CN203468560U

CN203468560U - Armpit scope with airbag

Info

Publication number: CN203468560U
Application number: CN201320487097.4U
Authority: CN
Inventors: 乔铁
Original assignee: Guangzhou Baodan Medical Instrument Technology Co Ltd
Current assignee: Guangzhou Baodan Medical Instrument Technology Co Ltd
Priority date: 2013-08-09
Filing date: 2013-08-09
Publication date: 2014-03-12
Anticipated expiration: 2023-08-09

Abstract

The utility model belongs to the field of medical instruments, and particularly discloses an armpit scope with an airbag. The armpit scope comprises an armpit scope body and an armpit scope sheathing canal matched with the armpit scope body, wherein the armpit scope sheathing canal comprises the sheathing canal end portion and a sheathing canal bayonet matched with the armpit scope body, at least one airbag is arranged at the front end of the sheathing canal end portion, and an air inflation catheter for inflating air into the airbag and a liquid inflation channel for inflating liquid into the airbag are further formed in the armpit scope sheathing canal correspondingly. According to the armpit scope, the airbag is arranged on the armpit scope sheathing canal, the effect of expanding the armpit subcutaneous tissue is better achieved, filled liquid can be prevented from being overflowed, the liquid inflation channel is designed in the armpit scope sheathing canal, the liquid inflation channel in the middle of the armpit scope sheathing canal is led into the armpit scope body, and high-definition observation, treatment operation and the like can be carried out. The armpit scope body is provided with a large-diameter instrument channel, and an armpit operation can be carried out in cooperation with general operative instruments; when the armpit scope is used by a doctor to perform the operation, the clearer view can be provided, the free operating space can be provided, and the veracity and safety factors of the operation are accordingly improved.

Description

A kind of axillary fossa mirror with aerating gasbag

Technical field

This utility model belongs to field of medical appliances, is specifically related to a kind of core medical instrument that modern medicine is carried out axillary fossa operation, is a kind of axillary fossa mirror with aerating gasbag.

Prior art

At present, oxter operation is mainly used in treating bromhidrosis, and use equipment, by the subcutaneous sweat gland excision of patient's axillary fossa, reduces unnecessary sweat gland, reaches and controls the object that the unnecessary perspiration of sweat gland secretion causes bromhidrosis.Will be by the excision of the subcutaneous sweat gland of axillary fossa, need to use the scope space that foundation can operating apparatus in axillary fossa tissue, then use apparatus to be used in conjunction with, complete the object of cutting sweat gland.

Utility model content

The purpose of this utility model is to propose a kind of axillary fossa mirror with aerating gasbag, the aerating gasbag subcutaneous tissue of axillary fossa of expanding, and the topping up passage by axillary fossa mirror sheath pipe passes into liquid, sets up a space, builds environment of observation clearly.

For reaching above-mentioned technical purpose, this utility model is achieved by the following technical programs:

A kind of axillary fossa mirror with aerating gasbag described in the utility model, comprise axillary fossa mirror main body and the axillary fossa mirror sheath pipe supporting with it, described axillary fossa mirror main body comprises hard work end, light source joint, eyepiece input or data-interface, described hard work is penetrated with instrument channel in end, intake tunnel, exhalant canal, described axillary fossa mirror sheath pipe comprises sheath tube end, the sheath pipe clamp mouth coordinating with axillary fossa mirror main body, the front end of described sheath tube end is provided with at least one aerating gasbag, corresponding inflating catheter for aerating gasbag is inflated and the topping up passage of topping up of being provided with also on described axillary fossa mirror sheath pipe, inflating catheter is inflated aerating gasbag, make it to expand, topping up channel function is that filling liquid enters axillary fossa.

In this utility model, the shape after described aerating gasbag expands according to it can be divided into following several:

The first, is spherical after described aerating gasbag inflation, diameter≤50mm after its inflation, and the quantity of described aerating gasbag is one or two or three.

The second, is cylindrical shape after described aerating gasbag inflation, after its inflation, sheath tube end is expanded.

In this utility model, the diameter≤15mm of sheath tube end of described axillary fossa mirror sheath pipe, its length range >=100mm.

In this utility model, the sheath tube end of described axillary fossa mirror sheath pipe is disposable plastics or reusable metal material.

In this utility model, and the optical system of described axillary fossa mirror main body is prism optical system or fiber optic fiber optical system or electronic CCD optical system.

In this utility model, described instrument channel is linear type, its internal diameter >=3.0mm, described intake tunnel and exhalant canal and instrument channel highway or separately setting.

Compared with prior art, the beneficial effects of the utility model are:

Axillary fossa mirror with aerating gasbag described in the utility model, it can not only, by using aerating gasbag for subcutaneous tissue of axillary fossa, can, by inflation to obtain valuable working place, conveniently pass into apparatus assisted surgery.

Accompanying drawing explanation

Fig. 1 is the structural representation of the axillary fossa mirror with aerating gasbag described in this utility model embodiment mono-;

Fig. 2 is the first end structural representation one of axillary fossa mirror main body hard work end in this utility model embodiment;

Fig. 3 is the first end structural representation one of axillary fossa mirror main body hard work end in this utility model embodiment;

Fig. 4 is axillary fossa mirror sheath tubular construction schematic diagram in embodiment mono-;

Fig. 5 is axillary fossa mirror sheath tubular construction schematic diagram in this utility model embodiment bis-;

Fig. 6 is axillary fossa mirror sheath tubular construction schematic diagram in this utility model embodiment tri-;

Fig. 7 is axillary fossa mirror sheath tubular construction schematic diagram in this utility model embodiment tetra-.

The specific embodiment

Below in conjunction with accompanying drawing, this utility model is described in further detail:

Embodiment mono-:

As shown in Figure 1, the schematic diagram of the axillary fossa mirror with aerating gasbag described in the utility model, it comprises axillary fossa mirror sheath pipe 1 and supporting axillary fossa mirror main body 2 with it.

As shown in Figure 1, described axillary fossa mirror main body 2 comprises hard work end 21, light source joint 22, eyepiece input or data-interface 23, in described hard work end 21, be penetrated with instrument channel 24, intake tunnel 25, exhalant canal 26, described instrument channel 24 is linear type, its internal diameter >=3.0mm, described intake tunnel 25 and exhalant canal 26 and instrument channel 24 highways (as shown in Figure 2), or intake tunnel 25 and exhalant canal 26 arrange separately (as shown in Figure 3).

In this utility model, the optical system that described axillary fossa mirror main body 2 adopts is prism optical system or fiber optic fiber optical system or electronic CCD optical system.

As Figure 1 and Figure 4, described axillary fossa mirror sheath pipe 1 comprises sheath tube end 11, the sheath pipe clamp mouth 12 coordinating with axillary fossa mirror main body 2, the front end of described sheath tube end 11 is provided with an aerating gasbag 13, corresponding inflating catheter 14 for aerating gasbag 13 is inflated and the topping up passage 15 of topping up of being provided with also on described axillary fossa

mirror sheath pipe

11,14 pairs of aerating gasbags 13 of inflating catheter are inflated, make it to expand, the function of topping up passage 15 is that filling liquid enters axillary fossa, and after these aerating gasbag 13 inflations, be spherical, diameter≤50mm after its inflation.

In this utility model, the sheath tube end 11 maximum gauges≤10mm of described axillary fossa mirror sheath pipe 1, its length range >=100mm, the sheath tube end 11 of described axillary fossa mirror sheath pipe 1 is to be made by disposable plastics or reusable metal material.

Embodiment bis-:

The present embodiment and embodiment mono-are basic identical, and its difference is: as shown in Figure 5, described aerating gasbag 13 has two, and are also spherical after each aerating gasbag 13 expansions.

Embodiment tri-:

The present embodiment and embodiment tri-are basic identical, and its difference is: as shown in Figure 6, described aerating gasbag 13 has three, and are also spherical after each aerating gasbag 13 expansions.

Embodiment tetra-:

The present embodiment and aforementioned three embodiment differences are: as shown in Figure 7, after described aerating gasbag 13 ' inflation, it is cylindrical shape, after its inflation, make sheath tube end 11 expand, the rear space that makes to expand is larger, better for the effect of the subcutaneous tissue of axillary fossa of expanding.

Claims

1. the axillary fossa mirror with aerating gasbag, comprise axillary fossa mirror main body and the axillary fossa mirror sheath pipe supporting with it, described axillary fossa mirror main body comprises hard work end, light source joint, eyepiece input or data-interface, described hard work is penetrated with instrument channel in end, intake tunnel, exhalant canal, the first end of front end of described hard work end is provided with light-conductive optic fibre, optical lens, instrument channel outlet, described axillary fossa mirror sheath pipe comprises sheath tube end, the sheath pipe clamp mouth coordinating with axillary fossa mirror main body, the front end of described sheath tube end is provided with at least one aerating gasbag, corresponding inflating catheter for aerating gasbag is inflated and the topping up passage of topping up of being provided with also on described axillary fossa mirror sheath pipe.

2. the axillary fossa mirror with aerating gasbag according to claim 1, is characterized in that: after described aerating gasbag inflation, for spherical, it inflates rear diameter≤50mm.

3. the axillary fossa mirror with aerating gasbag according to claim 2, is characterized in that: the quantity of described aerating gasbag is one or two or three.

4. the axillary fossa mirror with aerating gasbag according to claim 1, is characterized in that: after described aerating gasbag inflation, be cylindrical shape, after its inflation, sheath tube end expanded.

5. according to the axillary fossa mirror with aerating gasbag described in claim 1 to 4 any one, it is characterized in that: the diameter≤15mm of the sheath tube end of described axillary fossa mirror sheath pipe, its length range >=100mm.

6. the axillary fossa mirror with aerating gasbag according to claim 1, is characterized in that: the sheath tube end of described axillary fossa mirror sheath pipe is disposable plastics or reusable metal material.

7. the axillary fossa mirror with aerating gasbag according to claim 1, is characterized in that: the optical system of described axillary fossa mirror main body is prism optical system or fiber optic fiber optical system or electronic CCD optical system.

8. the axillary fossa mirror with aerating gasbag according to claim 1, is characterized in that: described instrument channel is linear type, its internal diameter >=3.0mm, described intake tunnel and exhalant canal and instrument channel highway or separately setting.