KR20110030744A - Tube for anesthesia machinery ans breathing apparatus - Google Patents

Abstract

The present invention is used to connect to the ventilator when anesthesia in the operating room and when moving from the operating room or operating room to the recovery room and the intensive care unit, etc., exhaust and intake are treated in a single hose, the purity and resistance of the gas is less natural The present invention relates to a tube for anesthesia and respirator, which fundamentally blocks secondary infections caused by supplying dry or cold gas to humans by heating and humidifying it with proper humidity.

According to the present invention anesthesia and respirator tube

Body 100;

An extension part 300 formed below the body 100 and configured to have a variable length;

A connection part 500 formed below the extension part 300 and to which the mask is fastened;

Body 100, extending portion 300, is provided in the longitudinal direction on the inside of the connecting portion 500 is characterized in that it comprises a dividing wall 700 to be divided into 1/2 to be a gas passage.

Anesthesia, ventilator, tube, partition wall

Description

Tubes for anesthesia and respirators {Tube for anesthesia machinery ans breathing apparatus}

The present invention relates to a tube for anesthesia and respirator, and more particularly to anesthesia when used in anesthesia in the operating room and to move to the recovery room and intensive care unit in the operating room or operating room, the exhaust and inhalation Anesthesia and respirator, which is treated in a hose of low purity and resistance, and provides natural gas circulation to fundamentally block secondary infections caused by supplying dry or cold gas to humans with proper humidity. It is about a tube.

In general, a ventilator is used in an emergency room, an intensive care unit of a hospital, and the like to help a patient breathe.

In the operating room, anesthesia is used to anesthetize the patient for the procedure.

At this time, the anesthesia and the ventilator is provided with a tube connected to the patient on one side and the mouse is fastened to one end of the tube.

The tube supplies the patient with air entering and exiting the patient's lungs through a ventilator that is spontaneously or assisted with a suitable combination of gas, volume and pressure.

In addition, when used with a carbon dioxide absorber, it contains heat and water vapor and is anesthetized by re-breathing exhaled gas where carbon dioxide is removed.

The existing tube has a branch shape as shown in FIG.

That is, two tubes are connected to the lower part of the connecting tube to supply gas through the two tubes, but are supplied to the patient through the connecting tube.

One of the two tubes is used as the passage of exhalation gas, and the other tube is used as the passage of intake gas.

As described above, the conventional tube supplies gas through two tubes, which causes a complicated facility.

In addition, the tube has a problem that must be provided with a separate device for providing a temperature in order to prevent abnormality in the respiratory tract by the gas when supplying the compressed gas to the patient.

In addition, there is a problem that the tube is separated from the patient by the interference between the tubes during the transfer of the patient.

The present invention has been invented to solve the conventional problems as described above has the following object.

The present invention, when anesthesia in the operating room and when moving from the intensive care unit or operating room to the recovery room, intensive care unit, etc., fastened to the ventilator, the exhaust and intake is treated in a single hose, the purity or resistance is less, dry by natural gas circulation The object of the present invention is to provide anesthesia and ventilator tubes that can provide warm or humidified gas to humans with adequate humidity.

It is also an object of the present invention to provide a tube for anesthesia and respirator to fundamentally block secondary infection during inhalation.

The present invention for achieving the above object is implemented by an embodiment having the following configuration.

According to the first embodiment of the present invention, the tube for anesthesia and the ventilator of the present invention is

Body 100;

An extension part 300 formed below the body 100 and configured to have a variable length;

A connection part 500 formed below the extension part 300 and to which the mask is fastened;

Body 100, extending portion 300, is provided in the longitudinal direction inside the connecting portion 500 is characterized in that it comprises a partition wall 700 to be divided into 1/2.

According to a second embodiment of the present invention, the tube for anesthesia and the ventilator of the present invention is

Further provided with an auxiliary pipe 900 on one side of the body 100, the auxiliary pipe 900 is directly connected to any one of the passages divided by the dividing wall 700 to supply other types of gas It features.

According to a third embodiment of the present invention, the tube for anesthesia and ventilator of the present invention is

When the anesthesia gas or oxygen is supplied to the patient through each of the passages after connecting to the patient through the mouse fastened to one end of the connection part 500, the gas supplied through the tube 1 prevents the patient from being opened by exhalation during breathing. It is characterized by having a cold gas (compressed gas) to prevent abnormality in the respiratory system of the patient.

The present invention has the following effects by the above configuration.

The present anesthesia and ventilator tubes are fastened to the ventilator during anesthesia in the operating room and when moving from the intensive care unit or operating room to the recovery room, the intensive care unit, etc. By the gas circulation of has the effect that can be supplied by heating, humidifying dry or cold gas to the appropriate humidity to humans.

Inhalation also has the effect of fundamentally blocking secondary infections.

The applicant will be described below in detail the configuration of the present embodiment with reference to the accompanying drawings.

Detailed descriptions of well-known functions and configurations that are determined to unnecessarily obscure the subject matter of the present invention will be omitted.

2 and 3 is a perspective view showing a tube according to the present invention, Figures 4 and 5 is a state diagram used in accordance with the present invention.

The tube 1 of the present invention is formed in the tube body 100 and the lower portion of the body 100, but the extension portion 300 and the lower portion formed in the extension portion 300 formed to vary the length and the connection portion 500 is fastened to the mask and The body 100, the extension 300, and the inner side of the connection part 500 are provided in the longitudinal direction and are divided into a dividing wall 700 to be divided into 1/2.

The body 100 is made of a tubular shape through which the inside is fastened and fixed to an anesthesia or a ventilator.

Extension portion 300 is formed integrally with the lower portion of the body 100, made of a corrugated pipe shape to vary the length and shape.

The connection part 500 is formed integrally with the lower part of the extension part 300 and is connected to the patient through a mouse fastened to one end.

The dividing wall 700 is integrally formed inside the body 100, the extending part 300, and the connecting part 500 which are formed integrally so as to divide the inner side into 1/2 to become a moving passage.

The moving passage divided by the dividing wall 700 simultaneously supplies different gases such as anesthesia gas or oxygen, or one side is used as an intake passage passage.

At this time, the auxiliary pipe 900 is further provided on one side of the body 100, and the auxiliary pipe 900 is directly connected to any one of the passages divided by the dividing wall 700 so as to supply different kinds of gases. It was.

The tube 1 formed as described above is fastened to the gas discharge nozzle of the anesthesia or the ventilator of one end of the body 100 and the auxiliary tube 900, and connected to the patient after fastening the mouse to one end of the connection portion 500 Each passage provides anesthesia gas or oxygen to the patient.

At this time, the cold gas supplied through the tube 1 causes the patient to have heat and moisture by exhaling during breathing, thereby preventing abnormality in the respiratory system of the patient by the cold gas (compressed gas).

In addition, the cold gas (compressed gas) during the process of supplying through the passage receives heat by the air supplied through the partition wall.

The present invention is lighter than conventional tubes, so it can be used both in the operating room, the intensive care unit and the movement of the patient.

It also reduces volume expansion due to low elasticity in case of sudden gas volume expansion.

And because it consists of one tube there is no interference when moving the patient can move the patient stably when moving.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, and it is common in the art that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention. It will be evident to those who have knowledge of.

1 is a perspective view showing a conventional tube

2 and 3 are perspective views showing the tube according to the present invention

4 and 5 is a state diagram used in accordance with the present invention

Explanation of symbols on the main parts of the drawings

100: body 300: extension

500: connection part 700: partition wall

900: assistant

Claims (3)

Body 100; An extension part 300 formed below the body 100 and configured to have a variable length; A connection part 500 formed below the extension part 300 and to which the mask is fastened; Tube 100 for anesthesia and respirator, characterized in that it comprises a partition wall 700 is provided in the longitudinal direction inside the body 100, the extension 300, the connecting portion 500 is divided into 1/2. The method of claim 1, Further provided with an auxiliary pipe 900 on one side of the body 100, the auxiliary pipe 900 is directly connected to any one of the passages divided by the dividing wall 700 to supply other types of gas Anesthesia and ventilator tube characterized in that. The method of claim 1 When the anesthesia gas or oxygen is supplied to the patient in each passage after connecting to the patient through a mouse fastened to one end of the connection part 500, the gas supplied through the tube 1 is heated by exhalation during exhalation by the patient. An anesthesia and ventilator tube, characterized in that to prevent the occurrence of abnormality in the respiratory tract of the patient by the cold gas (compressed gas) to have moisture.

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