CN209661591U - Powered Structures and Capsule Endoscopy - Google Patents

Abstract

The utility model relates to the field of medical instrument technology, a kind of power supply structure and capsule endoscope are disclosed.The power supply structure includes supplying cell, magnet and the conductive connecting piece for being formed with accommodating space, magnet is set in the accommodating space of conductive connecting piece, the two poles of the earth of supplying cell are electrically connected with the conductive connecting piece and load respectively, the one end of conductive connecting piece far from supplying cell is also electrically connected with load, forms circuit loop.Magnet is set in the accommodating space of conductive connecting piece in the utility model, it is electrically connected conductive connecting piece directly with load across magnet, when can effectively solve the power supply mode that capsule endoscope is contacted using spring in the prior art, the bad problem of endoscope electrical power contact.The capsule endoscope of the utility model includes the shell of capsule shape, and power supply structure is equipped in shell, is equipped with antenna in the gap between power supply structure and shell.This structure can efficiently utilize the inner space of endoscope, so that the more compact exquisiteness of endoscope.

Description

Powered Structures and Capsule Endoscopy

technical field

The utility model relates to the technical field of medical instruments, in particular to a power supply structure and a capsule endoscope.

Background technique

The commonly used power supply methods for capsule endoscopes are spring contacts. This method can meet the power supply demand when all the internal parts of the capsule endoscope are not moving. However, a magnet is provided inside the gastric capsule endoscope (hereinafter referred to as the endoscope), and the power supply battery in the endoscope is conducted to the spring through the magnet to supply power to the load.

When examining the human stomach with an endoscope, the magnetic field of the magnet outside the endoscope pulls the endoscope to move in the human body. When the endoscope is pulled to move, the magnet inside the endoscope has the risk of moving. Once the endoscope The activity of the magnet inside may cause the spring to be in poor contact with the load. Poor contact will cause the endoscope to be powered off. After the endoscope is powered off, there will be discontinuous imaging, and the endoscope will no longer work if it is large, so that relevant detection cannot be performed.

Utility model content

An object of the present invention is to provide a power supply structure to solve the problem of power failure of the endoscope due to poor contact between the spring and the load caused by the magnet activity inside the endoscope.

In order to achieve the above purpose, the utility model adopts the following technical scheme: the power supply structure includes a power supply battery and a magnet, and also includes a conductive connecting piece formed with an accommodating space, the magnet is arranged in the accommodating space of the conductive connecting piece, and a part of the power supply battery The pole is electrically connected to the conductive connecting piece, the other pole of the power supply battery is electrically connected to the load, and the end of the conductive connecting piece away from the power supply battery is also electrically connected to the load to form a circuit loop.

In the above technical solution, the power supply battery, the conductive connecting piece and the load form a circuit loop. The magnet is set in the accommodation space of the conductive connecting piece, so that the conductive connecting piece is directly connected to the load across the magnet, which can avoid the poor contact between the power supply battery and the load caused by the activity of the magnet, thereby preventing the endoscope from moving due to the internal magnet. And power off.

Further, the load includes a PCB board, the PCB board includes the upper part of the PCB board and the lower part of the PCB board, and the upper part of the PCB board and the lower part of the PCB board are electrically connected, and the power supply battery, the magnet and the conductive connecting piece are located between the upper part of the PCB board and the lower part of the PCB board. The power supply battery supplies power to the PCB board, and the power supply battery, magnet and conductive connecting piece are located between the upper part of the PCB board and the lower part of the PCB board, making the structure more compact.

Further, the load also includes several devices electrically connected on the PCB. The power supply battery supplies power to the device through the PCB board.

Further, conductive thimbles are provided between the PCB board and the power supply battery, and between the PCB board and the conductive connecting piece, and the end of the device away from the PCB board is in contact with the power supply battery and/or the conductive connecting piece. The thimble is used to electrically connect the load to the conductive connecting piece and the power supply battery, so that there is enough space for placing the device in the endoscope; and the device is opposed to the power supply battery and/or the conductive connecting piece to support the power supply battery and improve its stability.

Further, the thimble is elastically connected to the PCB board through a spring. The elastic connection between the thimble and the PCB board can give the power supply battery and the conductive connecting piece a certain degree of elasticity, so that the contact between the thimble and the power supply battery and the conductive connecting piece is better; and the elastic connection between the thimble and the PCB board facilitates the installation of the power supply battery and the magnet inside inside the mirror.

Further, the positive pole of the power supply battery is fixedly connected to the conductive connecting piece.

Another object of the present utility model is to provide a capsule endoscope, which includes a power supply structure and a capsule-shaped casing, and the power supply structure is installed in the casing.

Further, the PCB board includes a plurality of sub-circuit boards, two adjacent sub-circuit boards are electrically connected through a flexible circuit, the sub-circuit boards are folded sequentially along the two ends of the flexible circuit, and each sub-circuit board is stacked in sequence to form the PCB board , After folding, the overall PCB board is snake-shaped or bow-shaped.

Each sub-circuit board is folded sequentially, and the processing technology is simple; the space utilization rate of the serpentine shape and the bow shape is large, and the bending process is simple.

Further, there is a gap between the power supply structure and the housing, and an antenna electrically connected to the PCB board is arranged in the gap, and the antenna is arranged around the power supply structure. The antenna is located in the gap between the PCB board and the housing, and there is no need to reserve a separate space for the antenna.

Further, the antenna is made of flexible material, and the antenna can be bent into a loop or a part of the loop, and the bent antenna is arranged around the power supply structure. The antenna is made of flexible material, which is easy to assemble, and wraps around the power supply structure after being bent and formed.

The beneficial effects of the power supply structure of the present utility model are as follows:

(1) It can effectively solve the problem of poor power supply contact of the endoscope when the capsule endoscope adopts the power supply mode of the spring contact in the prior art.

(2) The structure of thimbles can make full use of the space on the PCB board to arrange devices.

(3) The power supply battery, magnet, conductive connecting piece and device are located between the upper part of the PCB board and the lower part of the PCB board, making the power supply structure compact.

(4) The magnet is arranged in the accommodating space of the conductive connecting piece, and the removal of the magnet will not affect the power supply function of the power supply structure, which facilitates the replacement or maintenance of the magnet.

In addition to the beneficial effect of the power supply structure, the capsule endoscope of the present utility model also has the following beneficial effects: the PCB board is formed by multiple sub-circuit boards electrically connected through flexible lines, folded and stacked, and the antenna is arranged around the power supply structure; This kind of structure is compact in design, which can meet the requirements of antenna receiving and transmitting signal strength, and can also reduce its occupied area, effectively utilizing the internal space of the endoscope, making the capsule endoscope more compact and exquisite.

Description of drawings

FIG. 1 is a schematic structural diagram of the power supply structure of the first embodiment.

Fig. 2 is a schematic diagram of the internal structure of the capsule endoscope of the second embodiment.

Figure 3 is a state diagram of the flattening of the PCB board and the antenna after unfolding.

Detailed ways

The utility model is described in further detail below by means of specific embodiments:

The reference signs in the drawings of the specification include: upper part 11 of PCB board, lower part 12 of PCB board, thimble 2, needle point 21, device 3, magnet 4, conductive connecting piece 5, power supply battery 6, positive pole 61, negative pole 62, sub-circuit board 71 . Flexible circuit 72 , antenna 8 , first connection section 81 , housing 9 , and gap 91 .

Embodiment one

This embodiment is basically shown in Figure 1: the power supply structure includes a power supply battery 6, a magnet 4 and a conductive connecting piece 5 formed with an accommodation space, the conductive connecting piece 5 is in the shape of a "C", and the magnet 4 is arranged on the conductive connecting piece 5 within the accommodation space. One pole of the power supply battery 6 is welded and fixed to the conductive connecting piece 5, and the other pole of the power supply battery 6 is electrically connected to the load. The horizontal straight portion of the upper end of the sheet 5 is electrically connected to the load. The power supply battery 6 , the conductive connecting piece 5 and the load form a circuit loop, and the power supply battery 6 supplies power to the load through the conductive connecting piece 5 . The load of this embodiment includes a PCB board, the PCB board includes the upper part 11 of the PCB board and the lower part 12 of the PCB board, and the upper part 11 of the PCB board and the lower part 12 of the PCB board are electrically connected, and the power supply battery 6, the magnet 4 and the conductive connecting piece 5 are located on the PCB board The space between the upper part 11 and the lower part 12 of the PCB makes the structure compact.

Between the lower part 12 of the PCB board and the negative pole 62 of the power supply battery 6, and between the upper part 11 of the PCB board and the conductive connection piece 5, a conductive thimble 2 is provided, and the needle tip 21 of the thimble 2 is connected to the conductive connection piece 5 and the negative pole 62 of the power supply battery 6. Press tight. The thimble 2 is elastically connected to the PCB board through a spring, and the spring is in a compressed state when the power is supplied. The upper part 11 of the PCB board and/or the lower part 12 of the PCB board are electrically connected with a device 3. The device 3 in this embodiment can be a camera, a lighting lamp, etc., and the end of the device 3 away from the PCB board is connected to the power supply battery 6 and/or the conductive The connecting piece 5 offsets.

In this embodiment, the power supply battery 6, the conductive connection piece 5, the thimble 2 above the conductive connection piece 5, the PCB board and the thimble 2 below the power supply battery 6 form a circuit loop, and the power supply battery 6 supplies power to the PCB board. The device 3 on the board is electrically connected to the PCB board, and the power supply battery 6 is also used to supply power to the device 3 .

Embodiment two

This embodiment is basically shown in Figure 2: the capsule endoscope includes a capsule-shaped casing 9, the power supply structure of Embodiment 1 is arranged in the casing 9, and a gap 91 is provided between the casing 9 and the power supply structure, The antenna 8 electrically connected to the PCB is arranged in the gap 91 . The antenna 8 is made of a steel sheet. In this embodiment, copper sheet is preferred. The antenna 8 can be bent into a ring or a part of the ring. In this embodiment, the bent antenna 8 is set around the battery. Of course, the antenna 8 can also surround the power supply structure. Other positions in the length direction are set; the height of the antenna 8 is 4 mm to 8 mm, preferably 6 mm.

Fig. 3 is the schematic diagram of the state after the PCB board in embodiment one, embodiment two is expanded, and as shown in Fig. The sub-circuit boards 71 are electrically connected through a flexible circuit 72, and the flexible circuit 72 is made of FPC flexible cable in this embodiment. The flexible circuit 72 can be bent, and after the flexible circuit 72 is bent, the PCB board as a whole has a serpentine or bow shape. The upper three sub-circuit boards 71 are folded to form the upper part 11 of the PCB in FIG. 1 and FIG. In this flat state, the antenna 8 is vertically arranged on the side of the PCB board, and a soft first connecting section 81 is bonded between the antenna 8 and one of the sub-circuit boards 71 by thermocompression, and the first connecting section 81 is also formed by It is made of FPC flexible flat cable; it is bent along the first connecting section 81 so that the antenna 8 surrounds the outer edge of the power supply structure of the first embodiment.

It should be noted that, in the description of the present utility model, the terms "upper part of the PCB board" and "lower part of the PCB board" are named based on the orientation or position shown in the drawings, and are only for the convenience of describing the present utility model and simplifying the description. , does not indicate or imply that the referenced elements must have a characteristic orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the invention. In addition, since other components in the capsule endoscope have nothing to do with the invention of the present utility model, they will not be repeated here.

What is described above is only the preferred embodiment of the present utility model. It should be pointed out that for those skilled in the art, some deformations and improvements can also be made without departing from the concept of the present utility model. These should also be regarded as The protection scope of the utility model, these all can not affect the effect that the utility model implements and the practicability of the patent. The technology, shape and construction parts omitted in the utility model are all known technologies.

Claims (11)

1. The power supply structure, comprising a power supply battery and a magnet, is characterized in that: it also includes a conductive connecting piece formed with an accommodating space, the magnet is arranged in the accommodating space of the conductive connecting piece, and one pole of the power supply battery is connected to the The conductive connection pieces are connected, the other pole of the power supply battery is electrically connected to the load, and the end of the conductive connection piece of the conductive connection piece away from the power supply battery is also electrically connected to the load to form a circuit loop. 2. The power supply structure according to claim 1, wherein the load includes a PCB board, the PCB board includes an upper part of the PCB board and a lower part of the PCB board, and the upper part of the PCB board and the lower part of the PCB board are electrically connected, and the power supply battery , the magnet and the conductive connecting piece are located between the upper part of the PCB board and the lower part of the PCB board. 3. The power supply structure according to claim 2, wherein the load further comprises several devices electrically connected to the PCB. 4. The power supply structure according to claim 3, wherein conductive thimbles are provided between the PCB board and the power supply battery, and between the PCB board and the conductive connecting piece, and the device is far away from the PCB One end of the board abuts against the power supply battery and/or the conductive connection piece. 5. The power supply structure according to claim 4, characterized in that: the thimble is elastically connected to the PCB board through a spring. 6. The power supply structure according to any one of claims 1-5, characterized in that: the positive pole of the power supply battery is fixedly connected to the conductive connecting piece. 7. The capsule endoscope comprising the power supply structure according to any one of claims 2-5, characterized in that the endoscope comprises a capsule-shaped casing, and the power supply structure is installed in the casing. 8. The capsule endoscope comprising the power supply structure according to claim 1 or 6, characterized in that the endoscope comprises a capsule-shaped casing, and the power supply structure is installed in the casing. 9. The capsule endoscope according to claim 7, characterized in that: the PCB board includes a plurality of sub-circuit boards, two adjacent sub-circuit boards are electrically connected through a flexible circuit, and the sub-circuit boards are sequentially connected along the two ends of the flexible circuit Folding, and stacking each sub-circuit board in turn to form the PCB board, the PCB board is snake-shaped or bow-shaped as a whole after folding. 10. The capsule endoscope according to claim 7, characterized in that: a gap is provided between the power supply structure and the housing, and an antenna electrically connected to the PCB board is provided in the gap, and the antenna It is arranged around the power supply structure. 11. The capsule endoscope according to claim 10, characterized in that: the antenna is made of flexible material, the antenna can be bent into a loop or a part of the loop, and the bent antenna surrounds the power supply structure set up.