CN205849947U - Anesthesia aeration cycle system - Google Patents

Abstract

This utility model belongs to medical equipment technical field, particularly relate to a kind of anesthesia aeration cycle system, it is characterized in that oxygen supply tank is connected with CO2 absorber system by ventilation channel, anesthesia evaporator is connected with CO2 absorber system by anesthetic gases pipeline, CO2 absorber system is connected with inspiratory valve by suction line, inspiratory valve is connected with air-breathing corrugated tubing, air-breathing corrugated tubing is connected with a port of threeway, the another two port of threeway is connected with face shield and expiration corrugated tubing respectively, expiration corrugated tubing is connected with expiratory valve, expiratory valve is connected with expiration pipeline, expiration pipeline is provided with APL valve, Pressure gauge, expiration pipeline is connected with CO2 absorber system.The beneficial effects of the utility model are: can anesthetic gases and oxygen be controlled according to the mixing accurate in scale determined, the gas of exhalation can be circulated utilization after carbon dioxide treater processes, and decreases the waste to oxygen and anesthetic gases.

Description

Anesthesia aeration cycle system

Technical field

This utility model belongs to medical equipment technical field, particularly relates to a kind of anesthesia aeration cycle system.

Background technology

Inhalation anesthesia is the alveolar that anesthetis is sent into patient by mechanical circuit, forms anesthetics gas dispersion to blood Liquid, thus central nervous system is produced inhibitory action, make patient anaesthetize, meanwhile inhalation anesthesia is certain in anaesthesia process Patient oxygen to be guaranteed supply is good, and anaesthetic effect just can be made to continue and stablize.Anaesthesia breathing system is anesthetic machine and patient's phase The associating gas path device connected, as the important component part of anesthetic machine, clinical to anesthetic machine breathes anesthesia and respiratory nursing Play vital effect.Modern Anesthesia Apparatus can predict composition and the content of the mixed gas of anesthetic machine output exactly, But because selecting different aerating systems or usage different, patient sucks mixed gas concentration can be influenced to different extents.Follow In the circulation system of loop systems, General Anesthetics, inhalation concentration change is slow, when fresh gas flow is less than 1.2 L/min, and fraction of inspired oxygen Unstable and when operation depth of anesthesia wayward with oxygen-supplying amount, respiratory tract is had stimulation, affect patient status with The carrying out of operation；It addition, during carrying out breathing anesthesia, the carbon dioxide of patient's exhalation can not in being collected at breathing mask It is collected in time, the concentration of anesthesia mist agent and oxygen can be reduced, thus reduce anaesthetic effect.

Utility model content

In order to overcome above-mentioned the deficiencies in the prior art, the purpose of this utility model is to provide a kind of anesthesia aeration cycle system System, can control anesthetic gases and oxygen according to the mixing accurate in scale determined, and the gas of exhalation is through carbon dioxide treater Utilization can be circulated after process, decrease the waste to oxygen and anesthetic gases.

To achieve these goals, this utility model adopts the following technical scheme that

A kind of anesthesia aeration cycle system, it is characterised in that include oxygen supply tank, anesthesia evaporator, CO2 absorber system, Face shield, described oxygen supply tank is connected with described CO2 absorber system by ventilation channel, and described anesthesia evaporator is by anesthesia gas Body pipeline is connected with described CO2 absorber system, and described CO2 absorber system is connected with inspiratory valve by suction line, Described inspiratory valve is connected with air-breathing corrugated tubing, and described air-breathing corrugated tubing is connected with a port of threeway, described threeway another Two ports are connected with described face shield and expiration corrugated tubing respectively, and described expiration corrugated tubing is connected with expiratory valve, described expiration Flap valve is connected with expiration pipeline, and described expiration pipeline is provided with APL valve, Pressure gauge, described expiration pipeline and described carbon dioxide Absorber connects.

Described ventilation channel, described anesthetic gases pipeline, described expiration pipeline three meet at together.

Described ventilation channel is provided with oxygen flux control valve, and described anesthetic gases pipeline is provided with anesthetic gases flow control Valve processed.

Described expiration pipeline is provided with the reservoir bag communicated therewith.

The beneficial effects of the utility model are: oxygen flux control valve and anesthetic gases flow control valve are respectively used to control Oxygen and the flow of anesthetic gases, in order to make anesthesia gas concentration flow to patient as requested, simultaneously mixed in anesthetic gases Enter is purity oxygen so that is not likely to produce during patient respiratory and suffocates, and normal supply patient oxygen effectively sustains life；It is provided with CO2 absorber system, the carbon dioxide in gas of exhalation can be absorbed, it is ensured that the freshness of suction airflow；APL valve is used for protecting From the excessive gas drain valve release of anesthesia ventilator bellows when card system pressure is too high, right to ensure that blood circulation does not results in The windage of patient；The Main Function of reservoir bag is auxiliary or controls to breathe, and buffers fresh gas flow, is easy to observe exhaling of patient Inhale, be easy to being sufficiently mixed of anesthetic gases and oxygen, atrophy atelectasis can be made.This utility model ensure that inhalation anesthesia concentration With the stability of content, respiratory tract humidity and heat, residual gas available pipe can be kept to pass to out operating-room, reduce operating room Pollution.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

In figure, 1, oxygen supply tank, 2, ventilation channel, 3, CO2 absorber system, 4, anesthesia evaporator, 5, anesthetic gases pipe Road, 6, suction line, 7, inspiratory valve, 8, air-breathing corrugated tubing, 9, threeway, 10, face shield, 11, expiration corrugated tubing, 12, exhale and live Lobe, 13, expiration pipeline, 14, APL valve, 15, Pressure gauge, 16, oxygen flux control valve, 17, anesthetic gases flow control valve, 18, Reservoir bag.

Detailed description of the invention

Below in conjunction with the accompanying drawings a kind of detailed description of the invention of the present utility model is explained.

As it is shown in figure 1, this utility model provides one anesthesia aeration cycle system, it is characterised in that include oxygen supply tank 1, fiber crops Liquor-saturated vaporizer 4, CO2 absorber system 3, face shield 10, described oxygen supply tank 1 is by ventilation channel 2 and described CO2 absorber system 3 connect, and described anesthesia evaporator 4 is connected with described CO2 absorber system 3 by anesthetic gases pipeline 5, described carbon dioxide Absorber 3 is connected with inspiratory valve 7 by suction line 6, and described inspiratory valve 7 is connected with air-breathing corrugated tubing 8, described air-breathing spiral shell Stricture of vagina pipe 8 is connected with a port of threeway 9, the another two port of described threeway 9 respectively with described face shield 10 and expiration corrugated tubing 11 connect, described expiration corrugated tubing 11 is connected with expiratory valve 12, and described expiratory valve 12 is connected with expiration pipeline 13, described in exhale Air pipe 13 is provided with APL valve 14, Pressure gauge 15, and described expiration pipeline 13 is connected with described CO2 absorber system 3.It is provided with CO2 absorber system 3, the carbon dioxide in gas of exhalation can be absorbed, it is ensured that the freshness of suction airflow.APL valve 14 is used for Ensure when system pressure is too high from the excessive gas drain valve release of anesthesia ventilator bellows, to ensure that blood circulation does not results in Windage to patient.

Described ventilation channel 2, described anesthetic gases pipeline 5, described expiration pipeline 13 three meet at together.

Described ventilation channel 2 is provided with oxygen flux control valve 16, and described anesthetic gases pipeline 5 is provided with anesthetic gases stream Control valve 17.Oxygen flux control valve 16 and anesthetic gases flow control valve 17 are respectively used to control oxygen and anesthetic gases Flow, in order to making anesthesia gas concentration flow to patient as requested, be mixed in anesthetic gases is purity oxygen simultaneously so that It is not likely to produce during patient respiratory and suffocates, normal supply patient oxygen, effectively sustain life.

Described expiration pipeline 13 is provided with the reservoir bag 18 communicated therewith.The Main Function of reservoir bag 18 is auxiliary or controls Breathe, buffer fresh gas flow, it is simple to observe the breathing of patient, it is simple to being sufficiently mixed of anesthetic gases and oxygen, atrophy lung can be made swollen Swollen.When starting anesthesia ventilator, anesthetic machine enters auto state, and APL valve 14 must shut off, can be from during hypertonia in system The excessive gas drain valve release of anesthesia ventilator bellows.

Medical worker further can be adjusted with the flow rate anaesthetizing steam by observing oxygen, beneficially hands Art is rapidly completed.

During use, regulate oxygen flow as desired by oxygen flux control valve 16, by anesthetic gases flow-control The flow of valve 17 regulation anesthesia steam, makes oxygen be adjusted according to required ratio with anesthetis steam, utilizes the accurate of anesthesia Control, it is ensured that the health of patient, mixed gas is in suction line 6 enters breathing mask 10, for patient's anesthesia respiration, right Anaesthetic can be brought into alveolar while carrying out oxygen supply by patient together, and anesthetics gas permeates into blood by patient's alveolar In, thus central nervous system is produced inhibitory action, make patient anaesthetize.Patient exhalation gas through expiration pipeline 13 at warp Cross CO2 absorber system 3, can remove the carbon dioxide in expiration, improve and suck the dense of oxygen and anesthetic gases in gas Degree；The Main Function of reservoir bag 18 is auxiliary or controls to breathe, and buffers fresh gas flow, it is simple to observe the breathing of patient, it is simple to fiber crops Being sufficiently mixed of liquor-saturated gas and oxygen, can make atrophy atelectasis.

Above an example of the present utility model has been described in detail, but described content be only of the present utility model relatively Good embodiment, it is impossible to be considered for limiting practical range of the present utility model.All made according to this utility model application range Impartial change and improvement etc., within all should still belonging to patent covering scope of the present utility model.

Claims (4)

1. an anesthesia aeration cycle system, it is characterised in that include oxygen supply tank, anesthesia evaporator, CO2 absorber system, face Cover, described oxygen supply tank is connected with described CO2 absorber system by ventilation channel, and described anesthesia evaporator passes through anesthetic gases Pipeline is connected with described CO2 absorber system, and described CO2 absorber system is connected with inspiratory valve by suction line, institute Stating inspiratory valve to be connected with air-breathing corrugated tubing, described air-breathing corrugated tubing is connected with a port of threeway, another the two of described threeway Individual port is connected with described face shield and expiration corrugated tubing respectively, and described expiration corrugated tubing is connected with expiratory valve, and described expiration is lived Lobe is connected with expiration pipeline, and described expiration pipeline is provided with APL valve, Pressure gauge, and described expiration pipeline is inhaled with described carbon dioxide Receipts device connects.

Anesthesia aeration cycle system the most according to claim 1, it is characterised in that described ventilation channel, described anesthetic gases Pipeline, described expiration pipeline three meet at together.

Anesthesia aeration cycle system the most according to claim 2, it is characterised in that described ventilation channel is provided with oxygen stream Control valve, described anesthetic gases pipeline is provided with anesthetic gases flow control valve.

Anesthesia aeration cycle system the most according to claim 3, it is characterised in that described expiration pipeline is provided with and its phase Logical reservoir bag.