KR20120111389A - Anesthetic ventilator using blower - Google Patents

Abstract

PURPOSE: An artificial respirator for anesthesia is provided to improve the durability, reliability, and safety of products. CONSTITUTION: An artificial respirator for anesthesia comprises a blender(11), a bellows(13), a blower(15), an anesthetic device, and a filter(19). The blender creates mixing gas by mixing oxygen and air at a predetermined ratio. The bellows is provided with the mixing gas of the blender and stores the gas. The blower compulsorily discharges the mixing gas. The anesthetic device mixes the stored anesthetic gas with the mixing gas and supplies the mixture to a patient. The filter is installed on one side of the anesthetic device and removes carbon dioxide from the discharged gas. [Reference numerals] (17) Anesthetic device; (19) Filter

Description

Anesthesia Ventilator {ANESTHETIC VENTILATOR USING BLOWER}

The present invention relates to an anesthesia ventilator, and more particularly, by using a blower to discharge the mixed gas of oxygen and air and then mixed with the anesthetic gas to provide to the patient to simplify the structure of the anesthesia ventilator It relates to an anesthetic ventilator.

Recently, the intensive care unit ventilation system, which has relatively high level of marketability and technical ability, has been studied for pneumatic control technology, patient sensitive control technology, breathing mode development, and pneumatic block including mechanical dose control during general anesthesia.

However, anesthesia ventilator is a stage that requires application development due to the specificity and structural specificity of anesthesia gas.

According to the need for the development of the technology for the anesthesia ventilation device, the technology level for the active end-respiratory pressure (PEEP) -related module components and the control device that is being developed recently is relatively insufficient compared to other control devices, As shown, inhalation anesthesia ventilators are specialized at the highest levels.

The inhalation anesthesia ventilator shown in FIG. 1 has been developed to support patient breathing from anesthesia to anesthesia.

However, the bellows, the respiratory system and the carbon dioxide absorber have been developed as an integrated unit in the existing inhalation anesthesia ventilator. The inhalation anesthesia ventilator under development has an active end-pneumatic pressure (PEEP) valve and an auto select valve ( Auto Select Valve), FGD system, and APL valve are all included, so the product itself is made of metal, which is heavy and has bellows and cylinders, which makes it bulky and manufactured by complex manufacturing processes. There was a problem of cost increase and durability and reliability deteriorated.

Accordingly, the present invention has been made to solve the above problems, and an object of the present invention is to provide a blender for mixing oxygen and air, a bellows for receiving and storing a mixed gas of the blender, and a mixed gas in the bellows. A blower to discharge, an anesthesia for mixing the mixed gas discharged through the blower and the stored anesthesia gas to supply to the patient, and is installed on one side of the anesthesia to remove the carbon dioxide component of the exhaust gas supplied from the patient to the blender By providing an anesthetic ventilator with a supplying filter to simplify the manufacturing process of the product by forcibly discharging the mixed gas through the blower, the manufacturing cost can be reduced, light and small, and the durability and reliability of the product Fundamentally improved.

Anesthesia ventilator according to the first aspect of the present invention for achieving the above object,

A blender that mixes oxygen and air at a predetermined ratio to produce a mixed gas,

A bellows for receiving and storing the mixed gas of the blender;

A blower forcibly discharging the mixed gas in the bellows;

An anesthesia device for supplying the mixed gas discharged through the blower and the stored anesthetic gas to the patient;

It is installed on one side of the anesthesia, characterized in that it comprises a filter for removing the carbon dioxide component of the exhaust gas supplied from the patient and then supply to the blender.

Here, the blender is,

After regulating the oxygen supplied from the outside, it will be desirable to be provided to mix the regulating oxygen and the air supplied from the outside at a predetermined constant pressure and flow rate to output a mixed gas.

The apparatus comprises:

It will be preferable to further include a blower driving unit for controlling the power supplied to the blower in accordance with the flow rate of the mixed gas discharged by the rotation of the blower.

It will be preferred that the anesthetic gas is nitrogen gas.

As described above, the anesthesia ventilator according to the present invention has a structure for forcibly discharging a mixed gas of oxygen and air through a blower and removes only the carbon monoxide component from the exhaust gas discharged from the patient and then back to the blender By recycling, the manufacturing process and manufacturing cost for the product can be reduced, further improving the durability, reliability and safety of the product.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the description of the invention given below, serve to further understand the technical idea of the invention. And should not be construed as limiting.
1 is a view showing a general anesthetic ventilator.
Figure 2 is a diagram showing an anesthetic ventilator according to the present invention.
3 is a view showing the configuration of the anesthetic ventilator shown in FIG.

In order to fully understand the present invention, operational advantages of the present invention, and objects achieved by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

2 is a view showing an anesthesia ventilator according to an embodiment of the present invention and Figure 3 is a view showing the configuration of the anesthesia ventilator shown in FIG. As shown in FIGS. 2 and 3, the anesthetic ventilator according to the present invention is provided for storing the mixed gas in the bellows and forcibly discharging the mixed gas in the stored bellows by a blower, and also discharged from the patient. It is provided to remove the carbon dioxide component in the exhaust gas and to recycle it to the blender, which includes a blender 11, a bellows 13, a blower 15, an anesthetic 17, and a filter 19.

The blender 11 is configured to output oxygen at a predetermined constant pressure and flow rate after regulating oxygen supplied from the outside, and output mixed gas by mixing oxygen at a predetermined pressure and flow rate with air supplied from the outside.

The bellows 13 is provided to receive and store the mixed gas of the blender.

In addition, the blower 15 is provided to forcibly discharge the mixed gas in the bellows, and further includes a blower driving unit for controlling the power supplied to the blower in accordance with the flow rate of the mixed gas discharged by the rotation of the blower.

Thus, driven by current feedback control Blur  According to the drive unit, Blower (15)  Drives as a high-performance turbo at acceleration, prevents delays due to rotational speed and mechanical tolerances at deceleration, improves responsiveness to changes in flow rate, and improves response to flow rate changes Blower  Driven by real-time patient Intake pressure  And Exhaust pressure Enable control  do.

 In other words, In blower  Forced discharged to the patient Intake pressure  Supplied from the patient Exhaust pressure  On the basis of varying rotational speeds Blower  The response of the rotational speed is improved.

On the other hand, the anesthetic 17 is provided to mix and discharge the mixed gas discharged through the blower and the stored anesthetic gas to the patient, wherein the anesthetic gas is provided with nitrogen gas.

In addition, the filter 19 is provided to remove the carbon dioxide component of the exhaust gas of the patient supplied to the anesthesia 17 and to supply the blender 11.

According to this configuration, first, the blender 11 regulates oxygen supplied from the outside, and then mixes the regulating oxygen and air supplied from the outside at a predetermined constant pressure and flow rate to output a mixed gas.

The mixed gas is provided to the blower 13, and the blower 13 stores the mixed gas.

In addition, the mixed gas in the blower 13 is forcibly discharged according to the rotation of the blower 15 and supplied to the anesthesia machine 17.

Subsequently, the anesthetic unit 17 mixes the previously stored anesthetic gas and the mixed gas supplied from the blower 15 to supply the patient, and the exhaust gas discharged from the patient is supplied to the anesthetic unit 17.

The carbon dioxide component of the exhaust gas supplied to the anesthetic 17 is removed by the filter 19, and then the output gas of the filter 19 is supplied to the blender 11 and recycled.

According to an embodiment of the present invention, the manufacturing process for the product by having a structure for forcibly discharging the mixed gas of oxygen and air through the blower and removing only the carbon monoxide component of the exhaust gas discharged from the patient and then recycled back to the blender and Reduced manufacturing costs can further improve the durability, reliability and safety of the product.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the present invention as defined by the following claims It can be understood that

It has a structure of forcibly discharging the mixed gas of oxygen and air through the blower, and removes only carbon monoxide component from the exhaust gas discharged from the patient and recycles it back to the blender, thus reducing the manufacturing process and manufacturing cost for the product, thereby making it durable And in terms of efficiency for anesthesia ventilators that can further improve reliability and safety, which can bring significant advances in terms of accuracy and reliability of operation, furthermore in terms of performance efficiency, It is an invention with industrial applicability, since the possibility of business is not only sufficient but also practically obvious.

Claims (4)

A blender that mixes oxygen and air at a predetermined ratio to produce a mixed gas,
A bellows for receiving and storing the mixed gas of the blender;
A blower forcibly discharging the mixed gas in the bellows;
An anesthesia device for supplying the mixed gas discharged through the blower and the stored anesthetic gas to the patient;
Is installed on one side of the anesthesia ventilator for anesthesia characterized in that it comprises a filter for removing the carbon dioxide component of the exhaust gas supplied from the patient and then supply to the blender. The method according to claim 1, wherein the blender,
After regulating the oxygen supplied from the outside anesthesia ventilator for anesthesia, characterized in that the output of the mixed gas by mixing the regulating oxygen and the air supplied from the outside at a predetermined constant pressure and flow rate. The method according to claim 2, The apparatus,
Anesthesia ventilator, characterized in that it further comprises a blower drive unit for controlling the power supplied to the blower in accordance with the flow rate of the mixed gas discharged in accordance with the rotation of the blower. The method of claim 1, wherein the anesthetic gas
An anesthetic ventilator characterized in that the nitric acid gas.

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