CN114176631A

CN114176631A - Ultrasonic equipment and display control method thereof

Info

Publication number: CN114176631A
Application number: CN202111553241.5A
Authority: CN
Inventors: 刘天天; 张立国; 王胜昔
Original assignee: Shenzhen Mindray Animal Medical Technology Co Ltd
Current assignee: Shenzhen Mindray Animal Medical Technology Co Ltd
Priority date: 2021-12-17
Filing date: 2021-12-17
Publication date: 2022-03-15

Abstract

The application provides an ultrasonic device and a display control method of the ultrasonic device, wherein the ultrasonic device comprises a display device and a control device, wherein the display device is used for simultaneously displaying at least two functional areas in a parameter adjusting functional area, a measuring functional area, an annotation functional area and a posture graph adding functional area, different functional areas are used for representing different functions of the ultrasonic device, each functional area simultaneously displays a plurality of interface controls related to the corresponding function of the functional area or displays one interface control related to the corresponding function of the functional area, at least one interface control in the different functional areas is simultaneously displayed, and the different interface controls are used for representing different operation steps; and the control device is used for controlling the ultrasonic equipment to execute the operation steps corresponding to the interface control with the input operation instruction when the operation instruction input by the user aiming at any interface control is detected. Above-mentioned ultrasonic equipment can simplify medical personnel's operating procedure to improve medical personnel's work efficiency.

Description

Ultrasonic equipment and display control method thereof

Technical Field

The invention relates to the technical field of ultrasound, in particular to an ultrasonic device and a display control method of the ultrasonic device.

Background

In the process of performing ultrasound examination by a doctor, conventional operations include adjusting image parameters, measuring multiple indexes, adding annotations, adding a volume map, and the like, and accordingly, the ultrasound device usually provides different functions to complete the operations.

Currently, different functions provided by an ultrasound device are isolated from each other, and a medical staff needs to enter an operation interface corresponding to a certain function first when performing an operation supported by the function, and in the process, if the staff wants to perform an operation supported by another function, the staff needs to exit the current operation interface and enter an operation interface corresponding to another function. For example, in the process of performing an ultrasound examination, if a measurement operation is to be performed, a measurement interface must be entered first, and if an image parameter is to be adjusted in the process, the measurement interface needs to be exited and then a parameter adjustment interface needs to be entered, which is cumbersome and affects the working efficiency of medical staff.

Disclosure of Invention

According to a first aspect, there is provided in an embodiment an ultrasound apparatus comprising:

the display device is used for simultaneously displaying at least two functional areas in the parameter adjusting functional area, the measuring functional area, the annotation functional area and the body position map adding functional area, different functional areas are used for representing different functions of the ultrasonic equipment, each functional area simultaneously displays a plurality of interface controls related to the corresponding function of the functional area or displays one interface control related to the corresponding function of the functional area, at least one interface control in different functional areas is simultaneously displayed, and different interface controls are used for representing different operation steps;

and the control device is used for controlling the ultrasonic equipment to execute the operation steps corresponding to the interface control with the input operation instruction when the operation instruction input by the user aiming at any interface control is detected.

According to a second aspect, an embodiment provides a display control method of an ultrasound apparatus, including:

simultaneously displaying at least two functional areas of a parameter adjusting functional area, a measuring functional area, an annotation functional area and a posture graph adding functional area, wherein different functional areas are used for representing different functions of the ultrasonic equipment, each functional area simultaneously displays a plurality of interface controls related to the corresponding function of the functional area or displays one interface control related to the corresponding function of the functional area, at least one interface control in different functional areas is simultaneously displayed, and different interface controls are used for representing different operation steps;

and when an operation instruction input by a user aiming at any interface control is detected, controlling the ultrasonic equipment to execute the operation step corresponding to the interface control of which the operation instruction is input.

In the above embodiment, at least two functional areas are simultaneously displayed on the display device, and each functional area displays at least one interface control, so that when a user controls the ultrasound equipment to execute operations of different functional areas, the user does not need to switch and display different functional areas, and can directly control the ultrasound equipment to execute operations of different functional areas on the current display interface, thereby more efficiently meeting the inspection requirement, simplifying the work flow, avoiding frequent switching operations of medical staff, and improving the work efficiency of the medical staff.

Drawings

FIG. 1 is a schematic structural diagram of an ultrasound apparatus according to an embodiment;

FIG. 2 is a schematic diagram of an embodiment of an interface with four functional areas simultaneously displayed;

FIG. 3 is a diagram of an add posture map functional area according to an embodiment;

fig. 4 is a flowchart of a display control method of an ultrasound apparatus according to an embodiment.

Detailed Description

The present invention will be described in further detail with reference to the following detailed description and accompanying drawings. Wherein like elements in different embodiments are numbered with like associated elements. In the following description, numerous details are set forth in order to provide a better understanding of the present application. However, those skilled in the art will readily recognize that some of the features may be omitted or replaced with other elements, materials, methods in different instances. In some instances, certain operations related to the present application have not been shown or described in detail in order to avoid obscuring the core of the present application from excessive description, and it is not necessary for those skilled in the art to describe these operations in detail, so that they may be fully understood from the description in the specification and the general knowledge in the art.

Furthermore, the features, operations, or characteristics described in the specification may be combined in any suitable manner to form various embodiments. Also, the various steps or actions in the method descriptions may be transposed or transposed in order, as will be apparent to one of ordinary skill in the art. Thus, the various sequences in the specification and drawings are for the purpose of describing certain embodiments only and are not intended to imply a required sequence unless otherwise indicated where such sequence must be followed.

The numbering of the components as such, e.g., "first", "second", etc., is used herein only to distinguish the objects as described, and does not have any sequential or technical meaning. The term "connected" and "coupled" when used in this application, unless otherwise indicated, includes both direct and indirect connections (couplings).

The most important concept of the invention is that a plurality of functional areas and interface controls in the functional areas are displayed simultaneously, and a user can complete the operation of different functions without switching or updating the functional areas in the interface.

Referring to the embodiment shown in fig. 1, the embodiment provides an ultrasound apparatus including an ultrasound probe 10, a display device 20, and a control device 30. It should be noted that the ultrasound apparatus shown in fig. 1 is only an example, and in other embodiments, the ultrasound apparatus may further include more components/modules/devices.

The ultrasonic probe 10 includes a transducer (not shown in the drawings) composed of a plurality of array elements arranged in an array, the plurality of array elements are arranged in a row to form a linear array, or are arranged in a two-dimensional matrix to form an area array, and the plurality of array elements may also form a convex array. The array elements are used for transmitting ultrasonic waves according to the excitation electric signals or converting the received ultrasonic waves into electric signals. Each array element can thus be used to perform a mutual conversion of the electrical pulse signal and the ultrasound wave, so as to perform a transmission of the ultrasound wave to a target tissue (e.g. a biological tissue in a human or animal body) and also to receive an echo of the ultrasound wave reflected back through the tissue. When ultrasonic detection is carried out, which array elements are used for transmitting ultrasonic waves and which array elements are used for receiving the ultrasonic waves can be controlled through a transmitting sequence and a receiving sequence, or the time slots of the array elements are controlled to be used for transmitting the ultrasonic waves or receiving echoes of the ultrasonic waves. The array elements participating in ultrasonic wave transmission can be simultaneously excited by the electric signals, so that the ultrasonic waves are transmitted simultaneously; or the array elements participating in the transmission of the ultrasound beam may be excited by several electrical signals with certain time intervals so as to continuously transmit the ultrasound waves with certain time intervals. When imaging, the medical staff can hold the ultrasound probe 10 to scan the target tissue, so as to obtain different types of ultrasound images, such as ultrasound images in B mode, elasticity images or various types of section images. During or after the ultrasound image is obtained, the medical staff may complete various operations by outputting an instruction, for example, a measurement ruler may be added to the obtained ultrasound image to obtain an actual physical distance of a target tissue on the ultrasound image, or various annotations or body position diagrams (used to indicate which body position the ultrasound image represents) may be added to the ultrasound image.

The display device 20 includes one or more display screens, which may be touch display screens or non-touch display screens, and when the display screen is a touch display screen, a user may directly touch the display screen to input various instructions, and when the display screen is a non-touch display screen, the user may input instructions through an external device, which includes but is not limited to a mouse, a trackball, or a keyboard. In this example, one display screen in the display device 20 is used to display a main interface of the ultrasound apparatus, the ultrasound image obtained by the ultrasound apparatus and the like can be displayed on the main interface, and as shown in fig. 2, four functional areas are simultaneously displayed on the main interface, which are the parameter adjusting functional area 100a, the measuring functional area 200a, the annotation functional area 300a and the body position map adding functional area 400a, respectively, and a positional relationship between the functional areas and the ultrasound image may be default, for example, a display area of the ultrasound image is default above each functional area, and a positional relationship between the functional areas and the ultrasound image may also be set by a user. In other embodiments, the main interface of the ultrasound apparatus and the four functional regions may also be displayed in different display screens, and in this example, the number and the types of the functional regions are only examples, and in other embodiments, other types of functional regions may also be included, and any at least two functional regions among the four functional regions may also be displayed simultaneously. Different functional areas are used for representing different functions of the ultrasonic device, wherein the parameter adjusting functional area 100a is used for adjusting imaging parameters of an image in response to a user operation, the measuring functional area 200a is used for measuring size parameters and the like of a target tissue in an ultrasonic image in response to the user operation, the annotation functional area 300a is used for adding an annotation to the ultrasonic image in response to the user operation, the body position map adding functional area 400a is used for adding a body position map on the ultrasonic image, one or more interface controls are displayed in each functional area, and the interface controls in the different functional areas are simultaneously displayed, that is, the parameter adjusting control 100b in the parameter adjusting functional area 100a, the measuring control 200b in the measuring functional area 200a, the annotation control 300b in the annotation functional area 300a and the body position map adding control 400b in the body position map functional area 400a are simultaneously displayed in the display device 20, each interface control is used for representing the operation steps related to the functional area where the user is located, and the user can control the ultrasonic equipment to complete the specific operation steps by clicking the interface control. Some of the interface controls for some of the ribbon are further described below.

In the tuning parameter function area 100a shown in fig. 2, the meaning of the partial parameter adjustment control 100b is as follows: FOV means scan range, ExFOV means extended imaging, ZoomValue means magnification, ImgQual means image quality, Persistence means frame correlation.

In the measurement ribbon 200a shown in fig. 2, the meaning of the measurement control 200b is as follows: IVSd represents the end-diastolic ventricular septal thickness (left ventricular long axis section), LVIDd represents the end-diastolic left ventricular inner diameter (left ventricular long axis section), LVPWd represents the end-diastolic left ventricular posterior wall thickness (left ventricular long axis section), IVSs represents the end-systolic ventricular septal thickness (left ventricular long axis section), LVIDs represents the end-systolic left ventricular inner diameter (left ventricular long axis section), and IVSs represents the end-systolic ventricular septal thickness (left ventricular long axis section).

In the annotation function area 300a shown in FIG. 2, annotation controls 300b have the meaning of MV for the mitral valve, LVOT for the left ventricular outflow tract, RV for the right ventricle, SSN for the suprasternal plane, and A4CH for the apical quadric-luminal heart plane.

In this embodiment, the added postural chart control 400b is configured to add a preset corresponding postural chart to an ultrasound image acquired by the ultrasound device in response to an operation instruction input by a user, and the shape of the added postural chart control 400b may be consistent with the shape of the corresponding postural chart. For example, in fig. 2, the added posture diagram functional area 400a includes four added posture diagram controls 400b, the user knows the specific content of the corresponding posture diagram when seeing the added posture diagram control 400b, the posture diagram of each added posture diagram control 400b is used for representing an ultrasound image obtained by scanning the heart from an angle (or posture), and after the user scans the heart according to a certain angle to obtain an ultrasound image, the user can mark the ultrasound image (add the corresponding posture diagram) by clicking the added posture diagram control 400b of the corresponding angle, so as to explain which posture the ultrasound image corresponds to.

In some embodiments, the annotation function or the measurement function required for different body position maps are different, for example, as the body position map adding function area 400a shown in fig. 3, a part of the body position map corresponding to the body position map adding control 400b in the function area indicates different organs obtained by the user using the ultrasound probe 10, and the annotation required for the ultrasound images corresponding to different organs is not completely the same, so that the display template of different interface controls can be set based on the different body position map adding control 400b, for example, in fig. 3, when the user clicks the body position map adding control 400b shaped as a liver, the ultrasound apparatus can reconfigure the interface controls in other function areas such as the annotation function area 300a so that the other interface controls are adapted to the annotations, measurements, and the like required by the liver, and when the user clicks the body position map adding control 400b shaped as a kidney, the ultrasound device may reconfigure interface controls within other functional zones so that the other interface controls fit the annotations or measurements required by the kidney. Through the response of clicking the add posture diagram control 400b by the user, the ultrasonic equipment can provide required auxiliary functions or auxiliary operations for the user in time based on the selection of the user on the posture diagram, so that the configuration of the interface control for different ultrasonic images is not required to be carried out for multiple times in the process of obtaining the ultrasonic images by the user for multiple times, the operation steps of the user are further simplified, and errors possibly occurring in the operation process of the user are also avoided.

In some embodiments, as shown in fig. 3, a preview area 400c is further disposed in the added body position diagram functional area 400a, and a body position diagram corresponding to the currently selected added body position diagram control 400b is displayed in the preview area 400c, for example, in fig. 3, the user currently selects the added body position diagram control 400b at the upper right corner in the added body position diagram functional area 400a, the body position diagram corresponding to the added body position diagram control 400b is a lying diagram of a pet dog, and the user can switch the display body position diagram in the preview area 400c by switching the selected added body position diagram control 400 b. Among the body position maps corresponding to the add body position map control 400b, there are one or more body position maps having corresponding probe marks 400d, and when these body position maps are displayed in the preview area 400c, the probe marks 400d are also displayed on the body position map, for example, in fig. 3, a lying plan of a pet dog currently displayed in the preview area 400c has corresponding probe marks 400d, and the positions of the probe marks 400d in the body position map are used for representing the probe positions of the ultrasound device, and the user can move the probe marks 400d on the body position map. When the control device 30 detects that the probe mark 400d is moved to any preset specific position of the postural chart, at least one interface control displayed in the other functional zone outside the postural chart functional zone 400a is reconfigured according to the specific position to which the probe mark 400d is moved. Continuing to refer to fig. 3, as can be seen from the displayed lying diagram, the probe mark 400d is located in the center of the abdomen of the pet dog, and assuming that the user scans the right side of the abdomen of the pet dog and acquires a corresponding ultrasound image, and wants to annotate the acquired ultrasound image on the right side of the abdomen, the user may move the probe mark 400d in the preview area 400c to the right side of the abdomen of the pet dog in the lying diagram, and after the control device 30 detects that the probe mark 400d is moved to a certain preset coordinate or a certain preset coordinate range on the right side of the abdomen of the pet dog in the lying diagram, it may be determined that the user needs an interface control corresponding to this area, so as to reconfigure the interface controls in other functional areas, for example, the annotation functional area 300a, so that each interface control matches with the ultrasound image on the right side of the abdomen. That is, the ultrasound apparatus configures the display template of the interface control for some specific positions in the volume bitmap to which the probe mark 400d is moved, so as to further improve the working efficiency of the user.

In some embodiments, the number of the interface controls included in the functional region may be large, but the size of the screen is limited, and all the included interface controls cannot be displayed clearly at the same time. For example, in fig. 2, the measurement functional area 200a has at least two corresponding pages, the at least two pages have a sequential relationship, one page of the at least two pages is displayed in the corresponding functional area, and one or more measurement controls 200b are displayed on each page, so that a user can switch and display different pages in the measurement functional area 200a by inputting a left-sliding or right-sliding instruction in the measurement functional area 200a, and thus when there are many interface controls in a certain functional area, the user can directly find a required interface control in the currently viewed "primary interface", and does not need to enter the "secondary interface" to find the required interface control.

In some embodiments, when the user controls the ultrasound device to complete a corresponding operation, the result of the operation may also be reflected on the interface control of the functional area, specifically, each interface control in the parameter adjusting functional area 100a, the measurement functional area 200a, the annotation functional area 300a, and the body position map adding functional area 400a includes guidance information of the corresponding operation step, the guidance information includes, but is not limited to, whether the corresponding operation step is executable, whether the corresponding operation step is completed, and a result after the corresponding operation step is completed, and the guidance information may be presented in an intuitive text or symbol manner, or may be presented in other manners understood by the user, for example, the user clicks a certain annotation control 300b in the annotation functional area 300a to input a corresponding annotation on the ultrasound image, after the annotation is added, the annotation control may display a "completed" character, so as to prompt the user to add the annotation to the current ultrasound image no longer repeatedly, or may freeze the annotation control 300b or freeze interface controls in other functional areas related to the annotation, where an association relationship between the interface controls may be preset, and when the user clicks a certain interface control to complete a corresponding operation step, the control device 30 may automatically update the guidance information of the currently displayed interface control according to the preset association relationship.

Referring to fig. 4, the embodiment shown in fig. 4 provides a display control method of an ultrasound apparatus, including the steps of:

and step S100, simultaneously displaying at least two functional areas of the adjusting parameter functional area 100a, the measuring functional area 200a, the annotation functional area 300a and the adding posture diagram functional area 400 a. The different functional zones are used to characterize different functions of the ultrasound device.

Wherein, the parameter adjusting functional area 100a is used for adjusting imaging parameters of an image in response to a user's operation, the measuring functional area 200a is used for measuring size parameters of a target tissue in an ultrasound image in response to the user's operation, the annotation functional area 300a is used for adding an annotation to the ultrasound image in response to the user's operation, the body position map adding functional area 400a is used for adding a body position map on the ultrasound image, one or more interface controls are displayed in each functional area, and each interface control in different functional areas is also displayed simultaneously, that is, the parameter adjusting control 100b in the parameter adjusting functional area 100a, the measuring control 200b in the measuring functional area 200a, the annotation control 300b in the annotation functional area 300a and the body position map adding control 400b in the body position map adding functional area 400a are displayed simultaneously, each interface control is used for representing an operation step related to the functional area where the interface control is located, the user can control the ultrasonic equipment to complete specific operation steps by clicking the interface control.

And S200, when an operation instruction input by a user aiming at any interface control is detected, controlling the ultrasonic equipment to execute an operation step corresponding to the interface control of the input operation instruction. The specific meaning of each interface control is described below by taking fig. 2 as an example.

In some embodiments, as shown in fig. 3, a preview area 400c is further disposed in the added body position diagram functional area 400a, and a body position diagram corresponding to the currently selected added body position diagram control 400b is displayed in the preview area 400c, for example, in fig. 3, the user currently selects the added body position diagram control 400b at the upper right corner in the added body position diagram functional area 400a, the body position diagram corresponding to the added body position diagram control 400b is a lying diagram of a pet dog, and the user can switch the display body position diagram in the preview area 400c by switching the selected added body position diagram control 400 b. Among the body position maps corresponding to the add body position map control 400b, there are one or more body position maps having corresponding probe marks 400d, and when these body position maps are displayed in the preview area 400c, the probe marks 400d are also displayed on the body position map, for example, in fig. 3, a lying plan of a pet dog currently displayed in the preview area 400c has corresponding probe marks 400d, and the positions of the probe marks 400d in the body position map are used for representing the probe positions of the ultrasound device, and the user can move the probe marks 400d on the body position map. When the probe mark 400d is detected to be moved to any preset specific position of the postural chart, at least one interface control displayed in other functional areas outside the postural chart functional area 400a is reconfigured according to the specific position to which the probe mark 400d is moved. Continuing to refer to fig. 3, as can be seen from the displayed lying diagram, the probe mark 400d is located in the center of the abdomen of the pet dog, and assuming that the user scans the right side of the abdomen of the pet dog and acquires a corresponding ultrasound image, and wants to annotate the acquired ultrasound image on the right side of the abdomen, the user may move the probe mark 400d in the preview area 400c to the right side of the abdomen of the pet dog in the lying diagram, and after detecting that the probe mark 400d is moved to a certain preset coordinate or a certain preset coordinate range on the right side of the abdomen of the pet dog in the lying diagram, it may be determined that the user needs a corresponding interface control in this area, so as to reconfigure interfaces in other functional areas, for example, the annotation functional area 300a, so that each interface control is matched with the ultrasound image on the right side of the abdomen. That is, the ultrasound apparatus configures the display template of the interface control for some specific positions in the volume bitmap to which the probe mark 400d is moved, so as to further improve the working efficiency of the user.

In some embodiments, when the user controls the ultrasound device to complete a corresponding operation, the result of the operation may also be reflected on the interface control of the functional area, specifically, each interface control in the parameter adjusting functional area 100a, the measurement functional area 200a, the annotation functional area 300a, and the body position map adding functional area 400a includes guidance information of the corresponding operation step, the guidance information includes, but is not limited to, whether the corresponding operation step is executable, whether the corresponding operation step is completed, and a result after the corresponding operation step is completed, and the guidance information may be presented in an intuitive text or symbol manner, or may be presented in other manners understood by the user, for example, the user clicks a certain annotation control 300b in the annotation functional area 300a to input a corresponding annotation on the ultrasound image, after the annotation is added, the annotation control can display the completed characters, so that the user is prompted not to add the annotation repeatedly on the current ultrasonic image, or the annotation control 300b can be frozen or the interface controls in other functional areas related to the annotation are frozen, the association relation of each interface control can be preset, and when the user clicks one interface control to complete the corresponding operation step, the guidance information of the currently displayed interface control can be automatically updated according to the preset association relation.

In the embodiment, the user can directly control the ultrasonic equipment to execute the operation of different functional areas on the current display interface, so that the examination requirement is more efficiently met, the work flow is simplified, frequent switching operation of medical staff is avoided, and the work efficiency of the medical staff is improved.

Those skilled in the art will appreciate that all or part of the functions of the various methods in the above embodiments may be implemented by hardware, or may be implemented by computer programs. When all or part of the functions of the above embodiments are implemented by a computer program, the program may be stored in a computer-readable storage medium, and the storage medium may include: a read only memory, a random access memory, a magnetic disk, an optical disk, a hard disk, etc., and the program is executed by a computer to realize the above functions. For example, the program may be stored in a memory of the device, and when the program in the memory is executed by the processor, all or part of the functions described above may be implemented. In addition, when all or part of the functions in the above embodiments are implemented by a computer program, the program may be stored in a storage medium such as a server, another computer, a magnetic disk, an optical disk, a flash disk, or a removable hard disk, and may be downloaded or copied to a memory of a local device, or may be version-updated in a system of the local device, and when the program in the memory is executed by a processor, all or part of the functions in the above embodiments may be implemented.

The present invention has been described in terms of specific examples, which are provided to aid understanding of the invention and are not intended to be limiting. For a person skilled in the art to which the invention pertains, several simple deductions, modifications or substitutions may be made according to the idea of the invention.

Claims

1. An ultrasound device, comprising:

2. The apparatus of claim 1, wherein the display device comprises at least two display screens, and the control device is configured to control one of the two display screens to display the at least two functional areas and control the other of the at least two display screens to display a main interface of the ultrasound apparatus;

alternatively, the first and second electrodes may be,

the display device comprises at least one display screen, and the control device is used for controlling one display screen of the at least one display screen to display a main interface of the ultrasonic equipment and controlling an area for displaying the at least two functional areas to be divided in the main interface.

3. The device of claim 1, wherein at least one of the at least two functional zones has a corresponding at least two pages, the at least two pages have a sequential relationship and one of the at least two pages is displayed within the corresponding functional zone, each page having one or more of the interface controls displayed thereon;

the control device is further used for switching the currently displayed page of the functional area with the page turning instruction input into a page adjacent to the currently displayed page when detecting that the page turning instruction input by the user aims at any functional area with at least two corresponding pages.

4. The device of claim 1, wherein the interface controls in the parameter adjustment function area comprise at least one parameter adjustment control for adjusting the numerical value of the preset corresponding ultrasound parameter in response to an operation instruction input by a user.

5. The device of claim 1, wherein the interface control in the add postural chart functional zone is an add postural chart control, and the add postural chart control is used for responding to an operation instruction input by a user and adding a preset corresponding postural chart on an ultrasonic image acquired by the ultrasonic device;

the control device is further used for reconfiguring at least one interface control displayed in other functional areas outside the adding body position diagram functional area according to the body position diagram corresponding to the adding body position diagram control of the input operation instruction when the operation instruction input by the user for any adding body position diagram control is detected.

6. The device of claim 5, wherein one or more body position maps corresponding to at least one of the additional body position map controls have corresponding probe marks, a preview region is further disposed in the functional region of the additional body position map, the preview region is used for displaying the body position map corresponding to the currently selected additional body position map control, the preview region is used for displaying the probe marks in the corresponding body position map, and the positions of the probe marks in the corresponding body position map are used for representing the probe positions of the ultrasound device;

the control device is further used for moving the position of the probe mark with the movement instruction input in the corresponding body bitmap when detecting the movement instruction input by the user for the probe mark, and reconfiguring at least one interface control displayed in other functional areas outside the function area of the additional body bitmap according to the specific position to which the probe mark is moved when detecting that the probe mark is moved to any preset specific position of the body bitmap.

7. The apparatus of claim 1, wherein each interface control in the parameter adjustment zone, the measurement zone, and the annotation zone comprises guidance information for a corresponding operation step, the guidance information comprising at least one of whether the corresponding operation step is executable, whether the corresponding operation step is completed, and a result after the corresponding operation step is completed;

the control device is further configured to update the guidance information of the interface control currently displayed by the display device according to a preset association relationship after controlling the ultrasonic device to execute the operation step corresponding to the interface control to which the operation instruction is input.

8. A display control method of an ultrasound apparatus, comprising:

9. The method of claim 8, wherein at least one of the at least two ribbon has a corresponding at least two pages, the at least two pages have a sequential relationship and one of the at least two pages is displayed within the corresponding ribbon, each page having one or more of the interface controls displayed thereon, the method further comprising:

when a page turning instruction input by a user aiming at any functional area with at least two corresponding pages is detected, the currently displayed page of the functional area with the page turning instruction input is switched to a page adjacent to the currently displayed page.

10. The method of claim 8, wherein the interface control in the add postural chart functional zone is an add postural chart control, the add postural chart control is used for responding to an operation instruction input by a user and adding a preset corresponding postural chart on an ultrasonic image acquired by the ultrasonic device, and the method further comprises:

when an operation instruction input by a user for any additional bitmap control is detected, reconfiguring at least one interface control displayed in other functional areas outside the additional bitmap functional area according to the bitmap corresponding to the additional bitmap control of the input operation instruction.

11. The method of claim 10, wherein a preview area is further disposed in the add body position map function area, a body position map corresponding to the currently selected add body position map control is displayed in the preview area, and at least one of the one or more individual body position maps corresponding to at least one of the add body position map controls displays a probe mark when in the preview area, and the position of the probe mark in the body position map is used for representing the probe position of the ultrasound device, the method further comprising:

when a movement instruction input by a user for the probe mark is detected, moving the position of the probe mark with the input movement instruction in the corresponding volume bitmap;

and when the probe mark is detected to be moved to any preset specific position of the body position map, reconfiguring at least one interface control displayed in other functional areas outside the function area of the added body position map according to the specific position to which the probe mark is moved.

12. The method of claim 8, wherein each interface control in the parameter adjusting function area, the measurement function area, and the annotation function area includes guidance information of a corresponding operation step, the guidance information includes at least one of whether the corresponding operation step is executable, whether the corresponding operation step is completed, and a result after the corresponding operation step is completed, and after the ultrasound device is controlled to execute the operation step corresponding to the interface control to which the operation instruction is input, the method further includes:

and updating the guide information of the currently displayed interface control according to a preset incidence relation.