KR101253986B1 - A circuit for medical - Google Patents

Abstract

The present invention relates to a breathing hose (also known as a circuit) used for anesthesia during surgery or to induce artificial respiration in the intensive care unit, in particular supplied to the critical patient wearing a breathing hose in the operating patient or intensive care unit through a catheter The blood or sap is heated to the same temperature condition as the moisture that is warmed up when breathing, and this warming is to give the function of heating the blood or sap using only the breathing hose without the need of a separate warmer.

Description

Breathing hose for unconscious patients {A circuit for medical}

The present invention relates to a breathing hose (aka circuit) used for anesthesia during surgery or to induce breathing by the ventilator in the intensive care unit, and in particular, the breathing in the patient or intensive care unit in the operation patient is unable to breathe by itself The breathing hoses used by the patients who rely on breathing are heated in various ways to maintain anesthesia gas and oxygen supplied through the breathing hoses. When supplied by a catheter, blood or sap is also maintained at the same temperature heated by the breathing hose so that it is supplied to the patient so that the blood or sap is provided when breathing at the same temperature condition without using a separate warmer. Anesthesia gas or oxygen gas, as well as sap One will ever provided while keeping the same temperature of the liquid.

Anesthesia or respirator is used when anesthesia is operated on an unconscious surgical patient during surgery or when a ventilator is used to induce breathing in a intensive care unit. In a breathing hose (also called a circuit) connecting a patient, anesthesia gas for anesthesia or breathing gas for breathing is used in a humidified or warmed state by various means of heating.
In addition, these patients will not be able to consume the blood transfusions or foods that are consumed or consumed during surgery at the same time, so that fluids such as nutrients will be supplied simultaneously using the catheter.
However, in order to prevent the sap or blood from being deteriorated, it is stored at a low temperature (ultra low temperature), so that the patient's body temperature is lowered when used for the patient. It is the cause of the accident that will kill the precious lives.
Therefore, in order to warm up the sap or blood to a certain temperature, a separate warmer (sap warmer or blood warmer) must be used, respectively, and these warmers belong to expensive equipment. Or, because of this, it is not possible to have these equipment outside of a large hospital, and therefore, it is not possible to have such equipment, and even if it is equipped, it is not possible to have many units for use in all patients and Even so, due to its volume, it is impossible to provide it to virtually all patients who need to receive a blood transfusion or fluid because of the problem of location and storage if not used.
In addition, even though blood or sap is heated by using separate heaters, the saline or blood that is heated in the warmer is eventually moved through the catheter and is supplied to the human body. The length of the catheter's hoseline extends to a certain length because the length is always supplied by the potential energy from the patient's lying position. By falling, the patient could not always be supplied at a constant temperature.

Therefore, in the present invention, the blood or sap supplied to the patients in the operating patient or intensive care unit, the low-temperature gas (anesthetic gas, respiratory gas, etc.) supplied through the breathing hose in the anesthesia or respirator is warmed by various heating means It is possible to provide a heated breathing hose that can be supplied under the same conditions as the temperature provided as well as the heated temperature does not fall until the body is infused even when heated sap or blood is supplied to the patient.

For this purpose, only the supply and discharge sides of the catheter hose line, through which blood or fluid flows on the inlet and outlet sides of the breathing hose, are provided with various means of heating in the breathing hose connected to the anesthesia or the ventilator. In this state, the hose line flows into the breathing hose and warms up as it flows through the hose line. When the cold anesthetic gas or oxygen gas supplied through the breathing hose is heated by the heating means, the blood flowing through the catheter's hose line Or sap is allowed to warm to the same temperature.
In addition, the breathing hose is connected to the patient's mouth, and the discharge side of the catheter hoseline is exposed only at the part connected to the patient's mouth. In this case, the phenomenon of cooling down will be prevented.

Therefore, it is inexpensive and warming effect by heating the sap or blood to the same temperature provided by the breathing hose by using only the breathing hose which is essential for the surgical patient who needs anesthesia or the conscious patient who is unconscious and unable to breathe on his own. It is excellent.
In addition, the breathing hose is connected to the patient's mouth, so that warmed sap or blood is directly connected to the patient so that the breathing hose can be supplied in a warm state without cooling, thereby providing economic benefits to the patient and benefiting the patient's health. Will be provided.

Figure 1 is a schematic diagram showing one embodiment of a breathing hose used in anesthesia of the present invention.
Figure 2 is a schematic diagram showing an embodiment for preventing the catheter of the present invention bent.
Figure 3 is a use state of the present invention,
Figure 4 is a schematic diagram showing another embodiment used in the intensive care unit of the present invention.
Figure 5 is a schematic view of a state applied to the supply line showing only the supply line of another breathing hose of the present invention.
Figure 6 is a schematic diagram of one embodiment for the protection of the catheter in the pinched state of the present invention.
7 is a state in which a heating wire is provided in the supply line of the hose hose of FIG.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.
First of all, the breathing hose 10 of the present invention provides warmed moisture or supplies moisture when cold anesthetic gas or oxygen supplied through the supply line 11 is simultaneously supplied with moisture for protecting the bronchus and lungs. By heating the inside of the (11) to the cold anesthesia gas or oxygen to be heated to protect the bronchial and lungs without dropping the body temperature of the patient, and the supply through this supply line 11 is discharge line ( 12) to be discharged through or connected to the device 100 to be purified while being circulated.
At this time, the supply line to supply the warmed moisture to the supply line 11 of the breathing hose 10 or to supply the warmed moisture to the cooling line while flowing to the supply line 11 in the process of supplying the supply line ( 11) to keep the warmed state by a separate heating wire 13 or supply water to absorb water into the cloth and the moisture supplied by the evaporation of the water supplied by the heating of the heating wire 13 is audited by the cloth It will be possible to use both in the way it provides.
Therefore, while only the supply side 21 and the discharge side 22 of the catheter 20 are exposed to both ends of the supply line 11, the hose line 23 connecting the supply side 21 and the discharge side 22 is breathed. The fluid or blood that is introduced into the supply line 11 of the hose 10 and passes through the hose line 23 by the heating wire or the heated moisture in the supply line 11 is heated.
At this time, the supply line 11 is formed in the form of a corrugated pipe 16 so as to bend easily between the connecting port 14 connected to the device for supplying anesthesia gas or oxygen gas to both ends of the patient's mouth. Hose line connecting the supply side 21 and the discharge side 22 while only the supply side 21 and the discharge side 22 of the catheter 20 is exposed to both ends of the corrugated pipe 16, that is, the connector 14 Reference numeral 23 is to be incorporated into the corrugated pipe 16 of the breathing hose (10).
Thus, the fluid or blood passing through the hose line 23 accommodated in the supply line 11 by the temperature inside the supply line 11 is heated to the internal temperature of the supply line 11.
In addition, the supply side and the discharge side when only the supply side 21 and the discharge side 22 of the catheter formed on both ends of the hose line 23 in the state that the hose line 23 is in the interior of the supply line 11 is exposed The hose line 23 of the catheter is a corrugated pipe formed at both ends of the corrugated pipe 16 constituting the supply line 11 to prevent the leakage of moisture or heat to the part (a) exposed from the supply line. After having a more rigid structure (16) and then drilled the hole (15) in the connector (14) to close tightly using the flexibility of the hose line 23 of the catheter to prevent the leakage of heat or moisture will be.
To this end, the inner diameter of the hole 15 is formed to be slightly smaller than the outer diameter of the hose line 23, so that the close coupling is possible but does not damage the outer surface of the hose line 23.
In addition, in order to achieve such close fitting and at the same time to prevent bending of the hose line 23 of the catheter, the guide tube 17 is formed integrally with the hole 15 or by assembling the hose of the catheter by the guide tube 17. The line 23 is to be prevented from being bent, and the contact of the hose line is brought into surface contact, thereby preventing damage to the outer surface.
At this time, the guide tube 17 has a gentle inclination angle in the direction in which the supply side 21 and the discharge side 22 of the hose line 23 of the catheter enter or are easily discharged. It will prevent the break.
In this case, a variety of methods for preventing leakage of moisture or heat may be used between the hose line 23 of the catheter incorporated into the guide tube 17, and this method does not limit the purpose of the present invention. .
In the present invention, as shown in FIG. 2, the packing line 18 is closely fitted to the hose line 23, and then in the state in which the packing 18 is fitted, the guide tube 17 has a diameter greater than that of the packing 18. By having a slightly larger and gradually narrower expansion portion 17a, the packing 18 is tightly coupled to the expansion portion 17a by pulling the hose line 23 during assembly when the packing 18 is fitted. By doing so, it is possible to prevent bending of the hose line or to prevent leakage of heat or moisture.
In addition, the packing 18 also has a function to prevent the flow of the hose line 23 is inserted into the inside of the supply line 11 by pulling to the left and right during use or during the operation process to maintain a sense of safety in use Will be.
In addition, the hose line in the state in which the elastic layer 15a is integrally implemented by double injection molding on the inner surface of the hole 15 drilled in the connector 14 formed at both ends of the corrugated pipe 16 of the supply line 11. By compulsory fitting (23) to prevent leakage as well as to prevent damage to the hose line 23 at the time of fitting the hose line (23).

10: breathing hose 11: supply line
12: discharge line 13: heating wire
14: connector 15: hole
15a: elastic layer
16: corrugated pipe 17: guide pipe
17a: expansion part 18: packing
20: catheter 21: supply side
22: discharge side 23: hose line

Claims (6)

When cold anesthetic gas or oxygen supplied to the supply line 11 and the discharge line 12 of the breathing hose 10 is simultaneously supplied with moisture for the protection of the bronchus and lungs, it provides warmed moisture or supplies moisture. By allowing the inside of the line 11 to be warmed, the cold anesthetic gas or oxygen is heated to protect the bronchus and lungs without dropping the patient's body temperature while being connected to the patient and the device 100 to circulate.
Only the supply side 21 and the discharge side 22 of the catheter 20 supplying blood or sap to both ends of the supply line 11 of the breathing hose 10 are exposed to the supply side 21 and the discharge side 22. Hose line 23 of the catheter 20 to connect the inlet into the supply line 11 of the breathing hose 10, the fluid or blood passing through the hose line 23 in the supply line 11 A breathing hose used by unconscious patients characterized by this warming. 2. The supply line (11) according to claim 1, wherein the supply line (11) is formed of a corrugated pipe (16) so as to bend easily between the connector (14) for connecting to the patient's mouth and the device at both ends thereof. The hose line 23 connecting the supply side 21 and the discharge side 22 while exposing only the supply side 21 and the discharge side 22 of the catheter 20 to the outside of the corrugated pipe 16 of the breathing hose 10 is provided. Breathing hose used by unconscious patients characterized in that the sap or blood is introduced into the interior of the corrugated pipe 16 passing through the hose line 23 is heated. 3. The supply side 21 and the discharge side 22 of the catheter formed at both ends of the hose line 23 according to claim 1 or 2, in which the hose line 23 is in the interior of the corrugated pipe 16. In case of exposure, the catheter's hoseline 23 is drilled through the hole 15 in the connector 14 having a rigid structure than the corrugated pipe 16 to prevent leakage of moisture or heat. A breathing hose used by unconscious patients characterized by tight fit with flexibility to prevent the leakage of heat or moisture. 4. The guide tube (17) according to claim 3, wherein the guide tube (17) is formed integrally or by assembling in the hole (15) of the connector (14) to prevent bending of the hose line (23) of the catheter. Respiratory hose used by unconscious patients, characterized in that to prevent the break of the hose line 23 of the catheter. The method according to claim 4, wherein the hose line 23 is tightly fitted to the packing 18, and then in the state in which the packing 18 is fitted, the guide tube 17 is gradually larger and narrower than the outer diameter of the guide tube. A breathing hose for use by unconscious patients characterized in that the packing 18 is tightly coupled to the expanding part 17a by pulling in the state where the packing 18 is fitted by providing the losing expanding part 17a. . The hose line according to claim 3, wherein the inner surface of the hole (15) drilled in the connector (14) formed at both ends of the corrugated pipe (16) is integrally formed with the elastic layer (15a) by double injection molding. Respiratory hose used by unconscious patients, characterized in that forcing the fitting (23) to prevent leakage as well as to prevent damage to the hose line (23) even when fitting the hose line (23).

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