CN214512195U - Anesthesia breathing pipeline - Google Patents

Abstract

The utility model provides an anesthesia breathing pipe, including Y type respiratory tube, temperature sensor, humidity transducer and water absorption device, Y type respiratory tube is including breathing in screwed pipe, expiration screwed pipe and connector, and breathing in screwed pipe, expiration screwed pipe link to each other with the both sides wall of connector respectively, and the colour of breathing in screwed pipe is different with the colour of expiration screwed pipe, is equipped with temperature sensor, humidity transducer and water absorption device on the connector. The utility model has the advantages that: the utility model discloses security performance is high, convenient to use.

Description

Anesthesia breathing pipeline

Technical Field

The utility model relates to a medical anesthesia is related to technical field, more specifically says and relates to an anesthesia breathing pipeline.

Background

In medical apparatus and instruments, a pipeline apparatus which is matched with an anesthesia machine or a breathing machine is often used, and the breathing pipeline plays an important role in medical anesthesia.

The medical anesthesia breathing pipeline used at present can not discharge moisture in the breath of a patient to be condensed into water, and the breathing pipeline is not easy to distinguish an air inlet end and an air outlet end.

Disclosure of Invention

The utility model overcomes the defects in the prior art and provides an anesthesia breathing pipeline.

The purpose of the utility model is realized by the following technical scheme.

Anesthesia breathing pipeline, including Y type respiratory tube, temperature sensor, humidity transducer and water absorption device, Y type respiratory tube is including breathing in the screwed pipe, exhale the screwed pipe and connector, breathe in the screwed pipe exhale the screwed pipe respectively with the both sides wall of connector links to each other, breathe in the screwed pipe with exhale the inside valve that is equipped with of screwed pipe, breathe in the screwed pipe the colour with the colour of exhaling the screwed pipe is different, be equipped with temperature sensor, humidity transducer and water absorption device on the connector.

Preferably, the temperature sensor and the humidity sensor are connected to the connecting head through one-way valves.

According to any one of the above schemes, preferably, the temperature sensor and the humidity sensor are respectively connected with the display screen through wires.

According to any one of the above schemes, preferably, the connector is provided with the water absorption channel, and the water absorption channel is connected with the water absorption pipe.

According to any one of the above schemes, preferably, the suction pipe is provided with a squeezing air bag.

Preferably, according to any one of the above schemes, the suction threaded pipe is green.

Preferably, according to any one of the above schemes, the expiration threaded pipe is white.

Preferably, in any of the above schemes, an included angle between the inhalation threaded pipe and the exhalation threaded pipe is 45-60 °.

The utility model has the advantages that:

the Y-shaped breathing tube is not easy to damage, and the included angle between the inspiration threaded tube and the expiration threaded tube is 45-60 degrees, so that the use is not interfered;

the inspiration screwed pipe is green, the expiration screwed pipe is white, and the two colors are different and are convenient to distinguish;

the temperature sensor detects the temperature and transmits the temperature to the display screen, the humidity sensor detects the humidity and transmits the humidity to the display screen, and visual numbers are displayed through observation of the display screen;

the numerical result after the humidity detection exceeds the specified range requirement, and at the moment, the water is sucked out by connecting a drainage pump through a water suction pipe; the suction pipe can also be gradually sucked out in a pressing mode;

the valve enables the gas of the inspiration threaded pipe and the gas of the expiration threaded pipe to independently pass through the pipes;

the utility model discloses security performance is high, convenient to use.

Drawings

FIG. 1 is a schematic structural view of the present invention;

in the figure:

1. a suction threaded pipe; 2. an expiratory threaded tube; 3. a connector; 4. a humidity sensor; 5. a temperature sensor;

6. a suction pipe; 7. extruding the air bag; 8. a water suction passage.

Detailed Description

The technical solution of the present invention is further explained by the following specific examples.

As shown in fig. 1, 1 is a suction threaded pipe; 2 is an expiration threaded pipe; 3 is a connector; 4 is a humidity sensor; 5 is a temperature sensor; 6 is a water suction pipe; 7 is an extrusion air bag; and 8 is a water absorption channel.

Example 1

Anesthesia breathing pipeline, including Y type respiratory tube, temperature sensor, humidity transducer and water absorption device, Y type respiratory tube is including breathing in the screwed pipe, exhale the screwed pipe and connector, breathe in the screwed pipe exhale the screwed pipe respectively with the both sides wall of connector links to each other, breathe in the screwed pipe with exhale the inside flap that is equipped with of screwed pipe, this flap structure can be for the structure in the breather valve gauze mask to there is not technological improvement, breathe in the screwed pipe the colour with the colour of exhaling the screwed pipe is different, be equipped with temperature sensor, humidity transducer and water absorption device on the connector.

Example 2

Anesthesia breathing pipeline, including Y type respiratory tube, temperature sensor, humidity transducer and water absorption device, Y type respiratory tube is including breathing in the screwed pipe, exhale the screwed pipe and connector, breathe in the screwed pipe exhale the screwed pipe respectively with the both sides wall of connector links to each other, breathe in the screwed pipe with exhale the inside flap that is equipped with of screwed pipe, this flap structure can be for the structure in the breather valve gauze mask to there is not technological improvement, breathe in the screwed pipe the colour with the colour of exhaling the screwed pipe is different, be equipped with temperature sensor, humidity transducer and water absorption device on the connector.

The temperature sensor and the humidity sensor are connected to the connecting head through one-way valves; the connector is located temperature sensor with humidity transducer's position department is equipped with the check valve.

Example 3

Anesthesia breathing pipeline, including Y type respiratory tube, temperature sensor, humidity transducer and water absorption device, Y type respiratory tube is including breathing in the screwed pipe, exhale the screwed pipe and connector, breathe in the screwed pipe exhale the screwed pipe respectively with the both sides wall of connector links to each other, breathe in the screwed pipe with exhale the inside flap that is equipped with of screwed pipe, this flap structure can be for the structure in the breather valve gauze mask to there is not technological improvement, breathe in the screwed pipe the colour with the colour of exhaling the screwed pipe is different, be equipped with temperature sensor, humidity transducer and water absorption device on the connector.

The temperature sensor and the humidity sensor are connected to the connecting head through one-way valves; the connector is located temperature sensor with humidity transducer's position department is equipped with the check valve. The temperature sensor and the humidity sensor are respectively connected with the display screen through leads.

Example 4

Anesthesia breathing pipeline, including Y type respiratory tube, temperature sensor, humidity transducer and water absorption device, Y type respiratory tube is including breathing in the screwed pipe, exhale the screwed pipe and connector, breathe in the screwed pipe exhale the screwed pipe respectively with the both sides wall of connector links to each other, breathe in the screwed pipe with exhale the inside flap that is equipped with of screwed pipe, this flap structure can be for the structure in the breather valve gauze mask to there is not technological improvement, breathe in the screwed pipe the colour with the colour of exhaling the screwed pipe is different, be equipped with temperature sensor, humidity transducer and water absorption device on the connector.

The temperature sensor and the humidity sensor are connected to the connecting head through one-way valves; the connector is located temperature sensor with humidity transducer's position department is equipped with the check valve. The temperature sensor and the humidity sensor are respectively connected with the display screen through leads.

The water sucking channel is arranged on the connector and connected with the water sucking pipe, and the water sucking pipe is provided with an extrusion air bag.

Example 5

Anesthesia breathing pipeline, including Y type respiratory tube, temperature sensor, humidity transducer and the device that absorbs water, Y type respiratory tube is including breathing in the screwed pipe, exhale the screwed pipe and connector, breathe in the screwed pipe exhale the screwed pipe respectively with the both sides wall of connector links to each other, breathe in the screwed pipe with exhale the inside flap that is equipped with of screwed pipe, this flap structure can be the structure in the breather valve gauze mask to there is not technological improvement, breathe in the screwed pipe the colour with exhale the colour of screwed pipe different, breathe in the screwed pipe and be green, exhale the screwed pipe and be white, be equipped with temperature sensor, humidity transducer on the connector and absorb water the device.

The temperature sensor and the humidity sensor are connected to the connecting head through one-way valves; the connector is located temperature sensor with humidity transducer's position department is equipped with the check valve. The temperature sensor and the humidity sensor are respectively connected with the display screen through leads.

The water sucking channel is arranged on the connector and connected with the water sucking pipe, and the water sucking pipe is provided with an extrusion air bag.

Example 6

The anesthesia breathing pipeline comprises a Y-shaped breathing pipe, a temperature sensor, a humidity sensor and a water absorption device, wherein the Y-shaped breathing pipe comprises an air suction threaded pipe, an air expiration threaded pipe and a connector, the air suction threaded pipe and the air expiration threaded pipe are respectively connected with two side walls of the connector, and an included angle between the air suction threaded pipe and the air expiration threaded pipe is 45-60 degrees;

breathe in the screwed pipe with breathe out the inside valve that is equipped with of screwed pipe, this valve structure can be for the structure in the breather valve gauze mask to there is not technical improvement, breathe in the screwed pipe the colour with the colour of breathing out the screwed pipe is different, and the screwed pipe of breathing in is green, it is white to breathe out the screwed pipe, be equipped with temperature sensor, humidity transducer and water absorption device on the connector.

The temperature sensor and the humidity sensor are connected to the connecting head through one-way valves; the connector is located temperature sensor with humidity transducer's position department is equipped with the check valve. The temperature sensor and the humidity sensor are respectively connected with the display screen through leads.

The water sucking channel is arranged on the connector and connected with the water sucking pipe, and the water sucking pipe is provided with an extrusion air bag.

When the breathing machine works, the temperature sensor and the humidity sensor can be of an inductor probe structure, the temperature sensor and the humidity sensor are inserted into the one-way valve, the breathing threaded pipe is connected with the anesthesia machine, the probe type sensor is the prior art, technical improvement does not exist in the patent, the breathing threaded pipe anesthesia machine/oxygen supply machine inputs anesthetic/oxygen for a patient, gas enters through a valve in the breathing threaded pipe and cannot flow backwards, the patient breath is exhaled from the breathing threaded pipe, the exhaled gas cannot flow backwards through the valve arranged in the breathing threaded pipe, and the exhaled gas is smoothly exhaled; the numerical result after the connection humidity detection exceeds the specified range requirement, and at the moment, the water is sucked out by connecting a drainage pump through a water suction pipe; the suction tube can also be gradually sucked out by pressing.

The above description has been made in detail for the six embodiments of the present invention, but the above description is only for the preferred embodiments of the present invention, and should not be construed as limiting the scope of the present invention. All the equivalent changes and improvements made according to the application scope of the present invention should still fall within the patent coverage of the present invention.

Claims (8)

1. Anesthesia breathing circuit, its characterized in that: including Y type respiratory tube, temperature sensor, humidity transducer and water absorption device, Y type respiratory tube is including breathing in the screwed pipe, exhale the screwed pipe and connector, breathe in the screwed pipe exhale the screwed pipe respectively with the both sides wall of connector links to each other, breathe in the screwed pipe with exhale the inside valve that is equipped with of screwed pipe, breathe in the screwed pipe the colour with the colour of exhaling the screwed pipe is different, be equipped with temperature sensor, humidity transducer and water absorption device on the connector.

2. The anesthetic breathing circuit of claim 1 wherein: the temperature sensor and the humidity sensor are connected to the connecting head through one-way valves.

3. The anesthetic breathing circuit of claim 2 wherein: the temperature sensor and the humidity sensor are respectively connected with the display screen through leads.

4. The anesthetic breathing circuit of claim 3 wherein: the connector is provided with a water suction channel, and the water suction channel is connected with the water suction pipe.

5. The anesthetic breathing circuit of claim 4 wherein: and the water suction pipe is provided with an extrusion air bag.

6. The anesthetic breathing circuit of claim 5 wherein: the air suction threaded pipe is green.

7. The anesthetic breathing circuit of claim 6, wherein: the expiration screwed pipe is white.

8. The anesthetic breathing circuit according to any of claims 1-7, characterized in that: the included angle between the inspiration threaded pipe and the expiration threaded pipe is 45-60 degrees.

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