KR101383052B1 - Therapeutic hypothermia by ventilation - Google Patents

Abstract

Disclosed is a body temperature control apparatus using a lung ventilation system. The thermoregulator using the lung ventilation of the present invention is interposed between a ventilator and a patient in need of hypothermia and is provided to cool the air entering the patient's lungs, so that the air supplied from the ventilator can be introduced. An injection unit connected to the ventilator; A cooling unit connected to the injection unit to cool the air introduced through the injection unit to a temperature in a preset range; And a discharge part connected to the cooling part so that the air cooled through the cooling part is discharged to the patient side, wherein the cooling part adjusts a flow rate of air flowing from the injection part toward the discharge part according to the body temperature of the patient. It characterized in that it comprises a flow control valve for. According to the present invention, when performing hypothermia to resuscitated patients after cardiac arrest by the cooling unit continuously cooling the air supplied from the ventilator to a temperature capable of inducing the hypothermia of the patient, the patient in the pulmonary ventilation process for the patient The body temperature can be adjusted to maintain hypothermia.

Description

Thermostat using waste ventilation {THERAPEUTIC HYPOTHERMIA BY VENTILATION}

The present invention relates to a temperature control device using a lung ventilation, and more particularly, the temperature of the air ventilated to the lungs in the process of ventilating the cooled gas to the lungs by connecting a ventilator when hypothermia is performed to the patient resuscitated after cardiac arrest It relates to a body temperature control device using the lung ventilation to control the body temperature by adjusting the.

In general, so-called cardiac arrest patients are treated with so-called therapeutic hypothermia to maintain hypothermia (32-34 ° C) for 12-24 hours after resuscitation for brain resuscitation.

In order to carry out such hypothermia, it is necessary to re-heat after inducing hypothermia and maintaining the hypothermic state, so a medical device for controlling the body temperature is necessary.

Until now, representative apparatuses for the implementation of hypothermia have been used in vitro cooling and in-body cooling.

In vitro cooling is a device that controls the body temperature by circulating the medium after wearing blankets, vests, and attachments through which cooling water or cooling medium can flow to the skin of the patient, and the internal cooling method injects a large amount of cold saline into the vein. After a special catheter (Catheter) in the vein and the catheter-cooled sap flows through the device is used to cool the blood around.

However, the extracorporeal cooling method used in the conventional hypothermia requires the use of a separate device for cooling and circulating the medium, and the configuration of the device is complicated and the cooling efficiency is inferior. There is a risk that various complications can occur in the process of maintenance.

In order to solve the shortcomings of the in vitro cooling system and the internal cooling system, it is connected to a ventilator, and the body temperature control device using the lung ventilation system that induces and regulates low body temperature through the lung ventilation that cools the gas (air or oxygen) that ventilates the lungs. Research and development is required.

The technical problem of the present invention is to provide a thermoregulator using a ventilator to control the body temperature through pulmonary cooling to control the temperature of the air ventilated to the lungs when connected to the ventilator when performing hypothermia to the patient revived after cardiac arrest It is.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not intended to limit the invention to the particular embodiments that are described. It will be apparent to those skilled in the art, There will be.

The technical problem is to be provided between the ventilator and the patient in need of hypothermia to cool the air entering the patient's lung, according to the present invention, so that the air supplied from the ventilator can be introduced An injection unit connected to the respirator; A cooling unit connected to the injection unit to cool the air introduced through the injection unit; And a discharge part connected to the cooling part so that the air cooled through the cooling part may be discharged to the patient side, wherein the cooling part may adjust the flow rate of air flowing from the injection part toward the discharge part according to the body temperature of the patient. It is achieved by a body temperature control apparatus using a waste ventilation, characterized in that it comprises a flow control valve is provided to be.

The cooling unit may include a cooling tube connected between the injection unit and the discharge unit such that air introduced through the injection unit may be discharged through the discharge unit after being cooled by the cooling unit; A cooling unit provided to lower the temperature of air flowing along the cooling pipe; A hot / cold mixing plate provided inside the cooling tube so as to mix air passing through the cooling unit; A flow sensor provided inside the cooling pipe so as to measure a flow rate of air passing through the flow control valve through the hot / cold mixing plate; And it may include a control unit for continuously adjusting the body temperature of the patient to adjust the opening and closing angle of the flow control valve.

The flow rate control valve may be provided between the hot and cold air mixing plate and the flow sensor so as to control the flow rate of the air passing through the cooling unit under the control of the controller.

The control unit may include: a first temperature sensor provided inside the cooling tube to measure a temperature of cooled air flowing along the cooling tube in order to continuously measure a body temperature of the patient; And a second temperature sensor provided to contact the body of the patient so as to measure the body temperature of the patient.

The cooling unit may further include a cooling plate provided in the cooling tube to cool the air introduced into the cooling tube through the injection unit under the control of the cooling unit.

The cooling unit may further include a solenoid valve provided to be opened and closed at a position adjacent to the injection unit so that air supplied from the ventilator may be introduced into the cooling tube.

The cooling unit may further include a blowing fan provided in the cooling pipe so as to forcibly blow air passing through the solenoid valve toward the discharge unit.

The hot and cold air mixing plate may be formed in a plate shape in which a plurality of pores penetrate the surface to evenly mix air cooled through the cooling plate in the cooling tube.

The controller compares the body temperature information and prestored information of the patient measured by the flow rate of the air measured by the flow rate sensor, the temperature of the cooled air measured by the first temperature sensor, and the second temperature sensor, and then the cooling. The unit can be controlled to cool the air entering the patient's lungs to the temperature required by hypothermia therapy.

In addition, the technical problem is to be provided between the ventilator and the patient in need of hypothermia to cool the air entering the patient's lung, according to the present invention, so that the air supplied from the ventilator can be introduced An injection unit connected to the ventilator; A cooling unit connected to the injection unit to cool the air introduced through the injection unit; And a discharge part connected to the cooling part so that the air cooled through the cooling part is discharged to the patient side, wherein the cooling part is provided through the discharge part after the air introduced through the injection part is cooled by the cooling part. A cooling tube connected between the injection portion and the discharge portion to be discharged; A cooling unit having a cooling plate provided in the cooling tube so as to cool the air introduced into the cooling tube through the injection unit; A hot / cold mixing plate provided inside the cooling tube so as to mix air passing through the cooling unit; A temperature sensor provided to continuously measure the body temperature of the patient; And a control unit configured to cool the air flowing into the lungs of the patient through the discharge unit to a temperature in a preset range by controlling the cooling unit based on the temperature information of the patient measured by the temperature sensor. Achieved by a thermostat using ventilation.

According to the present invention, when performing hypothermia to resuscitated patients after cardiac arrest by the cooling unit continuously cooling the air supplied from the ventilator to a temperature capable of inducing the hypothermia of the patient, the patient in the pulmonary ventilation process for the patient The body temperature can be adjusted to maintain hypothermia.

1 is a perspective view of a body temperature control apparatus using a lung ventilation according to an embodiment of the present invention.
2 is a block diagram of a body temperature control apparatus using the lung ventilation of FIG.
Figure 3 is a block diagram of a body temperature control apparatus using a lung ventilation according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, the well-known functions or constructions are not described in order to simplify the gist of the present invention.

1 is a perspective view of a thermostat using a lung ventilation apparatus according to an embodiment of the present invention, Figure 2 is a block diagram of a thermoregulator using the lung ventilation of FIG.

Thermoregulator 100 using the lung ventilation according to an embodiment of the present invention, as shown in Figure 1 and 2, intervening between the ventilator 10 and the patient requiring hypothermia to enter the patient's lungs Is provided to cool the air, the inlet 110 is connected to the ventilator 10 and the air introduced through the inlet 110 so that the air supplied from the ventilator 10 flows in Cooling unit 120 is provided to be made, and the discharge unit 130 is connected to the cooling unit 120 so that the air cooled through the cooling unit 120 is discharged to the patient side.

Here, the ventilator 10 refers to a machine that performs ventilation for a relatively long time when the patient's breathing is stopped or suppressed. In principle, intermittent positive pressure breathing may be provided with a device for continuous positive pressure breathing, assisted breathing when the patient's spontaneous breathing is weak, or intermittent assisted ventilation (IMV). Depending on the mechanism that moves from intake to exhalation, it can be broadly divided into inflow of a certain amount of air (percentage) and inversion of airway pressure at a constant value (periodic). Since the ventilator 10 is a known technique that is widely used in the medical field before the present application, a description thereof will be omitted.

The injection unit 110 is connected to the ventilator 10 so that air supplied from the ventilator 10 may be introduced into the cooling unit 120. The injection unit 110 is formed integrally with one end of the cooling tube 121 provided in the cooling unit 120 or separately formed in order to be connected to the ventilator 10 and then at one end of the cooling tube 121. It may be provided to be integrally coupled.

The cooling unit 120 is configured to cool the air introduced through the injection unit 110, and includes a cooling tube 121 forming a main frame and a temperature of air flowing along the cooling tube 121. Cooling unit 124 is provided so as to lower the, the cold air mixture passing through the cooling unit 124 in the cooling tube 121 and the hot and cold air mixing plate 125 is provided to be evenly mixed in the hot air cooler Flow rate adjusting valve 126 is provided to adjust the flow rate of the air discharged toward the discharge unit 130 through the mixing plate 125, and to measure the flow rate of the air passing through the flow rate control valve 126 It includes a flow sensor 127 is provided, and a control unit 128 for adjusting the opening and closing angle of the flow control valve 126.

The cooling tube 121 is configured to form a passage through which air supplied from the ventilator 10 may flow from the injection unit 110 toward the discharge unit 130. Both ends of the cooling tube 121 are provided with an injection part 110 and a discharge part 130, respectively.

The cooling unit 124 is configured to lower the temperature of the air flowing along the cooling tube 121. That is, the cooling unit 124 is provided with a cooling plate 124A inside the cooling tube 121 to lower the temperature of the air introduced into the cooling tube 121 through the injection unit 110, the cooling plate 124A ) Is cooled by the cooling unit 124 operated under the control of the control unit 128 and then contacted with air, thereby lowering the temperature of the air introduced through the injection unit 110.

When the air supplied from the ventilator 10 flows into the cooling tube 121 through the injection unit 110, the cooling unit 124 cools and injects the cooling plate 124A under the control of the controller 128. By heat-exchanging the air forming the flow from the unit 110 toward the discharge unit 130 by contacting the temperature of the air flowing along the cooling tube 121 can be lowered to a temperature suitable for hypothermia therapy.

Here, the cooling unit 124 may be variously applied, such as a cooling method using a Peltier effect that can be miniaturized including a classical refrigerant refrigerator.

The hot and cold air mixing plate 125 is configured to evenly mix the air passing through the cooling plate 124A of the cooling unit 124 in the cooling pipe 121. At this time, the hot and cold air mixing plate 125 is provided in a plate shape in which a plurality of pores 125A penetrate through the surface so as to mix air, and is coupled to the inside of the cooling tube 121.

The hot and cold air mixing plate 125 serves to mix with each other such that air cooled through the cooling plate 124A has an even heat distribution while passing through the pores 125A.

The flow regulating valve 126 is configured to adjust the flow rate of air flowing from the inlet 110 toward the outlet 130 according to the temperature of the patient. The flow control valve 126 is rotatably coupled to the inside of the cooling tube 121 to open and close the passage of the cooling tube 121 to control the flow rate of air. At this time, the flow control valve 126 is connected to the motor 126A provided on the outside of the cooling pipe 121, the motor 126A is operated under the control of the controller 128, the opening and closing angle of the flow control valve 126. Will be adjusted.

The flow rate sensor 127 is a structure provided so that the flow volume of the air which passed the flow control valve 126 can be measured, and is provided between the flow control valve 126 and the discharge part 130. The flow sensor 127 measures the flow rate of the air passing through the flow control valve 126 and transmits the flow to the controller 128.

Although not shown in the drawing, the flow sensor 127 may be connected to an external display so that the user may observe the measured flow rate of the air through the display.

The controller 128 is configured to adjust the opening and closing angle of the flow control valve 126 by continuously measuring the body temperature of the patient, and is provided to measure the temperature of the cooled air flowing along the cooling pipe 121 And a first temperature sensor 128A and a second temperature sensor 128B provided to measure the body temperature of the patient.

The first temperature sensor 128A is configured to measure the temperature of the air passing through the hot / cold air mixing plate 125, and is provided between the hot / cold air mixing plate 125 and the flow rate control valve 126. That is, the first temperature sensor 128A measures the temperature of air having an even heat distribution while passing through the hot / cold mixing plate 125 and transmits the temperature to the controller 128.

The second temperature sensor 128B is configured to measure the body temperature of the patient, and is provided to contact the body of the patient. That is, the second temperature sensor 128B measures and transmits the body temperature of the patient to the control unit 128 while the air cooled by the cooling unit 120 is discharged to the discharge unit 130 and ventilated to the lung of the patient. Play a role.

The control unit 128 measures the flow rate of the air measured by the flow sensor 127, the temperature of the cooled air measured by the first temperature sensor 128A, and the body temperature information of the patient measured by the second temperature sensor 128B. After comparing the stored information with each other, the cooling unit 124 is controlled to cool the air flowing into the lungs of the patient to an appropriate temperature required by hypothermia.

That is, the controller 128 collects the information transmitted from the flow sensor 127, the first temperature sensor 128A and the second temperature sensor 128B, and then controls the air by the cooling unit 124 to control the low body temperature of the patient. By controlling the cooling temperature and the opening and closing angle of the flow control valve 126, the appropriate temperature required by hypothermia for the air supplied from the ventilator 10, introduced into the injection unit 110 and discharged to the discharge unit 130 Control to cool the furnace.

At this time, the control unit 128 pre-stores the hypothermic (32 ℃ ~ 34 ℃) information required for performing therapeutic hypothermia to the patient revived after cardiac arrest.

The cooling unit 120 is provided with a solenoid valve 122 at a position adjacent to the injection unit 110, and thus the cooling unit 120 of the air supplied from the ventilator 10 through the solenoid valve 122. Has the ability to allow or block inflow.

Here, the solenoid valve 122 is a well-known technique that has been widely practiced before the application of the present invention, and a description thereof will be omitted.

The cooling unit 120 is provided with a blowing fan 123 between the solenoid valve 122 and the cooling plate 124A, and the blowing fan 123 cools the air passing through the solenoid valve 122 to the cooling unit 124. By forcibly blowing toward the cooling plate 124A of the air supplied from the ventilator 10 and passed through the injection unit 110 and the solenoid valve 122 can be smoothly blown toward the discharge unit 130. In this case, the blowing fan 123 may be set to be operated by the controller 128 or an external device.

The discharge part 130 is a structure provided so that the cooled air which passed the flow sensor 127 may be discharged. That is, the discharge unit 130 may be formed integrally with the other end of the cooling tube 121 provided in the cooling unit 120 or may be provided to be integrally coupled to the other end of the cooling tube 121 after being formed separately.

The discharge unit 130 is provided with a soft connection hose 132 is connected to the respirator of the patient. Accordingly, the cooled air discharged from the discharge unit 130 may be introduced into the patient's lungs through the connection hose 132.

Hereinafter, a body temperature control apparatus using a lung ventilation apparatus according to an embodiment of the present invention.

Thermoregulator 100 using the lung ventilation of the present embodiment is connected to the ventilator 10 to perform hypothermia to the patient revived after cardiac arrest. At this time, the ventilator 10 is connected to the injection unit 110 to supply the air generated by the body temperature regulating device 100.

When the ventilator 10 and the body temperature control device 100 are connected to each other and the preparation work for performing hypothermia is completed, the ventilator 10 and the body temperature control device 100 are operated.

When the ventilator 10 and the body temperature control device 100 are operated, the air supplied from the ventilator 10 is injected into the cooling unit 120 through the injection unit 110 and the solenoid valve 122 maintaining the open state. As it starts to flow, the blowing fan 123 starts to forcibly blow air introduced into the cooling unit 120 toward the cooling plate 124A of the cooling unit 124. At this time, the blower fan 123 forcibly blows the air introduced into the cooling unit 120 toward the cooling plate 124A to smoothly blow the air flowing from the ventilator 10 toward the discharge unit 130. It can be secured.

When the air introduced into the cooling unit 120 is blown toward the cooling plate 124A, the cooling unit 124 is operated under the control of the controller 128 to start cooling the cooling plate 124A. That is, the cooling plate 124A is cooled according to the operation of the cooling unit 124, so that the air blown in the direction of the cooling plate 124A by the blower fan 123 passes through the cooling plate 124A. It is naturally cooled through heat exchange.

At this time, the control unit 128 is pre-stored the low body temperature (32 ℃ ~ 34 ℃) information required for performing therapeutic hypothermia therapy to the patient revived after cardiac arrest, and by operating the cooling unit 124 through the cold plate 124A The temperature of is controlled to a temperature suitable for hypothermia.

Air cooled through the cooling plate 124A to a temperature suitable for hypothermic therapy is mixed with each other to have an even heat distribution while passing through the hot-cold mixing plate 125. That is, the hot and cold air mixing plate 125 is formed with a plurality of pores 125A penetrating through the surface, and the cooled air is mixed with each other to have an even heat distribution in the course of passing through the pores 125A.

Air mixed to have an even heat distribution through the hot and cold air mixing plate 125 is discharged to the discharge unit 130 through the flow control valve 126 and the flow sensor 127, the cooling discharged to the discharge unit 130 The supplied air is introduced into the lungs through the respirator of the patient by the connection hose 132 to lower the body temperature of the patient to a temperature suitable for hypothermia.

The controller 128 is configured to control the flow of the air cooled by the flow sensor 127 and the first temperature sensor 128A in the process of forming a flow such that the cooled air is discharged toward the discharge unit 130 along the cooling pipe 121. Simultaneously with the collection of information, the body temperature of the patient is collected by the second temperature sensor 128B and compared with the previously stored information to continuously control the cooling unit 124 to request the temperature of the air ventilated to the lungs of the patient in hypothermia therapy The temperature is adjusted to, so that the body temperature of the patient can be adjusted to maintain a low temperature.

The thermoregulator 100 using the lung ventilation of the present embodiment continuously cools the air supplied from the ventilator 10 to a temperature capable of inducing the low body temperature of the patient when hypothermia is performed on a patient revived after cardiac arrest. By the cooling unit 120, the body temperature of the patient in the pulmonary ventilation process for the patient can be adjusted to maintain a low body temperature.

Figure 3 is a block diagram of a body temperature control apparatus using a lung ventilation in accordance with another embodiment of the present invention.

Thermoregulator 200 using the lung ventilation according to another embodiment of the present invention, as shown in Figure 3, is interposed between the ventilator 20 and the patient requiring hypothermia to cool the air entering the patient's lungs Is provided to be, but the injection unit 210 is connected to the ventilator 20 and the air supplied through the injection unit 210 so that the air supplied from the ventilator 20 can be introduced The cooling unit 220 is provided, and the discharge unit 230 is connected to the cooling unit 220 so that the air cooled through the cooling unit 220 can be discharged to the patient side.

Here, the ventilator 20, the injection unit 210, and the discharge unit 230 are the respirator 10, the injection unit 110, and the discharge unit 130 of the thermostat 100 described in the embodiment of the present invention. Since it has the same configuration and function as) will not be described in detail below.

The cooling unit 220 is configured to cool the air introduced through the injection unit 210 to a temperature suitable for therapeutic hypothermia, and includes a cooling tube 221 and a cooling tube forming a main frame. Cooling unit 222 is provided to lower the temperature of the air flowing along the 221 and hot air mixing is provided to evenly mix the cooled air passing through the cooling unit 222 in the cooling tube 221. A pipe 224 and a control unit 226 for controlling the cooling unit 222.

The cooling tube 221 is configured to form a passage through which the air supplied from the ventilator 20 can flow from the injection portion 210 toward the discharge portion 230. That is, the inlet 210 and the outlet 230 are respectively provided at both ends of the cooling tube 221 to form a flow of air ventilated to the lungs of the patient. The cooling tube 221 substantially corresponds to the cooling tube 121 presented in an embodiment of the present invention.

The cooling unit 222 is configured to lower the temperature of the air flowing along the cooling tube 221 and to reduce the temperature of the air introduced into the cooling tube 221 through the injection unit 210. The cooling plate 222A is provided inside the 221. The cooling plate 222A is cooled by the cooling unit 222 operated under the control of the control unit 226, and thus the air that forms a flow from the injection unit 210 toward the discharge unit 230 is cooled by the cooling plate ( Heat exchange by contact in the course of passing through 222A may naturally reduce the temperature of the air.

That is, when the air supplied from the ventilator 20 enters the cooling tube 221 through the injection unit 210, the cooling unit 222 moves the cooling plate 222A under the low temperature therapy under the control of the controller 226. After cooling to an appropriate temperature, the temperature of the air can be lowered by heat exchange in the process of contacting the air forming the flow from the inlet 210 to the outlet 230.

This cooling unit 222 substantially corresponds to the cooling unit 124 presented in one embodiment of the present invention.

The hot and cold air mixing tube 224 is configured to mix so that the cooled air passing through the cooling plate 222A of the cooling unit 222 has an even heat distribution in the cooling tube 221. The hot and cold air mixing tube 224 substantially corresponds to the hot and cold air mixing tube 125 presented in one embodiment of the present invention.

The control unit 226 is configured to control the cooling unit 222 and includes a temperature sensor 227 provided to measure the body temperature of the patient.

Here, the control unit 226 is a configuration in which hypothermia (32 ° C. to 34 ° C.) information required for performing therapeutic hypothermia therapy to a patient revived after cardiac arrest is pre-stored. Substantially corresponds.

The temperature sensor 227 is configured to be in contact with the body of the patient in order to continuously measure the body temperature of the patient, and substantially corresponds to the second temperature sensor 128B presented in one embodiment of the present invention.

The control unit 226 compares the temperature information of the patient and pre-stored information with the temperature sensor 227 while the air cooled by the cooling unit 220 is vented to the patient's lungs through the discharge unit 230. By controlling the cooling temperature of the cooling unit 222 so as to maintain the low body temperature of the patient to control the air flowing into the lungs of the patient to a temperature suitable for low temperature therapy.

The thermoregulator 200 using the pulmonary ventilation of the present embodiment may induce the low body temperature of the patient with the air supplied from the ventilator 20 so that the patient maintains the low body temperature when the hypothermia is performed to the revived patient after cardiac arrest. Simplified structure of the cooling unit to continuously cool to a temperature, except for this action and effect is the same as the embodiment of the present invention.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, It is obvious to those who have. Accordingly, such modifications or variations should not be individually understood from the technical spirit and viewpoint of the present invention, and modified embodiments should be included in the claims of the present invention.

110: injection unit 120: cooling unit
121: cooling tube 122: solenoid valve
123: blower fan 124: cooling unit
124A: cooling plate 125: hot air mixing plate
126: flow control valve 127: flow sensor
128: control unit 128A: first temperature sensor
128B: second temperature sensor 130: discharge part
132: connecting hose

Claims (10)

It is interposed between the ventilator and the patient in need of hypothermia and is provided to cool the air entering the patient's lungs.
An injection unit connected to the ventilator so that air supplied from the ventilator may be introduced;
A cooling unit connected to the injection unit to cool the air introduced through the injection unit; And
It includes a discharge portion connected to the cooling unit so that the air cooled through the cooling unit is discharged to the patient side,
The cooling unit includes:
A flow rate adjusting valve provided to adjust the flow rate of air flowing from the inlet part toward the outlet part according to a body temperature of a patient;
A cooling pipe connected to both the injection part and the discharge part at both ends such that air introduced through the injection part is cooled by the cooling part and then discharged through the discharge part;
A cooling unit provided to lower the temperature of air flowing along the cooling pipe;
A hot / cold mixing plate provided inside the cooling tube so as to mix air passing through the cooling unit;
A flow sensor provided inside the cooling pipe so as to measure a flow rate of air passing through the flow control valve through the hot / cold mixing plate; And
It characterized in that it comprises a control unit for continuously adjusting the body temperature of the patient to adjust the opening and closing angle of the flow control valve,
Thermoregulator using lung ventilation. delete The method of claim 1,
The flow rate control valve, characterized in that provided between the hot and cold air mixing plate and the flow sensor to adjust the flow rate of the air passing through the cooling unit under the control of the control unit,
Thermoregulator using lung ventilation. The method of claim 1,
The controller, in order to continuously measure the body temperature of the patient,
A first temperature sensor provided inside the cooling tube to measure a temperature of the cooled air flowing along the cooling tube; And
And a second temperature sensor provided to be in contact with the body of the patient so as to measure the body temperature of the patient.
Thermoregulator using lung ventilation. The method of claim 1,
The cooling unit includes:
Further comprising a cooling plate provided in the cooling tube to cool the air introduced into the cooling tube via the injection unit under the control of the cooling unit,
Thermoregulator using lung ventilation. The method of claim 1,
The cooling unit includes:
And a solenoid valve provided to be opened and closed at a position adjacent to the injection part so that air supplied from the ventilator may be introduced into the cooling tube.
Thermoregulator using lung ventilation. The method according to claim 6,
The cooling unit includes:
Further comprising a blowing fan provided in the cooling pipe to forcibly blow the air passing through the solenoid valve toward the discharge portion,
Thermoregulator using lung ventilation. 6. The method of claim 5,
The hot and cold air mixing plate, characterized in that formed in the shape of a plate through which a plurality of pores are formed through the surface so as to evenly mix the air cooled through the cooling plate in the cooling tube,
Thermoregulator using lung ventilation. 5. The method of claim 4,
The controller compares the body temperature information and prestored information of the patient measured by the flow rate of the air measured by the flow rate sensor, the temperature of the cooled air measured by the first temperature sensor, and the second temperature sensor, and then the cooling. Characterized in that the unit is controlled to cool the air entering the lungs of the patient to the temperature required by hypothermia,
Thermoregulator using lung ventilation. It is interposed between the ventilator and the patient in need of hypothermia and is provided to cool the air entering the patient's lungs.
An injection unit connected to the ventilator so that air supplied from the ventilator may be introduced;
A cooling unit connected to the injection unit to cool the air introduced through the injection unit; And
It includes a discharge portion connected to the cooling unit so that the air cooled through the cooling unit is discharged to the patient side,
The cooling unit includes:
A cooling pipe connected to both the injection part and the discharge part at both ends such that air introduced through the injection part is cooled by the cooling part and then discharged through the discharge part;
A cooling unit having a cooling plate provided in the cooling tube so as to cool the air introduced into the cooling tube through the injection unit;
A hot / cold mixing plate provided inside the cooling tube so as to mix air passing through the cooling unit;
A temperature sensor provided to continuously measure the body temperature of the patient; And
And controlling the cooling unit based on the temperature information of the patient measured by the temperature sensor so as to control the air flowing into the lungs of the patient through the discharge unit to a temperature in a preset range.
Thermoregulator using lung ventilation.

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