CN215017149U - Portable flexible hysteroscope - Google Patents
Portable flexible hysteroscope Download PDFInfo
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- CN215017149U CN215017149U CN202120821854.1U CN202120821854U CN215017149U CN 215017149 U CN215017149 U CN 215017149U CN 202120821854 U CN202120821854 U CN 202120821854U CN 215017149 U CN215017149 U CN 215017149U
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Abstract
The utility model discloses a portable flexible hysteroscope, which comprises a flexible detection tube at the front end and a handle at the rear end; the flexible detection tube is of a hollow soft tube structure and is bent under a stress state; the flexible detection tube comprises a flexible packaging tube body and a detection head arranged on the front end face of the flexible packaging tube body, the detection head comprises a packaging plate, a lens and a light source which are arranged on the packaging plate, a signal transmission line connected with the lens and the light source is arranged in an inner cavity of the flexible packaging tube body, and the rear end of the flexible packaging tube body is connected with the front end of the handle; the handle is a hard cavity structure, a data converter is arranged in the inner cavity, and an on-off key and a data transmission interface are arranged on the outer surface of the handle. The utility model discloses increase the flexible degree of detecting tube, reduce and cause the damage to uterus inner wall and cervical orifice in the testing process, can examine under the no anesthesia state of outpatient service, avoided various misery and the damage that palace chamber inspection process caused, reduce the cost, the formation of image is swift clear.
Description
Technical Field
The utility model belongs to the technical field of medical instrument, specifically indicate a portable flexible hysteroscope.
Background
The hysteroscope is an endoscope which is commonly used for the examination and treatment in the uterine cavity of the gynecology department and mainly comprises the hysteroscope, an energy system, a light source system, a perfusion system and an imaging system. When the endoscope is used, the front part of the endoscope body enters the uterine cavity, and the part needing to be observed is subjected to amplification real-time imaging, so that a simple and effective detection method is provided for diagnosing gynecological hemorrhagic diseases and intrauterine pathological changes.
At present, the hysteroscope which is most widely used clinically is a hard hysteroscope, and when the hysteroscope is used, a patient needs to be anesthetized firstly, then a special cervical dilator is adopted to dilate the cervix under the anesthesia state of the patient, and finally, a uterine cavity lens can be inserted into the uterine cavity for observation. The whole operation process is quite complicated, and has high requirements on the physical state of a patient and the professional skill of a doctor. Most importantly, the hard hysteroscope inevitably causes uncomfortable symptoms such as pain and bleeding after operation, and even some patients need to lie in bed for rest. The main reason for the problems is that the whole hysteroscope is made of hard metal materials and is not friendly to the uterine cavity environment; still another reason is that the hysteroscope is not small enough in size and inevitably causes friction when passing through the cervical orifice. The Endosee hysteroscope series developed by Cooper Surgical company at present solves part of the problems and realizes the detection under the condition of outpatient service without anesthesia. However, the series of products still cause pain and bleeding during use, and the main reasons are two: firstly, compared with a hard hysteroscope, the product has the advantages that the appearance of the product is increased by a soft material to coat the detection scope body part, but the interior of the hysteroscope is still a metal hard tube cavity, the design can only weaken the endometrial injury caused by contact when part of the hard hysteroscope is inserted for detection, and the integral rigid design has a friendly degree to the soft tissue environment of the endometrium which needs to be improved; secondly, the diameter of the detection lens of the Endosee series products is 4.3mm, and the size is slightly larger than the average size of the cervical orifice by 4mm, so that when the detection is carried out under the conditions of no anesthesia and no cervical dilatation, the cervical orifice is inevitably stimulated to cause the problems of pain, bleeding and the like.
Disclosure of Invention
To prior art's weak point, the utility model provides a portable flexible hysteroscope increases its flexibility degree as far as under the rigidity condition that the assurance can insert the detection, reduces and causes the damage to uterus inner wall and cervical orifice in the testing process.
In order to achieve the purpose, the portable flexible hysteroscope designed by the utility model is characterized by comprising a flexible detection tube at the front end and a handle at the rear end;
the flexible detection tube is of a soft tube body structure and is bent under a stress state; the flexible detection tube comprises a flexible packaging tube body and a detection head arranged on the front end face of the flexible packaging tube body, the detection head comprises a packaging plate, a lens and a light source which are arranged on the packaging plate, a signal transmission line connected with the lens and the light source is arranged in an inner cavity of the flexible packaging tube body, and the rear end of the flexible packaging tube body is connected with the front end of the handle;
the handle is a hard cavity structure, a data converter is arranged in the inner cavity, an on-off key and a data transmission interface are arranged on the outer surface of the handle, the signal transmission line is connected with the data converter, and the data converter is connected with the on-off key.
Furthermore, the diameter of the flexible detection tube is not more than 2.5mm, the size of the detection lens part is about 2mm, and damage to the endometrium and the cervical orifice of the hysteroscope in the detection process is greatly reduced.
Furthermore, the length of the flexible detection tube is 10-25 cm, length scale marks are arranged on the surface of the flexible detection tube, and scales are arranged on the surface of the flexible detection tube, so that the depth of the flexible detection tube entering the uterine cavity can be measured while detection is carried out.
Furthermore, a 15-40-degree chamfer is arranged at a position 1-2 cm away from the front end of the flexible detection tube, the observation area can be switched by rotating the handle at any angle, and the flexible detection tube can penetrate into the uterine cavity environment for multiple times to obtain the best imaging effect.
Furthermore, the handle is in an oval shape, a circular shape, a semicircular shape or a rectangular shape with a chamfer angle, so that the handle is convenient for a user to operate.
Furthermore, the handle is of a detachable structure and comprises a handle front end and a handle rear end, and the handle front end and the handle rear end are in clamping fit with the flexible detection tube in fixed connection. The detection tube part and the handle part can be detached, the detection tube part can be subjected to independent disinfection treatment, and the detection tube part is only required to be mounted when the endoscope is used.
Furthermore, the card interfaces at the front end and the rear end of the handle comprise limiting card pieces at two sides and a data connecting piece in the middle.
Furthermore, the on-off key is located on the upper surface of the handle, the data transmission interface is located at the rear end of the handle, the data conversion device is arranged in the handle portion, the power switch for controlling the camera and the light source is arranged outside the handle portion, and the data interface is arranged at the tail portion of the handle portion to facilitate data transmission and image display.
Furthermore, the data transmission interface is a USB interface or an HDMI interface, and is used for transmitting the image signal collected by the camera.
Furthermore, the lens arranged on the packaging plate is positioned in the middle, and the plurality of light sources are symmetrically arranged around the lens.
The utility model realizes the use of the hysteroscope when needed under the non-anesthesia state, and can be used for the hysteroscope examination of the patient conveniently in the outpatient service. The portable design can realize that the hysteroscope repeatedly inserts the palace chamber environment many times and detects, simultaneously because the structure of probing into the inside of palace chamber is complete flexible component, can not have any wound to patient's palace chamber in the inspection process, can avoid patient's pain and the hemorrhage scheduling problem in later stage.
Because the upgraded and transformed hysteroscope detection tube is a flexible device completely, the examination requirements of doctors and patients are greatly simplified. Because the system can realize nondestructive and repeated detection of photographing the environment of the uterus in the environment of the uterine cavity, compared with the traditional B ultrasonic detection or other hysteroscopes, the system realizes the acquisition of more visual information under the condition of zero damage, and can obviously improve the understanding of the environment of the uterine cavity and the diagnosis effect of uterine cavity diseases.
The portable flexible hysteroscope is visual, simple and convenient, has the characteristic of zero damage to the uterine cavity environment of a patient, can break through the application range of the traditional hysteroscope, and visually knows the specific environment of the uterine cavity through the portable flexible hysteroscope under more conditions. The examination can be even incorporated into the routine gynecological examination items to replace the common negative ultrasonography items. Especially, in some operations which need to know the uterine cavity environment immediately and have higher requirements on the uterine cavity environment, such as embryo transplantation operation, a brand new auxiliary detection means is provided, and the success rate of the operation is improved for embryo transplantation.
Compared with the prior art, the utility model discloses following profitable technological effect has:
(1) the utility model provides a portable flexible hysteroscope, its structure is simple and convenient reasonable, and easy operation can inspect under the no anesthesia state of outpatient service, has avoided various misery and damages that palace chamber inspection process caused, reduce cost, and the swift clear palace chamber mirror that forms images
(2) The utility model adopts the miniature camera with the diameter of 1mm to be provided with the cold light source and then to carry out the flexible device encapsulation, thereby realizing that the size of the detection lens part is about 2mm and greatly reducing the damage of the hysteroscope to the endometrium and the cervical orifice in the detection process;
(3) the detection tube structure provided by the utility model does not contain a hard tube cavity, and all tube cavity packaging materials are flexible high polymer materials with low elastic modulus, so that the flexibility of the detection tube cavity is ensured;
(4) the utility model can realize the use of the hysteroscope when needed under the non-anesthesia state, can quickly carry out nondestructive probing detection under the outpatient condition, and can quickly and simply acquire the environment condition of the uterine cavity;
(5) the utility model discloses the angle and the scope of detection can be adjusted at any time as required, have enlarged the detection range in palace chamber, can realize that palace chamber environment detects the state at no dead angle.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention.
Fig. 2 is a schematic structural diagram of the detection head in fig. 1.
FIG. 3 is a schematic cross-sectional view of the flexible test tube of FIG. 1.
Fig. 4 is a structural schematic diagram of the handle in fig. 1 in a disassembled state.
In the figure: the detection device comprises a detection head 1, a flexible detection tube 2, a handle 3, a handle front end 3.1, a handle rear end 3.2, a limiting clamping piece 3.3, a data connecting piece 3.4, an on-off key 4, a data transmission interface 5, a data converter 6, a flexible packaging tube body 7, a data transmission line 8, a light source line 9, a packaging plate 10, a light source 11 and a lens 12.
Detailed Description
The invention is described in further detail below with reference to the figures and the specific embodiments.
As shown in fig. 1-4, the utility model provides a portable flexible hysteroscope, which comprises a flexible detection tube 2 at the front end and a handle 3 at the rear end.
The flexible detection tube 2 is of a soft tube body structure and is bent under a stress state; the flexible detection tube 2 comprises a flexible packaging tube body 7 and a detection head 1 arranged on the front end face of the flexible packaging tube body 7, and the detection head 1 comprises a packaging plate 10, and a lens 12 and a light source 11 which are arranged on the packaging plate 10. The lens 12 disposed on the package plate 10 is located in the middle, and the plurality of light sources 11 are symmetrically disposed around the lens 12. The camera and the four light sources are adopted in the implementation, and the number and the positions of the camera and the light sources can be adjusted according to actual requirements. The lens 12 in this embodiment is implemented by an OVM6948 model image sensor. The light source 11 is realized by an LED cold light source.
The flexible detection tube 2 does not contain a hard tube cavity, the whole flexible detection tube can be bent at any angle, all tube cavity packaging materials are flexible high polymer materials with low elastic modulus, such as silica gel and silicon rubber, and the flexibility of the detection tube cavity is guaranteed. The diameter of the flexible detection tube 2 is not more than 2.5mm, the length is 10-25 cm, length scale marks are arranged on the surface, and the depth of the detection tube entering the uterine cavity can be measured while detection is carried out. And a 15-40-degree chamfer is arranged at the position of the flexible detection tube 2, which is 1-2 cm away from the front end.
A signal transmission line connected with the lens 12 and the light source 11 is arranged in the inner cavity of the flexible packaging tube body 7, and the rear end of the flexible packaging tube body 7 is connected with the front end of the handle 3; the signal transmission line is a data transmission line 8 and a light source line 9 connected to the lens 12 and the light source 11, respectively.
The handle 3 is internally provided with a data conversion device 6, the outside is provided with a power switch for controlling the lens 12 and the light source 11, and the tail part is provided with a data interface 5 for facilitating data transmission and image display. The handle 3 is a hard cavity structure, a data converter 6 is arranged in the inner cavity, an on-off key 4 and a data transmission interface 5 are arranged on the outer surface of the handle, a data transmission line 8 and a light source line 9 are connected with the data converter 6, and the data converter 6 is connected with the on-off key 4. And 6 is an OVM6948 data converter.
The shape of the handle 3 is oval, circular, semicircular or rectangular with chamfers. The handle 3 is detachable structure, including handle front end 3.1 and handle rear end 3.2, with the cooperation of flexible detection pipe 2 fixed connection's handle front end 3.1 and handle rear end 3.2 joint. The joint interface of the front end 3.1 and the rear end 3.2 of the handle comprises limiting joint parts 3.3 at two sides and a data connecting part 3.4 in the middle. Spacing joint spare 3.3 is used for the fixed joint of handle front end 3.1 and handle rear end 3.2, and data connection spare 3.4 is used for realizing that data transmission line 8 and light source line 9 are connected with data converter 6's electricity.
The switch key 4 is positioned on the upper surface of the handle 3, and the data transmission interface 5 is positioned at the rear end of the handle 3. The data transmission interface 5 is a USB interface or an HDMI interface, and can be connected to a computer or a small-sized display device to image an observed image.
When the utility model works, the real-time imaging can be realized only by starting the switch key 4 and slightly inserting the flexible detection tube 2 into the uterine cavity; meanwhile, the observation area can be switched by rotating the handle 3 at any angle. The portable flexible hysteroscope can realize multiple times of probing into the uterine cavity environment to obtain the optimal imaging effect.
The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.
Claims (10)
1. A portable flexible hysteroscope is characterized in that: comprises a flexible detection tube (2) positioned at the front end and a handle (3) positioned at the rear end;
the flexible detection tube (2) is of a soft tube body structure and is bent under a stress state; the flexible detection tube (2) comprises a flexible packaging tube body (7) and a detection head (1) arranged on the front end face of the flexible packaging tube body (7), the detection head (1) comprises a packaging plate (10), a lens (12) and a light source (11) which are arranged on the packaging plate (10), a signal transmission line connected with the lens (12) and the light source (11) is arranged in an inner cavity of the flexible packaging tube body (7), and the rear end of the flexible packaging tube body (7) is connected with the front end of the handle (3);
the handle (3) is of a hard cavity structure, a data converter (6) is arranged in the inner cavity, an on-off key (4) and a data transmission interface (5) are arranged on the outer surface of the inner cavity, the signal transmission line is connected with the data converter (6), and the data converter (6) is connected with the on-off key (4).
2. A portable flexible hysteroscope according to claim 1, characterized in that: the diameter of the flexible detection tube (2) is not more than 2.5 mm.
3. A portable flexible hysteroscope according to claim 1, characterized in that: the length of the flexible detection tube (2) is 10-25 cm, and length scale marks are arranged on the surface of the flexible detection tube.
4. A portable flexible hysteroscope according to claim 3, characterized in that: and a 15-40-degree chamfer is arranged at the position of the flexible detection tube (2) which is 1-2 cm away from the front end.
5. A portable flexible hysteroscope according to claim 1, characterized in that: the handle (3) is oval, round, semicircular or rectangular with a chamfer.
6. A portable flexible hysteroscope according to claim 1, characterized in that: handle (3) are detachable construction, including handle front end (3.1) and handle rear end (3.2), with flexible detection pipe (2) fixed connection's handle front end (3.1) and handle rear end (3.2) joint cooperation.
7. A portable flexible hysteroscope according to claim 6, characterized in that: the joint interface of the front end (3.1) of the handle and the rear end (3.2) of the handle comprises limiting joint parts (3.3) at two sides and a data connecting part (3.4) in the middle.
8. A portable flexible hysteroscope according to claim 1, characterized in that: the on-off key (4) is located on the upper surface of the handle (3), and the data transmission interface (5) is located at the rear end of the handle (3).
9. A portable flexible hysteroscope according to claim 8, wherein: the signal transmission line is a data transmission line (8) and a light source line (9) which are respectively connected with the lens (12) and the light source (11), and the data transmission interface (5) is a USB interface or an HDMI interface.
10. A portable flexible hysteroscope according to claim 1, characterized in that: the packaging plate (10) is provided with a lens (12) positioned in the middle, and a plurality of light sources (11) are symmetrically arranged around the lens (12).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120821854.1U CN215017149U (en) | 2021-04-21 | 2021-04-21 | Portable flexible hysteroscope |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202120821854.1U CN215017149U (en) | 2021-04-21 | 2021-04-21 | Portable flexible hysteroscope |
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CN215017149U true CN215017149U (en) | 2021-12-07 |
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CN202120821854.1U Active CN215017149U (en) | 2021-04-21 | 2021-04-21 | Portable flexible hysteroscope |
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2021
- 2021-04-21 CN CN202120821854.1U patent/CN215017149U/en active Active
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