CN211749468U - But capsule endoscope structure of rapid movement - Google Patents

Abstract

The utility model discloses a capsule endoscope structure capable of moving rapidly, which relates to the technical field of gastroscope capsule endoscopes and comprises a capsule endoscope body, wherein a first mounting block is arranged inside the capsule endoscope body, and one side of the first mounting block is provided with a second mounting block, a storage battery is arranged in the second mounting block, a controller is arranged in the second mounting part and close to the lower position of the wireless signal transceiver, one end of the second mounting block is provided with a socket, the outer wall of the second mounting block is symmetrically provided with two backing plates, and a miniature vibrating motor is installed on one side of the backing plate, the utility model discloses a miniature vibrating motor drives the vibration of capsule endoscope, is favorable to the user to swallow the capsule endoscope smoothly and carries out gastroscopy to can drive capsule endoscope rapid movement through miniature vibrating motor's vibration.

Description

But capsule endoscope structure of rapid movement

Technical Field

The utility model belongs to the technical field of gastroscope capsule endoscope, concretely relates to capsule endoscope structure that can move fast.

Background

The gastroscope capsule endoscope is a medical capsule endoscope used for gastric examination in medicine, the first generation gastroscope capsule endoscope adopts wired connection, the gastroscope capsule endoscope and a portable recorder are connected through a data line, the second generation gastroscope capsule endoscope adopts a wireless technology, the motion of a capsule endoscope robot in the stomach is controlled through an external magnetic field which can be accurately controlled by a doctor in real time through software, the posture of the capsule endoscope is changed, and a focus picture is shot according to a required angle.

But wireless capsule endoscope structure on the existing market can not satisfy the operation requirement, meets when wireless capsule endoscope moves on the intestinal and hinders, is unfavorable for controlling capsule endoscope and removes, and wireless capsule endoscope along with the excrement discharge back, is not convenient for retrieve and recycle, based on the problem that appears more than, provides a capsule endoscope structure that can move fast.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a but capsule endoscope structure of rapid movement to the capsule endoscope that provides in solving above-mentioned background art meets when moving on the intestinal and hinders, is unfavorable for controlling the capsule endoscope and removes, and is unfavorable for retrieving the problem of capsule endoscope internals.

In order to achieve the above object, the utility model provides a following technical scheme: a capsule endoscope structure capable of moving rapidly comprises a capsule endoscope body, wherein a first installation block is installed inside the capsule endoscope body, a second installation block is installed on one side of the first installation block, a first iron block is installed on the inner wall of the capsule endoscope body, a magnetic block is installed at a position, close to one side of the first iron block, on the first installation block, a storage battery is installed inside the second installation block, a wireless signal transceiver is installed inside the second installation block, a controller is installed at a position, close to the lower position of the wireless signal transceiver, inside the second installation block, a socket is installed at one end of the second installation block, two backing plates are symmetrically installed on the outer wall of the second installation block, a micro vibration motor is installed on one side of each backing plate, and the wireless signal transceiver and the micro vibration motor are both electrically connected with the controller, the controller is electrically connected with the storage battery.

Preferably, the outer wall cover of capsule endoscope body is equipped with outer protective sheath, and the threaded bush is installed to the one end of outer protective sheath, the jack has been seted up to one side of outer protective sheath.

Preferably, one side of the threaded sleeve is connected with a connecting disc in a screwing mode through threads, an iron block clamping groove is formed in the connecting disc, an electromagnet is arranged inside the iron block clamping groove, and a plug is arranged on one side of the electromagnet.

Preferably, a spring is installed on one side of the connecting disc, a tail cover is installed at one end of the spring, and a second iron block is installed on the inner wall of the tail cover.

Preferably, the front surface of the first mounting block is provided with a camera, the front surface of the first mounting block is provided with an LED lamp, the outer wall of the first mounting block is provided with a magnetic ring, and the electromagnet and the LED lamp are both electrically connected with the controller.

Preferably, the first mounting block is of a cylindrical structure, and an anti-corrosion coating is arranged on the outer wall of the first mounting block.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the utility model discloses a miniature vibrating motor drives the vibration of capsule endoscope, and when the capsule endoscope removed and is obstructed, help capsule endoscope removed, breaks away from obstructed state fast, improves the removal efficiency of capsule endoscope on stomach and intestinal, is favorable to the user to gulp down the capsule endoscope smoothly and carries out the gastroscope inspection.

(2) The utility model discloses an at the inner wall installation iron plate of capsule endoscope body, install the magnetic path on first installation piece, be favorable to installing first installation piece and second installation piece fast, be favorable to the stability of first installation piece and second installation piece to be placed.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is an external view of the present invention;

FIG. 3 is a schematic structural view of the capsule endoscope body of the present invention;

FIG. 4 is a cross-sectional view of the outer protective sheath of the present invention;

FIG. 5 is a side view of the outer protective sheath of the present invention;

FIG. 6 is an enlarged view of portion A of FIG. 1;

fig. 7 is a circuit block diagram of the present invention;

in the figure: 1-a second iron block; 2-tail cover; 3-iron block clamping groove; 4-a plug; 5-connecting the discs; 6-outer protective sleeve; 7-a miniature vibration motor; 8-capsule endoscope body; 9-a first mounting block; 10-LED lamps; 11-a camera; 12-a magnetic ring; 13-a second mounting block; 14-a backing plate; 15-an electromagnet; 16-a spring; 17-a threaded sleeve; 18-a battery; 19-a controller; 20-a wireless signal transceiver; 21-a socket; 22-a jack; 23-a magnetic block; 24-first iron block.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-7, the present invention provides the following technical solutions: a capsule endoscope structure capable of moving rapidly comprises a capsule endoscope body 8, a first installation block 9 is installed inside the capsule endoscope body 8, a second installation block 13 is installed on one side of the first installation block 9, a first iron block 24 is installed on the inner wall of the capsule endoscope body 8, a magnetic block 23 is installed on one side, close to the first iron block 24, of the first installation block 9, in the process of installing the first installation block 9 and the second installation block 13, the first installation block 9 is placed inside the capsule endoscope body 8 through mutual attraction of the magnetic block 23 and the first iron block 24, the magnetic block 23 on the first installation block 9 is directly attracted to the corresponding first iron block 24 on the inner wall of the capsule endoscope body 8, the capsule endoscope body 8 is communicated with an external control platform through a wireless signal transceiver 20, the control platform controls elements inside the capsule endoscope body 8 to work through transmitting electromagnetic waves, the shot picture image is also transmitted to the console through electromagnetic waves, a storage battery 18 is installed inside the second installation block 13, a wireless signal transceiver 20 is installed inside the second installation block 13, a controller 19 is installed inside the second installation block 13 and close to the lower position of the wireless signal transceiver 20, a socket 21 is installed at one end of the second installation block 13, two backing plates 14 are symmetrically installed on the outer wall of the second installation block 13, a micro vibration motor 7 is installed on one side of each backing plate 14, the wireless signal transceiver 20 and the micro vibration motor 7 are both electrically connected with the controller 19, the controller 19 is electrically connected with the storage battery 18, the model of the micro vibration motor 7 is CVM, the rated voltage is 12V, the rated current is 0.09A, the model of the wireless signal transceiver 20 is ZJDMX2.4G, the rated voltage is 5V, the rated current is 0.149A, the model of the controller 19 is JS-ME-III, the rated voltage is 5V, and the rated current is 0.1A.

Further, the outer wall cover of capsule endoscope body 8 is equipped with outer protective sheath 6, and the surface of outer protective sheath 6 has anti-corrosion function, can not corroded by gastric acid entering the stomach, and intact protection capsule endoscope body 8, and threaded sleeve 17 is installed to the one end of outer protective sheath 6, and jack 22 has been seted up to one side of outer protective sheath 6.

Further, one side of thread bush 17 closes to be connected with connection disc 5 through the screw thread soon, connection disc 5 closes with thread bush 17 through the screw thread soon and is connected the back, connection disc 5 is in airtight state with thread bush 17's the mouth of borrowing, plug 4 is the jack 22 in the outer protective sheath 6 of circular disect insertion, 15 switch-on of electro-magnet, battery 18 provides the power for electro-magnet 15, iron plate draw-in groove 3 has been seted up to connection disc 5's inside, and the internally mounted of iron plate draw-in groove 3 has electro-magnet 15, plug 4 is installed to one side of electro-magnet 15, install disc 5, need aim at jack 22 of outer protective sheath 6 one end to plug 4 earlier, then will connect disc 5 and tail-hood 2 and close to be connected on the thread bush 17 of outer protective sheath 6 through the screw thread soon.

Further, a spring 16 is installed on one side of the connecting disc 5, a tail cover 2 is installed at one end of the spring 16, and a second iron block 1 is installed on the inner wall of the tail cover 2.

Further, a camera 11 is installed on the front surface of the first installation block 9, an LED lamp 10 is installed on the front surface of the first installation block 9, a magnetic ring 12 is installed on the outer wall of the first installation block 9, and both the electromagnet 15 and the LED lamp 10 are electrically connected with the controller 19.

Further, the first mounting block 9 is of a cylindrical structure, and an anti-corrosion coating is arranged on the outer wall of the first mounting block 9.

Referring to fig. 1-7, the present invention provides a second technical solution: after the capsule endoscope is used for shooting the stomach, the capsule endoscope is sent out signals through an external control console, then the power-on and power-off work of the electromagnet 15 inside the connecting disc 5 is controlled, the electromagnet 15 attracts the second iron block 1 after being powered on, the second iron block 1 moves in the iron block clamping groove 3, meanwhile, the second iron block 1 drives the tail cover 2 to move, the tail cover 2 extrudes the spring 16, after the electromagnet 15 is powered off, the second iron block 1 is separated from the electromagnet 15, the spring 16 pops out the tail cover 2, the tail cover 2 moves after the electromagnet 15 is powered on and powered off, the capsule endoscope is pushed by the force of pushing, the micro vibration motor 7 is assisted to work, the movement amplitude of the capsule endoscope body 8 is increased, and the capsule endoscope can be helped to move in the intestinal tract quickly.

The utility model discloses a theory of operation and use flow: when the capsule endoscope is used, the outer protective sleeve 6 is wrapped outside the capsule endoscope body 8 by a user, the capsule endoscope is orally taken by the user in the gastroscopy process, the capsule endoscope enters the stomach and shoots the stomach, the capsule endoscope body 8 continuously moves into the intestinal tract, if the capsule endoscope body 8 is blocked from moving in the intestinal tract, an instruction can be sent out through an external control platform, a wireless signal transceiver 20 receives a signal, the controller 19 controls the micro vibration motor 7 to work, the vibration generated by the micro vibration motor 7 is transmitted to the capsule endoscope body 8 and the outer protective sleeve 6, the capsule endoscope body 8 also vibrates as the vibration generated by the micro vibration motor 7 is transmitted to the capsule endoscope body 8, obstacles around the capsule endoscope body 8 are squeezed open in the vibration process, and the capsule endoscope body 8 is continuously vibrated by the micro vibration motor 7, the capsule endoscope body 8 moves in the intestinal tract.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. A capsule endoscope structure capable of moving rapidly is characterized in that: including capsule endoscope body (8), the internally mounted of capsule endoscope body (8) has first installation piece (9), and one side of first installation piece (9) installs second installation piece (13), first iron plate (24) are installed to the inner wall of capsule endoscope body (8), one side position department that is close to first iron plate (24) on first installation piece (9) installs magnetic path (23), the internally mounted of second installation piece (13) has battery (18), and the internally mounted of second installation piece (13) has wireless signal transceiver (20), the below position department that the inside of second installation piece (13) is close to wireless signal transceiver (20) installs controller (19), socket (21) are installed to the one end of second installation piece (13), two backing plates (14) are installed to the outer wall symmetry of second installation piece (13), and a miniature vibration motor (7) is installed on one side of the backing plate (14), the wireless signal transceiver (20) and the miniature vibration motor (7) are both electrically connected with a controller (19), and the controller (19) is electrically connected with a storage battery (18).

2. The rapidly movable capsule endoscopic structure of claim 1, wherein: the outer wall cover of capsule endoscope body (8) is equipped with outer protective sheath (6), and threaded sleeve (17) are installed to the one end of outer protective sheath (6), jack (22) have been seted up to one side of outer protective sheath (6).

3. A fast moving capsule endoscopic structure according to claim 2, wherein: one side of thread bush (17) closes soon through the screw thread and is connected with connection disc (5), iron plate draw-in groove (3) have been seted up to the inside of connection disc (5), and the internally mounted of iron plate draw-in groove (3) has electro-magnet (15), plug (4) are installed to one side of electro-magnet (15).

4. A fast moving capsule endoscopic structure according to claim 3, wherein: spring (16) are installed to one side of connecting disc (5), and tail-hood (2) are installed to the one end of spring (16), second iron plate (1) are installed to the inner wall of tail-hood (2).

5. A fast moving capsule endoscopic structure according to claim 3, wherein: the LED lamp is characterized in that a camera (11) is mounted on the front surface of the first mounting block (9), an LED lamp (10) is mounted on the front surface of the first mounting block (9), a magnetic ring (12) is mounted on the outer wall of the first mounting block (9), and the electromagnet (15) and the LED lamp (10) are both electrically connected with the controller (19).

6. The rapidly movable capsule endoscopic structure of claim 1, wherein: the first mounting block (9) is of a cylindrical structure, and an anti-corrosion coating is arranged on the outer wall of the first mounting block (9).

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