CN112807015A

CN112807015A - Ultrasonic apparatus and ultrasonic inspection system

Info

Publication number: CN112807015A
Application number: CN201911129583.7A
Authority: CN
Inventors: 邹良云
Original assignee: Shennan Circuit Co Ltd
Current assignee: Shennan Circuit Co Ltd
Priority date: 2019-11-18
Filing date: 2019-11-18
Publication date: 2021-05-18

Abstract

The present application discloses an ultrasonic device and an ultrasonic testing system, wherein the ultrasonic device at least includes an ultrasonic probe, a main board and a soft board, the main board includes a main control board, a receiving and sending board, and a power supply board that are stacked in sequence, and the main control board is respectively connected to the receiving and sending boards through the soft board. board and power board, the receiving and sending board is connected with the ultrasonic probe; the receiving and sending board is used to send the ultrasonic wave to the ultrasonic probe or receive the first signal sent by the ultrasonic probe, and the main control board is used to process the first signal to obtain the second signal, The power board is used to power the receiving and sending board, the main control board and the ultrasonic probe. The ultrasonic device of the present application integrates the main board and the ultrasonic probe, which changes the original product form of the main engine and the connected probe, reduces the volume of the ultrasonic device, and is convenient for portability.

Description

Ultrasonic apparatus and ultrasonic inspection system

Technical Field

The present application relates to the field of medical equipment technology, and in particular, to ultrasound equipment and ultrasound detection systems.

Background

The ultrasound apparatus may use ultrasound imaging, which is a technique of rendering an internal image of an opaque object using ultrasound waves. Ultrasound detection is now an indispensable diagnostic method in modern clinical medicine. The ultrasonic equipment can be black and white B ultrasonic or color ultrasonic. The ultrasonic equipment in the prior art has a large volume and is composed of a host and a probe. The connecting wire between host computer and the probe, it is all very inconvenient to carry and use like this, and the cable is damaged easily also, influences the reliability of whole equipment.

Disclosure of Invention

The present application provides an ultrasound device and an ultrasound detection system to solve the problems in the prior art.

In order to solve the technical problems, the application provides an ultrasonic device, the ultrasonic device at least comprises an ultrasonic probe, a main board and a soft board, the main board comprises a main control board, a receiving and sending board and a power board which are sequentially stacked, the main control board is respectively connected with the receiving and sending board and the power board through the soft board, and the receiving and sending board is connected with the ultrasonic probe; the receiving and sending board is used for sending ultrasonic waves to the ultrasonic probe or receiving a first signal sent by the ultrasonic probe, the main control board is used for processing the first signal to obtain a second signal, and the power supply board is used for supplying power to the receiving and sending board, the main control board and the ultrasonic probe.

Optionally, the main control board includes a preprocessing unit, a signal processing unit, and a wireless transmission unit; the preprocessing unit is used for carrying out at least one processing of amplification, filtering, sampling or digital-to-analog conversion on the first signal; the signal processing unit is used for processing the first signal processed by the preprocessing unit to obtain a second signal; the wireless transmission unit is used for transmitting the second signal to the terminal.

Optionally, the size of the power supply board, the size of the main control board and the size of the receiving and sending board are the same.

Optionally, each main board is trapezoidal, the height of the main board is 70-90mm, the length of the upper bottom edge of the main board is 15-25mm, and the length of the lower bottom edge of the main board is 25-35 mm.

Optionally, the receiving and sending board includes a receiving unit and a sending unit, the receiving unit is configured to receive a first signal sent by the ultrasonic probe, and the sending unit is configured to send the ultrasonic wave to the ultrasonic probe.

Optionally, the ultrasound device further includes a battery, the power board includes a power management unit and a charging management unit, the power board is connected to the battery, the power management unit uses the battery to transmit power to the ultrasound device, and the charging management unit is configured to perform charging management on the battery.

Optionally, the ultrasound device is further provided with a display screen, and the display screen is used for displaying the ultrasound image of the second signal.

Optionally, the ultrasonic probe is configured to transmit an ultrasonic wave to the target to be detected, and collect the transmitted ultrasonic wave as the first signal.

Optionally, the ultrasonic device includes an integrated housing, the ultrasonic probe is disposed outside the housing, and the main board is disposed in the housing.

In order to solve the technical problem, the application provides an ultrasonic detection system, which includes the ultrasonic device and a terminal, wherein the ultrasonic device and the terminal are in communication connection.

The application discloses an ultrasonic device and an ultrasonic detection system, wherein the ultrasonic device at least comprises an ultrasonic probe, a main board and a soft board, the main board comprises a main control board, a receiving and sending board and a power board which are sequentially stacked, the main control board is respectively connected with the receiving and sending board and the power board through the soft board, and the receiving and sending board is connected with the ultrasonic probe; the receiving and sending board is used for sending ultrasonic waves to the ultrasonic probe or receiving a first signal sent by the ultrasonic probe, the main control board is used for processing the first signal to obtain a second signal, and the power supply board is used for supplying power to the receiving and sending board, the main control board and the ultrasonic probe. The utility model provides an ultrasonic equipment is in the same place mainboard and ultrasonic probe integration, has changed original host computer and has added the product form of wiring probe, reduces ultrasonic equipment's volume, does benefit to and carries.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of an ultrasound apparatus of the present application;

FIG. 2 is a schematic structural diagram of a stacked arrangement of the motherboards of FIG. 1;

FIG. 3 is a schematic diagram of an embodiment of an ultrasonic testing system of the present application;

fig. 4 is a schematic diagram of the operation of an embodiment of the ultrasonic testing system of this embodiment.

Detailed Description

In order to make the technical solutions of the present application better understood by those skilled in the art, the ultrasound apparatus and the ultrasound detection system provided by the present invention are further described in detail below with reference to the accompanying drawings and the detailed description.

Referring to fig. 1, fig. 2 and fig. 4, fig. 1 is a schematic structural diagram of an embodiment of an ultrasonic apparatus of the present application, fig. 2 is a schematic structural diagram of a stacked motherboard in fig. 1, and fig. 4 is a schematic working diagram of an embodiment of an ultrasonic detection system of the present embodiment.

The ultrasound apparatus 100 may include at least an ultrasound probe 40, a main board 10, and a soft board 20. The main board 10 may include a main control board 12, a receiving and sending board 11 and a power board 13, which are sequentially stacked, the main control board 12 may be connected to the receiving and sending board 11 and the power board 13 through a soft board 20, respectively, and the receiving and sending board 11 may be connected to the ultrasonic probe 40; the flexible board 20 may be used to implement electrical connection between the transceiver board 11, the main control board 12 and the power supply board 13.

The soft board 20 can be Flexible Flat Cable (FFC), and the FFC is one kind with PET insulating material and extremely thin tin-plated Flat copper line, the novel data Cable that forms through the pressfitting of high-tech automation equipment production line, and is small, and thickness is thin, and is soft, can fold at will.

The ultrasonic probe 40 may be used to emit ultrasonic waves to an object to be detected and collect the emitted ultrasonic waves as a first signal.

The receiving and transmitting board 11 may be used to transmit the ultrasonic wave to the ultrasonic probe 40 or receive the first signal transmitted by the ultrasonic probe 40. Specifically, the receiving and sending board 11 may send the ultrasonic wave to the ultrasonic probe 40, so that the ultrasonic probe 40 sends the ultrasonic wave to the target to be detected; alternatively, the receiving and transmitting board 11 may receive the first signal transmitted by the ultrasound probe 40, so that the first signal is transmitted to the main control board 12 for processing.

The main control board 12 may be configured to process the first signal to obtain a second signal; the power board 13 may be used to power the transceiver board 11, the main control board 12, and the ultrasound probe 40.

Optionally, the main control board 12 may include a preprocessing unit 121, a signal processing unit 122 and a wireless transmission unit 123. An output terminal of the preprocessing unit 121 may be connected to an input terminal of the signal processing unit 122, and an output terminal of the signal processing unit 122 may be connected to an input terminal of the wireless transmission unit 123.

The preprocessing unit 121 may include a Front End AFE (Analog Front End) processing chip, and the preprocessing unit 121 may be configured to perform at least one of amplification, filtering, sampling, or Analog-to-digital (a/D) conversion on the first signal.

The signal processing unit 122 may be configured to process the first signal processed by the preprocessing unit 121 to obtain a second signal, where the first signal may be an analog signal or a digital signal, and the second signal may be a digital signal. In this embodiment, the signal processing unit 122 may be a ZYNQ + FPGA chip, and an FPGA (Field Programmable Gate Array) may provide the ultrasound apparatus 100 with a strong computing capability and sufficient flexibility.

The wireless transmission unit 123 may be configured to transmit the received second signal to the terminal through wireless transmission, so as to implement real-time transmission of the image. Wherein, the terminal can include smart mobile phone, intelligent dull and stereotyped or wisdom screen etc.. The wireless transmission may include analog microwave transmission and digital microwave transmission, and when the second signal is a digital signal, the second signal may be transmitted using digital microwave.

Specifically, the wireless transmission unit 123 may first encode and compress the image of the second signal (HD-6001D), then modulate the image with a digital microwave (HD-9500) channel, and transmit the image through the wireless transmission unit. And the terminal receives the second signal, performs microwave despreading on the second WeChat, decompresses the image and restores the simulated image signal. The anti-interference capability of digital microwave transmission is better.

The receiving and transmitting board 11 may include a receiving unit 111 and a transmitting unit 112, the receiving unit 111 being configured to receive the first signal transmitted by the ultrasonic probe 40, and the transmitting unit 112 being configured to transmit the ultrasonic wave to the ultrasonic probe 40.

The ultrasound device 100 further includes a battery 30, and the power board 13 may be connected to the battery 30. The battery 30 may be a sheet-like lithium battery, which is built into the ultrasound device 100. The power panel 13 may include a power management unit 131 and a charging management unit 132, the power management unit 131 may deliver power to the ultrasound device 100 using the battery 30, and the charging management unit 132 may be used to perform charging management on the battery 30.

The embodiment discloses an ultrasonic device, which at least comprises an ultrasonic probe, a main board and a soft board, wherein the main board comprises a receiving and sending board, a main control board and a power supply board which are sequentially stacked, the main control board is respectively connected with the receiving and sending board and the power supply board through the soft board, and the receiving and sending board is connected with the ultrasonic probe; the receiving and sending board is used for sending ultrasonic waves to the ultrasonic probe or receiving a first signal sent by the ultrasonic probe, the main control board is used for processing the first signal to obtain a second signal, and the power supply board is used for supplying power to the receiving and sending board, the main control board and the ultrasonic probe. The utility model provides an ultrasonic equipment is in the same place mainboard and ultrasonic probe integration, has changed original host computer and has added the product form of wiring probe, reduces ultrasonic equipment's volume, does benefit to and carries.

Optionally, the size of the power board, the size of the main control board and the size of the receiving and sending board may be the same. Each main board can be trapezoidal, the height of the main board can be 70-90mm, the length of the upper bottom edge of the main board is 15-25mm, and the length of the lower bottom edge of the main board is 25-35 mm. For example, in the above embodiment, the height of the main plate may be 80mm, the length of the upper bottom edge of the main plate may be 20mm, and the length of the lower bottom edge of the main plate may be 30 mm. Through the size design of the main plate, the utilization rate of the space in the ultrasonic equipment can be improved, so that the size of the whole ultrasonic equipment is further reduced, and the ultrasonic equipment is convenient to carry.

Optionally, a display screen may be disposed in the ultrasound device, and the display screen may directly display the ultrasound image of the second signal, so that the ultrasound device is more convenient, and the user experience is improved.

Optionally, the ultrasonic apparatus 100 in this application may further include an integrated housing, the ultrasonic probe 40 may be disposed outside the housing, and the main board 10 may be disposed in the housing, which is equivalent to placing the main board 10 in a circuit board inside the ultrasonic probe 40, so as to further improve the integration of the ultrasonic apparatus 100.

Referring to fig. 3, fig. 3 is a schematic structural diagram of an embodiment of an ultrasonic testing system according to the present application. The ultrasound detection system 300 may include an ultrasound device 100 and a terminal 200. The ultrasound device 100 may establish a communication connection with the terminal 200. The ultrasound device 100 may be the ultrasound device 100 described above. The terminal 200 may include a smart phone, a smart tablet, a smart screen, and other electronic products with a displayable screen.

The terminal 200 may have a dedicated application thereon for displaying ultrasound images. Optionally, the user may operate on the ultrasound images by the in-line application, wherein the operation may include saving, modifying, marking, etc.

Continuing to refer to fig. 4, the transmitting unit 112 in the receiving and transmitting board 11 transmits the ultrasonic wave to the ultrasonic probe 40, the ultrasonic probe 40 transmits the ultrasonic wave to the object to be detected, and the receiving unit 111 in the receiving and transmitting board 11 collects the transmitted ultrasonic wave as the first signal.

The receiving and transmitting board 11 transmits the first signal to the preprocessing unit 121 of the main control board 12. The preprocessing unit 121 performs at least one of amplification, filtering, sampling and analog-to-digital conversion on the first signal, and sends the processed first signal to the signal processing unit 122, the signal processing unit 122 processes the first signal to obtain a second signal and sends the second signal to the wireless transmission unit 123, and the wireless transmission unit 123 transmits the second signal to the terminal 200, so that real-time transmission of an image is realized.

It is to be understood that the specific embodiments described herein are merely illustrative of the application and are not limiting of the application. In addition, for convenience of description, only a part of structures related to the present application, not all of the structures, are shown in the drawings. 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 application.

The terms "first", "second", etc. in this application are used to distinguish between different objects and not to describe a particular order. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

The above description is only for the purpose of illustrating embodiments of the present application and is not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application or are directly or indirectly applied to other related technical fields, are also included in the scope of the present application.

Claims

1. an ultrasonic equipment, it is characterized in that, described ultrasonic equipment comprises ultrasonic probe, main board and soft board at least, described main board comprises main control board, receiving and sending board and power supply board that are stacked successively, and described main control board passes through The flexible board is respectively connected to the receiving and sending board and the power board, and the receiving and sending board is connected to the ultrasonic probe;

The receiving and sending board is used to send ultrasonic waves to the ultrasonic probe or receive the first signal sent by the ultrasonic probe, the main control board is used to process the first signal to obtain a second signal, and the power board It is used for powering the receiving and sending board, the main control board and the ultrasonic probe.

2. The ultrasonic device according to claim 1, wherein the main control board comprises a preprocessing unit, a signal processing unit and a wireless transmission unit;

The preprocessing unit is configured to perform at least one of amplifying, filtering, sampling or analog-to-digital conversion on the first signal; the signal processing unit is configured to process the first signal processed by the preprocessing unit The second signal is obtained by signal processing; the wireless transmission unit is used for transmitting the second signal to the terminal.

3 . The ultrasonic device according to claim 1 , wherein the size of the power board, the size of the main control board, and the size of the receiving and sending board are the same. 4 .

4. ultrasonic equipment according to claim 3, is characterized in that, the shape of each described mainboard is trapezoid, the height of described mainboard is 70-90mm, and the length of the upper bottom side of described mainboard is 15-25mm, so The length of the lower bottom side of the motherboard is 25-35mm.

5 . The ultrasonic device according to claim 1 , wherein the receiving and transmitting board comprises a receiving unit and a transmitting unit, and the receiving unit is configured to receive the first signal sent by the ultrasonic probe; the sending A unit is used to send the ultrasonic waves to the ultrasonic probe.

6. The ultrasonic device according to claim 1, wherein the ultrasonic device further comprises a battery, the power board comprises a power management unit and a charging management unit, the power board is connected to the battery, and the power management The unit uses the battery to deliver power to the ultrasonic device, and the charge management unit is used for charge management of the battery.

7 . The ultrasound device according to claim 1 , wherein the ultrasound device is further provided with a display screen, and the display screen is used to display the ultrasound image of the second signal. 8 .

8 . The ultrasonic device according to claim 1 , wherein the ultrasonic probe is used to transmit the ultrasonic wave to the target to be detected, and collect the ultrasonic wave as the first signal after the transmission. 9 .

9 . The ultrasonic device according to claim 1 , wherein the ultrasonic device comprises an integrated housing, the ultrasonic probe is arranged outside the housing, and the main board is arranged inside the housing. 10 .

10 . An ultrasonic detection system, characterized in that it comprises the ultrasonic device and the terminal according to any one of claims 1 to 9 , the ultrasonic device establishes a communication connection with the terminal. 11 .