CN215584080U

CN215584080U - Multi-point observation endoscope probe

Info

Publication number: CN215584080U
Application number: CN202120357356.6U
Authority: CN
Inventors: 江俊波; 赵刚; 代慧婷; 高陈; 程跃
Original assignee: Anhui Medical University
Current assignee: Anhui Medical University
Priority date: 2021-02-07
Filing date: 2021-02-07
Publication date: 2022-01-21
Anticipated expiration: 2031-02-07

Abstract

The utility model discloses a multi-point observation endoscope probe, which comprises an endoscopic probe and a tube body movably sleeved on the periphery of the endoscopic probe, wherein the endoscopic probe comprises a hard rod piece, an elastic hose and a camera shooting assembly which are sequentially connected; the extending end of the hard rod is connected with a controller for driving the endoscopic probe to axially displace; when the elastic hose is not restrained, a preset bending angle is formed by the extending end of the elastic hose; the number of the endoscopic probes is at least three. The elastic hose is made of a memory nickel-titanium alloy material, so that the elastic hose can present a preset bending angle after extending out of the hose body, and can stretch the organ mucosa covered on the hose body; the multi-angle observation is realized to at least three endoscopic probes, has enlarged the observation field of vision, strengthens using the flexibility. The endoscope device effectively improves the shooting range of the endoscope, improves the practical degree of the endoscope device to a certain extent, greatly reduces the endoscope examination time, and reduces the pain of patients and the operation risk.

Description

Multi-point observation endoscope probe

Technical Field

The utility model relates to the field of medical instruments, in particular to a multi-point observation endoscope probe.

Background

Endoscopes generally refer to medical instruments that enter the body through natural orifices or small surgical incisions in the body to observe the internal conditions of the body. The lesion that cannot be visualized by X-rays can be seen with an endoscope, so its help to the physician is obvious. For example, an endoscopist can observe ulcers or canceration in the stomach, and an optimal treatment plan is made according to the ulcers or canceration. Some endoscopes have therapeutic functions, such as laparoscopes, colonoscopes, gastroscopes, bronchoscopes, cystoscopes, and the like.

Endoscopes have two important performance criteria, namely imaging quality and field of view. With the rapid progress of medical imaging, the development of high-definition endoscope imaging technology is greatly promoted, the in-vivo high-resolution imaging is realized, and the imaging quality basically meets the requirements of the existing medicine. However, there is a limitation in the observation field of the endoscope.

The medical endoscope is a common medical apparatus and consists of a host machine, an insertion tube and a probe, wherein the insertion tube can be a hard tube or a soft tube, the tail end of the insertion tube is a cylindrical probe, and an electronic lens or an optical lens is arranged in the insertion tube. The host computer is observed with the cooperation of camera lens. When in use, the probe is guided into a cavity-shaped duct of a pre-examined organ, such as an esophagus, a trachea, an anus and the like, through the insertion tube so as to observe the condition of the inner cavity. Because the probe and the insertion tube are both tubular objects with small diameters and are inserted into the cavity-shaped organ, the inserted probe is often covered by the surrounding organ mucosa, so that the probe can only observe the condition of the front organ mucosa, only one point is used for observation, the observation angle cannot be adjusted, the organ mucosa in other directions around the probe is observed, and the observation field of view is extremely narrow.

Moreover, the angle of the probe of the existing medical endoscope can not be changed after the endoscope is inserted into a patient body, so that the endoscope is single in shooting angle, only one site of a focus can be observed, the practical degree of the endoscope is greatly reduced, the endoscope can be repeatedly pulled out and inserted for use if the observation site is required to be adjusted, and the mode can cause certain damage to the patient. Meanwhile, the existing medical endoscope can only carry out single-point small-range visual field observation on a focus area, the endoscope examination time required by a patient is long, and the patient suffers from pain during examination.

Therefore, designing a multi-point observation endoscopic probe is a problem that we need to solve at present.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to provide a multi-point observation endoscope probe, which solves the problems of the background art described above, such as a narrow field of view and a single imaging angle of an endoscope.

In order to achieve the purpose, the utility model provides the following technical scheme:

a multi-point observation endoscope probe comprises an endoscopic probe and a tube body movably sleeved on the periphery of the endoscopic probe, wherein the endoscopic probe comprises a hard rod piece, an elastic hose and a camera shooting assembly which are sequentially connected; the extending end of the hard rod is connected with a controller for driving the endoscopic probe to axially displace; when the elastic hose is not restrained, a preset bending angle is formed by the extending end of the elastic hose; the number of the endoscopic probes is at least three.

As a further scheme of the utility model: the elastic hose is made of memory nickel-titanium alloy.

As a further scheme of the utility model: the bending angle is 100-150 degrees.

As a further scheme of the utility model: the outer wall of the hard rod piece is provided with a positioning key for limiting circumferential displacement of the hard rod piece, and the inner wall of the pipe body is provided with a limiting groove matched with the positioning key.

As a further scheme of the utility model: a bayonet structure for axially limiting the endoscopic probe is arranged at the pipe orifice of the pipe body close to one end of the camera shooting assembly.

As a further scheme of the utility model: the camera shooting assembly comprises a camera, and a light source for auxiliary lighting is arranged on the periphery of the camera.

As a further scheme of the utility model: the controller comprises a micro motor, one end of the micro motor is fixedly connected with a transmission shaft, and the other end of the transmission shaft is coaxially connected with the hard rod piece.

As a further scheme of the utility model: the controller further comprises a shell, the end of the pipe body is sleeved with the shell, and the micro motor and the transmission shaft are arranged inside the shell.

Compared with the prior art, the utility model has the beneficial effects that: the elastic hose is made of a memory nickel-titanium alloy material, so that the elastic hose can present a preset bending angle after extending out of the hose body, and can stretch the organ mucosa covered on the hose body; the multi-angle observation is realized to at least three endoscopic probes, has enlarged the observation field of vision, strengthens using the flexibility. When the examination is finished, the endoscopic probe can be retracted and fixed in the tube body through the control of the controller, and the endoscopic probe is recovered to the original state and is convenient to extract again. The endoscope device effectively improves the shooting range of the endoscope, improves the practical degree of the endoscope device to a certain extent, greatly reduces the endoscope examination time, and reduces the pain of patients and the operation risk.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a cross-sectional view of the present invention;

FIG. 3 is a view showing the state of the endoscopic probe of the present invention inside the tube;

FIG. 4 is a view showing the state of the endoscopic probe of the present invention outside the tube;

FIG. 5 is a cross-sectional view of a controller according to the present invention;

in the figure: the system comprises an endoscopic probe 1, a hard rod 11, a positioning key 111, an elastic hose 12, a camera 13, a camera 131, a camera 132, a light source 2, a tube body 21, a limiting groove 22, a bayonet structure 3, a controller 31, a micro motor 32, a transmission shaft 33, a shell 33 and a main control circuit board 34.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. 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 invention.

Referring to fig. 1-5, in an embodiment of the present invention, an endoscopic probe for multipoint observation includes an endoscopic probe 1 and a tube 2 movably sleeved on an outer periphery of the endoscopic probe 1, where the tube 2 is a through cylinder, and a material of the tube 2 is not particularly limited, and may be made of medical stainless steel or titanium alloy. The endoscopic probe 1 comprises a hard rod 11, an elastic hose 12 and a camera assembly 13 which are connected in sequence; the number of the endoscopic probes 1 is three; the other end of the hard rod 11 is connected with a controller 3 for controlling the axial displacement of the endoscopic probe 1; the material of the elastic hose 12 is memory nickel-titanium alloy, the extending end of the elastic hose 12 forms a bending angle of 120 degrees, and the camera modules 13 at the ends of the three elastic hoses 12 form an equilateral triangle with the axis of the tube body 2 as the center. In addition, the bending angle can be within the range of 100-150 °, and the bending angle is preferably 120 ° in this embodiment.

In the present embodiment, the number of the endoscopic probes 1 is three, and when the number of the endoscopic probes 1 is four, the imaging units 13 at the ends of the four elastic tubes 12 form a square shape centered on the axis of the tube 2, that is, when the number of the endoscopic probes 1 is n, the imaging units 13 at the ends of the n elastic tubes 12 form a positive n-deformation centered on the axis of the tube 2; the formed positive n deformation is helpful to better prop open the organ mucosa covered on the tube body 2, enlarge the observation visual field and realize multi-azimuth observation.

Further, the hard rod 11 is made of medical stainless steel or titanium alloy. The outer wall of the hard rod 11 is axially provided with a positioning key 111 which is long, the positioning key 111 is axially arranged on the outer wall of the hard rod 11, and the positioning key 111 is arranged on one side of the elastic hose 12 which is bent, so that the tail end of the endoscopic probe 1 can form positive n deformation after being pushed out; the inner wall of the pipe body 2 is provided with a limit groove 21 matched with the positioning key 111. Three spacing grooves 21 equipartition is seted up in 2 inner walls of body. When the controller 3 controls the endoscopic probe 1 to move axially, the positioning key 111 slides in the limiting groove 21 along the length direction thereof. A bayonet structure 22 for axially limiting the endoscopic probe 1 is arranged at the pipe orifice of the pipe body 2 close to one end of the camera assembly 13.

Further, the camera assembly 13 includes a camera 131, a light source 132 for auxiliary lighting is disposed on the periphery of the camera 131, and a mirror surface for protection is disposed in front of the camera 131. When camera 131 is dark in the scene of shooting department, medical personnel can judge according to the picture on the display, open camera 131 peripheral light source 132 through controlling, can effectively improve the picture definition that camera 131 shot through light source 132, improve and shoot the quality, and medical personnel of being convenient for have better understanding to the internal situation of patient, are favorable to subsequent analysis and diagnosis. Under the precondition of ensuring the resolution of the shot image, the embedded camera 131 of the camera assembly 13 adopts an ultra-fine camera with a smaller overall dimension, so that the camera assembly can freely enter the human body clinically, and the damage and the uncomfortable feeling of a patient during endoscopy can be obviously reduced.

Furthermore, the endoscopic probe 1 of the present invention needs to be controlled by the controller 3, and can be used in cooperation with the endoscope host.

With reference to fig. 5, the controller 3 includes a casing 33, the casing 33 is a cylinder with a closed end and an open end, and has a receiving space, and the receiving space is provided with a micro motor 31, a transmission shaft 32 and a main control circuit board 34; the micro motor 31 is arranged at the bottom of the accommodating space, one end of the micro motor 31 is fixedly connected with the transmission shaft 32, and the other end of the transmission shaft 32 is coaxially connected with the hard rod 11. The open end of the shell 33 is sleeved on the periphery of the pipe body 2, the outer part of the closed end of the shell is connected with the endoscope host through the insertion pipe, and the endoscope host is provided with an operating button and a display screen for displaying a picture captured by the camera shooting assembly 13.

When the endoscope is used, before a target area is reached, the endoscopic probes 1 are in a contraction state, namely, the three endoscopic probes 1 are all contracted and fixed in the tube body 2, and when the endoscope is used, the tube body 2 is stretched into a cavity-shaped pipeline of a human organ or a small incision made through an operation to observe and search a focus area;

when arriving at the target focus area, medical personnel adjust the controller 3 through the operation button on the endoscope host computer, start micro motor 201 in the controller 3, thereby drive the propelling movement of transmission shaft 32 of its tip forward, rethread transmission shaft 32 drives endoscopic probe 1 of its tip to the outside extension of body 2, thereby make endoscopic probe 1 tip stretch out, the extension end of elastic hose 12 presents predetermined 120 bending angle in the body 2 outside this moment, and then struts the organ mucosa that covers on body 2, realize the multiple spot observation, the observation field of vision has been enlarged, the flexibility of reinforcing use, greatly reduce scope check-up time simultaneously, reduce patient's misery and operation risk.

When the examination is finished, the controller 3 can be operated to withdraw the endoscopic probe 1 and fix the endoscopic probe in the tube body 2, and at the moment, the elastic hose 12 is restored to the straight state, so that the endoscopic probe 1 can be conveniently withdrawn again.

Although the present description is described in terms of embodiments, not every embodiment includes only a single embodiment, and such description is for clarity only, and those skilled in the art should be able to integrate the description as a whole, and the embodiments can be appropriately combined to form other embodiments as will be understood by those skilled in the art.

Therefore, the above description is only a preferred embodiment of the present application, and is not intended to limit the scope of the present application; all changes which come within the meaning and range of equivalency of the claims are to be embraced within their scope.

Claims

1. The multi-point observation endoscope probe comprises an endoscopic probe (1) and a tube body (2) movably sleeved on the periphery of the endoscopic probe (1), and is characterized in that the endoscopic probe (1) comprises a hard rod (11), an elastic hose (12) and a camera assembly (13) which are sequentially connected; wherein, the extending end of the hard rod (11) is connected with a controller (3) for driving the endoscopic probe (1) to axially displace; when the elastic hose (12) is not restrained, the extending end of the elastic hose forms a preset bending angle; the number of the endoscopic probes (1) is at least three.

2. A multipoint viewing endoscopic probe according to claim 1 wherein said flexible tube (12) is of memory nickel-titanium alloy.

3. The multi-point viewing endoscopic probe according to claim 1, wherein said bending angle is 100 ° and 150 °.

4. The multi-point observation endoscope probe according to claim 1, characterized in that the outer wall of the hard rod (11) is provided with a positioning key (111) for limiting the circumferential displacement thereof, and the inner wall of the tube body (2) is provided with a limiting groove (21) matched with the positioning key (111).

5. A multi-point viewing endoscope probe according to claim 1, characterized in that a bayonet structure (22) is provided at the mouth of the tube (2) near one end of the camera assembly (13) for axially retaining the endoscopic probe (1).

6. A multi-point observation endoscopic probe according to claim 1, wherein the camera assembly (13) comprises a camera head (131), the camera head (131) being peripherally provided with a light source (132) for auxiliary illumination.

7. A multi-point observation endoscopic probe according to claim 1, wherein said controller (3) comprises a micro motor (31), one end of said micro motor (31) is fixedly connected with a transmission shaft (32), and the other end of said transmission shaft (32) is coaxially connected with the rigid rod member (11).

8. A multi-point viewing endoscope probe according to claim 7, characterized in that the controller (3) further comprises a housing (33), the housing (33) is sleeved on the end of the tube body (2), the micro motor (31) and the transmission shaft (32) are arranged inside the housing (33).