CN205595441U - Capsule endoscope's receiving antenna controlling means - Google Patents

Abstract

The utility model provides a capsule endoscope's receiving antenna controlling means which the structure is: include a pair of mutually perpendicular's XY pivot in the two -layer power antenan device about including in rectangle tablet device, every layer of controlling means, four total pivot X1, Y1, X2, Y2 among the two -layer controlling means drive the pivot through the motor and rotate, be provided with antenna T1 in the pivot at the last sliding rail set who is provided with by two sliding rail set one -tenth that are parallel to each other, X1 and crossing of the sliding rail set on the Y1, the sliding rail set on X2 and the Y2 intersects the department and is provided with antenna T2, drive the pivot through the motor and rotate, drive sliding rail set back and forth movement in the pivot, the position of adjusting antenna in plane separately, X1, Y1 distribute in different planes irrelevant wading with X2, Y2. By adopting the above structure, the utility model, retrencied hardware architecture and cost, made received signal's antenna can keep the best signal reception intensity, can not have the stability of losing and add the capsule data.

Description

The reception antenna of a kind of capsule endoscope controls device

Technical field

This utility model relates to the reception antenna of a kind of capsule endoscope and controls device, belongs to capsule endoscope applied technical field.

Background technology

The receiving antenna device of capsule endoscope, the general mode using multiple antennas receives the wireless data that capsule endoscope is launched.Because wireless signal has bigger decay in human body, and decay can increase sharply along with capsule and the increase of reception antenna distance.Current existing technology, in order to reduce loss of data, needs arranging multiple reception antenna on human body, generally higher than equal to 8.Constantly being switched by these antenna, the antenna finding incoming level maximum carries out data receiver.But it is to be typically based on experience to be placed on fixed position that the position that antenna is on human body is put, and because of the difference such as height and weight waistline of people, and the motion of people itself, the fixing antenna put cannot adapt to all of patient.When being switched to the poor antenna in position, easily causing reception error in data and loss, reception is the most very good.Therefore, during Capsule Endoscopy, how allowing antenna be in the stable reception data of best receiving position is problem encountered in existing technology.

Summary of the invention

In order to solve above-mentioned technical problem, this utility model creates the reception antenna control device providing a kind of capsule endoscope, it is provided with the receiving antenna device that upper and lower two-layer is separate, every layer of receiving antenna device is both provided with one group of XY rotating shaft, rotating shaft is provided with the slide rail that can move along rotor shaft direction, antenna is arranged on slide rail, antenna position in respective planes on XY direction is adjusted by adjusting rotating shaft position, one layer of antenna receiving signal during use, after another layer of tested rotating platform finds optimum position, switching receives signal antenna, solve the one-tenth caused due to position difference present in prior art and receive error in data and loss, the technical problem that reception is the most very good.

To achieve these goals, the technical solution adopted in the utility model is: the reception antenna of a kind of capsule endoscope controls device, it is characterized in that: in rectangular flat device, include upper and lower two-layer ACU antenna control unit, every layer controls to include a pair orthogonal XY rotating shaft in device, two-layer controls to have four rotating shafts X1, Y1, X2, Y2, by driven by motor axis of rotation in device；In rotating shaft, the upper slide rail group being provided with and being made up of two slide rails being parallel to each other, the slide rail group intersection that the slide rail group intersection on X1 Yu Y1 is provided with on antenna T1, X2 and Y2 are provided with antenna T2；By driven by motor axis of rotation, drive slide rail group to move back and forth in rotating shaft, adjust antenna position in respective plane；X1, Y1 are distributed in different planes from X2, Y2, do not interfere with each other.

Described slide rail base portion is annular, is enclosed within rotating shaft, and free end is the strip stretched out, and its extension is mutually perpendicular to rotating shaft.

Four described rotating shafts X1, Y1, X2, Y2 are driven by four motors M1, M2, M3, M4 respectively and rotate.

What this utility model was created has the beneficial effects that: this utility model passes through said structure, the reception antenna having supplied a kind of capsule endoscope controls device, device uses two antennas, hardware configuration and cost are simplified, separate by two-layer and the antenna of position can be adjusted in real time, the antenna enabling reception signal keeps optimal signal receiving strength, can add capsule data without stablizing of loss.

Accompanying drawing explanation

Fig. 1: for this utility structure schematic diagram.

Detailed description of the invention

The reception antenna of a kind of capsule endoscope controls device, its structure is: include upper and lower two-layer ACU antenna control unit in rectangular flat device, every layer controls to include a pair orthogonal XY rotating shaft in device, two-layer controls to have four rotating shafts X1, Y1, X2, Y2, by driven by motor axis of rotation in device；In rotating shaft, the upper slide rail group being provided with and being made up of two slide rails being parallel to each other 1, the slide rail group intersection that the slide rail group intersection on X1 Yu Y1 is provided with on antenna T1, X2 and Y2 are provided with antenna T2；By driven by motor axis of rotation, drive slide rail group to move back and forth in rotating shaft, adjust antenna position in respective plane；X1, Y1 are distributed in different planes from X2, Y2, do not interfere with each other.Four described rotating shafts X1, Y1, X2, Y2 are driven by four motors M1, M2, M3, M4 respectively and rotate.

Described slide rail 1 base portion is annular, is enclosed within rotating shaft, and free end is the strip stretched out, and its extension is mutually perpendicular to rotating shaft, when the spindle is rotated, by the threaded function of rotating shaft Yu slide rail 1 bound fraction, drives the antenna on slide rail 1 to move on X/Y plane.

During use, controller, by detection signal intensity, drives motor to control the position of two-way antenna, makes the motion of capsule in antenna tracking human body, and the moment keeps optimal signal receiving strength.Two-way antenna, when a road receives data, and another road is moved, and when finding higher signal location, is just switched to this road when the data free time, it is ensured that without losing during signal switching.

Claims (3)

1. the reception antenna of a capsule endoscope controls device, it is characterized in that: in rectangular flat device, include upper and lower two-layer ACU antenna control unit, every layer controls to include a pair orthogonal XY rotating shaft in device, two-layer controls to have four rotating shafts X1, Y1, X2, Y2, by driven by motor axis of rotation in device；In rotating shaft, the upper slide rail group being provided with and being made up of two slide rails being parallel to each other (1), the slide rail group intersection that the slide rail group intersection on X1 Yu Y1 is provided with on antenna T1, X2 and Y2 are provided with antenna T2；By driven by motor axis of rotation, drive slide rail group to move back and forth in rotating shaft, adjust antenna position in respective plane；X1, Y1 are distributed in different planes from X2, Y2, do not interfere with each other.

The reception antenna of a kind of capsule endoscope the most according to claim 1 controls device, it is characterised in that: described slide rail (1) base portion is annular, is enclosed within rotating shaft, and free end is the strip stretched out, and its extension is mutually perpendicular to rotating shaft.

The reception antenna of a kind of capsule endoscope the most according to claim 1 controls device, it is characterised in that: four described rotating shafts X1, Y1, X2, Y2 are driven by four motors M1, M2, M3, M4 respectively and rotate.