CN107212902B - Ultrasonic diagnostic apparatus and system control method thereof - Google Patents

Abstract

The invention discloses an ultrasonic diagnostic equipment and a system control method thereof, wherein the system control method of the ultrasonic diagnostic equipment comprises the following steps: detecting state parameters of the probe; judging whether the probe is in a contacted state or not according to the state parameters; when the probe is in a contacted state, the control system enters a first preset function; when the probe is in a non-contacted state, the control system enters a second preset function. The system control method can reduce the operation times of doctors, simplify the operation process, improve the examination efficiency and save time.

Description

Ultrasonic diagnostic apparatus and system control method thereof

Technical Field

The invention relates to the technical field of ultrasonic diagnostic equipment, in particular to ultrasonic diagnostic equipment and a system control method thereof.

Background

Currently, when an ultrasonic diagnostic apparatus is used for ultrasonic image examination, each function in the system of the apparatus needs to be activated by a manual key of a doctor, for example, at the beginning, the doctor needs to press a Freeze (Freeze) key to activate the system; when Patient information is browsed or modified, a [ Patient (Patient) ] key is required to be pressed to activate the Patient information; when the examination is finished, pressing an (End Exam) key; finally, to protect the system, the "Freeze (Freeze) key also needs to be pressed to Freeze the system. Therefore, the operation of the existing ultrasonic diagnostic equipment is complicated, and doctors are required to frequently operate to switch the system functions, so that the examination efficiency is low, and the time is wasted.

Disclosure of Invention

In view of the above, a first object of the present invention is to provide a system control method for an ultrasonic diagnostic apparatus, so as to simplify operations, improve inspection efficiency, and save time.

In order to achieve the purpose, the invention provides the following technical scheme:

a system control method of an ultrasonic diagnostic apparatus, comprising the steps of:

detecting state parameters of the probe;

judging whether the probe is in a contacted state or not according to the state parameters;

when the probe is in a contacted state, the control system enters a first preset function, wherein the first preset function comprises a probe and diagnosis mode selection function, a real-time scanning function, a newly-built patient information function or an examination ending function;

and when the probe is in a non-contact state, the control system enters a second preset function, wherein the second preset function comprises a probe and diagnosis mode selection function, a freezing function, an examination ending function or a reporting function.

Preferably, the control system activates the functions associated with said first preset function or said second preset function simultaneously.

Preferably, when the probe is in a contacted state, if the first preset function is a real-time scanning function, the control system enters the real-time scanning function and activates a living target function.

Preferably, when the probe is in a non-contacted state, if the second preset function is a freeze function, the control system enters the freeze state and activates one of the measurement, annotation, body mark and movie playback functions.

Preferably, the first preset function is a real-time scanning function, after the probe and the diagnosis mode selection function in the system of the ultrasonic diagnosis device complete the selection of the probe and the diagnosis mode, if the contacted probe is consistent with the selected probe, the control system enters the real-time scanning function of the selected probe and the B mode in the diagnosis mode, and if the contacted probe is inconsistent with the selected probe, the control system enters the real-time scanning function of the B mode in the preset diagnosis mode of the contacted probe.

Preferably, the preset diagnosis mode is a first diagnosis mode of the contacted probe in a system of the ultrasonic diagnosis device.

Preferably, the contacted state comprises a hand held contact and/or a couplant contact.

The utility model provides an ultrasonic diagnostic equipment, includes controller and probe, still including set up in the contact detection device of probe, contact detection device is used for detecting whether the probe is contacted, when the probe is contacted, contact detection device to the controller sends detecting signal, the controller is used for according to detecting signal control ultrasonic diagnostic equipment's system gets into first preset function.

Preferably, the controller is configured to control the system of the ultrasonic diagnostic apparatus to enter a second preset function when the detection signal is not received.

Preferably, the contact detection means comprises a pressure sensor and/or a humidity sensor.

The system control method of the ultrasonic diagnosis equipment provided by the invention comprises the following steps: detecting the state of the probe; when the probe is in a contacted state, the control system enters a first preset function, wherein the first preset function comprises a probe and diagnosis mode selection function, a real-time scanning function, a function of newly building patient information or a function of finishing examination; when the probe is in a non-contacted state, the control system enters a second preset function, wherein the second preset function comprises a probe and diagnosis mode selection function, a freezing function, an end checking function or a reporting function.

During application, after the ultrasonic equipment is started, if the ultrasonic diagnostic equipment receives information that the probe is contacted, the system is directly controlled to enter a first preset function, for example, when the first preset function is the probe and diagnostic mode selection function, no matter what function the current system is, once the probe is in a contacted state, the system immediately enters the probe and diagnostic mode selection function without a doctor returning to the function in a manual key pressing mode, when the first preset function is other functions, the control mode of the system is basically consistent, and details are not repeated herein; when the ultrasonic diagnostic equipment receives information that the probe is not contacted, for example, when the probe is put back after the examination is finished, the control system enters a second preset function, for example, the probe and the diagnostic mode selection function can be directly returned to facilitate the next detection, or the control system directly enters a reporting function to report the examination result, so that the system control method can reduce the operation times of doctors, simplify the operation process, improve the examination efficiency and save the time.

In order to achieve the second object, the present invention further provides an ultrasonic diagnostic apparatus based on the system control method of the ultrasonic diagnostic apparatus, which includes a controller and a probe, wherein the probe is provided with a contact detection device for detecting whether the probe is contacted, when the probe is contacted, the contact detection device sends a detection signal to the controller, and the controller is used for controlling a system of the ultrasonic diagnostic apparatus to enter a first preset function according to the detection signal

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a flowchart of a system control method of an ultrasonic diagnostic apparatus according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of an ultrasound diagnostic apparatus according to an embodiment of the present invention.

Detailed Description

A first object of the present invention is to provide a system control method for an ultrasonic diagnostic apparatus, which can effectively simplify operations, improve inspection efficiency, and save time.

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, a system control method of an ultrasonic diagnostic apparatus according to an embodiment of the present invention includes:

step 102, detecting a state parameter of the probe.

The state parameter of the probe refers to the state of the probe used for determining the state of the probe, and in the present embodiment, the state of the probe may be a contacted state and an untouched state. The contact state includes, but is not limited to, a state that a user (such as a doctor, etc.) holds the handle of the probe and the couplant is coated on the probe. The state parameters include humidity, pressure, temperature, moving speed and the like. And 104, judging whether the probe is in a contacted state or not according to the detected state parameters, if so, executing step 106, otherwise, executing step 108.

In this embodiment, whether the probe is in the contacted state is determined according to the state parameters of the probe detected in the step 102. The change of one state parameter may be used as the criterion for determining that the probe is in the contacted state, or the changes of the above-mentioned plurality of state parameters may be used as the criterion for determining that the probe is in the contacted state.

And 106, when the probe is in a contacted state, controlling the system to enter a first preset function, wherein the first preset function comprises a probe and diagnosis mode selection function, a real-time scanning function, a newly-built patient information function or an examination ending function.

The state that the probe is contacted is often the state that the probe is taken up to be checked, so the first preset function can be generally set as the function needed to be used at the beginning of the check, for example, if the first preset function is the probe and diagnosis mode selection function, when the probe is contacted, the system can directly jump from the current interface to the probe and diagnosis mode selection function interface, so that the doctor can select the function without manually returning from the current interface; if the first preset function is a real-time scanning function, when the probe is contacted, the system enters a real-time scanning state; if the first preset function is a newly-built patient information function, when the probe is contacted, the system enters a patient information interface so that a doctor can conveniently build a patient file; if the first preset function is the end checking function, when the touched probe is inconsistent with the probe selected in the system, the system ends the checking work of the selected probe, so that the touched probe starts the checking work.

And step 108, when the probe is in a non-contact state, the control system enters a second preset function, wherein the second preset function comprises a probe and diagnosis mode selection function, a freezing function, an examination ending function or a reporting function.

In contrast to the probe-contacted state, the probe-non-contacted state generally occurs at the end of the examination or at the time of the examination pause, and accordingly, the second preset function may be set to a function related to the examination stop or pause, such as the probe and diagnostic mode selection function, the freeze function, the end of examination function, or the report function described above; after the doctor puts down the probe, the system can jump to the probe and diagnosis mode selection interface so as to facilitate the start of the next examination; the check can also be ended directly, or the system can be put into a frozen state to avoid misoperation when the check is suspended, or a report interface is jumped to so as to fill in a check report.

The first preset function and the second preset function are only some preferred embodiments provided by the present invention, and in practical applications, other functions, such as a patient information function, may be selected as the first preset function or the second preset function as needed.

For example, when the first preset function is a real-time scanning function, and the second preset function is a probe and diagnosis mode selection function, if the probe is in the probe cup at the moment, the probe is in a non-contact state, then it can be determined that the system is in the probe and diagnosis mode selection function at the moment, the user can select a corresponding probe and diagnosis mode in the system according to needs, and then take the corresponding probe for examination, and in the process of taking the probe by a doctor, the probe is in a contact state, and at the moment, the system automatically switches to the real-time scanning function, and can directly perform real-time scanning.

According to the system control method of the ultrasonic diagnostic equipment in the embodiment, after the ultrasonic equipment is started, if the ultrasonic diagnostic equipment receives the information that the probe is contacted, the system is directly controlled to enter the first preset function, and if the probe is not contacted, the system automatically jumps to the second preset function, so that the user can conveniently perform the next operation.

In one embodiment, the system control method of the ultrasonic diagnostic apparatus further includes:

a first preset function corresponding to a contacted state and a second preset function corresponding to an untouched state are established in advance.

In this embodiment, in addition to the functions described in the above steps, the first preset function and the second preset function may also be set by a user according to a requirement, which is not limited herein.

In an actual process, if the probe taken by the user is inconsistent with the probe selected in the system, there may be a case that the real-time scanning function entered by the system does not correspond to the probe taken by the user, resulting in a failure of the inspection or an error in the result.

Therefore, in one embodiment, if the first preset function is a real-time scanning function, the system determines whether the touched probe is consistent with the selected probe after the probe and diagnosis mode selection function completes the selection of the probe and diagnosis mode.

If the probe is consistent with the diagnostic mode, the control system enters a real-time scanning function of the selected probe and the B mode in the diagnostic mode;

and if the two modes are not consistent, the control system enters a B mode real-time scanning function of the contacted probe in a preset diagnosis mode.

The preset diagnosis mode can default to a first diagnosis mode of the contacted probe in a system of the ultrasonic diagnosis device, and the first diagnosis mode is a diagnosis mode in which the contacted probe is ranked first in the system. In one embodiment, the control system enters a first preset function or a second preset function while activating the function associated therewith. Two specific embodiments are provided below for a detailed description.

The real-time scanning function is usually combined with the body mark function, so that when the probe is in a contacted state, if the first preset function is the real-time scanning function, the control system enters the real-time scanning function and activates the body mark function.

In addition, a freeze function is typically associated with one of the measurement, annotation, body mark and cineloop functions, and when the probe is in an untouched state, if the second predetermined function is the freeze function, the control system enters the freeze state and activates one of the measurement, annotation, body mark and cineloop functions.

In one embodiment, the contact state of the probe is not only the contact state of the user, but also the contact state of the couplant can be used as the contact state because the probe must be smeared with the couplant during the use process. However, if the probe is determined to be in a contacted state only by one of the above-mentioned contact methods, erroneous determination may occur, for example, when a user takes the probe, another probe is touched by mistake, or after the inspection is completed, the couplant is not wiped off, which may cause erroneous determination of the system. Therefore, in order to reduce the occurrence of erroneous judgment, the above-mentioned hand-held contact and couplant contact can be simultaneously used as a judgment criterion, that is, the probe is judged to be in a contacted state only when the hand-held contact and the couplant contact occur.

In order to implement the system control method of the ultrasonic diagnostic apparatus, an embodiment of the present invention further provides an ultrasonic diagnostic apparatus, please refer to fig. 2, and fig. 2 is a schematic structural diagram of the ultrasonic diagnostic apparatus provided in the embodiment of the present invention, the ultrasonic diagnostic apparatus includes a controller 1 and a probe 2, the probe 2 is provided with a contact detection device 3, the contact detection device 3 is configured to detect whether the probe 2 is contacted, when the probe 2 is contacted, the contact detection device 3 sends a detection signal to the controller 1, and the controller 1 is configured to control a system of the ultrasonic diagnostic apparatus to enter a first preset function according to the detection signal. Further, the controller 1 is configured to control the system of the ultrasonic diagnostic apparatus to enter a second preset function when the detection signal is not received.

As described above, the contact of the probe 2 may be a hand-held contact of a user and/or a couplant contact, and if the couplant contact is taken as a contacted state of the probe 2, the contact detection device 3 may include a pressure sensor and/or a humidity sensor, and when the pressure and/or humidity exceeds a certain threshold, it is determined that the probe 2 is in the contacted state, and if the pressure and/or humidity is lower than the threshold, the probe 2 is in a non-contact state.

Of course, the pressure sensor and the humidity sensor are only provided for detecting the contact of the couplant, and are not limited thereto, and when the probe 2 is in a contact state by hand contact, an infrared sensor, a temperature sensor, or the like may be used as the contact detection device, and the invention is not limited thereto.

It should be noted that the ultrasound diagnostic apparatus in the above embodiment is used to implement the system control method of the ultrasound diagnostic apparatus, and therefore, the detailed implementation process of the ultrasound diagnostic apparatus may refer to the description of the embodiment part of the system control method in the above embodiment, and is not described again here.

The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. A system control method of an ultrasonic diagnostic apparatus, characterized by comprising the steps of:

detecting state parameters of the probe;

judging whether the probe is in a contacted state or not according to the state parameters;

when the probe is in a contacted state, the control system enters a first preset function, wherein the first preset function comprises a probe and diagnosis mode selection function, a real-time scanning function, a newly-built patient information function or an examination ending function; when the first preset function is a real-time scanning function, after a probe and a diagnosis mode selection function in a system of the ultrasonic diagnosis equipment complete selection of the probe and the diagnosis mode, if the contacted probe is consistent with the selected probe, the control system enters the real-time scanning function of the selected probe and the B mode under the diagnosis mode, and if the contacted probe is inconsistent with the selected probe, the control system enters the real-time scanning function of the B mode under the preset diagnosis mode of the contacted probe;

and when the probe is in a non-contact state, the control system enters a second preset function, wherein the second preset function comprises a probe and diagnosis mode selection function, a freezing function, an examination ending function or a reporting function.

2. The system control method of an ultrasonic diagnostic apparatus according to claim 1, characterized in that a control system simultaneously activates functions associated with the first preset function or the second preset function.

3. The system control method of an ultrasonic diagnostic apparatus according to claim 2, characterized in that when the probe is in a contacted state, if the first preset function is a real-time scanning function, the control system enters a real-time scanning state while activating a body marking function.

4. The system control method of an ultrasonic diagnostic apparatus according to claim 2, characterized in that when the probe is in a non-contacted state, if the second preset function is a freeze function, the control system enters the freeze state while activating one of a measurement, a comment, a body mark, and a movie playback function.

5. The system control method of an ultrasonic diagnostic apparatus according to any one of claims 1 to 4, characterized in that the preset diagnostic mode is a first diagnostic mode in which the contacted probe is within a system of an ultrasonic diagnostic apparatus.

6. The system control method of an ultrasonic diagnostic apparatus according to any one of claims 1 to 4, characterized in that the contacted state includes a hand-held contact and/or a couplant contact.

7. An ultrasonic diagnostic apparatus comprising a controller and a probe, characterized by comprising:

the contact detection device is arranged on the probe and used for detecting whether the probe is contacted or not;

when the probe is contacted, the contact detection device sends a detection signal to the controller, and the controller is used for controlling a system of the ultrasonic diagnostic equipment to enter a first preset function according to the detection signal; when the first preset function is a real-time scanning function, after a probe and a diagnosis mode selection function in a system of the ultrasonic diagnosis equipment complete selection of the probe and the diagnosis mode, if the contacted probe is consistent with the selected probe, the control system enters the real-time scanning function of the selected probe and the B mode under the diagnosis mode, and if the contacted probe is inconsistent with the selected probe, the control system enters the real-time scanning function of the B mode under the preset diagnosis mode of the contacted probe;

the controller is also used for controlling the system of the ultrasonic diagnosis equipment to enter a second preset function when the detection signal is not received.

8. The ultrasonic diagnostic apparatus according to claim 7, characterized in that the contact detection means includes a pressure sensor and/or a humidity sensor.

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