CN204395237U - Intracavity ultraviolet therapeutic - Google Patents

Abstract

The utility model discloses a kind of intracavity ultraviolet therapeutic, relate to medical field.The problem of the treatment of intracavity disease cannot be applicable to for solving existing ultraviolet technique and invent.Disclosed in this utility model embodiment, technical scheme comprises: ultraviolet controller, ultraviolet generator, cold light controller, cold light source, display, the first light-conductive optic fibre, the second light-conductive optic fibre, image acquisition device, image transmission optical fibre and optical fiber focus lamp; Described ultraviolet controller is connected with described ultraviolet generator, and described cold light controller is connected with described cold light source; Described image acquisition device is connected with described image transmission optical fibre respectively with described display.

Description

Intracavity ultraviolet therapeutic

Technical field

This utility model relates to medical field, particularly relates to a kind of intracavity ultraviolet therapeutic.

Background technology

Clinically, ultraviolet technique is widely used in the treatment of the diseases such as various active chronic inflammation, various ulcer disease, poor wound healing, subcutaneous extvavasated blood, evident in efficacy.

But existing ultraviolet technique only can the treatment at the position that naked eyes can be looked at straight on human body, as body surface etc., cannot be applicable to the treatment of intracavity disease.

Utility model content

This utility model provides a kind of intracavity ultraviolet therapeutic, can be applicable to the treatment of intracavity disease.

This utility model technical solution problem adopts following technical scheme: a kind of intracavity ultraviolet therapeutic, comprising:

Ultraviolet controller, ultraviolet generator, cold light controller, cold light source, display, the first light-conductive optic fibre, the second light-conductive optic fibre, image acquisition device, image transmission optical fibre and optical fiber focus lamp;

Described ultraviolet controller is connected with described ultraviolet generator, and described cold light controller is connected with described cold light source; Described image acquisition device is connected with described image transmission optical fibre respectively with described display;

Described cold light controller, for controlling described cold light source to described second light-conductive optic fibre utilizing emitted light;

Described second light-conductive optic fibre, the light for being sent by described cold light source conducts to intracavity to be treated;

Described image acquisition device, for gathering the image of described intracavity to be treated;

Described image transmission optical fibre, for the image transmitting extremely described display gathered by described image acquisition device;

Described display, for showing the image of described image transmission optical fibre transmission;

Described ultraviolet controller, launches ultraviolet for controlling described ultraviolet generator to described first light-conductive optic fibre;

Described first light-conductive optic fibre, the ultraviolet light for described ultraviolet generator being launched transfers to described intracavity to be treated;

Described optical fiber focus lamp, after focusing on the ultraviolet of described first light-conductive optic fibre transmission, is irradiated to the lesions position of described intracavity to be treated.

Optionally, the intracavity ultraviolet therapeutic that the present embodiment provides, also comprises:

At least one flexible pipe;

Described first light-conductive optic fibre and described second light-conductive optic fibre are in same flexible pipe; Or described first light-conductive optic fibre and described second light-conductive optic fibre are in different flexible pipe.

Optionally, flexible pipe described in the intracavity ultraviolet therapeutic that the present embodiment provides, is woven outward in webmaster, polyurethane-coated layer, rustless steel by the rustless steel distributed from outside to inside and weaves webmaster and helical Bourdon tube forms.

Optionally, the intracavity ultraviolet therapeutic that the present embodiment provides, also comprises:

Spool, described spool is connected with described first light-conductive optic fibre.

Optionally, ultraviolet generator described in the intracavity ultraviolet therapeutic that the present embodiment provides, comprising:

High frequency excitation voltage generation module, D.C. regulated power supply, microprocessor and hot cathode low pressure ultraviolet lamp pipe;

Described high frequency excitation voltage generation module is connected with hot cathode low pressure ultraviolet lamp pipe with described D.C. regulated power supply respectively; Described microprocessor is connected with described ultraviolet controller with described D.C. regulated power supply respectively.

Optionally, described in the intracavity ultraviolet therapeutic that the present embodiment provides, medical 254nm short wave ultraviolet launched by hot cathode low pressure ultraviolet lamp pipe, its spectrum>=85%, exposure rate>=10mV/cm ², power≤60VA.

Optionally, intracavity to be treated described in the intracavity ultraviolet therapeutic that the present embodiment provides, comprising:

Stomach, small intestinal, colon, nose, larynx, bronchus, thoracic cavity, abdominal cavity, bladder, vagina, uterine cavity or joint.

This utility model has following beneficial effect: when user needs to treat the disease of intracavity, and can control cold light source to the second light-conductive optic fibre utilizing emitted light by cold light controller, the light that cold light source is sent by the second light-conductive optic fibre conducts to intracavity; Simultaneously by the image in image acquisition device acquisition cavity, and by image transmission optical fibre by image transmitting to display, the image that user can be shown by display is by one end of the first light-conductive optic fibre, the second light-conductive optic fibre and image transmission optical fibre, and image acquisition device and optical fiber focus lamp import intracavity to be treated; After importing completes, user can control ultraviolet generator by ultraviolet controller and launch ultraviolet to the first light-conductive optic fibre, and after the ultraviolet light that ultraviolet generator is launched being transferred to intracavity to be treated by the first light-conductive optic fibre, be irradiated to lesions position after the ultraviolet that the first light-conductive optic fibre transmits being focused on by optical fiber focus lamp, thus realize the treatment of intracavity disease.The technical scheme that this utility model embodiment provides solves existing ultraviolet technique in prior art only can the treatment at the position that naked eyes can be looked at straight on human body, as body surface etc., cannot be applicable to the problem of the treatment of intracavity disease.

Accompanying drawing explanation

The structural representation of the intracavity ultraviolet therapeutic that Fig. 1 provides for this utility model embodiment 1;

Fig. 2 is the structural representation of the intracavity ultraviolet therapeutic middle-ultraviolet lamp generator shown in Fig. 1.

Detailed description of the invention

Below in conjunction with embodiment and accompanying drawing, the technical solution of the utility model is further elaborated.

Embodiment 1

As shown in Figure 1, present embodiments provide a kind of intracavity ultraviolet therapeutic to comprise: ultraviolet controller 101, ultraviolet generator 102, cold light controller 103, cold light source 104, display 105, first light-conductive optic fibre 106, second light-conductive optic fibre 107, image acquisition device 108, image transmission optical fibre 109 and optical fiber focus lamp 110.Wherein, described ultraviolet controller is connected with described ultraviolet generator, and described cold light controller is connected with described cold light source; Described image acquisition device is connected with described image transmission optical fibre respectively with described display; Described cold light controller, for controlling described cold light source to described second light-conductive optic fibre utilizing emitted light; Described second light-conductive optic fibre, the light for being sent by described cold light source conducts to intracavity to be treated; Described image acquisition device, for gathering the image of described intracavity to be treated; Described image transmission optical fibre, for the image transmitting extremely described display gathered by described image acquisition device; Described display, for showing the image of described image transmission optical fibre transmission; Described ultraviolet controller, launches ultraviolet for controlling described ultraviolet generator to described first light-conductive optic fibre; Described first light-conductive optic fibre, the ultraviolet light for described ultraviolet generator being launched transfers to described intracavity to be treated; Described optical fiber focus lamp, after focusing on the ultraviolet of described first light-conductive optic fibre transmission, is irradiated to the lesions position of described intracavity to be treated.

In the present embodiment, when user needs to treat the disease of intracavity, can control cold light source to the second light-conductive optic fibre utilizing emitted light by cold light controller, the light that cold light source is sent by the second light-conductive optic fibre conducts to intracavity; Simultaneously by the image in image acquisition device acquisition cavity, and by image transmission optical fibre by image transmitting to display, the image that user can be shown by display is by one end of the first light-conductive optic fibre, the second light-conductive optic fibre and image transmission optical fibre, and image acquisition device and optical fiber focus lamp import intracavity to be treated; After importing completes, user can control ultraviolet generator by ultraviolet controller and launch ultraviolet to the first light-conductive optic fibre, and after the ultraviolet light that ultraviolet generator is launched being transferred to intracavity to be treated by the first light-conductive optic fibre, be irradiated to lesions position after the ultraviolet that the first light-conductive optic fibre transmits being focused on by optical fiber focus lamp, thus realize the treatment of intracavity disease.This intracavity comprises: stomach, small intestinal, colon, nose, larynx, bronchus, thoracic cavity, abdominal cavity, bladder, vagina, uterine cavity or joint.

Further, for the ease of light-conductive optic fibre, image transmission optical fibre etc. are imported to intracavity, this intracavity ultraviolet therapeutic also comprises: at least one flexible pipe; This first light-conductive optic fibre and the second light-conductive optic fibre are in same flexible pipe; Or this first light-conductive optic fibre and the second light-conductive optic fibre are in different flexible pipe.

In the present embodiment, this flexible pipe, is woven outward in webmaster, polyurethane-coated layer, rustless steel by the rustless steel distributed from outside to inside and weaves webmaster and helical Bourdon tube forms.

Ultraviolet irradiation angle is regulated for the ease of user, this flexible pipe can adopt following structure, comprise: insertion section, bending section, operating portion and string have the steel wire rope of at least both direction bent angle, described bending section is arranged on the front end of described insertion section, and described operating portion is arranged on the rear end of described insertion section; Described bending section is linked by multiple round part, and one end of described steel wire rope is fixed on the front end of described bending section; Described operating portion, comprises bent angle hands wheel; The other end of described steel wire rope is connected with described bent angle handwheel.

In the present embodiment, when user needs to change angle, can strain corresponding steel wire rope, steel wire rope tight side shrinks, and makes bending section form the bending of certain angle, realizes angle adjustment; By adjustment bent angle handwheel, direction adjustment can also be realized.

Adjust the area of ultraviolet radiation for the convenience of the user, the intracavity ultraviolet therapeutic that the present embodiment provides, can also comprise: spool, and this spool is connected with the first light-conductive optic fibre.

In the present embodiment, user can adjust by spool the length that the first light-conductive optic fibre stretches out, thus the area of adjustment ultraviolet radiation.

Further, as shown in Figure 2, the intracavity ultraviolet therapeutic middle-ultraviolet lamp generator 102 that the present embodiment provides, comprising: high frequency excitation voltage generation module 1021, D.C. regulated power supply 1022, microprocessor 1023 and hot cathode low pressure ultraviolet lamp pipe 1024; Described high frequency excitation voltage generation module is connected with hot cathode low pressure ultraviolet lamp pipe with described D.C. regulated power supply respectively; Described microprocessor is connected with described ultraviolet controller with described D.C. regulated power supply respectively.

In the present embodiment, ultraviolet generator receives the control signal of ultraviolet controller transmission by microprocessor, controls opening or closing of D.C. regulated power supply; D.C. regulated power supply is high frequency excitation voltage generation module for power supply, makes high frequency excitation voltage generation module for after hot cathode low pressure ultraviolet lamp pipe provides required electric energy, launches ultraviolet.Wherein, medical 254nm short wave ultraviolet launched by hot cathode low pressure ultraviolet lamp pipe, its spectrum>=85%, exposure rate>=10mV/cm ², power≤60VA; Use this medical short wave ultraviolet, have significant sterilization, analgesia, the growth of promotion granulation tissue and the effect such as wound healing, promotion ulcer healing, treatable scope comprises diseases associated with inflammation, the preventative anti-infective therapy in surgical injury region, accelerates operative region wound healing, ulcer disease etc.

This utility model has following beneficial effect: when user needs to treat the disease of intracavity, and can control cold light source to the second light-conductive optic fibre utilizing emitted light by cold light controller, the light that cold light source is sent by the second light-conductive optic fibre conducts to intracavity; Simultaneously by the image in image acquisition device acquisition cavity, and by image transmission optical fibre by image transmitting to display, the image that user can be shown by display is by one end of the first light-conductive optic fibre, the second light-conductive optic fibre and image transmission optical fibre, and image acquisition device and optical fiber focus lamp import intracavity to be treated; After importing completes, user can control ultraviolet generator by ultraviolet controller and launch ultraviolet to the first light-conductive optic fibre, and after the ultraviolet light that ultraviolet generator is launched being transferred to intracavity to be treated by the first light-conductive optic fibre, be irradiated to lesions position after the ultraviolet that the first light-conductive optic fibre transmits being focused on by optical fiber focus lamp, thus realize the treatment of intracavity disease.The technical scheme that this utility model embodiment provides solves existing ultraviolet technique in prior art only can the treatment at the position that naked eyes can be looked at straight on human body, as body surface etc., cannot be applicable to the problem of the treatment of intracavity disease.

The treatable disease of this utility model comprises: 1. inflammatory diseases: gastritis, enteritis, rhinitis, pharyngolaryngitis, tracheobronchitis, cystitis, vaginitis, inflammation of uterus etc.; 2. ulcer disease: gastric ulcer, duodenal ulcer, ulcerative colitis etc.; 3. operation is relevant: operative incision healing etc. in the infection of prevention field of operation, the organization healing of acceleration field of operation, accelerating cavity.

The sequencing of above embodiment, only for ease of describing, does not represent the quality of embodiment.

Last it is noted that above embodiment is only in order to illustrate the technical solution of the utility model, be not intended to limit; Although be described in detail this utility model with reference to previous embodiment, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the spirit and scope of each embodiment technical scheme of this utility model.

Claims (6)

1. an intracavity ultraviolet therapeutic, is characterized in that, comprising:

Ultraviolet controller, ultraviolet generator, cold light controller, cold light source, display, the first light-conductive optic fibre, the second light-conductive optic fibre, image acquisition device, image transmission optical fibre and optical fiber focus lamp;

Described ultraviolet controller is connected with described ultraviolet generator, and described cold light controller is connected with described cold light source; Described image acquisition device is connected with described image transmission optical fibre respectively with described display;

Described cold light controller, for controlling described cold light source to described second light-conductive optic fibre utilizing emitted light;

Described second light-conductive optic fibre, the light for being sent by described cold light source conducts to intracavity to be treated;

Described image acquisition device, for gathering the image of described intracavity to be treated;

Described image transmission optical fibre, for the image transmitting extremely described display gathered by described image acquisition device;

Described display, for showing the image of described image transmission optical fibre transmission;

Described ultraviolet controller, launches ultraviolet for controlling described ultraviolet generator to described first light-conductive optic fibre;

Described first light-conductive optic fibre, the ultraviolet light for described ultraviolet generator being launched transfers to described intracavity to be treated;

Described optical fiber focus lamp, after focusing on the ultraviolet of described first light-conductive optic fibre transmission, is irradiated to the lesions position of described intracavity to be treated.

2. intracavity ultraviolet therapeutic according to claim 1, is characterized in that, also comprise:

At least one flexible pipe;

Described first light-conductive optic fibre and described second light-conductive optic fibre are in same flexible pipe; Or described first light-conductive optic fibre and described second light-conductive optic fibre are in different flexible pipe.

3. intracavity ultraviolet therapeutic according to claim 2, is characterized in that, described flexible pipe, is woven outward in webmaster, polyurethane-coated layer, rustless steel weave webmaster and helical Bourdon tube forms by the rustless steel distributed from outside to inside.

4. intracavity ultraviolet therapeutic according to claim 1 and 2, is characterized in that, also comprise:

Spool, described spool is connected with described first light-conductive optic fibre.

5. intracavity ultraviolet therapeutic as claimed in any of claims 1 to 3, is characterized in that, described ultraviolet generator, comprising:

High frequency excitation voltage generation module, D.C. regulated power supply, microprocessor and hot cathode low pressure ultraviolet lamp pipe;

Described high frequency excitation voltage generation module is connected with hot cathode low pressure ultraviolet lamp pipe with described D.C. regulated power supply respectively; Described microprocessor is connected with described ultraviolet controller with described D.C. regulated power supply respectively.

6. intracavity ultraviolet therapeutic according to claim 5, is characterized in that,

Described hot cathode low pressure ultraviolet lamp pipe launches medical 254nm short wave ultraviolet, its spectrum>=85%, exposure rate>=10mV/cm ², power≤60VA.