CN107224671B

CN107224671B - Cavity therapeutic apparatus

Info

Publication number: CN107224671B
Application number: CN201710435793.3A
Authority: CN
Inventors: 叶茂林
Original assignee: Shenzhen Med Link Electronics Tech Co ltd
Current assignee: Shenzhen Med Link Electronics Tech Co ltd
Priority date: 2017-06-09
Filing date: 2017-06-09
Publication date: 2023-07-18
Anticipated expiration: 2037-06-09
Also published as: CN107224671A

Abstract

The invention discloses a cavity therapeutic apparatus. The cavity therapeutic apparatus comprises a therapeutic apparatus body and a balloon detachably connected with the therapeutic apparatus body. The therapeutic apparatus body comprises a connecting seat and a therapeutic rod coaxially connected with the connecting seat, and the balloon is sleeved outside the therapeutic rod so that the therapeutic rod is accommodated in the accommodating cavity. The treatment rod is provided with a treatment wave emitter, and treatment waves emitted by the treatment wave emitter act on the inner wall of the cavity through the saccule so as to treat the interior of the cavity. And the therapeutic wave emitter on the therapeutic rod is separated from the inner wall of the cavity by the balloon, so that the injury to the human cavity caused by heating or electrifying and the like in the use process of the therapeutic wave emitter is prevented, and the therapeutic range of therapeutic waves generated by the therapeutic wave emitter in the cavity is enlarged.

Description

Cavity therapeutic apparatus

Technical Field

The invention relates to the field of physiotherapy equipment, in particular to a cavity therapeutic instrument.

Background

Various cavity parts such as vagina and anus of a human body often have problems such as bacterial invasion and inflammation due to various reasons, but the various cavity parts are located in the deep environment of the human body. Besides the medication, the auxiliary treatment by special physiotherapy equipment is difficult to realize, so that the aim of good treatment effect is fulfilled.

Disclosure of Invention

The invention provides a cavity therapeutic apparatus, which realizes auxiliary treatment on various cavity parts of a human body and realizes good therapeutic effect.

The cavity therapeutic apparatus comprises a therapeutic apparatus body and a balloon detachably connected with the therapeutic apparatus body; the therapeutic apparatus body comprises a connecting seat and a therapeutic rod coaxially connected with the connecting seat, and the balloon is sleeved outside the therapeutic rod so that the therapeutic rod is accommodated in the accommodating cavity; the therapeutic rod is provided with a therapeutic wave emitter, and therapeutic waves emitted by the therapeutic wave emitter act on the cavity through the saccule so as to treat the cavity.

The cavity therapeutic apparatus further comprises a processor, and the therapeutic wave emitter is electrically connected with the processor.

And the treatment rod is also provided with a temperature sensor, and the temperature sensor is electrically connected with the processor.

The therapeutic rod is provided with a circuit board, the circuit board is electrically connected with the processor, the therapeutic wave emitter and/or the temperature sensor are arranged on the circuit board, and the therapeutic wave emitter and/or the temperature sensor are electrically connected with the processor through the circuit board.

The electrode seat is provided with an electrode connecting terminal, the electrode connecting terminal is electrically connected with the processor, and when the balloon is connected with the therapeutic instrument body, the electrode is electrically connected with the electrode connecting terminal.

The electrode interface is electrically connected with the electrode, and when the balloon is connected with the therapeutic instrument body, the electrode connecting terminal is inserted into the electrode interface so as to realize the electrical connection of the electrode and the electrode connecting terminal.

Wherein the balloon is a transparent or semitransparent elastic piece.

The treatment rod is tubular and comprises a central pipeline, a plurality of perforations are formed in the pipe wall of the treatment rod, the connecting seat comprises a connecting pipe, and the central pipeline is connected with the connecting pipe.

The balloon is provided with a plurality of openings, and the openings penetrate through the wall of the balloon to enable the accommodating cavity of the balloon to be communicated with the outside.

Wherein the therapeutic wave emitter is any one or more of a light emitting diode, a microwave emitter, a laser emitter, an ultrasonic generator and a radio frequency emitting electrode.

According to the invention, the therapeutic wave emitter is arranged on the therapeutic rod, and therapeutic waves with physiotherapy effects such as light waves, sound waves or microwaves are emitted into a cavity channel to be subjected to physiotherapy through the therapeutic wave emitter, so that the aim of auxiliary treatment is fulfilled. And a balloon is sleeved outside the treatment rod, and the treatment wave emitter on the treatment rod is separated from the inner wall of the cavity channel through the balloon, so that the damage to the human cavity channel caused by heating or electrifying and the like in the use process of the treatment wave emitter is prevented. Further, the therapeutic wave emitter on the therapeutic rod is separated from the inner wall of the cavity channel by the balloon, so that the distance between the therapeutic wave emitter and the inner wall of the cavity channel can be increased, the therapeutic wave generated by the therapeutic wave emitter irradiates the inner part of the cavity channel in a wider range, and the therapeutic effect is better.

Drawings

In order to more clearly illustrate the structural features and effects of the channel treatment apparatus of the present invention, the following detailed description will be made with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic view of the whole lumen channel therapeutic apparatus of the present invention;

FIG. 2 is a schematic cross-sectional view of the luminal therapeutic apparatus depicted in FIG. 1;

FIG. 3 is a schematic cross-sectional view of a therapeutic apparatus body of the luminal therapeutic apparatus of the present invention;

fig. 4 is a schematic cross-sectional view of a balloon of the luminal therapeutic apparatus of the present invention.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. Wherein the drawings are for illustrative purposes only and are shown as schematic representations and are not to be construed as limiting the present patent.

Referring to fig. 1 and 2, the present invention provides a channel treatment apparatus 100. Is used for carrying out auxiliary treatment on the inside of the cavity such as vagina or anus of a human body. The luminal track therapeutic apparatus 100 includes a therapeutic apparatus body, a balloon 30, and a processor (not shown). The therapeutic apparatus body comprises a connecting seat 10 and a therapeutic rod 20 coaxially connected with the connecting seat 10. The balloon 30 is detachably connected with the therapeutic apparatus body, and the balloon 30 is sleeved outside the therapeutic rod 20 so that the therapeutic rod 20 is accommodated in the balloon 30.

Referring to fig. 3, the connector 10 includes a connector housing 11 and a connecting tube 12. The connection seat housing 11 includes a hand-held portion 111 and a pushing portion 112 connected to the hand-held portion 111, where the diameter of the pushing portion 112 is greater than that of the hand-held portion 111, so that a step structure is formed at a connection position of the pushing portion 112 and the hand-held portion 111. When the apparatus 100 is used, the handle 111 is held by hand and the pushing part 112 is pushed, so that the therapeutic rod 20 connected to the connection base 10 can be easily inserted into the cavity for treatment. The connecting pipe 12 is located in the connector housing 11 and is located at a central axis of the connector housing 11. The connecting pipe 12 is disposed at the central axis of the connecting seat 10. The two ends of the connection tube 12 are opened, and a therapeutic agent including, but not limited to, a gas, a liquid or a mist is introduced into the opening 121 at the end remote from the treatment rod 20. For example, when the therapeutic agent is a liquid, a hydraulic device such as a syringe containing the liquid agent may be connected to one end of the opening 121 of the connection tube 12, and the liquid agent may be introduced into the connection tube 12 through the hydraulic device; when the therapeutic drug is in a mist form, an atomizer may be connected to one end of the opening 121 of the connection tube 12, and the atomized mist drug may be introduced into the connection tube 12. It will be appreciated that the connection hub 10 may not include the connection tube 12 in situations where delivery of medication into the lumen is not required.

Further, the connection base 10 is further provided with at least one electrode connection terminal 13 protruding from the connection base 10. In this embodiment, two electrode connection terminals 13 are provided, and the two electrode connection terminals 13 are respectively located at two sides of the central axis of the connection base 10 and symmetrically arranged. The electrode connection terminal 13 is electrically connected to the processor. Alternatively, the electrode connection terminal 13 is directly electrically connected to an external power source, thereby supplying power to the therapeutic apparatus body of the luminal therapeutic apparatus 100. In this embodiment, the electrode connection terminal 13 is electrically connected to the processor or directly to an external power source through a wire 14. One end of the lead 14 is connected to the processor or the power supply, and the other end is disposed in the connection base 10 and electrically connected to the electrode connection terminal 13. It can be appreciated that the present invention may also enable the channel treatment apparatus 100 to be conveniently carried and used by providing a charging power source on the channel treatment apparatus 100.

The treatment rod 20 is tubular, and the tubular treatment rod can conveniently enter the cavity to be treated, so that better treatment is achieved. The therapeutic rod 20 is coaxially connected with the connection base 10, that is, the therapeutic rod 20 is connected with the connection base 10, and the central axis of the tubular therapeutic rod 20 is connected with the central axis of the connection base 10. The treatment wand 20 includes a central tube 21. The center pipe 21 is connected to the connection pipe 12, and the center pipe 21 is connected to the other opening of the connection pipe opposite to the opening 121. The wall of the therapeutic rod 20 is provided with a plurality of perforations 22, and the perforations 22 penetrate through the wall of the therapeutic rod 20, thereby connecting the central tube 21 with the outside of the therapeutic rod 20. The therapeutic agent enters the central tube 21 through the connection tube 12 and is transferred to the outside of the therapeutic rod 20 through the perforation 22. It will be appreciated that the treatment rod 20 may not include the central tube 21 without the need to deliver medication into the lumen.

Further, in the present invention, a plurality of therapeutic wave emitters 23 are further disposed on the outer wall of the therapeutic rod 20. The therapeutic wave emitter 23 is used for emitting therapeutic waves with certain therapeutic effects such as light waves, sound waves, microwaves or electromagnetic waves. Specifically, the therapeutic wave emitter 23 may be any one or more of a light emitting diode, a microwave emitter, a laser emitter, an ultrasonic generator, and a radio frequency emitting electrode. In this embodiment, the therapeutic wave emitter 23 includes a light emitting diode and a microwave emitter. The light emitting diode emits infrared light, and the microwave emitter emits microwaves, so that the microwaves and the infrared light irradiate to the position with inflammation in the cavity, and the inflammation can be accelerated to heal, thereby achieving the aim of auxiliary treatment. It will be appreciated that other types of therapeutic wave emitters 23 may be provided on the treatment rod 20, depending on the needs of the use, for example, a laser emitter may be provided on the treatment rod 20 to sterilize the interior of the lumen. In this embodiment, the therapeutic wave emitter 23 is electrically connected to the processor, and the processor controls the working state of the therapeutic wave emitter 23, that is, controls the opening and closing of the therapeutic wave emitter 23 and the parameters such as the therapeutic wave emitting frequency and intensity of the therapeutic wave emitter 23. It is to be understood that the therapeutic wave emitter 23 may be directly and electrically connected to a power source, and the therapeutic wave emitter 23 may be controlled to be turned on or off by the power source. Specifically, the therapeutic wave emitter 23 is electrically connected to the lead 14 on the connection base 10, so that the therapeutic wave emitter 23 is electrically connected to the processor or the power supply through the lead 14.

In this embodiment, a temperature sensor (not shown in the drawing) is further disposed on the outer wall of the therapeutic rod 20, and the temperature sensor is electrically connected to the wire 14, so as to electrically connect the temperature sensor to the processor. The temperature sensor senses the temperature in the cavity for treatment and sends the temperature information in the cavity to the processor, and the processor judges the health condition in the cavity according to the temperature information or adjusts the working parameters such as the therapeutic wave transmitting frequency and the intensity of the therapeutic wave transmitter 23 according to the temperature information. Thereby preventing the damage to the lumen caused by the high frequency and intensity of the therapeutic wave emitted from the therapeutic wave emitter 23; alternatively, the frequency and intensity of the therapeutic wave emitted by the therapeutic wave emitter 23 are not too low, so that the effect of the adjuvant therapy is poor.

Further, in this embodiment, a printed circuit board 25 is disposed on the outer wall of the therapeutic rod 20, so that the therapeutic wave emitter 23, the temperature sensor, etc. can be integrated on the printed circuit board 25, and the printed circuit board 25 is connected to the wire 14, i.e. the printed circuit board 25 is connected to the processor or directly connected to the power source. By integrating the therapeutic wave emitter 23 and the temperature sensor with the printed circuit board 25, the wiring structure on the therapeutic rod 20 can be greatly reduced, so that the structure of the therapeutic rod 20 is simplified, and the size of the cavity therapeutic apparatus 100 is reduced, so that the cavity therapeutic apparatus is more suitable for cavity therapy.

Referring to fig. 4, the balloon 30 is a transparent or semitransparent elastic member, and the balloon 30 is detachably connected with the therapeutic apparatus body, so that replacement of the balloon 30 can be conveniently realized, and safe and sanitary use of the luminal therapeutic apparatus 100 is ensured. The balloon 30 includes a receiving chamber 31 therein. The balloon 30 is sleeved outside the therapeutic rod 20, so that the therapeutic rod 20 is accommodated in the accommodating cavity 31, and the connection between the balloon 30 and the therapeutic apparatus body is realized. The therapeutic wave emitter 23 on the therapeutic rod 20 acts on the inner wall of the cavity through the balloon 30 to treat the interior of the cavity. Because the balloon 30 is sleeved outside the therapeutic rod 20, the therapeutic rod is isolated from the inner wall of the cavity by the balloon 30, thereby preventing the therapeutic wave emitter 23 from being possibly damaged by direct contact with the inner wall of the cavity after heating or electrifying in the use process. Further, when the therapeutic wave emitter 23 is a light wave generator such as a light emitting diode or a laser generator, the therapeutic wave emitter 23 on the therapeutic rod 20 is kept at a certain distance from the inner wall of the cavity by the balloon 30, so that the irradiation range of the light wave generated by the therapeutic wave emitter can be increased, and a larger range of treatment in the cavity can be realized, and a better treatment effect can be realized.

The accommodating cavity 31 includes an accommodating portion 311 and supporting portions 312 located at both sides of the accommodating portion 311 and connected to the accommodating portion 311. The size of the supporting part 312 is the same as that of the therapeutic rod 20, and the therapeutic rod 20 can be just inserted into the supporting part 312 and fixed; the size of the accommodating portion 311 is larger than that of the therapeutic rod 20, so that when the therapeutic rod 20 is inserted into the balloon 30, a large gap is formed between the inner wall of the balloon corresponding to the accommodating portion 311 and the therapeutic rod 20, thereby facilitating the insertion of the therapeutic rod 20 into the cavity, and realizing that the therapeutic wave emitter 23 on the therapeutic rod 20 keeps a certain distance from the inner wall of the cavity, and expanding the action range of the therapeutic wave emitted by the therapeutic wave emitter 23. In this embodiment, the balloon 30 is ellipsoidal, and has an insertion opening at one end along the long axis, the therapeutic rod 20 is inserted into the balloon 30 through the insertion opening, and two ends of the therapeutic rod 20 are respectively and exactly fixed on the two supporting portions 312 of the receiving cavity 31, so as to fix the balloon 30 and the therapeutic rod 20. Further, the balloon 30 is provided with a plurality of openings 34, and the openings 34 penetrate through the wall of the balloon 30, so that the accommodating cavity of the balloon 30 is communicated with the outside. The therapeutic drug entering the connecting tube 12 from the opening 121 of the connecting tube 12 through the opening 34 on the balloon 30 enters the central tube 21 of the therapeutic rod 20 through the connecting tube 12, and enters the accommodating cavity 31 of the balloon 30 through the perforation 22 on the therapeutic rod 20, and then enters the cavity to be treated through the opening 34 on the balloon 30, thereby achieving the purpose of drug treatment on the cavity. It will be appreciated that the balloon 30 may not have an aperture therein without the need to deliver a drug into the lumen.

Further, at least one electrode 32 is provided on the outer wall of the balloon 30. The electrode 32 is electrically connected to the processor or the power supply. In this embodiment, the electrode 32 is electrically connected to the processor, and the processor controls the working state of the electrode, so that a proper amount of electrical stimulation can be performed on the muscle in the cavity. For example, for postpartum women, the pelvic floor muscles can be stimulated by the appropriate amount of electricity through the electrodes, nerves and muscles at the pelvic floor can be awakened, and the occurrence of pelvic floor dysfunction diseases such as prolapse of pelvic organs, urinary incontinence and the like can be greatly reduced. In this embodiment, there are two electrodes 32, and the two electrodes 32 are separately disposed on the outer wall of the balloon at intervals. In this embodiment, an electrode interface 33 corresponding to the electrode connection terminal 13 is provided on an end of the outer wall of the balloon 30, which is close to the connection base 10. The electrode interface 33 is electrically connected to the electrode 32. When the balloon 30 is connected to the therapeutic apparatus body, the electrode connection terminal 13 is inserted into the electrode interface 33 to electrically connect the electrode 32 to the electrode connection terminal 13. Thereby making electrical connection of the electrode 32 to the processor or the power supply. In this embodiment, the electrode 32 is electrically connected to the processor. The electromyographic signals in the cavity can be collected through the electrode 32, and analyzed through the processor, so that electromyographic or pressure curves are fed back, and a user can more intuitively and clearly know the muscle function state in the cavity, so that targeted treatment is performed. For example, when the apparatus 100 is used for pelvic floor muscle training, the intensity and frequency of the electrical stimulation of the electrodes can be controlled by the electromyography or the pressure curve fed back by the processor, so as to achieve the best suitable pelvic floor muscle training effect. And, through to electrode 32 still can gather bioimpedance information in the chamber way, through the treater is to bioimpedance information carries out the analysis, and then can realize the evaluation to the health condition in the chamber way, in time knows self health condition to carry out corresponding treatment, reach the purpose of prevention disease.

In this embodiment, the processor is electrically connected to the therapeutic wave emitter 23 and the temperature sensor on the printed circuit board, and to the electrode 32. The processor can control the switch and the working parameters of the therapeutic wave emitter 23 and the electrode 32, and can process the temperature data in the cavity detected by the temperature sensor, so as to judge the health condition of the cavity. Further, the processor processes the electromyographic signals and/or bioimpedance signals and the like in the cavity by processing the electrodes 32, analyzes the obtained electromyographic signals and/or bioimpedance signals and the like, and judges the health condition in the cavity. And according to the health condition in the cavity, controlling the information such as the working parameters of each part electrically connected with the processor, so as to achieve the best treatment effect.

The invention is realized by arranging the therapeutic wave emitter 23 on the therapeutic rod 20. The therapeutic wave emitter 23 emits therapeutic waves with physiotherapy effects such as light waves, sound waves or microwaves into the cavity to be treated, so as to achieve the aim of auxiliary treatment. And, a balloon 30 is sleeved outside the therapeutic rod, and the therapeutic wave emitter 23 on the therapeutic rod 20 is separated from the inner wall of the cavity by the balloon 30, so that the therapeutic wave emitter 23 is prevented from generating heat or being electrified in the use process to cause damage to the cavity of the human body. Further, the distance between the therapeutic wave emitter 23 and the inner wall of the cavity can be increased by the balloon 30, so that the therapeutic wave generated by the therapeutic wave emitter 23 irradiates the inner portion of the cavity in a wider range, thereby realizing a larger range of treatment in the cavity and a better treatment effect. And, the medicine can be infused into the cavity through the cavity therapeutic apparatus 100, and the purpose of medicine therapy can be achieved. Furthermore, the electrode 32 is further disposed on the balloon 30, and the electrode 32 can perform appropriate electrical stimulation on the cavity, so as to exercise the cavity muscle, thereby achieving the purpose of adjuvant therapy. And, the electromyographic signals and/or bioimpedance signals in the cavity can be collected through the electrode 32, so that the health condition of the cavity can be detected, and the purposes of disease prevention and auxiliary treatment can be further realized.

While the invention has been described with reference to certain preferred embodiments, it will be understood by those skilled in the art that various changes and substitutions of equivalents may be made and equivalents will be apparent to those skilled in the art without departing from the scope of the invention. Therefore, the protection scope of the invention is subject to the protection scope of the claims.

Claims

1. The cavity therapeutic apparatus is used for treating the interior of a cavity and is characterized by comprising a therapeutic apparatus body and a balloon detachably connected with the therapeutic apparatus body; the therapeutic apparatus body comprises a connecting seat and a therapeutic rod coaxially connected with the connecting seat, and the balloon is sleeved outside the therapeutic rod so that the therapeutic rod is accommodated in an accommodating cavity of the balloon; the treatment rod is tubular and comprises a central pipeline, and a plurality of perforations are arranged on the pipe wall of the treatment rod and penetrate through the pipe wall of the treatment rod to connect the central pipeline with the outside of the treatment rod; the connecting seat comprises a connecting pipe, and the central pipeline is connected with the connecting pipe so as to realize the delivery of the medicine into the cavity; the therapeutic rod is provided with a therapeutic wave emitter, and therapeutic waves emitted by the therapeutic wave emitter act on the cavity through the saccule so as to treat the cavity.

2. The apparatus of claim 1, further comprising a processor, wherein the therapeutic wave emitter is electrically connected to the processor.

3. The apparatus of claim 2, wherein the shaft is further provided with a temperature sensor, and wherein the temperature sensor is electrically connected to the processor.

4. A device according to claim 3, wherein the therapeutic rod is provided with a circuit board, the circuit board is electrically connected to the processor, the therapeutic wave emitter and/or the temperature sensor are provided on the circuit board, and the therapeutic wave emitter and/or the temperature sensor are electrically connected to the processor through the circuit board.

5. The apparatus according to claim 2, wherein at least one electrode is provided on an outer wall of the balloon, an electrode connection terminal is provided on the electrode holder, the electrode connection terminal is electrically connected to the processor, and the electrode is electrically connected to the electrode connection terminal when the balloon is connected to the apparatus body.

6. The apparatus according to claim 5, wherein an electrode interface corresponding to the electrode connection terminal is provided on an outer wall of the balloon at an end close to the connection base, the electrode interface is electrically connected to the electrode, and the electrode connection terminal is inserted into the electrode interface when the balloon is connected to the apparatus body, so as to electrically connect the electrode to the electrode connection terminal.

7. The apparatus of claim 1, wherein the balloon is a transparent or translucent elastic member.

8. The apparatus of claim 5, wherein the balloon has a plurality of openings, the openings penetrating the balloon wall to allow the lumen of the balloon to communicate with the environment.

9. The apparatus of claim 1, wherein the therapeutic wave emitter is any one or more of a light emitting diode, a microwave emitter, a laser emitter, an ultrasonic generator, and a radio frequency emitter electrode.