CN205563574U - Ultrasonic imaging system - Google Patents
Ultrasonic imaging system Download PDFInfo
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- CN205563574U CN205563574U CN201620094572.5U CN201620094572U CN205563574U CN 205563574 U CN205563574 U CN 205563574U CN 201620094572 U CN201620094572 U CN 201620094572U CN 205563574 U CN205563574 U CN 205563574U
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Abstract
The utility model discloses an ultrasonic imaging system belongs to medical instrument technical field, for solve current ultrasonic imaging system bulky, heavy, be difficult for carrying scheduling problem design. The utility model provides an ultrasonic imaging system, handheld supersound terminal equipment and handheld intelligent Mobile Terminal including wireless connection, handheld supersound terminal equipment is to treating that target detection sends ultrasonic signal under handheld intelligent Mobile Terminal's control to send to handheld intelligent Mobile Terminal after becoming supersound image data with the back wave signal conversion who receives, handheld intelligent Mobile Terminal's display device shows the ultrasound pattern according to the supersound image data who receives. The utility model provides an ultrasonic imaging system utilizes handy handheld intelligent Mobile Terminal to carry out ultrasound pattern formation of image and substitutes desktop medical image formation of image in the past, and portable, convenient to use, real -time are good, are suitable for and use widely on a large scale.
Description
Technical field
The utility model relates to technical field of medical instruments, particularly relates to a kind of ultrasonic image-forming system.
Background technology
Medical Devices give heaviness, volume impression big, expensive all the time, simultaneously, conventional medical image imaging all completes on PC, medical image imaging device has heaviness, be inconvenient to inferior positions such as carrying, causing Medical Devices mostly can only rest on hospital, in addition to hospital sees a doctor, the probability that people contact use is the highest.
Ultrasonic device is a kind of Medical Instruments carrying out based on ultrasonic wave and detecting, ultrasonic wave is a kind of frequency mechanical wave more than 20kHz, it to human internal organs almost without damage, ultrasonic wave can reflect when being entered another kind of medium by a kind of medium, in transmitting procedure, intensity can decay, in transmitting procedure, the velocity of sound is stable, owing to having these characteristics, is especially suitable for for imaging of medical.Along with growth in the living standard, carry out the noninvasive portable medical system of ultrasonic imaging based on ultrasonic device and become a big demand of people.
On the other hand, in conventional ultrasonic device, the imaging of image becomes main function, and analysis and process to view data complete often through the doctor having abundant clinical experience, so can bring about and doctor must be had to participate in, whether being enriched by doctor's experience affects bigger defect.
Utility model content
In view of this, the purpose of this utility model is that proposing one has that volume is little, portable, easy to use, real-time is good, the ultrasonic image-forming system of integrated level high;
Another purpose of the present utility model is to propose the ultrasonic image-forming system that ultrasonic testing results is analyzed by the big data server of a kind of combination;
Further object of the present utility model is to propose a kind of ultrasonic imaging method based on above-mentioned ultrasonic image-forming system.
For reaching this purpose, on the one hand, the utility model adopts the following technical scheme that
A kind of ultrasonic image-forming system, including hand-held ultrasound device end and the hand-held intelligent mobile terminal that is connected with described hand-held ultrasound device end wireless telecommunications;Described hand-held ultrasound device end sends ultrasonic signal to target to be detected under the control of described hand-held intelligent mobile terminal, and send after the reflection wave signal of reception is converted into ultrasound image data to described hand-held intelligent mobile terminal, the display device of described hand-held intelligent mobile terminal is according to the described ultrasound image data display ultrasonoscopy received.
Connected by WI-FI wireless telecommunications as the preferred technical scheme of one, described hand-held ultrasound device end and described hand-held intelligent mobile terminal.
As the preferred technical scheme of one, described hand-held ultrasound device end includes shell and the ultrasonic probe, signal processing module and the WI-FI main control module that are arranged in described shell, and described signal processing module is connected with described ultrasonic probe and described WI-FI main control module communication respectively;Described ultrasonic probe is for launching ultrasonic signal and receiving the reflection wave signal of described ultrasonic signal;Described signal processing module is for receiving the second control instruction of described WI-FI main control module transmission and controlling described ultrasonic probe transmitting ultrasonic signal according to described second control instruction, and described signal processing module sends extremely described WI-FI main control module after being additionally operable to receive described reflection wave signal and the described reflection wave signal received is converted into ultrasound image data;Described WI-FI main control module is for receiving the first control instruction of described hand-held intelligent mobile terminal transmission and sending described second control instruction according to described first control instruction to described signal processing module, meanwhile, the described ultrasound image data that described WI-FI main control module is additionally operable to be received sends to described hand-held intelligent mobile terminal.
As the preferred technical scheme of one, described signal processing module includes signal transmitting unit and signal receiving unit, described signal transmitting unit receives described second control instruction that described Wi-Fi main control module sends, and sending ultrasonic action according to described second control instruction to described ultrasonic probe, described signal receiving unit sends to described WI-FI main control module after receiving described reflection wave signal and the described reflection wave signal received being converted into ultrasound image data.
As the preferred technical scheme of one, described shell includes housing main body and the sound transmitting window being made up of the saturating green material of flexibility, and one end of described housing main body is provided with opening, and described opening is sealed by described sound transmitting window.
As the preferred technical scheme of one, being provided with ultrasound conductive medium in described shell, described ultrasound conductive medium is placed between described sound transmitting window and described ultrasonic probe, and described ultrasound conductive medium is flexible material.
As the preferred technical scheme of one, also include big data calculation server, described hand-held intelligent mobile terminal and described big data calculation server are connected by wired or wireless network communication, described hand-held intelligent mobile terminal sends extremely described big data calculation server for the described ultrasonoscopy gathered and is analyzed, and receives, shows the analysis result of described big data calculation server.
As the preferred technical scheme of one, described hand-held intelligent mobile terminal is mobile phone or PAD.
On the other hand, the utility model adopts the following technical scheme that
A kind of ultrasonic imaging method based on any of the above-described described ultrasonic image-forming system, comprises the steps:
Step A, the flexible sound transmitting window of hand-held ultrasound device end is clung to target surface to be detected, initialize the ultrasonic probe of described hand-held ultrasound device end, signal processing module and Wi-Fi main control unit, until the mark of the LCDs display Wi-Fi of described hand-held ultrasound device end;
Step B, open described hand-held intelligent mobile terminal, open its Wi-Fi switch, described hand-held intelligent mobile terminal being connected by Wi-Fi wireless telecommunications with described hand-held ultrasound device end, opening the APP for showing ultrasonoscopy of described hand-held intelligent mobile terminal, until seeing ultrasonoscopy;
Step C1, send the first control instruction by hand-held intelligent mobile terminal to hand-held ultrasound device end, adjust the image quality of ultrasonoscopy and imaging region, and the ultrasonoscopy that will obtain in real time preserve to described hand-held intelligent mobile terminal;
Step D, repetition step C1, till the ultrasonoscopy gathered meets imaging standards;
The APP for showing ultrasonoscopy of step E, closedown hand-held ultrasound device end and hand-held intelligent mobile terminal.
As the preferred technical scheme of one, between described step C1 and step D, also comprise the steps C2:
The ultrasonoscopy that hand-held intelligent mobile terminal is gathered is sent to big data calculation server by wired or wireless network, and receives, shows the analysis result of described big data calculation server.
The beneficial effects of the utility model are as follows:
The ultrasonic image-forming system that the utility model provides utilizes portable hand-held intelligent mobile terminal to carry out ultrasonoscopy imaging to substitute conventional desktop medical image imaging, has features such as being easy to carry, easy to use, real-time is good, is suitable to promote the use of on a large scale;Being wirelessly transferred replacement wire transmission it addition, utilize, meet ultrasonoscopy transmitted data amount big, frame per second requires high desirability.
On the other hand, the ultrasonic image-forming system that the utility model provides, it is possible to use ultrasound image data is analyzed by big data calculation server, and doctor can be assisted to a certain extent to make correct judgement;When residential use, it is also possible to some have informative testing result to provide user.
Accompanying drawing explanation
Fig. 1 be embodiment one of the present utility model provide ultrasonic image-forming system structural representation;
Fig. 2 is the flow chart that in embodiment one of the present utility model, reflection wave signal is converted into ultrasound image data by signal receiving unit;
Fig. 3 is the flow chart of the ultrasonic imaging method that embodiment one of the present utility model provides;
Fig. 4 is the flow chart of the ultrasonic imaging method that embodiment two of the present utility model provides;
Fig. 5 is the flow chart of the ultrasonic imaging method that embodiment two of the present utility model provides.
Detailed description of the invention
Further illustrate the technical solution of the utility model below in conjunction with the accompanying drawings and by detailed description of the invention.
Embodiment one:
Present embodiments provide a kind of ultrasonic image-forming system, as it is shown in figure 1, it includes hand-held ultrasound device end and the hand-held intelligent mobile terminal being connected with hand-held ultrasound device end wireless telecommunications;Hand-held ultrasound device end sends ultrasonic signal to target to be detected under the control of hand-held intelligent mobile terminal, and send after the reflection wave signal of reception is converted into ultrasound image data to hand-held intelligent mobile terminal, the display device of hand-held intelligent mobile terminal is according to the ultrasound image data display ultrasonoscopy received.Hand-held intelligent mobile terminal in the present embodiment includes but is not limited to mobile phone or PAD.Wireless telecommunications interconnection technique has low-power consumption, the feature of low cost, it is adapted to short range transmission data, but the data in view of a figure of medical image etc. are the biggest, frame per second requires than very fast, the hand-held ultrasound device end in the present embodiment and between hand-held intelligent mobile terminal preferably by but be not limited to WI-FI wireless telecommunications and be connected.
The ultrasonic image-forming system that the present embodiment provides utilizes portable hand-held intelligent mobile terminal to carry out ultrasonoscopy imaging to substitute conventional desktop medical image imaging, has features such as being easy to carry, easy to use, real-time is good, is suitable to promote the use of on a large scale;Being wirelessly transferred replacement wire transmission it addition, utilize, meet ultrasonoscopy transmitted data amount big, frame per second requires high desirability.
Specifically, above-mentioned hand-held ultrasound device end includes shell and the ultrasonic probe, signal processing module and the WI-FI main control module that are arranged in shell, and signal processing module is connected with ultrasonic probe and WI-FI main control module communication respectively;Ultrasonic probe is for launching the reflection wave signal of ultrasonic signal received ultrasonic signal;Signal processing module is for receiving the second control instruction of WI-FI main control module transmission and controlling ultrasonic probe transmitting ultrasonic signal according to the second control instruction, and signal processing module sends to WI-FI main control module after being additionally operable to receive reflection wave signal and the reflection wave signal of reception is converted into ultrasound image data;WI-FI main control module is for receiving the first control instruction of hand-held intelligent mobile terminal transmission and sending the second control instruction according to the first control instruction to signal processing module, meanwhile, the ultrasound image data that WI-FI main control module is additionally operable to be received sends to hand-held intelligent mobile terminal.
More specifically, above-mentioned signal processing module includes signal transmitting unit and signal receiving unit, signal transmitting unit receives the second control instruction that Wi-Fi main control module sends, and send ultrasonic action according to the second control instruction to ultrasonic probe, as in figure 2 it is shown, signal receiving unit receives reflection wave signal and transmits out the ultrasound image data that the reflection wave signal of reception is converted into gradation of image form by technology such as dynamic focusing, dynamic apodization, matched filtering, delivery, LPFs to Wi-Fi main control module.
Above-mentioned shell includes housing main body and the sound transmitting window being made up of the saturating green material of flexibility, one end of housing main body is provided with opening, and opening is sealed by sound transmitting window, is provided with ultrasound conductive medium in shell, ultrasound conductive medium is placed between sound transmitting window and ultrasonic probe, and ultrasound conductive medium is flexible material;The sound transmitting window that described flexible acoustic window material is made can be close to each different parts of human body, reduces the sense of discomfort of human body, and meanwhile, the ultrasound conductive medium in front-end case can strengthen the definition of echo-wave imaging.
Above-mentioned sound transmitting window can be made up of polyurethane elastomer or polytetrafluoroethylene (PTFE), but is not limited to above-mentioned material, can be that other are any suitably and have the most flexible acoustic window material;Above-mentioned ultrasound conductive medium can use semi-solid gel or liquid.
The present embodiment additionally provides a kind of ultrasonic imaging method based on above-mentioned ultrasonic image-forming system, as it is shown on figure 3, comprise the steps:
Step A, the flexible sound transmitting window of hand-held ultrasound device end is clung to target surface to be detected, initialize the ultrasonic probe of hand-held ultrasound device end, signal processing module and Wi-Fi main control unit, until the mark of the LCDs display Wi-Fi of hand-held ultrasound device end;
Step B, unlatching hand-held intelligent mobile terminal, open its Wi-Fi switch, hand-held intelligent mobile terminal is connected by Wi-Fi wireless telecommunications with hand-held ultrasound device end, open the APP for showing ultrasonoscopy of hand-held intelligent mobile terminal, until seeing ultrasonoscopy, show that hand-held intelligent mobile terminal has initialized;
After step C1, hand-held intelligent mobile terminal have initialized, the imaging starting ultrasonoscopy shows, the first control instruction is sent to hand-held ultrasound device end by hand-held intelligent mobile terminal, adjust image quality and the imaging region of ultrasonoscopy, and in real time the ultrasonoscopy obtained is preserved to hand-held intelligent mobile terminal;
Step D, repetition step C1, till the ultrasonoscopy gathered meets imaging standards;
The APP for showing ultrasonoscopy of step E, closedown hand-held ultrasound device end and hand-held intelligent mobile terminal.
Embodiment two:
Present embodiments providing a kind of ultrasonic image-forming system, as shown in Figure 4, the ultrasonic image-forming system that its structure provides with embodiment one is essentially identical, including hand-held ultrasound device end and the hand-held intelligent mobile terminal that is connected with hand-held ultrasound device end wireless telecommunications;Hand-held ultrasound device end sends ultrasonic signal to target to be detected under the control of hand-held intelligent mobile terminal, and send after the reflection wave signal of reception is converted into ultrasound image data to hand-held intelligent mobile terminal, the display device of hand-held intelligent mobile terminal is according to the ultrasound image data display ultrasonoscopy received.
Difference is: also include big data calculation server, hand-held intelligent mobile terminal and big data calculation server are connected by wired or wireless network communication, such as by cable network or by wireless networks such as WI-FI technology by the way of communication connect, big data calculation server is responsible for the storage of ultrasound image data, the process of video data, and complete analysis and the excavation of data, hand-held intelligent mobile terminal is analyzed to big data calculation server for the ultrasonoscopy transmission gathered, and receives, shows the analysis result of big data calculation server.
The ultrasonic image-forming system that the present embodiment provides, it is possible to use ultrasound image data is analyzed by big data calculation server, and doctor can be assisted to a certain extent to make correct judgement;When residential use, it is also possible to some have informative testing result to provide user.
The present embodiment additionally provides a kind of ultrasonic imaging method based on above-mentioned ultrasonic image-forming system, as it is shown in figure 5, comprise the steps:
Step A, the flexible sound transmitting window of hand-held ultrasound device end is clung to target surface to be detected, ultrasonic probe, signal processing module and Wi-Fi main control unit, until the mark of the LCDs display Wi-Fi of hand-held ultrasound device end;
Step B, unlatching hand-held intelligent mobile terminal, open its Wi-Fi switch, hand-held intelligent mobile terminal is connected by Wi-Fi wireless telecommunications with hand-held ultrasound device end, open the APP for showing ultrasonoscopy of hand-held intelligent mobile terminal, until seeing ultrasonoscopy, show that hand-held intelligent mobile terminal has initialized;
After step C1, hand-held intelligent mobile terminal have initialized, the imaging starting ultrasonoscopy shows, the first control instruction is sent to hand-held ultrasound device end by hand-held intelligent mobile terminal, adjust image quality and the imaging region of ultrasonoscopy, and in real time the ultrasonoscopy obtained is preserved to hand-held intelligent mobile terminal;
The ultrasonoscopy of collection is sent to big data calculation server by wired or wireless network by step C2, hand-held intelligent mobile terminal, and receives, shows the analysis result of big data calculation server.
Step D, repetition step C1, till the ultrasonoscopy gathered meets imaging standards;
The APP for showing ultrasonoscopy of step E, closedown hand-held ultrasound device end and hand-held intelligent mobile terminal.
Know-why of the present utility model is described above in association with specific embodiment.These descriptions are intended merely to explain principle of the present utility model, and can not be construed to the restriction to the utility model protection domain by any way.Based on explanation herein, those skilled in the art need not pay performing creative labour can associate other detailed description of the invention of the present utility model, within these modes fall within protection domain of the present utility model.
Claims (8)
1. a ultrasonic image-forming system, it is characterised in that include hand-held ultrasound device end and with described hand
Hold the hand-held intelligent mobile terminal that ultrasonic device terminal wireless communication connects;Described hand-held ultrasound device end exists
Ultrasonic signal is sent to target to be detected under the control of described hand-held intelligent mobile terminal, and anti-by receive
Ejected wave signal sends to described hand-held intelligent mobile terminal, described hand-held intelligent after being converted into ultrasound image data
The display device of mobile terminal is according to the described ultrasound image data display ultrasonoscopy received.
Ultrasonic image-forming system the most according to claim 1, it is characterised in that described hand-held ultrasound sets
Standby terminal and described hand-held intelligent mobile terminal are connected by WI-FI wireless telecommunications.
Ultrasonic image-forming system the most according to claim 2, it is characterised in that described hand-held ultrasound sets
Standby terminal includes shell and the ultrasonic probe, signal processing module and the WI-FI master control that are arranged in described shell
Module, described signal processing module connects with described ultrasonic probe and described WI-FI main control module communication respectively
Connect;
Described ultrasonic probe is for launching ultrasonic signal and receiving the reflection wave signal of described ultrasonic signal;
Described signal processing module is for receiving the second control instruction the root of the transmission of described WI-FI main control module
Controlling described ultrasonic probe according to described second control instruction and launch ultrasonic signal, described signal processing module is also
Send out after receiving described reflection wave signal and the described reflection wave signal received is converted into ultrasound image data
Deliver to described WI-FI main control module;
Described WI-FI main control module is for receiving the first control instruction that described hand-held intelligent mobile terminal sends
And according to described first control instruction to described signal processing module described second control instruction of transmission, meanwhile,
The described ultrasound image data that described WI-FI main control module is additionally operable to be received sends to described hand-held intelligent
Mobile terminal.
Ultrasonic image-forming system the most according to claim 3, it is characterised in that described signal transacting mould
Block includes signal transmitting unit and signal receiving unit, and described signal transmitting unit receives described Wi-Fi master control
Described second control instruction that module sends, and send to described ultrasonic probe according to described second control instruction
Ultrasonic action, described signal receiving unit receives described reflection wave signal the described reflection wave signal that will receive
Send to described WI-FI main control module after being converted into ultrasound image data.
Ultrasonic image-forming system the most according to claim 3, it is characterised in that outside described shell includes
Shell main body and the sound transmitting window being made up of the saturating green material of flexibility, one end of described housing main body is provided with opening, institute
State opening to be sealed by described sound transmitting window.
Ultrasonic image-forming system the most according to claim 5, it is characterised in that arrange in described shell
Ultrasound conductive medium, described ultrasound conductive medium is had to be placed between described sound transmitting window and described ultrasonic probe, institute
Stating ultrasound conductive medium is flexible material.
7. according to the arbitrary described ultrasonic image-forming system of claim 1 to 6, it is characterised in that also include big
Data calculation server, described hand-held intelligent mobile terminal and described big data calculation server by wired or
Wireless network communication connects, and described hand-held intelligent mobile terminal sends for the described ultrasonoscopy gathered
It is analyzed to described big data calculation server, and receives, show dividing of described big data calculation server
Analysis result.
8. according to the arbitrary described ultrasonic image-forming system of claim 1 to 6, described hand-held intelligent mobile terminal
For mobile phone or PAD.
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105528527A (en) * | 2016-01-29 | 2016-04-27 | 乐普(北京)医疗器械股份有限公司 | Ultrasonic imaging system and ultrasonic imaging method |
CN108267508A (en) * | 2017-12-27 | 2018-07-10 | 东南大学 | A kind of multi-channel ultrasonic flaw-inspecting system based on Android device |
CN109646051A (en) * | 2018-12-20 | 2019-04-19 | 牛旗 | A kind of portable breast ultrasound imager |
CN110033608A (en) * | 2018-12-03 | 2019-07-19 | 阿里巴巴集团控股有限公司 | Processing method, device, equipment, server and the system of vehicle damage detection |
CN111629669A (en) * | 2017-11-08 | 2020-09-04 | 弗劳恩霍夫应用研究促进协会 | Ultrasound image generation system |
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2016
- 2016-01-29 CN CN201620094572.5U patent/CN205563574U/en active Active
Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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CN105528527A (en) * | 2016-01-29 | 2016-04-27 | 乐普(北京)医疗器械股份有限公司 | Ultrasonic imaging system and ultrasonic imaging method |
CN111629669A (en) * | 2017-11-08 | 2020-09-04 | 弗劳恩霍夫应用研究促进协会 | Ultrasound image generation system |
CN111629669B (en) * | 2017-11-08 | 2023-07-18 | 弗劳恩霍夫应用研究促进协会 | Ultrasound image generation system |
CN108267508A (en) * | 2017-12-27 | 2018-07-10 | 东南大学 | A kind of multi-channel ultrasonic flaw-inspecting system based on Android device |
CN110033608A (en) * | 2018-12-03 | 2019-07-19 | 阿里巴巴集团控股有限公司 | Processing method, device, equipment, server and the system of vehicle damage detection |
CN109646051A (en) * | 2018-12-20 | 2019-04-19 | 牛旗 | A kind of portable breast ultrasound imager |
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