1120 selects to be suitable for imaging circumstances efficiently
X-ray detector.Such as, show that each uniquely distributes designator when X-ray detector according to IP address
Time, user can be come efficiently according to imaging by each the unique distribution designator with reference to X-ray detector
The X-ray detector that environmental selection frequently uses.
Figure 12 illustrates the identification of the network that the workbench 600 of Fig. 6 has been coupled to based on X-ray detector
Information arranges the operation of the distribution indicator information of X-ray detector.Specifically, Figure 12 is shown in work
UI image 1200 shown on the output unit 630 of station 600.Specifically, output unit 630
Can via UI image 1200 show the identification information 1210 of network that X-ray detector has been coupled to
And the distribution indicator information 1220 of X-ray detector.
When X-ray detector can separate with X-ray equipment, user can use and be present in multiple X-ray
The X-ray detector in different x-ray equipment in imaging chamber.Therefore, user need to check and include by just
The x-ray imaging room of the X-ray detector of beginning certification is to manage X-ray detector efficiently.
Such as, when different x-ray imaging rooms uses different networks, when X-ray detector is by just
During beginning certification, the identification information of its network having been coupled to can be that distribution indicator information arranges standard.
With reference to Fig. 6 and Figure 12, the receptor 610 of workbench 600 can receive the identification of X-ray detector
Information, wherein, described identification information includes the unique information from X-ray detector and X-ray detector
Specification information selected at least one and also include the network that X-ray detector has been coupled to
Identification information.Being contrasted with Fig. 8, the identification information of X-ray detector may not include X-ray inspection
Survey the positional information of device.
The controller 620 of workbench 600 can be based on from the X-ray inspection received by receptor 610
X-ray detector is authenticated by least one selected in the unique information of survey device and specification information.
Such as, X-ray detector can be recognized by detector S/N based on X-ray detector by workbench 600
Card.
The identification of the network that the controller 620 of workbench 600 can have been coupled to based on X-ray detector
Information 1210 arranges the distribution indicator information 1220 of authentic X-ray detector.In other words,
The identification information 1210 of the network that X-ray detector can be had been coupled to by controller 620 is set to distribution
Indicator information arranges standard.
Such as, the identification information of the network that X-ray detector has been coupled to can include service set identifier
(SSID).It is each that the WLAN that SSID is added to include via x-ray imaging room sends
The unique identifier of 32 byte longs of the head of bag, and it is used as when wireless device that (the most wireless X penetrates
Thread detector) password when being connected to Basic Service Set (BSS).Owing to SSID is by WLAN (example
As, the WLAN of the first x-ray imaging room) and another WLAN (such as, the second x-ray imaging
The WLAN of room) distinguish mutually, therefore, attempt accessing all AP or the wireless device of predetermined WLAN
Need to use identical SSID.If wireless device does not knows unique SSID of BSS, then wireless device without
Method accesses BSS.Therefore, such SSID is used as the identification information of imaging space.
Such as, controller 620 can be for the identification information with the network of the SSID indicating the first imaging chamber
1210 corresponding X-ray detectors arrange the distribution indicator information 1220 of redness.
Input block 640 can receive for resetting the X-ray detector arranged by controller 620
The input of distribution indicator information 1220.Such as, input block 640 can be via UI image (not shown)
Receive the input for the distribution indicator information 1220 of X-ray detector being reset to blueness.Controller
620 inputs that may also respond to be received by input block 640 reset the distribution instruction of X-ray detector
Symbol information 1220.
Figure 13 illustrates that the X-ray detector 1301 of the distribution indicator information according to Figure 12, X-ray are examined
Survey each operation of device 1302 and X-ray detector 1303.
Specifically, X-ray detector 1301, X-ray detector 1302 and X-ray detector 1303
Receptor (not shown) receive respectively by the distribution indicator information of the Figure 12 set by workbench 600.
Based on the distribution indicator information received by receptor, there is the network of the SSID of instruction the first imaging chamber
The X-ray detector 1301 of identification information, X-ray detector 1302 and X-ray detector 1303
Output unit 1311, output unit 1312 and output unit 1313 can show redness distribution designator.
X-ray detector 1301, X-ray detector 1302 and the receptor of X-ray detector 1303
Also the reset information for the distribution designator shown by replacement respectively can be received.
As it has been described above, user can be by with reference to X-ray detector 1301, X-ray detector 1302 and X
The distribution designator of ray detector 1303 checks and includes that the X by the X-ray detector of initial authentication penetrates
Line imaging room also manages X-ray detector efficiently.
X-ray detector 1301, X-ray detector 1302 and X-ray detector 1303 can wrap respectively
Include multiple output unit 1311-1313, multiple output unit 1321-1323 and multiple output unit
1331-1333, in order to X-ray detector 1301, X-ray detector 1302 and X-ray detector 1303
All show multiple distribution designator.Such as, X-ray detector 1301, X-ray detector 1302 and X
The output unit 1311 of ray detector 1303, output unit 1312 and output unit 1313 can show
Distribution designator set by network identification information, and described other output unit 1321-1323
And output unit 1331-1333 can show that distributing indicator information based on another arranges dividing set by standard
Join designator.
Such as, there is during certification the output unit of the X-ray detector 1301 of upright locations information
The 1321 distribution designators that can show yellow, such as the output unit of the X-ray detector 900 of Fig. 9.
The output unit 1322 of the X-ray detector 1302 during certification with desk-top positional information can show
The distribution designator of purple, such as the output unit of the X-ray detector 910 of Fig. 9.During certification
The output unit 1323 of the X-ray detector 1303 with portable position information can show the distribution of blueness
Designator, such as the output unit of the X-ray detector 920 of Fig. 9.
As another example, X-ray detector 1301, X-ray detector 1302 and X-ray detector
Output unit 1331, output unit 1332 and the output unit 1333 of 1303 can show based on it each respectively
From specification information set by distribution designator.
Figure 14 is for describing the workbench 1400 according to another exemplary embodiment and X-ray detector
The block diagram of each operation of 1410.
At operation S1420, the controller of X-ray detector 1410 can obtain X-ray detector 1410
Status information 1480.
Running through description, the status information of X-ray detector refers to X be detected about X-ray detector
The information of the condition of ray.Such as, the status information of X-ray detector can include from X-ray detector
Remaining battery capacity information, the communication sensitivity information of X-ray detector and about X-ray detect
At least one selected in the information that device has been activated.
Can show that X-ray detects at operation S1450, the output unit 1411b of X-ray detector 1410
The status information 1480 of device 1410 and distribution designator.Such as, the output list of X-ray detector 1410
Unit 1411b can alternately show status information 1480 and the distribution designator of X-ray detector 1410.Can
Selection of land, the output unit 1411b of X-ray detector 1410 can show X-ray detector 1410 simultaneously
Status information 1480 and distribution designator.Such as, X-ray detector 1410 can be in the distribution of yellow
Remaining battery capacity information and communication sensitivity information is shown on designator.More detailed later with reference to Figure 15
Ground describes the state of the output unit 1411b display X-ray detector 1410 of X-ray detector 1410
Information 1480 and the method for distribution designator institute foundation.
User can check X-ray inspection shown on the output unit 1411b of X-ray detector 1410
Survey the status information 1480 of device 1410 and X-ray detector can be managed efficiently.
At operation S1430, the receptor of workbench 1400 can receive the state of X-ray detector 1410
Information 1480.At operation S1440, the output unit of workbench 1400 can show expression X-ray detector
The X-ray detection of the status information 1480 of 1410 and the distribution indicator information of X-ray detector 1410
Device icon 1401.
Specifically, the transmitter of X-ray detector 1410 can send to workbench 1400 and include that X penetrates
The status information 1480 of thread detector 1410 and the number of the identification information 1490 of X-ray detector 1410
According to bag.The identification information 1490 of X-ray detector 1410 can include from X-ray detector 1410 only
At least one selected in one information 1491 and specification information 1492.
The receptor of workbench 1400 can receive the status information 1480 including X-ray detector 1410
And the packet of the identification information 1490 of X-ray detector 1410, and the controller of workbench 1400
Identification information 1490 based on X-ray detector 1410 can identify the X-ray inspection having sent packet
Survey device 1410.The output unit of workbench 1400 can show that representative is controlled by the X-ray inspection that device is specified
Survey the status information 1480 of device 1410 and the X-ray of the distribution indicator information of X-ray detector 1410
Detector icon 1401.
Alternatively, the output unit of workbench 1400 can show that representative is controlled by the X-ray inspection that device is specified
Survey the identification information 1490 of device 1410 and the X-ray of the distribution indicator information of X-ray detector 1410
Detector icon 1401.It is more fully described X-ray detector icon 1401 later with reference to Figure 16.
User can check the status information of X-ray detector 1410 via X-ray detector icon 1401
1480 and X-ray detector can be managed efficiently.It addition, user can be via X-ray detector icon
1410 easily activate X-ray detector 1410 or can connect or stop and X-ray detector 1410
Communication.
As it has been described above, user can be by using output unit 1411b and the work of X-ray detector 1410
The output unit of platform 1400 selects to be suitable for the X-ray detector of imaging circumstances and also can be efficient efficiently
The state of ground management X-ray detector.
Figure 15 A and Figure 15 B illustrates and shows distribution designator and the X-ray detector of status information thereon
1500a and X-ray detector 1500b.
The output unit 1510a of X-ray detector 1500a can alternately show X-ray detector 1500a
Status information and distribution designator.
Specifically, the controller of X-ray detector 1500a can be based on X-ray detector 1500a
Status information arranges the information that will be exported by the output unit 1510a of X-ray detector 1500a.Such as,
The controller of X-ray detector 1500a can control its output unit 1510a in remaining battery capacity information
Show green when being 50 to 100%, show when remaining battery capacity information is 10 to 49% orange, and
Redness is shown when remaining battery capacity information is 0 to 9%.
The controller of X-ray detector 1500a can control its output unit 1510a alternately display distribution and refer to
Show symbol and status information.Such as, remaining battery capacity be 100% and be provided with yellow distribution designator
The output unit 1510a of X-ray detector 1500a can alternately show as distribution designator yellow and
Green as remaining battery capacity information.
The output unit 1510b of X-ray detector 1500b can show X-ray detector 1500b simultaneously
Status information and distribution designator.Such as, X-ray detector 1500b can indicate in the distribution of yellow
Remaining battery capacity communication icon 1510b and communication sensitivity communication icon 1530b is shown on symbol.
The output unit 1520b of X-ray detector 1500b can be based on the shape of X-ray detector 1500b
State information makes distribution designator flash.Such as, when X-ray detector 1500b be activated, X-ray inspection
Survey when the remaining battery capacity information of device 1500b is 9% or less or X-ray detector 1500b logical
When letter sensitivity is weak, the output unit 1510b of X-ray detector 1500b can make distribution designator flash.
Figure 16 illustrates that the workbench 600 of the Fig. 6 according to exemplary embodiment shows sensor information 1610
And the operation of X-ray detector icon 1630.
Such as, sensor information can show for activating X-ray detector corresponding with upright locations information
Icon 1611, for activate X-ray detector corresponding with desk-top positional information icon 1612 with
And for activating the icon 1613 of X-ray detector corresponding with portable position information.
Such as, the output unit 630 of workbench 600 can be at the UI for arranging x-ray imaging condition
X-ray detector icon 1630 is shown on image 1600.Specifically, the output list of workbench 600
Unit 630 can show X-ray detector icon 1630 on the taskbar 1620 of UI image 1600.
X-ray detector icon 1630 can represent identification information and the distribution designator thereof of X-ray detector
Information.Specifically, X-ray detector icon 1630 can include the identification letter representing X-ray detector
Breath and the sub-icon of distribution indicator information thereof.
Such as, it is that yellow and X-ray detector are with portable when the distribution designator of X-ray detector
When positional information is corresponding, X-ray detector icon 1630 can include the son with the character P of yellow background
Icon 1634.The sub-icon 1634 of the positional information representing X-ray detector may indicate that X-ray detects
The current location of device and do not consider the position of the X-ray detector at the authentic time point of X-ray detector
Confidence ceases.
Specification information based on X-ray detector, X-ray detector icon 1630 can include that representing X penetrates
Thread detector is the sub-icon 1633 of wireless X-ray detector.
X-ray detector icon 1630 can also include the subgraph representing the status information of X-ray detector
Mark.Such as, X-ray detector icon 1630 can include the remaining battery capacity representing X-ray detector
The sub-icon 1632 of information and represent the sub-icon 1631 of communication sensitivity information of X-ray detector.
As it has been described above, user can easily activate X-ray detector via X-ray detector icon 1630
Or can connect or stop the communication with X-ray detector.
It addition, user can determine the distribution instruction of X-ray detector via X-ray detector icon 1630
Whole in symbol and the identification information of X-ray detector or status information, thus manage efficiently and control
X-ray detector processed.
Figure 17 A-Figure 18 B illustrates that the workbench 600 of the Fig. 6 according to one or more exemplary embodiments swashs
The operation of X-ray detector alive.
Figure 17 A illustrate workbench 600 activate display yellow distribution designator and with current portable position
The operation of information corresponding X-ray detector 1740a.
Specifically, due to when by workbench 600 certification X-ray detector 1740a with vertical
Sensor 280 combines, therefore the distribution designator of X-ray detector 1740a display yellow, such as figure
The X-ray detector 900 of 9.But, due to X-ray detector 1740a current the most not with any sensor
Combination, therefore the current location information of X-ray detector 1740a is corresponding to portable position information.
The icon included in sensor information 1700a can be with the sensor of the UI screen 1600 at Figure 16
The icon that information 1610 includes is corresponding.Specifically, for activating X corresponding with upright locations information
The icon 1611 of icon 1710a to Figure 16 of ray detector is corresponding, believes with desk-top position for activating
The icon 1612 of icon 1720a to Figure 16 ceasing corresponding X-ray detector is corresponding, for activate with
The icon 1613 of icon 1730a to Figure 16 of the corresponding X-ray detector of portable position information is corresponding.
For ease of explaining, the explanation of the part of omission UI screen 1600 in addition to sensor information 1700a.
When X-ray detector 1740a is activated, the output unit 1750a of X-ray detector 1740a
Distribution designator can be made to flash.
The output unit 630 of workbench 600 can identification information based on X-ray detector 1740a, point
Join designator and status information thereof to show X-ray detector icon 1760a.Specifically, X-ray inspection
Survey device icon 1760a and can represent that X-ray detector 1740a is wireless X-ray detector, with current the most just
Take formula positional information corresponding, the distribution designator of display yellow and there is high communication sensitivity and 100%
Remaining battery capacity.When X-ray detector 1740a is activated, represent the sub-icon of distribution designator
1770a sparkling.
Figure 17 B illustrate workbench 600 activate display purple distribution designator and with current portable position
The operation of information corresponding X-ray detector 1740b.
Specifically, due to when by workbench 600 certification X-ray detector 1740b with desk-top
Sensor 290 combines, therefore the distribution designator of X-ray detector 1740b display purple, such as figure
The X-ray detector 910 of 9.But, due to X-ray detector 1740b current the most not with any sensor
Combination, therefore the current location information of X-ray detector 1740b is corresponding to portable position information.
When X-ray detector 1740b is activated, the output unit 1750b of X-ray detector 1740b
Distribution designator can be made to flash.
The output unit 630 of workbench 600 can identification information based on X-ray detector 1740b, point
Join designator and status information thereof to show X-ray detector icon 1760b.Specifically, X-ray inspection
Survey device icon 1760b and can represent that X-ray detector 1740b is wireless X-ray detector, with current the most just
Take formula positional information corresponding, the distribution designator of display purple and there is high communication sensitivity and 100%
Remaining battery capacity.When X-ray detector 1740b is activated, represent the sub-icon of distribution designator
1770b sparkling.
Figure 17 C illustrate workbench 600 activate the blue distribution designator of display and with current portable position
The operation of information corresponding X-ray detector 1740c.
Specifically, due to when by workbench 600 certification X-ray detector 1740c not yet with any
Sensor combination is thus the most corresponding to portable position information, therefore X-ray detector 1740c display indigo plant
The distribution designator of color, such as the X-ray detector 920 of Fig. 9.Further, since X-ray detector
1740c does not currently combine with any sensor, the therefore current location information of X-ray detector 1740c
Corresponding to portable position information.
When X-ray detector 1740c is activated, the output unit 1750c of X-ray detector 1740c
Distribution designator can be made to flash.
The output unit 630 of workbench 600 can identification information based on X-ray detector 1740c, point
Join designator and status information thereof to show X-ray detector icon 1760c.Specifically, X-ray inspection
Survey device icon 1760c and can represent that X-ray detector 1740c is wireless X-ray detector, with current the most just
Take formula positional information corresponding, distribution designator that display is blue and there is high communication sensitivity and 100%
Remaining battery capacity.When X-ray detector 1740c is activated, represent the sub-icon of distribution designator
1770c sparkling.
Figure 18 A illustrate workbench 600 activate display yellow distribution designator and current the most with vertical sense
The operation of the X-ray detector 1840a of receiver 1880a combination.
Specifically, due to when by workbench 600 certification X-ray detector 1840a with vertical
Sensor 1880a combines, therefore the distribution designator of X-ray detector 1840a display yellow, as
The X-ray detector 900 of Fig. 9.Further, since X-ray detector 1840a is current and vertical impression
Device 1880a combines, the therefore current location information of X-ray detector 1840a and upright locations information phase
Should.
When X-ray detector 1840a is activated, the output unit 1850a of X-ray detector 1840a
Distribution designator can be made to flash.
The output unit 630 of workbench 600 can identification information based on X-ray detector 1840a, point
Join designator and status information thereof to show X-ray detector icon 1860a.Specifically, X-ray inspection
Survey device icon 1860a and can represent that X-ray detector 1840a is wireless X-ray detector, vertical with current
Formula positional information is corresponding, shows the distribution designator of yellow and has high communication sensitivity and 9% or less
Remaining battery capacity.When X-ray detector 1840a is activated, represent the subgraph of distribution designator
Mark 1870a sparkling.
Figure 18 B illustrate workbench 600 activate display purple distribution designator and current the most with desk-top sense
The operation of the X-ray detector 1840b of receiver 1880b combination.
Specifically, due to when by workbench 600 certification X-ray detector 1840b with desk-top
Sensor 1880b combines, therefore the distribution designator of X-ray detector 1840b display purple, as
The X-ray detector 910 of Fig. 9.Further, since X-ray detector 1840b is current and desk-top impression
Device 1880b combines, the therefore current location information of X-ray detector 1840b and desk-top positional information phase
Should.
When X-ray detector 1840b is activated, the output unit 1850b of X-ray detector 1840b
Distribution designator can be made to flash.
The output unit 630 of workbench 600 can identification information based on X-ray detector 1840b, point
Join designator and status information thereof to show X-ray detector icon 1860b.Specifically, X-ray inspection
Survey device icon 1860b and can represent that X-ray detector 1840b is wireless X-ray detector, and work as foreground
Formula positional information is corresponding, shows the distribution designator of purple and has high communication sensitivity and 9% or less
Remaining battery capacity.When X-ray detector 1840b is activated, represent the subgraph of distribution designator
Mark 1870b sparkling.
Figure 19 A-Figure 19 C illustrates the X-ray detector 1900 according to exemplary embodiment and wherein
Including optical waveguide 1910.
Figure 19 A illustrates the ability to be positioned at the light at least one edge of X-ray detector 1900 by use
Learn waveguide 1910 and show the X-ray detector 1900 of distribution designator.
Figure 19 B is the diagram after the amplification of a part for optical waveguide 1910, and Figure 19 C is showing along figure
The cross section of dotted line 1911 cutting of the optical waveguide 1910 of 19B.
Specifically, the output unit of X-ray detector 1900 comprises the steps that light source 1920, produces by work
The light of the color of the distribution indicator information instruction set by station;Optical waveguide 1910, is positioned at X-ray
On at least one edge of detector 1900 and guide the light that produced by light source 1920 to pass according to specific direction
Broadcast.
Light source 1920 can produce the color including being indicated by the distribution indicator information set by workbench
The light beam of shades of colour.Such as, light source 1920 can be LCD or LED.X-ray detector 1900
Controller can control light source 1920 to produce the face indicated by the distribution indicator information set by workbench
Color.
The light major part that optical waveguide 1910 can be produced by light source 1920 by using total reflection principle to guide
Propagate according to specific direction.
Optical waveguide 1910 may also comprise and passes according to specific direction in optical waveguide 1910 for direct light
The first reflector 1930 broadcast.Specifically, the first reflector 1930 can be by being produced by light source 1920
The raw light beam 1921 among light beam and light beam 1923 reflection arrange the light beam master produced by light source 1920
Direction to be propagated.
It is said that in general, in optical communication field, optical waveguide is by via the main merit as optical waveguide
The total reflection of energy makes minimum optical losses direct light to destination.But, at X-ray detector 1900
Optical waveguide 1910 needs that include of output unit make some in the light beam produced by light source 1920
Travel to outside so that user can check distribution designator.Therefore, optical waveguide 1910 can include for
Some in the light beam produced by light source 1920 are made to travel to the predetermined structure of outside or predetermined reflector.Example
As, optical waveguide 1910 can include the transparent body, such as clear glass or transparent plastic.
Optical waveguide 1910 may also comprise irregular body 1940 on one side thereof, in order to makes by light source 1920
Some in the light beam produced are to external communication.Optics can be repeatedly formed on the side of optical waveguide 1910
The irregular body 1940 of waveguide 1910.
Such as, as shown in Figure 19 B and Figure 19 C, when the inner side of optical waveguide 1910 is formed as irregular
During body 1940, irregular body 1940 light beam 1924 reflected and light beam 1925 can be according to the angles reduced
Degree incides on outside it.Therefore, light beam 1924 and light beam 1925 that irregular body 1940 reflects can be made
Travel to outside, and user can check distribution designator via optical waveguide.
On the other hand, when the outside of optical waveguide 1910 is formed as irregular body, light can be reduced incident
Angle on irregular body.Therefore, some beam propagations that can make to incide on irregular body to outside,
And user can check distribution designator via optical waveguide 1910.
Optical waveguide 1910 can include elastomer.Specifically, optical waveguide 1910 can include holding
The elastomer of row buffering function.When optical waveguide 1910 includes elastomer, X-ray detector 1900
Padded coaming can be need not.
When the output unit of X-ray detector 1900 is via optical waveguide 1910 display distribution designator,
User can be at the distribution designator of various position detection X-ray detectors 1900.Therefore, user can be at X
The output unit of ray detector 1900 by use optical waveguide 1910 display distribution designator rather than
Select efficiently to be suitable for shooting environmental only by using LED or light-emitting device display distribution designator time
X-ray detector.
Figure 20 A and Figure 20 B is the optical waveguide 2010a according to another exemplary embodiment and optical waveguide
The cross sectional view of 2010b.
The optical waveguide 2010a and optical waveguide 2010b of Figure 20 A and Figure 20 B can be with Figure 19 A-19C's
Optical waveguide 1910 is corresponding.Specifically, the light source 2020a of Figure 20 A and Figure 20 B, the first reflector
2030a, by first reflector 2030a reflection light beam 2021 and light beam 2023, by irregular body 2040a
The light beam 2024a and light beam 2025a of reflection can light source 1920, first with Figure 19 A-19C reflect respectively
Body 1930, the first reflector 1930 light beam 1921 reflected and light beam 1923, by irregular body 1940
Light beam 1924 and the light beam 1925 of reflection are corresponding.Therefore, its repeated description will be omitted.
Due to the light beam that produced by light source 2020a while advancing along optical waveguide 2010a to outside
Propagating, the amount being therefore present in the light in optical waveguide 2010a subtracts in the direction away from light source 2020a
Few.
Therefore, as shown in fig. 19 c, when the recurrence interval 1960 of irregular body 1940 of optical waveguide 1910
In the direction away from light source 1920 constant time, the amount 1950 of light traveling to outside can be away from light source
The direction of 1920 is reduced.Therefore, stronger light can be propagated, relatively in the direction close to light source 1920
Weak light can be propagated in the direction away from light source 1920.However, it is expected that the light with constant basis travels to
Outside and not in view of the distance of light source 1920.
Figure 20 A illustrates and includes that what its recurrence interval 2080 shortened in the direction away from light source 2020a does not advises
The then cross section of the optical waveguide 2010a of body 2040a.Specifically, can be optical waveguide 2010a's
The irregular body 2040a of optical waveguide 2010a, and not the advising of optical waveguide 2010a is formed on side
Then the recurrence interval 2080 of body 2040a can be shortened in the direction away from light source 2020a.
When the recurrence interval 2080 of the irregular body 2040a of optical waveguide 2010a can be away from light source
When the direction of 2020a is shortened, although the amount of the light being present in optical waveguide 2010a reduces, but
The amount 2070 of the light traveling to outside can be constant.
Specifically, along with the recurrence interval 2080 of irregular body 2040a is shortened, by light source 2020a
The beam propagation produced increases to the probability of the outside of optical waveguide 2010a.In other words, along with irregularly
The recurrence interval 2080 of body 2040a is shortened, and the probability of the total reflection of light reduces.Therefore, along with irregularly
The recurrence interval 2080 of body 2040a is shortened, although the amount of the light being present in optical waveguide 2010a reduces,
Light travels to the probability of the outside of optical waveguide 2010a to be increased, and therefore, travels to the amount 2070 of the light of outside
Can be constant and not in view of the distance of light source 2020a.
Figure 20 B illustrates and includes the first reflector 2030b and the optical waveguide 2010b of the second reflector 2090
Cross section.
Second reflector 2090 can be located at optical waveguide 2010b side and can be by by light source 2020b
The light produced travels to the outside of optical waveguide 2010b.Specifically, it is positioned at when the second reflector 2090
Time on the inner side of optical waveguide 2010b, the second reflector 2090 the light beam 2024b reflected and light beam
2025b can incide the outside of optical waveguide 2010b according to the angle reduced and thus travel to optics ripple
Lead the outside of 2010b.
Second reflector 2090 can be by the material with the refractive index different from the refractive index of optical waveguide 2010b
Material is formed.Second reflector can be mirror, paster, coating etc..
According to another exemplary embodiment (not shown), optical waveguide 2010b may be included on its side
Irregular body 2040a and the second reflector 2090 on its other side.
Figure 21 is the flow chart of the method 2100 catching radioscopic image according to exemplary embodiment.
Method 2100 include operation with above with reference to Fig. 5-Figure 20 B describe at workbench 600
And the operation of execution is identical in X-ray detector 700.Therefore, be not repeated at this in method 2100 with
With reference to what Fig. 5-Figure 20 B was done, identical description is described.
Method 2100 can include that identification information based on X-ray detector 700 arranges X-ray detector
The operation S2100 of the distribution indicator information of 700.Can perform to operate S2100 by workbench 600.
Method 2100 can also include that distribution indicator information based on X-ray detector 700 is examined in X-ray
Survey the operation S2200 showing distribution designator on device 700.Operation can be performed by X-ray detector 700
S2200。
Method 2100 can also include by using the X-ray detector 700 showing distribution designator thereon
Catch the operation S2300 of radioscopic image.
As it has been described above, user can be by using the workbench according to one or more exemplary embodiments and X
Multiple X-ray detectors are classified and are selected to be suitable for X-ray efficiently and clap by ray equipment efficiently
Take the photograph the X-ray detector of environment.
Exemplary embodiment can be written as computer program and can hold using computer readable recording medium storing program for performing
The universal digital computer of the described program of row is implemented.For example, it should be appreciated that: in the exemplary embodiment,
One or more unit and/or the controller of the said equipment (such as, equipment 100 and equipment 110) can wrap
Include circuit, processor, microprocessor etc. and the computer of storage in computer-readable medium can be performed
Program.
The example of computer readable recording medium storing program for performing include magnetic storage medium (such as, ROM, floppy disk, hard disk etc.),
Optical record medium (such as, CD-ROM or DVD) etc..
Described exemplary embodiment should be considered merely as being illustrative rather than for the purpose limited.Often
Feature or the description of each side in individual exemplary embodiment generally should be considered to can be used for other exemplary reality
Execute other similar features in example or aspect.
The although exemplary embodiment with reference to the present invention specifically illustrates and describe the present invention, but ability
Territory ordinarily skilled artisan will understand that: without departing from the spirit and scope of the present invention being defined by the claims
In the case of, the various changes in terms of form and details can be made wherein.
Claims (15)
1. a workbench, including:
Receptor, is configured to receive the identification information of X-ray detector from X-ray detector;
Controller, is configured to identification information based on the X-ray detector received and arranges X-ray
The distribution indicator information of detector;
Output unit, is display configured to the distribution indicator information of set X-ray detector;With
And
Transmitter, is configured to the distribution to the X-ray detector set by X-ray detector transmission and refers to
Show symbol information.
2. an X-ray detector, including:
Transmitter, is configured to send the identification information of X-ray detector to workbench;
Receptor, is configured to receive from workbench after workbench sends identification information at transmitter divide
Join indicator information;And
Output unit, is configured to the distribution indicator information based on receiving and shows distribution designator.
3. X-ray detector as claimed in claim 2, wherein,
Receptor is additionally configured to the reset information received for resetting shown distribution designator, and
Output unit is additionally configured to change distribution designator based on the reset information received and display changes
Distribution designator after change.
4. X-ray detector as claimed in claim 2, wherein, the identification information sent include from
At least one selected in unique information and specification information, wherein, unique information includes that X-ray is examined
At least one in the serial number (S/N) of survey device and Internet protocol (IP) address, specification information includes
The size of X-ray detector and can with the type of the sensor of X-ray detector combination at least
One.
5. X-ray detector as claimed in claim 4, wherein, the identification information sent also includes
At least one in following item:
The positional information of X-ray detector, wherein, the positional information of X-ray detector can include from instruction
Information that X-ray detector has combined with vertical sensor, instruction X-ray detector are with desk-top
Institute in the information that the information of sensor combination and instruction X-ray detector not yet combine with any sensor
At least one selected;And
The identification information of the network that X-ray detector has been coupled to, wherein, X-ray detector has connected
The identification information of the network received can include the service set identifier (SSID) of network.
6. X-ray detector as claimed in claim 2, also includes: controller, is configured to obtain
The status information of X-ray detector, wherein, output unit is additionally configured to the X-ray that display is obtained
The status information of detector and distribution designator;
Wherein, the status information of the X-ray detector obtained can include from about X-ray detector
The information of remaining battery capacity, about the information of communication sensitivity of X-ray detector and penetrate about X
At least one selected in the information that thread detector has been activated.
7. X-ray detector as claimed in claim 6, wherein, output unit is additionally configured to basis
The status information of the X-ray detector received makes described distribution designator flash.
8. X-ray detector as claimed in claim 2, wherein, receptor and transmitter are also configured
For communicating with external equipment via wireless network.
9. X-ray detector as claimed in claim 2, wherein, the distribution indicator information received
Including the instruction information of at least one selected in character, numeral, symbol, color and image.
10. X-ray detector as claimed in claim 2, wherein,
The distribution indicator information received is the information of instruction color,
Output unit includes:
Light source, is configured to produce by the light of the color indicated by distribution indicator information;And
Optical waveguide, is positioned at least one edge of X-ray detector and direct light is according to specific direction
Propagate.
11. X-ray detectors as claimed in claim 10, wherein, optical waveguide includes: first is anti-
Emitter, propagates according to specific direction in optical waveguide for direct light.
12. X-ray detectors as claimed in claim 10, wherein, the side of optical waveguide includes:
Irregular body, for making the light external communication to optical waveguide.
13. X-ray detectors as claimed in claim 12, wherein, shape on the side of optical waveguide
The irregular body become is repeated, and the recurrence interval of irregular body is shortened according to the direction away from light source.
14. X-ray detectors as claimed in claim 10, also include: the second reflector, are positioned at light
Learn on the side of waveguide and make the light external communication to optical waveguide.
15. 1 kinds of x-ray systems, including:
X-ray equipment, including X-radiation unit with such as appointing in claim 2 to claim 14
What described X-ray detector;And
Workbench as claimed in claim 1, is configured to control X-ray equipment.
Applications Claiming Priority (9)
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US201361901692P | 2013-11-08 | 2013-11-08 | |
US61/901,692 | 2013-11-08 | ||
KR10-2013-0147526 | 2013-11-29 | ||
KR20130147526 | 2013-11-29 | ||
KR1020140118017A KR20150053697A (en) | 2013-11-08 | 2014-09-04 | Workstation and x ray detector |
KR10-2014-0118017 | 2014-09-04 | ||
KR10-2014-0153394 | 2014-11-06 | ||
KR1020140153394A KR101737088B1 (en) | 2013-11-08 | 2014-11-06 | Medical imaging apparatus and workstation and x ray detector thereof |
PCT/KR2014/010721 WO2015069071A1 (en) | 2013-11-08 | 2014-11-10 | Medical imaging system and workstation and x-ray detector thereof |
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CN113143304A (en) * | 2021-05-25 | 2021-07-23 | 柯尼卡美能达再启医疗设备(上海)有限公司 | DR device that possesses 3D imaging function |
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WO2017090969A1 (en) * | 2015-11-23 | 2017-06-01 | Samsung Electronics Co., Ltd. | X-ray detector, mobile device and host device |
KR101893215B1 (en) * | 2015-11-23 | 2018-08-29 | 삼성전자주식회사 | X-ray detector, mobile device, workstation, x-ray imaging apparatus and method for pairing of x-ray detector with workstation |
KR20180010585A (en) | 2016-07-21 | 2018-01-31 | 삼성전자주식회사 | X-ray apparatus and method for operating the same |
KR102444291B1 (en) | 2017-10-11 | 2022-09-16 | 삼성전자주식회사 | X-ray image capturing apparatus, x-ray detector and x-ray image capturing system |
KR102557945B1 (en) * | 2017-12-01 | 2023-07-21 | 삼성전자주식회사 | X-ray detector and control method for the same |
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US20060188071A1 (en) * | 2005-02-09 | 2006-08-24 | Martin Spahn | X-ray system, and method using an x-ray system |
CN102274036A (en) * | 2010-05-07 | 2011-12-14 | 通用电气公司 | System and method for indicating association between autonomous detector and imaging subsystem |
CN102293657A (en) * | 2010-05-07 | 2011-12-28 | 通用电气公司 | wireless X-ray detector operation coordination system and method |
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