KR101143805B1 - vaporizer - Google Patents

Abstract

The present invention relates to a carburetor system that maintains the proper temperature and humidity during the injection of breathing gas for general anesthesia and oxygen supply of a patient, and makes it easy to control temperature and humidity by humidifying at low temperature using ultrasonic waves as a humidifying source. will be.
Currently, the ventilator used for respiratory anesthesia or oxygen supply is designed to connect a carburetor to supply cold and dry gas to the patient by heating it in a warm and humid water vapor, but the problem is that the operation principle of the carburetor is caused by the hot plate. Because of the heating structure, it takes a long time to heat the liquid distilled water into a vaporized state, and vaporization is performed at an excessively high temperature, so there is a problem of burns, temperature control and humidity control are difficult. It is difficult to maintain.
Therefore, the present invention, by allowing the vaporization in the form of particulates by ultrasonic vibration by the vibrator in the state that the distilled water contained in the carburetor in the replaceable cartridge, it is possible to instantaneous humidification, and to easily control the temperature and humidity as needed In order to maintain the temperature of the gas by forming a heating means in the vaporizing body and the suction tube, the anesthesia gas and the respiratory gas are stably administered to the patient while maintaining the temperature of the gas and allowing the automatic control at a constant temperature and humidity. It is to be done.

Description

Vaporizer system for warm humidification of anesthetic gas and respiratory gas

The present invention relates to a carburetor located on the respiratory path in order to maintain an appropriate temperature and humidity when injecting anesthesia gas or oxygen gas in the general anesthesia and oxygen supply of the patient, it is provided with a heating means in the carburetor body Of course, the humidification is performed at a low temperature by using ultrasonic waves as a humidification source of distilled water filled in the cartridge using a cartridge detachable from the main body, so that the temperature and humidity can be easily controlled.

In general, patients or critical patients who require anesthesia are to supply anesthesia or oxygen to the patient through an anesthesia or a respirator using a gas supply device embedded in an operating room or a hospital room wall. Anesthesia gas and respiratory gas are supplied through the patient's respiratory system.

Anesthesia gas or respiratory gas by the inhalation method is composed of cold and dry gas, which not only has a problem causing hypothermia to the patient, but also a low temperature because the immunity is lowered especially in patients or critical patients who need surgery. Continuously injecting dry gas can cause many problems.

Therefore, at present, a gas injector is mounted on a gas supply line, and the sterilized distilled water is heated to vaporize, thereby injecting the patient using a suction tube while increasing the temperature and humidity of the gas.

However, the problem of this is that the heating structure of the carburetor is coupled to the top of the hot plate as shown in Figs. Since there is a problem that the heating and humidifying time takes too long because a certain time is required, there is also a risk of burns by the hot plate, there is a drawback that the power to heat the water is greatly consumed.

In addition, in order to vaporize the water in this way, the distilled water is heated to a temperature close to the boiling point, and the anesthesia with such a high temperature is inconvenient to be lowered back to an appropriate temperature (similar to the temperature of the human body) for administration to the patient. While the temperature of the water vapor is lowered while the gas is transferred through the suction tube, there is a problem that the risk of overheating always exists in the case of the heating and humidifying method.

And because the heating method forms water vapor at high temperature, when gas and water vapor are injected together from the vaporizer to the suction tube, condensation occurs inside the pipe as high temperature water vapor rubs against the low temperature in the tube. If the condensation is intensified, water accumulates in the curved portion of the tube in the suction tube to block the tube and the gas injected into the patient is blocked, leading to a medical accident.

Therefore, when condensation is blocked by condensation, a device is needed to generate an alarm sound. In addition, the medical staff periodically observes it at regular intervals in the field. However, this method is only an unsolvable measure and a heating wire in the suction tube to prevent condensation. Although a method of embedding the proposed method has been proposed, such a method also serves only as a supplement and cannot be a perfect solution.

In addition, it is virtually impossible to accurately measure humidity because the steam caused by heating cannot maintain uniform humidification, thus making it impossible to control the temperature and humidity, and to administer the anesthetic while maintaining the proper temperature and humidity uniformly to the patient. There is a problem with the stability of artificial respiration.

In addition, due to the structure of the carburetor is a state in which the distilled water is vaporized is exposed to the outside there is a problem that it is very difficult to adjust the appropriate temperature in accordance with environmental changes.

Therefore, in the present invention, it is possible to instantaneously humidify using a vaporizer while the cartridge is allowed to warm up in the main body, so that the temperature and humidity can be precisely controlled at the same time by controlling the humidity using fine particles at a low temperature. It is to prevent anesthesia and to stably inject anesthesia gas and inhalation gas to the patient while maintaining the set temperature and humidity at all times.

In order to achieve the above object, the present invention includes a cartridge which is removed from the carburetor body and the vaporizing base to replace the humidification, the cartridge is to humidify the distilled water in the form of steam at a low temperature by the ultrasonic vibrator of the vaporizing base At the same time, it is provided with a heating means in the carburetor body in which the cartridge is accommodated to adjust the appropriate temperature and the appropriate humidity.

In addition, the inside of the tubular body of the suction tube is a built-in temperature, humidity sensor and heating heating wire to control the anesthesia gas and breathing gas at a constant temperature and humidity.

In addition, the cartridge is inserted into the vaporizing body to minimize the influence of the internal temperature of the cartridge from external environmental changes, while maintaining the temperature of the cartridge constant by the heating means of the vaporizing body can supply gas stably. It would be.

As described above, the present invention enables instant humidification using an ultrasonic vibrator to reach the set temperature in anesthesia gas and respiratory gas in a short time to complete the preparation for the procedure, while operating at a low temperature, the temperature can be easily controlled. In addition to preventing safety accidents, steam can be generated only as needed, so it is easy to control the humidity to prevent excessive humidification and to prevent water from filling in the respiratory tract. It is possible to set temperature and humidity and to maintain uniform temperature and humidity to ensure stability during the procedure.

In addition, the temperature of the gas can be kept constant by the heating means without exposing the cartridge to the outside, and clean use and hygienic use according to the replacement use of the cartridge can be enabled.

1 is a perspective view showing an embodiment of the present invention
Figure 2 is a use state showing the coupling structure of the breathing tube and the carburetor body of the present invention
Figure 3 is a mounting state showing the coupling structure of the carburetor body and the cartridge of the present invention
4 is a cross-sectional view showing a humidifying structure of the vaporizer body of the present invention.
Figure 5 is a schematic diagram showing the operating structure of the level control means of the cartridge of the present invention
Figure 6 is a perspective view showing an embodiment of the thermal insulation means of the cartridge of the present invention
Figure 7 is a perspective view showing the structure of the breathing tube of the present invention
Figure 8 is a perspective view of a state in which the heating wire and the temperature and humidity sensor is mounted on the breathing tube of the present invention
9 is a perspective view showing a conventional vaporizer structure
10 is a perspective view of the mounting state showing the heating structure of a conventional vaporizer and a distillation tank

Hereinafter, preferred embodiments according to the present invention will be described with reference to the accompanying drawings. In the following drawings, the same reference numerals are used for the same components.

The present invention relates to a vaporizer system for supplying vaporized liquid distilled water in the form of water vapor in order to control the temperature and humidity of anesthesia gas and respiratory gas, as shown in Figures 1 and 2 liquid to the vaporizer body (10) Detachable mounting of the cartridge 20 to be filled with distilled water in the state to make the distilled water filled in the cartridge 20 into the vaporized state by the ultrasonic vibration, the suction tube in the transfer pipe 21 of the cartridge 20 Combination of 30 will send anesthesia gas and breathing gas to the patient's respiratory system.

In addition, the cartridge 20 is to form a blower tube 22 on the upper side is connected to the ventilator through the connecting pipe 40 so that anesthesia gas or breathing gas is supplied to the cartridge 20, the blower tube 22 The gas supplied through) is mixed with vaporized water vapor produced in the humidification chamber 23 of the cartridge 20, discharged into the transfer pipe 21, and then supplied to the patient through the suction tube 30.

At this time, the carburetor body 10 is built in the vibrator 11 at the lower end of the cartridge 20 as shown in Figure 4 to vaporize the distilled water in the form of particulates while heating the cartridge 20 by ultrasonic vibration. In the short time, the anesthetic can be vaporized by ultrasonic vibration, and the proper temperature of the gas to be injected into the patient is preferably 30 ° C. to 40 ° C. similar to the human body temperature. Since the humidification is made, it is possible to easily adjust the appropriate temperature for the human body, and it is also easy to control the temperature and humidity by adjusting the appropriate amount of humidification as needed.

In addition, the mounting structure of the cartridge 20, as shown in Figs. 3 and 4 and 6 forms an internal space 12 in the rear upper side of the vaporizer body 10, the cartridge in the internal space 12 When the slide 20 is inserted in a sliding manner, the side surface of the cartridge 20 is covered by the side wall 13 while only the upper surface of the cartridge 20 is exposed, thereby providing a heat insulating effect.

In forming the side wall 13, when the side wall 13 is formed as a double wall and an air layer is formed therebetween, the temperature of the inside of the cartridge 20 is kept constant while the cartridge 20 is further insulated from the outside by the air layer. It will be able to maintain, and thus it is possible to stably maintain the temperature of the anesthetic without sudden changes in temperature caused by the external environment.

In addition, the inner space 12 is provided with an inner cylinder 70 penetrated up and down as shown in FIG. 6 and the heat insulating means 71 is formed on the outer wall of the inner cylinder 70 so that the thermal insulation of the cartridge 20 is achieved. In this case, it is preferable that the thermal insulation means 71 is made of a hot wire film to increase the thermal efficiency while increasing the space utilization inside the vaporizer body 10.

On the other hand, the suction tube 30 is connected to the transfer tube 21 as shown in Figures 2 and 7 suction hose that serves to send the gas supplied from the ventilator with water vapor to the respirator of the patient 30a, and a discharge hose 30b for transferring the gas discharged through the respirator of the patient, and the water discharge means 30 is formed in the discharge hose 30b so that only the gas is re-injected into the ventilator. It has a structure in which gas is circulated.

At this time, the suction tube 30 has a built-in heating wire 31 and the temperature and humidity sensor 32, and if the heating wire 31 and the temperature and humidity sensor 32 is interlocked with the control device built in the vaporizer body 10, water vapor When the anesthesia gas and the respiratory gas supplied with the gas are transferred to the patient through the suction tube 30, the control unit sets up or lowers the temperature of the heating wire 31 based on the information detected by the temperature and humidity sensor 32. It is possible to maintain a constant temperature, it is also possible to control the operation of the vibrator 11 to adjust the amount of water vapor generated to maintain a constant set humidity.

At this time, the heating wire 31 is helically mounted on the suction tube 30 to maximize the contact area with the gas to increase the heat regulation effect, the position where the temperature and humidity sensor 32 is mounted is the patient's respirator It is preferable to mount it as close as possible, so that the temperature and humidity of the gas supplied to the patient can be measured and controlled as precisely as possible through the installed temperature and humidity sensor 32.

In addition, the suction tube 30 is branched into the suction hose (30a) and the discharge hose (30b) by the branch pipe 33, the suction pipe (33a) is formed, the suction hose (30a) as described above The built-in (31) and the temperature and humidity sensor 32, it is preferable that the discharge hose (30b) to only remove the moisture contained in the gas at the time of the patient's breath discharge by embedding the heating wire (31).

Therefore, if the patient inhales gas, the inhalation anesthetic can be administered to the patient while maintaining a constant temperature and humidity while the gas is removed from the ventilator by removing moisture to discharge the machine. It can be prevented.

At this time, the heating wire 31 and the temperature and humidity sensor 32 is to be connected to the carburetor main body 10 by the power connection part 35 to be automatically controlled, the heating wire 31 is inside the tubular body of the suction tube 30. The heating wire 31 and the temperature / humidity sensor (32) in the fastener 34 in which the locking means 34a is formed as shown in FIG. 32, it is preferable that the locking means (34a) is caught on the inner wall of the bellows hose at the end of the suction tube (30).

On the other hand, the cartridge 20 is to connect the valve 24 to adjust the amount of sterilized distilled water supplied from the sap bag 60 into the humidification chamber 23, the humidification chamber 23 It is desirable to form a level control means 25 to control the amount of distilled water is introduced into the inside.

At this time, the water level adjusting means 25 is buoy 25a is embedded as shown in Figure 5, one end of the buoy 25a is hinged and fixed, and the blocking rod 25b is mounted on the upper end of the buoy 25a. As the buoy 25a is folded up and down, the blocking rod 25b is lifted to open and close the lower end of the inlet pipe 25c.

Therefore, when the distilled water supplied to the humidification chamber 23 rises to a certain level, the blocking rod 25b blocks the inlet pipe 25c and the supply of the distilled water is stopped. When the water level is lowered, the blocking rod 25b is lowered to open the inlet pipe 25c so that distilled water is supplied to the humidification chamber 23 again so that the distilled water can be continuously maintained at a constant level.

1: carburetor
10: carburetor body 11: oscillator
12: embedded space 13: side wall
20: cartridge 21: transfer pipe
22: blower pipe 23: humidification room
24: valve 25: level control means
30: suction tube 31: heating wire
32: temperature and humidity sensor 33: branch pipe
34: Fixture 35: Power Connection
40: connector
50: water filter
60: sap bag
70: inner barrel 71: thermal insulation means

Claims (5)

In a vaporizer for warming and humidifying anesthetic gas or respiratory gas injected into a patient,
The carburetor 1 and the cartridge 20 is inserted to replace the inserting space 12 of the carburetor body 10, and
A vibrator 11 mounted at an inner lower end of the carburetor body 10 with the cartridge mounted thereon;
By vaporizing the distilled water filled in the cartridge 20 by the ultrasonic vibration of the vibrator with a particulate water vapor at a low temperature to prevent excessive humidification through humidity control to prevent the water from occupying the inside of the suction tube,
A transfer tube 21 and a blower tube 22 are formed at the upper end of the cartridge 20, and the gas injected through the blower tube 22 is discharged to the suction tube 30 through the transfer tube 21 together with the vaporized distilled water. To be transferred to the patient's respiratory system,
The heating wire 31 and the temperature and humidity sensor 32 embedded in the suction tube 30 are automatically controlled by a control device built in the vaporizer body 10 while being transported while maintaining the set temperature and humidity of anesthesia gas or breathing gas. Vaporizer for warming humidification of anesthesia gas and respiratory gas. The suction tube 30 is discharged from the suction hose 30a by the branch pipe 33 in which the suction pipe 33a is formed on the other side of the portion connected to the transfer pipe 21 of the cartridge 20. Branched to the hose 30b,
The suction hose (30a) is the helical hot wire 31 and the temperature and humidity sensor 32 is a carburetor body (10) by the power connection part 35 of the other end in a state that is fixed to the end of the branch pipe 33 side by the fastener (34) ),
The discharge hose (30b) is connected to the carburetor body (10) by the power connection part 35 of the other end in a state in which the spiral heating wire 31 is fixed to the end of the branch pipe (33) side by the fastener (34) A vaporizer for warming and humidifying anesthesia gas and respiratory gas, characterized in that it has a heating means of vaporized gas and a dehumidification means during discharge. According to claim 1, wherein the side wall 13 to form the inlet space 12 of the vaporizer body 10, the cartridge 20 is inserted into the double wall is formed to have a heat insulating layer by the air formed between the partition walls. A vaporizer for warming and humidifying anesthetic gas and respiratory gas. According to any one of claims 1 to 3, wherein the cartridge 20 is equipped with a valve 24 at the top to adjust the inflow of distilled water from the sap bag 60, the humidification of the cartridge 20 Vaporizer for the administration of a volatile anesthetic, characterized in that the level control means 25 is formed in the seal 23 by the buoy 25a to automatically block the supply of distilled water to adjust the constant level of the distilled water. The anesthesia according to claim 3, wherein the inner space (70) to which the thermal insulation means (71) made of hot wire film is attached is inserted into the inner space so that the cartridge (20) is inserted into the inner cylinder to enhance the thermal insulation efficiency. Carburetor for warming humidification of gases and respiratory gases.

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