CN206228316U - Capsule endoscope wirelessly-enabled devices - Google Patents

Abstract

The utility model discloses a kind of capsule endoscope wirelessly-enabled devices, including：Radio-frequency antenna substrate for producing RF energy；Electromagnetic induction substrate for sending feedback signal when sensing that capsule endoscope is activated and starts the electromagnetic wave for sending；For triggering radio-frequency antenna substrate and making after feedback signal is received the control circuit substrate of feedback action, control circuit substrate connection radio-frequency antenna substrate and electromagnetic induction substrate；Shell for fixing capsule endoscope, radio-frequency antenna substrate, electromagnetic induction substrate and control circuit substrate；Switching device, on shell.This kind of capsule endoscope wirelessly-enabled devices activate capsule endoscope by using radio frequency energy, and whether be activated using electromagnetic induction principle monitoring capsule endoscope, magnetic field can be avoided influences the startup of capsule endoscope, simultaneously, whole process is completed by need not sealing off capsule endoscope, can more easily and reliably start capsule endoscope.

Description

Capsule endoscope wirelessly-enabled devices

Technical field

The utility model is related to technical field of medical equipment, more particularly to a kind of capsule endoscope wirelessly-enabled devices.

Background technology

With the development of medical science and technology, capsule endoscope is widely used in medical diagnosis on disease, and the use of the equipment improves The reliability of medical diagnosis on disease.

During diagnosis, capsule endoscope can be moved into after human body with the wriggling of human body intestinal canal, in capsule Image pick-up device in sight glass can shoot the image in enteron aisle, and the figure photographed to emission by the emitter in capsule endoscope As information, the reception device of human external can receive the information for emitting into the human body.

At present, capsule endoscope starts capsule endoscope usually using tongue tube magnetic control starter, if it is desired to control glue The direction of motion of intracapsular sight glass, it usually needs increase a magnet in capsule endoscope, recycles in external magnetic field and capsule The motion of the interaction control capsule endoscope of the magnet in sight glass.However, tongue tube is easily subject to other with magnetic The influence of object, the setting for magnet in capsule endoscope may produce influence to the magnetic control of tongue tube, so as to influence capsule The normal startup of endoscope.

Therefore, how more easily and reliably capsule endoscope to be started, is that those skilled in the art need at present The technical problem of solution.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of capsule endoscope wirelessly-enabled devices, can be more square Just reliably capsule endoscope is started.

To achieve the above object, the utility model provides following technical scheme：

A kind of capsule endoscope wirelessly-enabled devices, including：

Radio-frequency antenna substrate for producing RF energy；

Electromagnetic induction for sending feedback signal when sensing that capsule endoscope is activated and starts the electromagnetic wave for sending Substrate；

For triggering the radio-frequency antenna substrate and making after the feedback signal is received the control circuit of feedback action Substrate, the control circuit substrate connects the radio-frequency antenna substrate and the electromagnetic induction substrate；

For fixing capsule endoscope, the radio-frequency antenna substrate, the electromagnetic induction substrate with the control circuit base The shell of plate；

Switching device, on the shell.

Preferably, the radio-frequency antenna substrate includes voltage controlled oscillator, is connected to the output end of the voltage controlled oscillator Power amplifier and be connected to the power amplifier output end antenna, the voltage controlled oscillator connects the control circuit Substrate.

Preferably, the radio-frequency antenna substrate is oppositely arranged with the electromagnetic induction substrate, and the control circuit substrate sets Between the radio-frequency antenna substrate and the electromagnetic induction substrate.

Preferably, the voltage controlled oscillator is that the voltage controlled oscillator is RC voltage controlled oscillators.

Preferably, the shell is hollow and uniform wall thickness cuboid, and the cuboid includes housing and detachably connects The upper lid of the housing is connected to, the rib of the cuboid is provided with rounded corner.

Preferably, the radio-frequency antenna substrate, the electromagnetic induction substrate pass through bolt with the control circuit substrate It is connected to the shell.

The capsule endoscope wirelessly-enabled devices that the utility model is provided include the radio-frequency antenna for producing RF energy Substrate；Electromagnetic induction base for sending feedback signal when sensing that capsule endoscope is activated and starts the electromagnetic wave for sending Plate；For triggering radio-frequency antenna substrate and after feedback signal is received making the control circuit substrate of feedback action, circuit is controlled Substrate connection radio-frequency antenna substrate and electromagnetic induction substrate；For fixing capsule endoscope, radio-frequency antenna substrate, electromagnetic induction base Plate and the shell for controlling circuit substrate；Switching device, on shell.

When in use, the capsule endoscope that will do not sealed off is put into shell, and starting switch device, capsule endoscope wirelessly swashs Removable mounting puts energization activation, and control circuit substrate triggering radio-frequency antenna substrate produces RF energy and radiate, radiate RF energy makes capsule endoscope circuit start, capsule endoscope launch electromagnetic wave after starting, meanwhile, the sensing of electromagnetic induction substrate Whether launch electromagnetic wave compared with energy endoscope, and produce feedback signal to be done with trigger control circuit substrate after the electromagnetic wave is received Go out corresponding feedback action or prompting, to show that capsule endoscope has been activated, it is possible to use.

It can be seen that, this kind of capsule endoscope wirelessly-enabled devices activate capsule endoscope by using radio frequency energy, and Whether it is activated using electromagnetic induction principle monitoring capsule endoscope, magnetic field can be avoided to influence the startup of capsule endoscope, together When, whole process is completed by need not sealing off capsule endoscope, can more easily and reliably start capsule endoscope.

Brief description of the drawings

In order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art, below will be to embodiment Or the accompanying drawing to be used needed for description of the prior art is briefly described, it should be apparent that, drawings in the following description are only It is embodiment of the present utility model, for those of ordinary skill in the art, on the premise of not paying creative work, also Other accompanying drawings can be obtained according to the accompanying drawing for providing.

Fig. 1 is provided the structural representation of the specific embodiment of capsule endoscope wirelessly-enabled devices by the utility model；

Fig. 2 is provided radio-frequency antenna substrate in the specific embodiment of capsule endoscope wirelessly-enabled devices by the utility model Structural representation.

In Fig. 1 to Fig. 2,1 is radio-frequency antenna substrate, and 2 is electromagnetic induction substrate, and 3 is control circuit substrate, and 4 shake for voltage-controlled Device is swung, 5 is power amplifier, and 6 is antenna.

Specific embodiment

Below in conjunction with the accompanying drawing in the utility model embodiment, the technical scheme in the utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the utility model, rather than whole Embodiment.Based on the embodiment in the utility model, those of ordinary skill in the art are not under the premise of creative work is made The every other embodiment for being obtained, belongs to the scope of the utility model protection.

Core of the present utility model is to provide a kind of capsule endoscope wirelessly-enabled devices, can be more easily and reliably right Capsule endoscope is started..

Refer to the specific implementation that Fig. 1 and Fig. 2, Fig. 1 are provided capsule endoscope wirelessly-enabled devices by the utility model The structural representation of example；Fig. 2 is provided radio frequency in the specific embodiment of capsule endoscope wirelessly-enabled devices by the utility model The structural representation of antenna substrate.

The utility model is provided in a kind of specific embodiment of capsule endoscope wirelessly-enabled devices, including：Radio frequency day Line substrate 1, for producing RF energy；Electromagnetic induction substrate 2, for sending sensing that capsule endoscope is activated to start Feedback signal is sent during electromagnetic wave；Control circuit substrate 3, for trigger radio-frequency antenna substrate 1 and receive feedback signal after do Go out feedback action, the control connection radio-frequency antenna of circuit substrate 3 substrate 1 and electromagnetic induction substrate 2；Shell, it is intracapsular for fixing glue Sight glass, radio-frequency antenna substrate 1, electromagnetic induction substrate 2 and control circuit substrate 3；Switching device, on shell.

When in use, the capsule endoscope that will do not sealed off is put into shell, and starting switch device, capsule endoscope wirelessly swashs Removable mounting puts energization activation, and the control triggering radio-frequency antenna of circuit substrate 3 substrate 1 produces RF energy and radiate, radiate RF energy make capsule endoscope circuit start, capsule endoscope launches electromagnetic wave after starting, meanwhile, electromagnetic induction substrate 2 Whether sensing launches electromagnetic wave compared with energy endoscope, and feedback signal is produced after the electromagnetic wave is received with trigger control circuit base Plate 3 makes corresponding feedback action or prompting, to show that capsule endoscope has been activated, it is possible to use.

It can be seen that, this kind of capsule endoscope wirelessly-enabled devices activate capsule endoscope by using radio frequency energy, and Whether it is activated using electromagnetic induction principle monitoring capsule endoscope, magnetic field can be avoided to influence the startup of capsule endoscope, together When, whole process is completed by need not sealing off capsule endoscope, can more easily and reliably start capsule endoscope.

In above-described embodiment, radio-frequency antenna substrate 1 can specifically include voltage controlled oscillator 4, power amplifier 5 and antenna 6, The output end connection power amplifier 5 of voltage controlled oscillator 4, the output end connection antenna 6 of power amplifier 5, voltage controlled oscillator 4 connects Connection control circuit substrate 3.The control triggering voltage controlled oscillator 4 of circuit substrate 3 produces the RF energy of low amplitude, power amplifier 5 The amplitude of the RF energy of the low amplitude is amplified, and is radiate through antenna 6.Set simple and reliable.Certainly, radio-frequency antenna base The setting not limited to this of plate 1.

In above-mentioned each embodiment, radio-frequency antenna substrate 1 can be oppositely arranged with electromagnetic induction substrate 2, control circuit base Plate 3 can be located between radio-frequency antenna substrate 1 and electromagnetic induction substrate 2.Specifically, radio-frequency antenna substrate 1 and electromagnetic induction base Plate 2 can be arranged in parallel or radio-frequency antenna substrate 1 has a less angle relative to electromagnetic induction substrate 2, can be with root It is configured according to the structure of capsule endoscope.When capsule endoscope is placed, capsule endoscope can be placed sidewards, radio-frequency antenna Substrate 1 can be easy to the transmission of signal and receive with electromagnetic induction substrate 2 respectively from both sides just to capsule endoscope.Certainly, penetrate Frequency antenna substrate 1, electromagnetic induction substrate 2 and the relative position relation not limited to this for controlling circuit substrate 3.

In above-mentioned each embodiment, voltage controlled oscillator 4 is specifically as follows RC voltage controlled oscillators, to ensure tuning range.When So, voltage controlled oscillator 4 can also be LC voltage controlled oscillators or other oscillators.

In above-mentioned each embodiment, shell is specifically as follows hollow and uniform wall thickness cuboid, and cuboid includes housing With the upper lid for being removably connected to housing, the rib of cuboid is provided with rounding.Covered in opening, capsule detector can be put into shell In body, housing then is sealed with lid, because the wall of this cuboid is plane, be easy to radio-frequency antenna substrate 1, electromagnetic induction base The connection of plate 2 and the control three of circuit substrate 3 and shell, and rounded corner is provided with beneficial to the abrasion for reducing cuboid.

Specifically, the housing of cuboid can form sealing space with upper lid, with to the radio-frequency antenna substrate 1 in shell, Electromagnetic induction substrate 2 is protected with control circuit substrate 3.Certainly, shell is it can also be provided that cuboid, the connection branch of hollow out Frame or other structures.

In above-mentioned each embodiment, radio-frequency antenna substrate 1, electromagnetic induction substrate 2 can pass through with control circuit substrate 3 Bolt connection is easy to the dismounting and maintenance of each substrate in shell.Certainly, radio-frequency antenna substrate 1, electromagnetic induction substrate 2 and control Circuit substrate processed 3 can also be realized being fixedly connected with shell by welding or other modes.

Each embodiment is described by the way of progressive in this specification, and what each embodiment was stressed is and other The difference of embodiment, between each embodiment identical similar portion mutually referring to.

Capsule endoscope wirelessly-enabled devices provided by the utility model are described in detail above.Herein should Principle of the present utility model and implementation method are set forth with specific case, the explanation of above example is only intended to side Assistant solves method of the present utility model and its core concept.It should be pointed out that for those skilled in the art, On the premise of the utility model principle is not departed from, some improvement and modification can also be carried out to the utility model, these improvement Also fallen into the utility model scope of the claims with modification.

Claims (6)

1. a kind of capsule endoscope wirelessly-enabled devices, it is characterised in that including：

Radio-frequency antenna substrate (1) for producing RF energy；

Electromagnetic induction substrate for sending feedback signal when sensing that capsule endoscope is activated and starts the electromagnetic wave for sending (2)；

For triggering the radio-frequency antenna substrate (1) and making after the feedback signal is received the control circuit base of feedback action Plate (3), control circuit substrate (3) connects the radio-frequency antenna substrate (1) and the electromagnetic induction substrate (2)；

For fixing capsule endoscope, the radio-frequency antenna substrate (1), the electromagnetic induction substrate (2) and the control circuit The shell of substrate (3)；

Switching device, on the shell.

2. capsule endoscope wirelessly-enabled devices according to claim 1, it is characterised in that the radio-frequency antenna substrate (1) including voltage controlled oscillator (4), the power amplifier (5) of the output end for being connected to the voltage controlled oscillator (4) and it is connected to institute State the antenna (6) of the output end of power amplifier (5), voltage controlled oscillator (4) the connection control circuit substrate (3).

3. capsule endoscope wirelessly-enabled devices according to claim 2, it is characterised in that the radio-frequency antenna substrate (1) be oppositely arranged with the electromagnetic induction substrate (2), it is described control circuit substrate (3) located at the radio-frequency antenna substrate (1) with Between the electromagnetic induction substrate (2).

4. capsule endoscope wirelessly-enabled devices according to claim 2, it is characterised in that the voltage controlled oscillator (4) It is RC voltage controlled oscillators.

5. capsule endoscope wirelessly-enabled devices according to Claims 1-4 any one, it is characterised in that described outer Shell is hollow and uniform wall thickness cuboid, and the cuboid includes housing and is removably connected to the upper lid of the housing, institute The rib for stating cuboid is provided with rounded corner.

6. according to the capsule endoscope wirelessly-enabled devices described in claim 5, it is characterised in that the radio-frequency antenna substrate (1), The electromagnetic induction substrate (2) is bolted to the shell with control circuit substrate (3).