CN202235453U - Touch-screen ultrasonic diagnostic apparatus with image amplification module - Google Patents

Abstract

The utility model discloses a touch-screen ultrasonic diagnostic apparatus with an image amplification module. The touch-screen ultrasonic diagnostic apparatus comprises an ultrasonic diagnostic apparatus and a touch screen, wherein the touch screen covers on the surface of a display screen of the ultrasonic diagnostic apparatus; the touch screen is connected with a touch-screen input module, the touch-screen input module is connected with a controller and the display screen of the ultrasonic diagnostic apparatus; the touch-screen input module comprises an image amplification module, the image amplification module comprises a touch-screen type command receiving/recognizing module and an image amplification command processing module, and the output end of the touch-screen type command receiving/recognizing module is connected with the image amplification command processing module; and the touch-screen type command receiving/recognizing module is arranged in a detection-image display area on the display screen of the ultrasonic diagnostic apparatus. The touch-screen ultrasonic diagnostic apparatus disclosed by the utility model has the advantages that: on a traditional ultrasound diagnostic apparatus, a keyboard is replaced with a touch screen, and an ultrasonic image is amplified through a simple operation, so that a display interface is simplified and more easy-to-use.

Description

Touch screen diasonograph with zoom module

Technical field

This utility model relates to a kind of touch screen diasonograph, especially a kind of touch screen diasonograph with zoom module.

Background technology

Diagnostic ultrasonic equipment is to utilize ultrasonic detecting technology, through measuring data and the form of understanding human tissue structure.Along with the new technique of continuous development and clinical diagnostic applications extensively and profoundly, further new demand has been proposed for software operation method easily and ultrasonic diagnosis accurately.

In present clinical practice; Need volume little under the situation about having, lightweight diasonograph is such as the tools for doctor home visit at night; Can carry portable ultraphonic and make diagnosis timely to patient; And do not need to do ultrasonic examination to hospital specially, avoided the delay of the state of an illness, desk-top in this case ultrasonic certain limitation that just has; In addition, the operation diasonograph generally is to control icon, menu or button figures user interface through mechanical key on the guidance panel and trace ball to accomplish.Ancillary equipment such as guidance panel need consume additional expense, the space, and are not suitable for expansion, and the function that provides is limited.Trace ball control often need be passed through the complicated operations step, and the doctor generally is a left hand control trace ball in diagnostic procedure, inconvenient accurately move with positioning cursor to accomplish controlling to instrument.In order to simplify diasonograph; It is made touch screen; The doctor can operate image through direct or indirect mode (including but not limited to operation such as slide, click, drag with modes such as finger, felt pen, infrared ray, single-point touches, multiple point touching, radio) on ultrasonoscopy, thereby makes man-machine interaction more simple and direct.

In ultrasonic examination, many times the doctor needs certain regional area of primary part observation ultrasonoscopy, just must amplify this part zone, has at this moment just used " ZOOM " (zoom function).The step of traditional desk-top diasonograph enlarged image is: at first, press the ZOOM key and ZOOM sampling frame occurs; The rotary motion trace ball changes the position of ZOOM sampling frame; By confirming the fixedly position of ZOOM sampling frame of key, this moment, the rotary motion trace ball can be adjusted the size of ZOOM sampling frame; Press the ZOOM key and amplify the image in the ZOOM sampling frame; Behind the zoom; Touching trace ball can make image get back to the original image state; Rapidly mobile ZOOM sampling this moment frame is to another position and unclamp trace ball; Image will amplify automatically, in that unclamp between the trace ball also can be through confirming that key make track ball function confine between position and size adjustment in the ZOOM sampling and switch; Withdraw from magnifying state and recover original image after pressing the ZOOM key once more.In traditional ultrasonic diagnosis process; The doctor does diagnosis to patient the time needs scanning probe and the operation of observing the ultrasonoscopy that display screen shows to accomplish simultaneously, and in this process in order to obtain area-of-interest (ROI, Region of Interest); Need regulate ZOOM key, trace ball and definite key simultaneously; The more complicated that operates, and trace ball operates also sensitively inadequately, can not realize the locking of ROI soon.Though it is existing general touch screen diasonograph has solved above-mentioned problem,, convenient not enough through click the function that corresponding menu realization is wanted with finger.

In order to address this problem, on the basis of conventional ultrasound diagnostic apparatus, adopt touch screen to substitute keyboard, need a kind of method on ultrasonoscopy, to come enlarged image, thereby it is easy-to-use that display interface is simplified more through shirtsleeve operation.

Summary of the invention

The purpose of this utility model is to overcome the weak point of existing diasonograph enlarged image; Solve present diasonograph and accomplish the inconvenience of zoom through keyboard; A kind of touch screen diasonograph with zoom module is provided, and it can realize directly on the touch screen image through direct or indirect mode (including but not limited to operation such as slide, click, drag with modes such as finger, felt pen, infrared ray, single-point touches, multiple point touching, radio) image being operated the amplification of realization ultrasonoscopy.

The technical scheme that provides according to this utility model; Described touch screen diasonograph with zoom module; Comprise diasonograph and the touch screen that is overlying on the diasonograph display screen surface; Said touch screen connects the touch screen input module, and the touch screen input module connects the controller and the display screen of diasonograph, and said touch screen input module includes the zoom module; Said zoom module comprises touch screen type command reception identification module and zoom command process module, and the outfan of said touch screen type command reception identification module connects the zoom command process module; Wherein touch screen type command reception identification module is arranged in the viewing area of detected image on the diasonograph display screen; Be used for directly receiving and identification is instructed to the zoom of corresponding viewing area institute of its institute display image; The instruction that will identify then is transferred to the zoom command process module, and the zoom command process module is given display screen with the instruction process result transmission.

Said touch screen type command reception identification module includes the command reception zone of 2 or above quantity, and is corresponding with the image display area of display screen.

Said diasonograph comprises: controller, radiating circuit, transducer, receiving circuit, wave beam form module, signal processing image forming module and display screen; The outfan of controller links to each other successively with radiating circuit, transducer and receiving circuit and controller output end also directly links to each other with transducer, and receiving circuit links to each other successively and all links to each other with controller with wave beam synthesis module, signal processing image forming module and display screen.

The mode that said touch screen type command reception identification module receives instruction comprises that instruction, touch screen that reception directly contacts touch screen and produced through object are responded to indirectly and receives at least a in instruction and the wireless receiving instruction.

The utility model has the advantages that: the touch screen diasonograph that the utlity model has the zoom module has reduced diasonograph complicated operation degree effectively, makes ultrasonoscopy amplifieroperation simple, intuitive.

Description of drawings

Fig. 1 is a touch screen diasonograph system block diagram.

Fig. 2 is the structure chart that the utlity model has the touch screen diasonograph of zoom module.

Fig. 3 is the flow chart that amplifies ultrasonoscopy under this utility model real-time status.

Fig. 4 is a ZOOM sampling frame size variation sketch map one under convex array probe or the phased array probe of this utility model.

Fig. 5 is a ZOOM sampling frame size variation sketch map two under convex array probe or the phased array probe of this utility model.

Fig. 6 is a ZOOM sampling frame size variation sketch map one under the linear array probe of this utility model.

Fig. 7 is a ZOOM sampling frame size variation sketch map two under the linear array probe of this utility model.

Fig. 8 writes for this utility model gets into and amplifies the rear interface sketch map.

Fig. 9 reads to amplify rear interface sketch map one for this utility model gets into.

Figure 10 reads to amplify rear interface sketch map two for this utility model gets into.

Figure 11 reads to amplify rear interface sketch map three for this utility model gets into.

The specific embodiment

Specify each related in this utility model technical scheme detailed problem below in conjunction with accompanying drawing and embodiment.

As shown in Figure 1; A kind of touch screen diasonograph with zoom module; Comprise: touch screen input module, controller, radiating circuit, transducer, receiving circuit, wave beam are synthetic, the formation of signal processing image, touch screen and display screen, and wherein touch screen is overlying on the display screen.Said touch screen connects the touch screen input module, and the touch screen input module connects the controller and the display screen of diasonograph.

At present, touch screen provides simple, the most natural a kind of man-machine interaction mode as a kind of novel computer input equipment, is widely used in leader's office, aspects such as Industry Control.Here adopt touch screen to replace original keyboard; At first touch the touch screen that is installed in the display screen front end with finger or other objects; The input of selection information is located according to icon that touches or menu position by system then, makes man-machine interaction more simple and direct, and is more convenient to use.

The touch screen input module is used to respond extraneous message; Radiating circuit sends the signal of telecommunication to transducer under the coordination of controller, transducer (also being probe) is hyperacoustic device that transmits and receives; Can convert electrical energy into acoustic energy, also can convert acoustic energy into electric energy.Present transducer all is made up of one by one little primitive, and is different according to geometry, can be divided into linear array, protruding battle array and phased array.Radiating circuit is under the coordination of controller; Can send the signal of telecommunication through suitable time-delay to each activation primitive of transducer, convert ultrasonic emitting into by transducer and go out, receiving circuit is responsible for receiving transducer and is passed the echo signal of coming; And amplify, processing such as analog to digital conversion; Wave beam is synthetic to the processing such as calculating, dynamic focusing, dynamic aperture of delaying time respectively of the echo signal of the different passages after the receiving circuit digital-to-analogue conversion, and its synthetic one road signal the most at last is owing to need very high data throughout and computing capability; Often need use dedicated hardware implementation so wave beam is synthetic, also can realize with DSP or FPGA, CPLD.Signal after signal processing and image forming module synthesize wave beam carries out processing such as noise suppressed, envelope detection, logarithmic compression, digital scan conversion, finally on touch screen display, shows ultrasonoscopy.Controller is responsible for other all parts is controlled and coordinated, and it can be a circuit, also can be an embedded device or a microcomputer.

The touch screen input module links to each other with controller; The outfan of controller links to each other successively with radiating circuit, transducer and receiving circuit and controller output end also directly links to each other with transducer, and receiving circuit links to each other successively and all links to each other with controller with wave beam synthesis module, signal processing image forming module and display screen.

As shown in Figure 2; The described touch screen diasonograph of this utility model with zoom module; It also includes the zoom module; Said zoom module includes touch screen type command reception identification module and zoom command process module; The outfan of touch screen type command reception identification module connects the zoom command process module, and touch screen type command reception identification module is arranged in the regional extent of the detected image that image display panel shows, is used for the instruction that direct reception, identification are amplified for image display area institute display image; The instruction that will identify then is transferred to the zoom command process module; The zoom command process module then can be according to the instruction that receives; The detected image that the viewing area showed of regulating command regulation; The zoom command process module is given display screen with the instruction process result transmission then, and display screen shows the detected image after amplify the viewing area of said instruction regulation.

Touch screen type command reception identification module, the mode of its identification different instruction is for discerning directional information and the positional information in the instruction that receives.Each point of touch screen image display area and menu area all has a fixed coordinate, and just the doctor is to any once-through operation of touch screen location information and directional information.For example, if touch screen type command reception identification module identifies when comprising first direction information in the instruction that receives and primary importance information being arranged, can think that then the instruction that receives is for adjusting the instruction of ZOOM sampling frame position; If comprise second direction information in the instruction that receives and second position information is arranged or when only comprising second position information or only comprising the multiple touch points directional information, then can think the instruction that receives instruction for adjustment ZOOM sampling frame size; If receive when only comprising the 3rd positional information in the call instruction or having the 3rd positional information of temporal information, can think that then the instruction that receives is for getting into or withdraw from the instruction of zoom.Send these directional informations and positional information through touch screen to touch screen type command reception identification module; Touch screen type command reception identification module instructs to the transmit operation of touch screen type zoom command process module according to the directional information and the positional information that receive in the instruction; Touch screen type zoom command process module executable operations is instructed and execution result is presented on the display screen.

For first, second directional information and first, second, third positional information, multiple touch points directional information, in the practical implementation process, the user can set up on their own, does not have special restriction.Such as, in one embodiment, first direction information can be arbitrarily angled between 0 ° to 360 °; Primary importance information can be the optional position of ultrasonoscopy region on the touch screen; Second direction information can be arbitrarily angled between 0 ° to 360 °; Second position information can be the optional position of ultrasonoscopy region on the touch screen; The multiple touch points directional information can be having in opposite directions or the directional information of relative motion trend between 0 ° to 360 °.The 3rd positional information can be the optional position of ultrasonoscopy region on the touch screen.

On ultrasonic diagnostic equipment, adopt touch screen; On the one hand; Realize zoom through the menu area operation of direct or indirect mode (including but not limited to operation such as slide, click, pull) on touch screen with modes such as finger, felt pen, infrared induction, single-point touches, multiple point touching, radio; On the other hand; On image, send message through direct or indirect mode to touch screen, zoom command reception identification module receives this information and sending to message processing module, finally at the image that shows on the display screen after amplifying.As shown in Figure 3, the step that the real-time status hypograph amplifies is following:

Step 1: display image gets into ultrasonic diagnosis;

Step 2: according to doctor's needs, need to judge whether enlarged image, if, execution in step 3, otherwise, execution in step 1;

Step 3: click " ZOOM " icon on the touch screen, ZOOM sampling frame occurs;

Whether the position of step 4:ZOOM sampling frame needs to change, if, execution in step 5, otherwise, execution in step 6;

Step 5: click holds the ZOOM sampling and frames shift moving to desirable position;

Whether the size of step 6:ZOOM sampling frame needs to change, if need to increase the size of ZOOM sampling frame, then execution in step 7, if need reduce the size of ZOOM sampling frame, then execution in step 8;

Step 7: but finger opens outside slip or make it be in after the editing mode to click or to click at new vertex position and hold certain summit to desirable position, executes, and gets into step 9;

Step 8: but finger closes up inside slip or make it be in after the editing mode to click or to click at new vertex position and hold certain summit to desirable position, executes, and gets into step 9;

Step 9: in ZOOM sampling frame zone the optional position click, double-click or long by;

Zoom is to full frame in the step 10:ZOOM sampling frame;

Step 11: the doctor observes this part image and makes diagnosis;

Step 12: judge whether to need to recover primary image, if, execution in step 13, otherwise, execution in step 11;

Step 13: the optional position on touch screen click, double-click or long by, recover original image.

In step 1, at first show ultrasonoscopy on the touch screen, get into ultrasonic diagnosis.In step 2, if the doctor needs certain regional area of primary part observation, then need amplify should the zone, so that the doctor can relatively clearly observe, execution in step 3 then.In step 3, click " ZOOM " icon on the touch screen through direct or indirect mode (including but not limited to) with modes such as infrared ray, felt pen, single-point touches, at this moment a ZOOM sampling frame appears on ultrasonoscopy.In step 4, want the regional area of primary part observation to judge whether needs change for the position of ZOOM sampling frame, if need to change, then execution in step 5 according to the doctor, otherwise, execution in step 6.In step 5, any direction drags the ideal position until the viewing area in the entire image upper edge to click ZOOM sampling frame through direct or indirect mode (including but not limited to modes such as infrared ray, felt pen, single-point touches).In step 6, judge whether the size of ZOOM sampling frame needs to change, if need to increase the size of ZOOM sampling frame, then execution in step 7, if need reduce the size of ZOOM sampling frame, then execution in step 8.In step 7, for the size that increases ZOOM sampling frame, can realize to give an order through sending to touch screen type command reception identification module: one, finger is two refers to simultaneously touch screen and is move toward one another trend slide; After two, but double-click makes it be in editing mode, click at new vertex position; Three, click holds certain summit to desirable position, and the result transmission after this command content of command reception module identification this moment also will be handled shows to display screen, gets into step 9 after being finished.In step 8, for the size that reduces ZOOM sampling frame, can realize to give an order through sending to touch screen type command reception identification module: one, finger is two refers to simultaneously touch screen and is relative motion trend slide; After two, but double-click makes it be in editing mode, click at new vertex position; Three, click holds certain summit to desirable position, and the result transmission after this command content of command reception module identification this moment also will be handled shows to display screen, gets into step 9 after being finished.In step 9, adjust the size and position of ZOOM sampling frame after, the optional position in ZOOM sampling frame is clicked or is double-clicked or longly carries out part amplification by (continuing touch screen a period of time).In step 10, the topography in the ZOOM sampling frame is amplified to full frame.In step 11, the doctor can carry out primary part observation to this area-of-interest, makes diagnosis based on image.In step 12, judge whether that according to doctor's needs needs recover original image, if desired, then execution in step 13, otherwise execution in step 11 continues to do diagnosis.In step 13, need to recover primary diagnostic ultrasound images, click or double-click through direct or indirect mode in any position that is amplified to full frame image or long full frame by just withdrawing from, recover original image.

In the embodiment shown in fig. 3; If the original image display effect does not reach requirement; The doctor can have dual mode to carry out the amplification of topography: a kind of is to regulate through clicking menu on the touch screen, and another kind of convenient mode more is that the doctor directly comes enlarged image through direct or indirect mode (including but not limited to operation such as slide, click, drag with modes such as finger, felt pen, infrared ray, single-point touches, multiple point touching, radio) on image.This dual mode has all solved the vision that keyboard brings and the shortcoming of tactile separation, operates more intuitively.But the second way is more convenient, need not to search corresponding icon and just can realize zoom.

The change of this utility model ZOOM sampling frame size is as shown in Figure 4; What it provided is to ZOOM sampling frame size adjustment sketch map under convex array probe or phased array probe; Because under convex array probe and phased array probe; ZOOM sampling frame all is fan-shaped sampling frame, thus for ZOOM sampling frame amplify or the account form of dwindling identical.In mode shown in Figure 4; Former ZOOM sampling frame ABCD is to serve as the sector region of the fan heart with an O; When the doctor wants ZOOM sampling frame amplified, can double-click ZOOM sampling frame earlier after, in its outside optional position point B1 click or directly drag a B to reposition point B1; Then the command reception module is confirmed new summit C1 according to radian and position, fan heart O and the some B1 connecting line of former sampling frame place circular arc; Calculate the position of an A1 then according to the line segment length between an O and the some B1, D position, former summit does not change, and confirms the size of new sampling frame A1B1C1D at last.If want to reduce to take a sample the frame size, can double-click the sampling frame earlier after, the optional position point B2 of portion clicks or directly drags a B to reposition point B2 within it, confirms the position that new sampling frame A2B2C2D belongs to mode same in the above-mentioned amplifieroperation.

Different with mode shown in Figure 4 is; In Fig. 5, after confirming new vertex position point B1, not only change the position of three the summit As nearest, some B and some C with new vertex position in the outside optional position of ZOOM sampling frame; Also change some D position, wherein computational methods are identical.This dual mode all is to amplify and the mode of ZOOM sampling frame size variation when dwindling; And when amplifying or dwindle; New ZOOM sampling frame and original ZOOM sampling frame remain the same fan heart; And difference is that mode shown in Figure 4 only changes and the position on three summits that new vertex position is nearest, and as long as mode shown in Figure 5 is after confirming new vertex position, and four summits of then fan-shaped ZOOM sampling frame are all to change the position in proportion.

Equally; Also can adopt aforesaid way that the size of ZOOM sampling frame is regulated for linear array probe; Like Fig. 6 and shown in Figure 7, wherein ZOOM sampling frame size variation mode is with identical under convex array probe or phased array probe, and difference only is that the account form of new ZOOM sampling frame size is different.In mode shown in Figure 6, former ZOOM sampling frame ABCD is to be the rectangular area of axis of symmetry with coordinate axes xy, when as if the doctor ZOOM sampling frame being carried out amplifieroperation; After then can double-clicking ZOOM sampling frame earlier, drag a B to reposition point B1 in its outside optional position point B1 click or through direct or indirect mode, according to the coordinate Calculation magnification ratio of a B1 with some B; Such as a B coordinate be (x, y), some B1 coordinate is (x1; Y1); Then magnification ratio k is x1/x or y1/y, and the command reception module to calculate the position of make new advances summit A1, C1 in proportion, is finally confirmed the size of new ZOOM sampling frame A1B1C1D according to adjacent vertex A, C coordinate then.If will reduce the frame size of taking a sample; Can double-click behind the sampling frame optional position point B2 click of portion within it earlier or drag a B and put B2 to reposition through direct or indirect mode; Mode with same in the above-mentioned amplifieroperation is dwindled, and confirms the position at new ZOOM sampling frame A2B2C2D place.In mode shown in Figure 7, according to the coordinate Calculation magnification ratio of a B1 with some B, adjacent vertex A, some C and some D finally confirm the size of new ZOOM sampling frame A1B1C1D1 to calculate the position of the summit A1 that makes new advances, some C1 and some D1 in proportion then.The difference of this dual mode is that mode shown in Figure 6 only changes the position with nearest three summits of reposition; In each the variation, the axis of symmetry of rectangle ZOOM sampling frame correspondence is changed to x1 or x2 such as horizontal symmetry axis by x also changing; Vertically axis of symmetry is changed to y1 or y2 by y; That is to say that new ZOOM sampling frame and former ZOOM sampling frame are not to amplify in proportion or dwindle with same axis of symmetry, and in mode shown in Figure 7, as long as behind the position on definite new summit; Then four summits of rectangle ZOOM sampling frame are all to change the position in proportion; No matter be to amplify or reduction operation, new ZOOM sampling frame and former ZOOM sampling frame are the axis of symmetry symmetry with original coordinates axle xy all, that is to say that new ZOOM sampling frame and former ZOOM sampling frame carry out size variation in proportion with same axis of symmetry.

In order more clearly to describe the working method of this utility model, the ultrasonic surface chart that provides below in conjunction with Fig. 8-Figure 10 further specifies.

In diasonograph, zoom is divided into to be write amplification and reads amplification.What Fig. 8 provided is the interface sketch map after the entering " writing amplification ".When needs according to the doctor; When ultrasonoscopy is amplified; Can send instruction through " ZOOM " icon region of direct or indirect mode (including but not limited to) on touch screen with modes such as infrared ray, felt pen, single-point touches; At this moment show ZOOM sampling frame on the ultrasonoscopy, acquiescence is the position that is provided with when dispatching from the factory.If need to change the position of ZOOM sampling frame; Can be on ultrasonoscopy send instruction (include but are not limited to and click and hold operation) to touch screen the ZOOM frame of taking a sample is moved to ideal position along any direction, zoom command process module this instruction of response at this moment also repaints the ZOOM frame of taking a sample at reposition.If change the size of ZOOM sampling frame; Then can (but include but are not limited to two the finger sending instruction through direct or indirect mode to touch-screen on the ultrasonoscopy along in opposite directions or after relative direction slides, double-clicks ZOOM sampling frame and make it be in editing mode; Click and hold in the position on new summit and decontrol after a certain summit moves to ideal position), at this moment image amplify command process module calculate the size of new ZOOM sampling frame based on the content of instruction and will handle after result transmission show to display screen.Accomplish behind the aforesaid operations optional position on ultrasonoscopy shown in Figure 8 and send instruction (include but are not limited to and click, grow) to touch screen by operations such as, double-clicks through direct or indirect mode; Selected image will be amplified to full frame, as shown in Figure 8 in the current ZOOM sampling this moment frame.Show the ultrasonoscopy 83 after amplifying in the viewing area 82, show the size and the position of the thumbnail and the ZOOM sampling frame 85 of ultrasonoscopy among breviary Figure 84.Can find out; Image 83 after the amplification can not be presented in the viewing area 82 fully; The doctor can through indirectly or direct mode move so that check that current display area can't observed zone along any direction to the image 83 that touch screen sends after instruction (press...withing one's finger than including but are not limited to) makes amplification; When the image 83 that moves after amplifying; The position of the ZOOM sampling frame 85 among breviary Figure 84 also can change thereupon, to show the particular location of image 83 on the whole ultrasonic image after amplifying.

If the image to after amplifying is done further amplification; Can send instruction (include but are not limited to and carry out clicking operation) through direct or indirect mode (including but are not limited to) to " ZOOM " region once more with modes such as infrared ray, bluetooth, felt pens; Be called " reading to amplify ", get into interface as shown in Figure 9.Describe for ease, be called one-level and amplify sampling frame 95, corresponding ZOOM sampling frame 97 in reading to amplify is called secondary amplifies sampling frame 97 writing ZOOM sampling frame 95 corresponding in the amplification.After entering reads to amplify, in viewing area 92, show the image 93 after further amplifying, also comprise breviary Figure 94 and the one-level amplification sampling frame 95 of writing amplification, breviary Figure 96 that reads to amplify and secondary amplify sampling frame 97.After entering reads to amplify; The doctor can adopt the method among the said embodiment of Fig. 3 further secondary to be amplified the zoom in the sampling frame; Promptly through direct or indirect mode (including but are not limited to) with modes such as infrared ray, bluetooth, touch screens to the viewing area on the touch screen send instruction (include but are not limited to two refer to along in opposite directions or relative direction is slided, click and hold in the position on new summit and decontrol after a certain summit moves to ideal position); At this moment the zoom command process module calculate the size of new ZOOM sampling frame according to the content of instruction and will handle after result transmission show to display screen; Its amplification mode such as Fig. 4 to Fig. 7 are said, will repeat no more here.If change the viewing area of present image, can hold image through direct or indirect mode and move to ideal position along any direction.

Read to amplify the mode that amplify through ZOOM the back in order to further specify to get into, Fig. 9, Figure 10 and Figure 11 have provided and have got into the sketch map of reading to amplify viewing area, back image.In Fig. 9, current secondary sampling frame 97 positions are in the inside through image after writing amplification, so read to amplify 92 full screen displays of back image.If in the time of need dwindling current display image big or small; Can send instruction (including but not limited to inwardly slide simultaneously) through the viewing area of direct or indirect mode (including but are not limited to) on touch screen with modes such as infrared ray, bluetooth, touch screens with finger; Then the command reception module shows to display screen according to the result transmission that the positional information that comprises in the instruction will recomputate after the image size also will be handled; Image 103 to 93 after promptly reading to amplify has dwindled certain proportion; And the size of the frame of secondary sampling simultaneously changes from shown in Figure 9 97 and is amplified to shown in Figure 10 107 in proportion.Further, adopt in the same way and can the image 103 after reading to amplify be narrowed down to image shown in Figure 11 113, the size of corresponding secondary sampling frame changes to shown in Figure 11 117 from shown in Figure 10 107.

Certainly; After activation reads to amplify; Show simultaneously on the screen to write and amplify thumbnail and read to amplify thumbnail; Because current magnifying state can only be a kind of for wherein, the doctor can send instruction (include but are not limited to and carry out clicking operation) through direct or indirect mode (including but are not limited to modes such as infrared ray, bluetooth, touch screens) thumbnail position on touch screen, thereby accomplishes the switching of reading to amplify and write amplification.At last, if withdraw from amplification, then send and instruct (include but are not limited to click, double-click or continue to pin operation such as several seconds) and can recover original image size through direct or indirect mode " ZOOM " region on touch screen.

Claims (3)

1. the touch screen diasonograph that has the zoom module; Comprise diasonograph and the touch screen that is overlying on the diasonograph display screen surface; Said touch screen connects the touch screen input module; The touch screen input module connects the controller and the display screen of diasonograph, it is characterized in that said touch screen input module includes the zoom module; Said zoom module comprises touch screen type command reception identification module and zoom command process module, and the outfan of said touch screen type command reception identification module connects the zoom command process module; Wherein touch screen type command reception identification module is arranged in the viewing area of detected image on the diasonograph display screen; Be used for directly receiving and identification is instructed to the zoom of corresponding viewing area institute of its institute display image; The instruction that will identify then is transferred to the zoom command process module, and the outfan of zoom command process module connects display screen.

2. the touch screen diasonograph with zoom module as claimed in claim 1 is characterized in that, said touch screen type command reception identification module includes the command reception zone of 2 or above quantity, and is corresponding with the image display area of display screen.

3. the touch screen diasonograph with zoom module as claimed in claim 1; It is characterized in that said diasonograph comprises: controller, radiating circuit, transducer, receiving circuit, wave beam form module, signal processing image forming module and display screen; The outfan of controller links to each other successively with radiating circuit, transducer and receiving circuit and controller output end also directly links to each other with transducer, and receiving circuit links to each other successively and all links to each other with controller with wave beam synthesis module, signal processing image forming module and display screen.

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