CN211094579U - Visual ultrasonic endoscope induced abortion system - Google Patents

Abstract

The utility model discloses a visible ultrasonic endoscope induced abortion system, which comprises a direct view image processor and an ultrasonic image processor, wherein the direct view image processor is used for forming an endoscope system, the ultrasonic image processor is used for forming a B ultrasonic system, one of the direct view image processor and the ultrasonic image processor is an upper computer relative to the other, and the direct view image processor and the ultrasonic image processor are connected through a communication cable; the upper computer is connected with a display through a computer; the display is provided with three display areas for displaying a UI operation interface, a B-mode ultrasonic image and a direct-view image. Preferably, the direct view image processor is connected with a negative pressure aspirator; the display, the direct view image processor, the ultrasonic image processor, the computer and the negative pressure suction device are sequentially arranged on the same trolley from top to bottom. The beneficial effects of the utility model are that, full play endoscope and ultrasonic examination's technical advantage improves the diagnosis accuracy, shortens the operation time, improves operation efficiency to can greatly reduce or eliminate the hidden danger that causes the accidental injury to the patient, reduce patient's misery, and the emergence probability of complication.

Description

Visual ultrasonic endoscope induced abortion system

Technical Field

The utility model relates to the field of gynecological imaging inspection and induced abortion operation, in particular to a visible ultrasonic endoscope induced abortion system.

Background

The existing induced abortion technology mainly comprises three types, wherein the first type is blind scraping and suction surgery, the operation experience of a doctor is mainly relied on, the uterine cavity is comprehensively sucked and scraped, the injury to a patient is very large, and accidents such as perforation or postoperative complications and the like exist till now. The other is to perform human suction under the ultrasonic guidance, and the operation mode is influenced by various factors such as blood flow, air, coupling agent and the like, so that the imaging is unstable, and the operation and judgment time of a doctor is long. The other is direct-vision induced abortion operation, the internal condition of the uterine cavity is directly observed through a camera at the front end of the suction tube, the imaging effect is good, but the camera cannot carry out overall observation on the uterine cavity due to the limitation of the field angle, and the efficiency is not much different from that of the superconducting induced abortion operation.

Generally, the existing doctors are experienced in performing induced abortion operations; the prior art means either carries out global monitoring on the uterine cavity but cannot directly image; or direct imaging, but not globally monitored. For this reason, improvements are required.

Disclosure of Invention

The utility model aims at in current gynaecology's image inspection or the stream of people operation, the defect that direct imaging and global monitoring can not effectively fuse, a visual ultrasonic endoscope stream of people system is provided, this system is through effectively integrating together with the direct imaging of endoscope and global monitoring system in the ultrasonic inspection, in order in gynaecology's image inspection or the stream of people operation, can utilize the image directly perceived characteristic of direct imaging, and the global monitoring characteristic of ultrasonic inspection, carry out comprehensive observation or operation, the two technical advantage of full play, improve diagnostic accuracy or operation efficiency and effect.

In order to achieve the above purpose, the present invention adopts the following technical solution.

A visual ultrasonic endoscope induced abortion system comprises a direct-view image processor and an ultrasonic image processor, wherein the direct-view image processor is used for forming an endoscope system, the ultrasonic image processor is used for forming a B ultrasonic system, one of the direct-view image processor and the ultrasonic image processor is an upper computer relative to the other, and the direct-view image processor and the ultrasonic image processor are connected through a communication cable; the upper computer is connected with a display through a computer; the display is provided with three display areas for displaying a UI operation interface, a B-mode ultrasonic image and a direct-view image.

Adopt aforementioned technical scheme the utility model discloses, through the effective integration of global monitoring system in the direct imaging with the endoscope and the ultrasonic examination together, in order in gynaecology's image inspection or the stream of people operation, utilize the image directly perceived characteristic of direct imaging simultaneously, and the global monitoring characteristic of ultrasonic examination, synthesize and observe or the operation, with the two technical advantage of full play, improve the diagnosis accuracy, shorten operation time, improve operation efficiency, and can greatly reduce or eliminate the hidden danger that causes the accidental injury to the patient, it is painful to reduce the patient, and the emergence probability of complication.

Preferably, the direct view image processor, the ultrasonic image processor and the computer are arranged by the same trolley. So as to improve the convenience of examination or operation and facilitate the preparation of preoperative equipment and the cleaning of postoperative equipment.

Further preferably, the endoscope system further includes a negative pressure suction unit, and the negative pressure suction unit is also provided on the cart. Further form overall structure, improve convenient operation nature, reduce before the art and the postoperative work, raise the efficiency.

Further preferably, the display is also provided on the dolly. Further improving the convenience of examination or surgical observation.

Preferably, the direct view image processor has a direct view socket that plugs the direct view suction tube. The direct-view suction tube and the ultrasonic image processor form a plug-in structure so as to be convenient for trolley pushing in the disassembly state of the direct-view suction tube and reduce or eliminate the hidden trouble of damage caused by winding and scraping of the direct-view suction tube and other objects.

Preferably, the ultrasound image processor has an ultrasound socket for plugging in a B-ultrasound probe. The B ultrasonic probe and the ultrasonic image processor form an inserting structure so as to be convenient for trolley pushing in a state that the B ultrasonic probe is disassembled, and the hidden danger of damage caused by winding and scraping of the B ultrasonic probe and other objects is reduced or eliminated.

Preferably, the ultrasonic image processor is an upper computer. The method includes the steps that a relatively simple ultrasonic image processing signal is incorporated into a processing system of a relatively complex direct-view image processor and is transmitted to a computer through an output port of unified management, so that a communication interface and a communication protocol between the direct-view image processor and the ultrasonic image processor are simple to construct, the communication fault rate is reduced, and the stability and the reliability of equipment operation are ensured.

Further preferably, in a scheme in which the display is provided on the cart, the display, the direct view image processor and the ultrasonic image processor are sequentially provided from top to bottom. The gravity center of the trolley is reduced according to the principle that the part with heavy weight is close to the lower part, the pushing stability of the trolley is improved, and the safety is ensured.

Still further preferably, the computer is located below the ultrasound image processor. So that the ultrasonic image processor is provided with a plug-in B ultrasonic probe which is positioned at a higher position, and the operation is convenient.

Further preferably, in a configuration in which the vacuum extractor is provided on the cart, the vacuum extractor is located below the cart. Because the negative pressure suction apparatus has a vibrating mechanical motion, the influence of vibration on each system on the whole trolley can be effectively reduced by arranging the negative pressure suction apparatus at the bottom of the trolley, and the running reliability of the system is improved.

The utility model has the advantages that: 1. because the traditional B ultrasonic image is affected by blood, air and the like, the image is difficult to judge, and the judgment is wrong, and in addition, the examination time of a doctor is relatively long; the tissue condition can be directly observed in the direct-view image observation, but the direct-view image acquisition is realized through a camera, the depth of field and the field angle of the camera are limited, so that the direct-view image cannot be used for carrying out all examinations of the uterine cavity in a short time, and when the examination is carried out by only depending on the direct-view image, no range scale exists, and the incomplete examination can possibly exist; through the effective integration of the two technologies, the real-time and comprehensive monitoring of the B-ultrasonic can be realized, the position of the direct-view suction tube can be displayed on a B-ultrasonic image in real time, on one hand, the uterine cavity is ensured to be inspected by the direct-view image, no omission occurs, on the other hand, when the abnormal point is found by the ultrasonic, the confirmation can be carried out through the direct-view image, and the efficiency and the quality of the operation are improved; 2. the existing ultrasonic system and the existing direct-view image system are two independent systems, two independent power supplies and two independent control programs are needed, the ultrasonic technology and the direct-view technology are orderly integrated, only one control program, one power supply and one display are needed, the operation difficulty of a doctor is greatly reduced, and the space of an operating room occupied by equipment is also reduced; 3. the system is additionally characterized in that the ultrasonic and direct-view image processing system can be used independently, doctors can flexibly process the ultrasonic and direct-view image processing system according to requirements, and when the system is used, the communication line is only required to be pulled out, so that the purpose of multiple using modes of one product is achieved.

The utility model discloses the technical advantage of full play endoscope and ultrasonic examination improves the diagnosis accuracy, shortens the operation time, improves operation efficiency to can greatly reduce or eliminate the hidden danger that causes the accidental injury to the patient, reduce patient's misery, and the emergence probability of complication.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

The present invention will be further described with reference to the accompanying drawings, which are not intended to limit the scope of the embodiments described herein.

Referring to fig. 1, a visual ultrasonic endoscope induced abortion system comprises a direct view image processor 2 for forming an endoscope system and an ultrasonic image processor 4 for forming a B-ultrasonic system, wherein one of the direct view image processor 2 and the ultrasonic image processor 4 is an upper computer relative to the other, and the two are connected through a communication cable 3; the upper computer is connected with a display 1 through a computer 5; the display 1 is provided with three display areas for displaying a UI operation interface, a B-ultrasonic image and a direct-view image, and the three display areas respectively correspond to an area A, an area B and an area C; the endoscope system further includes a negative pressure aspirator 6.

Wherein, the direct-view image processor 2 is provided with a direct-view socket for inserting the direct-view suction tube 8, and the direct-view socket is connected with the direct-view suction tube 8; the ultrasonic image processor 4 has an ultrasonic socket for plugging the B-ultrasonic probe 9, and the ultrasonic socket is connected with the B-ultrasonic probe 9.

The display 1, the direct-view image processor 2, the ultrasonic image processor 4, the computer 5 and the negative pressure suction device 6 are arranged on the same trolley 7; the ultrasonic image processor 4, the computer 5 and the negative pressure suction apparatus 6 are sequentially arranged from top to bottom according to the sequence of the display 1, the direct view image processor 2, the ultrasonic image processor 4 and the negative pressure suction apparatus 6, and the display 1 is a touch screen display.

In this embodiment, the ultrasonic image processor 4 and the direct-view image processor 2 respectively constitute an upper computer and a lower computer which are opposite to each other.

Obviously, in this embodiment, the direct image processor 2 can also be used as an opposite upper computer, and the ultrasonic image processor 4 can be used as an opposite lower computer.

The utility model discloses when carrying out gynaecology's image inspection or stream of people's operation, the working process as follows.

1. Powering up a system: after the system is powered on, a computer 5 serving as a control center is started, and then a direct-view suction tube 8 and a B-ultrasonic probe 9 are respectively inserted into the direct-view image processor 2 and the ultrasonic image processor 4; wherein, the direct-view suction tube 8 extends into the uterine cavity through the channel of the duckbill, and the direct-view suction tube 8 is used for direct-view image acquisition and can directly observe the local condition in the uterine cavity; the B ultrasonic probe 9 is an intracavity ultrasonic probe, is fixed outside the uterine cavity through a customized duckbill device and is used for comprehensively monitoring the uterine cavity;

2. sequentially starting the direct view image processor 2, the ultrasonic image processor 4 and the display 1; the ultrasonic image processor 4 is an upper computer relative to the direct-view image processor 2, and the direct-view image processor 2 and the ultrasonic image processor 4 are connected through 1 communication cable to transmit data;

3. opening a control program on the computer 5, dividing a program interface into three ABC areas on the display, wherein the three areas respectively display different contents, and the area A displays a UI operation interface, such as photographing, recording, setting and the like; b area displays B ultrasonic image, C area displays direct-view image;

4. a UI operation interface is displayed through an area A of the display 1, and gynecological image examination or abortion operation examination operation is performed in a mode of combining an endoscope and ultrasound;

in the working process of the system, data collected by the direct-view suction tube 8 are firstly processed by the direct-view image processor 2, the processed image data are transmitted to the ultrasonic image processor 4 which is arranged at the upper position relatively through the communication cable 3, the ultrasonic image processor 4 transmits ultrasonic image data obtained through the B ultrasonic probe 9 and the direct-view image data transmitted by the direct-view image processor 2 to the computer 5 together, and after the data are processed by the computer 5, B, C display areas on the display 1 are respectively displayed; the B-ultrasonic probe 9 can monitor the uterine cavity comprehensively, can find embryos or other abnormal tissues at the first time, and then confirms the direct-view images through the direct-view suction tube 8 so as to confirm the abnormal tissues or the embryo tissues in the shortest time; when biopsy sampling or induced abortion surgery is required, accurate fixed-point suction is carried out through the direct-vision suction tube 8;

5. the aspirated tissue passes through a tube into the vial of the vacuum extractor 6 for subsequent confirmation.

This system is as relative host computer at direct-view image processor 2, when ultrasonic image processor 4 is as relative host computer, in the operation process, the data that B ultrasonic probe 9 gathered are at first handled through ultrasonic image processor 4, ultrasonic image data after handling transmits for relative host position direct-view image processor 2 department through communication cable 3, direct-view image processor 2 will be transmitted the computer 5 as the control centre through the direct-view image data that the direct-view attracts pipe 8 gathered and the ultrasonic image data that ultrasonic image processor 4 transmitted, handle the back through computer 5 again, C, B display area shows respectively on display 1.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (10)

1. A visual ultrasonic endoscope induced abortion system comprises a direct view image processor (2) for forming an endoscope system and an ultrasonic image processor (4) for forming a B-ultrasonic system, and is characterized in that one of the direct view image processor (2) and the ultrasonic image processor (4) is an upper computer relative to the other, and the direct view image processor and the ultrasonic image processor are connected through a communication cable (3); the upper computer is connected with a display (1) through a computer (5); the display (1) is provided with three display areas for displaying a UI operation interface, a B-mode ultrasonic image and a direct-view image.

2. Visual ultrasonic endoscopic abortion system, according to claim 1, characterized, that the direct view image processor (2), the ultrasonic image processor (4) and the computer (5) are provided by the same trolley (7).

3. A visual ultrasonic endoscopic abortion system, according to claim 2, wherein said endoscopic system further comprises a negative pressure aspirator (6), the negative pressure aspirator (6) also being provided on said trolley (7).

4. A visual ultrasound endoscopic abortion system, according to claim 2, wherein said display (1) is also provided on said trolley (7).

5. The visual ultrasound endoscope abortion system of claim 1, wherein the direct view image processor (2) has a direct view socket to plug in a direct view suction tube (8).

6. A visual ultrasound endoscopic abortion system, according to claim 1, wherein the ultrasound image processor (4) has an ultrasound socket to which the B-ultrasound probe (9) is plugged.

7. A visual ultrasonic endoscope induced abortion system according to any one of claims 1 to 6, wherein the ultrasonic image processor (4) is an upper computer.

8. The visual ultrasonic endoscopic abortion system according to claim 7, wherein, in the aspect that the display (1) is provided on the trolley (7), the display (1), the direct view processor (2) and the ultrasonic image processor (4) are sequentially provided from top to bottom.

9. A visual ultrasound endoscopic abortion system, according to claim 8, wherein said computer (5) is located below the ultrasound image processor (4).

10. A visual ultrasonic endoscopic abortion system, according to claim 7, wherein, in case the negative pressure aspirator (6) is provided on the trolley (7), the negative pressure aspirator (6) is located at the lower part of said trolley (7).

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