CN214175700U - Ultrasonic remote application system - Google Patents

Abstract

The utility model discloses a long-range application system of supersound. The ultrasonic remote application system comprises: a first assembly disposed in an examination room, the first assembly configured to collect examination room data for the examination room, the first assembly comprising: the ultrasonic machine is used for acquiring an ultrasonic image or image of a patient; the first display unit is used for displaying the ultrasonic image or the image; a second assembly disposed at an ultrasound application center outside of the examination room, the second assembly in communication with the first assembly, the second assembly comprising: and the second display unit is used for receiving and displaying the examination room data acquired by the first component. Therefore, the second component can check the ultrasonic images or images acquired by the ultrasonic machine in real time or off line, and can perform remote consultation, quality control and auditing based on the ultrasonic.

Description

Ultrasonic remote application system

Technical Field

The utility model belongs to the technical field of the supersound is used, particularly, relate to supersound remote application system.

Background

Ultrasound is one of the important components of medical imaging, has the characteristics of no wound, economy, rapidness, convenience and the like, and is the most widely and basic imaging means applied in clinical medicine, particularly basic medical treatment at present. Because of the national conditions of China, China's ultrasound always goes a different way from countries in Europe and America, namely, the ultrasound department is independently established and has an independent teaching and culture system, and the fact shows that the system is very suitable for the national conditions of China, and ultrasonic diagnosis plays an increasingly important role in clinic in the last decade and is shown in that: common ultrasound is widely applied from the beginning to the feet in clinic; specialized ultrasound based on precise requirements and personalized medicine plays an increasingly important role; bedside ultrasound for specific purposes is also becoming mature day by day; the third eye interventional ultrasound as a minimally invasive and non-invasive medicine is still unprecedented.

The existing consultation mode based on ultrasonic detection is generally as follows: firstly, an ultrasonic examination report is obtained and printed into a paper report, then the consultation time, the consultation place and the consultation doctor are arranged, and finally the consultation doctor carries out disease discussion at the appointed time and place. This consultation mode has the following disadvantages: (1) the actual consultation time is short, but the period required for consultation arrangement is long, so that more manpower and material resources are consumed, and the medical period of a patient is prolonged; (2) the ultrasonic examination report is only presented in a paper mode, the data is not comprehensive enough, and missed shooting or mistaken shooting can be caused.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides supersound remote application system to solve among the prior art technical problem that supersound was used to exist.

In order to solve the technical problem, the utility model provides an supersound remote application system.

An ultrasound remote application system, characterized by: comprises that

A first assembly disposed in an examination room, the first assembly configured to collect examination room data for the examination room, the first assembly comprising:

the ultrasonic machine is used for acquiring an ultrasonic image or image of a patient; and

the first display unit is used for displaying the ultrasonic image or the image;

a second assembly disposed at an ultrasound application center outside of the examination room, the second assembly in communication with the first assembly, the second assembly comprising:

and the second display unit is used for receiving and displaying the examination room data acquired by the first component.

Therefore, the second component can check the ultrasonic images or images acquired by the ultrasonic machine in real time or off line, and can perform remote consultation, quality control and auditing based on the ultrasonic. The examination room data may include equipment parameters of the ultrasound machine, examination reports, etc., in addition to the ultrasound images or images. For example, when the ultrasound application center is a consultation center, a consultation doctor can see examination data of a patient in real time instead of simply viewing an ultrasound examination report, which is helpful for making a comprehensive judgment on the condition of the patient; meanwhile, the consultation doctors, particularly the consultation doctors in different hospitals can communicate with each other on line, so that the diagnosis period (particularly emergency rescue) and the manpower and material resources are obviously saved, the diagnosis efficiency is obviously improved, and the medical cost of patients is saved; in addition, the consultation doctors of the large-scale hospital can perform consultation on the patients of the large-scale hospital and can perform remote consultation on the patients of other basic hospitals, so that the regional service capability of the large-scale hospital is improved. When the ultrasound application center is a quality control center, a quality control physician (such as a senior medical examiner or a technician) can remotely control the examination quality by watching one or more examination room data in real time, so that the examination quality of a hospital is ensured while the examination volume, particularly the ultrasound examination volume, of the hospital is continuously increased, the radiation capability of excellent human resources of a large hospital is enhanced, and the problem of insufficient examination quality and capability of a primary hospital is solved. When the ultrasonic application center is an auditing center, the examination report does not need to be printed and then sent to an auditing doctor, but only needs to be uploaded with an electronic version report for auditing, so that the flow is simplified, the period is shortened, the efficiency is improved, and unnecessary paper waste is avoided; one auditing doctor can be responsible for the reports of a plurality of ultrasonic diagnosis rooms, report review omission is not easy to occur, and auditing efficiency and patient satisfaction are obviously improved.

Further, the first component also comprises a camera which is used for collecting operation images of an examining physician. Therefore, the user of the ultrasonic application center can see the operation of the examining doctor more comprehensively, and can adjust the operation of the examining doctor in the ultrasonic application process of consultation, quality control and the like, so that the ultrasonic efficiency is obviously improved.

Further, the first component has a first headset and the second component has a second headset, through which an examining physician has a dialogue with the ultrasound application center user. Thus, the ultrasound application center user can control the operation of the examining physician through the dialog.

Further, the first headset is a monaural headset; the second headset is a binaural headset. The first headset facilitates the communication between the examination room doctor and the patient while the examination room doctor is conversing with the user of the ultrasound application center. The second headset may be used for dialogue between multiple ultrasound application center users, in addition to the exam room physician and ultrasound application center user dialogue, with sound insulation and interference reduction.

Further, the first display unit includes:

a first display for daily work in an examination room;

and the second display is used for displaying the dynamic image acquired by the ultrasonic machine in real time.

Further, the second display unit includes:

a third display for daily work of the ultrasound application center;

a fourth display for displaying the examination room data.

Further, the second display unit further comprises a fifth display, and the fifth display is provided with a screen larger than or equal to 50 inches. Thereby facilitating the viewing and discussion by multiple consultants or multiple quality control physicians.

Further, the first assembly and the second assembly each further comprise an input device; the first and second components each further comprise a memory. Therefore, the use is more convenient.

Further, the ultrasound application center is a consultation center, a quality control center or an auditing center. Wherein a plurality of ultrasound application centers can communicate with one examination room at the same time, such as a plurality of ultrasound application centers for consultation. An ultrasound application center may also communicate with multiple examination rooms simultaneously, such as to review examination reports from multiple examination rooms.

Further, the examination room is located in a hospital, a hospital division, a subordinate hospital or other medical institution in which the ultrasound application center is located. Therefore, the ultrasonic high-quality resources of the large-scale hospital sink and radiate the basic medical institution.

To sum up, adopt the utility model discloses a long-range application system of supersound simple structure, simple to operate can the application of full play supersound.

Obviously, according to the above-mentioned contents of the present invention, many other modifications, substitutions or alterations can be made without departing from the basic technical idea of the present invention.

The above-mentioned aspects of the present invention will be described in further detail below with reference to specific embodiments in the form of examples. This should not be understood as limiting the scope of the above-described subject matter of the present invention to the following examples only. All the technologies realized based on the above contents of the present invention all belong to the scope of the present invention.

Drawings

The accompanying drawings, which form a part of the disclosure, are included to assist in understanding the disclosure, and the description provided herein and the accompanying drawings, which are related thereto, are intended to explain the disclosure, but do not constitute an undue limitation on the disclosure. In the drawings:

fig. 1 is a schematic flow chart of the ultrasound remote application system of the present invention.

The relevant references in the above figures are:

100-first component, 110-ultrasound machine, 121-first display, 122-second display, 130-camera, 140-first headset, 150-first input device, 160-first memory, 200-second component, 211-third display, 212-fourth display, 213-fifth display, 220-second headset, 230-second input device, 240-second memory.

Detailed Description

The present invention will be described more fully with reference to the accompanying drawings. Those of ordinary skill in the art will be able to implement the invention based on these descriptions. Before the present invention is described with reference to the accompanying drawings, it is to be noted that:

the technical solutions and features provided in the present invention in each part including the following description may be combined with each other without conflict.

Moreover, references to embodiments of the invention in the following description are generally only to be considered as examples of the invention, and not as all embodiments. Therefore, all other embodiments obtained by a person of ordinary skill in the art without creative efforts based on the embodiments of the present invention shall fall within the protection scope of the present invention.

With respect to the terms and units of the present invention. The terms "comprising," "having," and any variations thereof in the description and claims of this invention and the related sections are intended to cover non-exclusive inclusions.

Example 1

Fig. 1 is a schematic structural diagram of an ultrasound remote application system according to the present embodiment.

As shown in fig. 1, the ultrasound remote application system includes a first component 100 provided in an examination room for acquiring examination room data of the examination room, and a second component 200 provided in an ultrasound application center outside the examination room, the second component 200 being in communication with the first component 100.

The first assembly 100 comprises an ultrasound machine 110, a first display unit, a camera 130, a first headset 140, a first input device 150 and a first memory 160; wherein the ultrasound machine 110 is used for acquiring an ultrasound image or image of a patient; the first display unit is used for displaying the ultrasonic image or the image; the camera 130 is used for collecting operation images of an examining physician; the first headset 140 is used for communication with a patient while a doctor in an examination room converses with a user in an ultrasound application center, and the first headset 140 is a single-ear headset.

The first display unit includes a first display 121 and a second display 122; the first display 121 is used for daily work of an examination room, such as ultrasonic data entry, report editing and the like; the second display 122 is a medical display for displaying the dynamic images acquired by the ultrasound machine 110 in real time.

The second assembly 200 comprises a second display unit, a second headset 220, a second input device 230 and a second memory 240; wherein, the second display unit is used for receiving and displaying the examination room data acquired by the first assembly 100; the second headset 220 is used for the dialog between the examination room physician and the ultrasound application center user, and possibly between a plurality of ultrasound application center users, the second headset 220 being a binaural headset.

The second display unit includes a third display 211, a fourth display 212, and a fifth display 213; the third display 211 is used for daily work of the ultrasound application center, such as ultrasound report auditing and the like; the fourth display 212 is a medical display, and is used for displaying the examination room data and supporting hard decoding of maximum 8-channel high-definition images; the fifth display 213 has a 65 inch screen.

The first input device 150 and the second input device 230 include a mouse and a keyboard.

The ultrasonic application center is a consultation center, a quality control center or an auditing center.

The examination room is located in a hospital, a branch office, a subordinate hospital or other medical facility in which the ultrasound application center is located.

Data is transmitted between the first assembly 100 and the second assembly 200 through an RJ45 network.

Optionally, the CPU configuration of the first display unit is preferably not lower than I56500T to ensure low latency of H264/H265 while supporting digital signals (e.g., HDMI, DP, DVI-I) and analog signals (e.g., VGA, S-Video, SDI).

Optionally, the second display unit is preferably configured not to be lower than i7 to ensure that multiple images are displayed simultaneously in real time.

Claims (10)

1. An ultrasound remote application system, characterized by: comprises that

A first assembly (100) for providing an examination room, said first assembly (100) being adapted for acquiring examination room data of an examination room, said first assembly (100) comprising:

an ultrasound machine (110) for acquiring ultrasound images or images of a patient; and

the first display unit is used for displaying the ultrasonic image or the image;

a second assembly (200) for an ultrasound application center located outside of an examination room, the second assembly (200) being in communication with the first assembly (100), the second assembly (200) comprising:

a second display unit for receiving and displaying the examination room data acquired by the first assembly (100).

2. The ultrasound remote application system of claim 1, wherein: the first assembly (100) further comprises a camera (130), wherein the camera (130) is used for acquiring operation images of an examining physician.

3. The ultrasound remote application system of claim 1, wherein: the first assembly (100) has a first headset (140) and the second assembly (200) has a second headset (220), and an examining physician has a dialogue with the ultrasound application center user through the first headset (140) and the second headset (220).

4. The ultrasound remote application system of claim 3, wherein: the first headset (140) is a monaural headset; the second headset (220) is a binaural headset.

5. The ultrasound remote application system of claim 1, wherein: the first display unit includes:

a first display (121) for daily work in the examination room;

and the second display (122) is used for displaying the dynamic images acquired by the ultrasonic machine (110) in real time.

6. The ultrasound remote application system of claim 1, wherein: the second display unit includes:

a third display (211) for daily work in the ultrasound application center;

a fourth display (212) for displaying the examination room data.

7. The ultrasound remote application system of claim 6, wherein: the second display unit further comprises a fifth display (213), and the fifth display (213) is provided with a screen which is larger than or equal to 50 inches.

8. The ultrasound remote application system of claim 1, wherein: the first assembly (100) and the second assembly (200) each further comprise an input device; the first assembly (100) and the second assembly (200) each further comprise a memory.

9. The ultrasound remote application system of claim 1, wherein: the ultrasonic application center is a consultation center, a quality control center or an auditing center.

10. The ultrasound remote application system of claim 1, wherein: the examination room is located in a hospital, a division hospital or a subordinate hospital of a hospital where the ultrasound application center is located.

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