CN215386671U - Breathing machine pipeline for atomization treatment - Google Patents

Abstract

The utility model provides a breathing machine pipeline that can be used to fog inhalation, is including exhaling the limb, breathing in the limb, Y type pipe, exhales the limb including the blast pipe, the ponding cup I that connect gradually, and the limb of breathing in is including the intake pipe humidifier, humidification pipe, ponding cup II, the pipe of supplying gas, ponding cup III, the breathing pipe that connect gradually, and wherein blast pipe, intake pipe are connected with breathing machine air inlet, gas outlet respectively, breathing pipe, expiratory tube respectively with Y type union coupling. The water accumulation cup I and the water accumulation cup II comprise a cup cover and a cup body, the cup cover is in threaded connection with the cup body, and a Y-shaped joint is fixed on the cup cover. The utility model can atomize and deliver medicine to a patient without disconnecting the breathing machine, is safe and efficient, is simple and convenient to operate, can greatly reduce the labor intensity of medical personnel, and can effectively avoid bacteria invasion.

Description

Breathing machine pipeline for atomization treatment

Technical Field

The utility model relates to the technical field of medical instruments.

Background

Aerosol therapy refers primarily to aerosol inhalation therapy. Aerosol refers to fine solid or liquid particles suspended in air. Therefore, the aerosol inhalation therapy is to disperse the medicine into tiny droplets or particles by using an atomizing device, suspend the particles in the air and enter a breathing passage and a lung so as to achieve the purposes of cleaning the air passage, humidifying the air passage, local treatment and whole-body treatment.

The anesthesia machine, the breathing machine and other equipment are required to be matched with a breathing pipeline to establish a breathing connecting channel for a patient. While using the breathing machine, the atomization therapy is needed at the right moment according to the progress of the disease course. At present, a breathing pipeline can only be connected with a breathing machine without an atomization interface, and in order to enable a patient with a respiratory tract intubation to receive atomization treatment, small holes are frequently cut on the breathing pipeline by self in clinic so as to increase the connector of an atomizer. This operation has not only increased medical staff's the amount of labour, simultaneously, leads to the bacterium invasion easily at the in-process of operation to take place breathing machine correlation pneumonia, increase the nosocomial risk of infecting, the breathing machine trompil still can increase the normal air feed that the atomizing connects the influence breathing machine, leads to the air feed to break off, influences the patient's state of an illness. Meanwhile, the traditional method has the problem of insufficient tightness, so that the drug effect and the dosage of the drug are wasted, and the treatment effect of a patient cannot be achieved.

SUMMERY OF THE UTILITY MODEL

Aiming at the problems in the prior art, the utility model provides a breathing machine pipeline for atomization treatment, which can be directly connected with an atomization device without disconnecting the breathing machine, so as to avoid the invasion of bacteria.

In order to achieve the technical purpose and achieve the technical effect, the utility model is realized by the following technical scheme:

a breathing machine pipeline for atomization therapy comprises an expiratory limb, an inspiratory limb and a Y-shaped pipe, wherein the expiratory limb comprises an exhaust pipe, a water accumulation cup I and an expiratory pipe which are sequentially connected; the air supply conduit is provided with a connector, the atomizer conduit is connected to the connector, the end part of the atomizer conduit is provided with a connector, and the atomizer is connected to the connector at the end part of the atomizer conduit.

Furthermore, a one-way valve is arranged on the atomizer guide pipe.

Furthermore, an extension pipe is connected to the atomizer.

Further, the extension pipe is connected with an ultrasonic atomizer.

Furthermore, the tail end of the extension pipe is provided with a pipe plug.

Furthermore, the connector at the end part of the atomizer conduit is matched with the connector of the water accumulation cup body.

Furthermore, ponding cup I, ponding cup II include bowl cover and cup, threaded connection between bowl cover and the cup, are fixed with a joint on the bowl cover, have the check valve on the joint.

Furthermore, the cup body and the cup cover are made of transparent materials.

Preferably, the cup body and the cup cover are made of medical plastics.

Furthermore, the side surface of the cup body is marked with scales.

The utility model can atomize and deliver medicine to a patient without disconnecting the breathing machine, is safe and efficient, is simple and convenient to operate, can greatly reduce the labor intensity of medical personnel, and can effectively avoid bacteria invasion.

Drawings

FIG. 1 is a schematic structural diagram of the present invention.

FIG. 2 is another schematic structural diagram of the present invention.

FIG. 3 is a schematic structural view of the water collecting cup of the present invention.

Illustration of the drawings: 1-a breathing machine, 2-an exhaust pipe, 3-a water accumulation cup I, 4-an expiratory pipe, 5-an air inlet pipe, 6-a humidifier, 7-a humidifying conduit, 8-a water accumulation cup II, 9-an air supply conduit, 10-a water accumulation cup III, 11-an air suction pipe, 12-a Y-shaped pipe, 13-an atomizer, 14-an extension pipe, 15-a pipe plug, 16-a joint, 17-a cup cover, 18-a one-way valve and 19-a cup body.

Detailed Description

The present invention will be described in further detail with reference to the following examples. This should not be understood as limiting the scope of the above-described subject matter of the present invention to the following examples. All the technologies realized based on the above contents of the present invention belong to the scope of the present invention.

As shown in fig. 1, the ventilator pipeline for aerosol therapy of the present invention comprises an expiratory limb, an inspiratory limb and a Y-shaped tube 12, wherein the expiratory limb comprises an exhaust tube 2, a water accumulation cup I3 and an expiratory tube 4 which are connected in sequence, the inspiratory limb comprises an air inlet tube 5, a humidifier 6, a humidification conduit 7, a water accumulation cup II8, an air supply conduit 9 and an inspiratory tube 11 which are connected in sequence, wherein the exhaust tube 2 and the air inlet tube 5 are respectively connected with an air inlet and an air outlet of the ventilator, the inspiratory tube 11 and the expiratory tube 4 are respectively connected with the Y-shaped tube 12, and the Y-shaped tube 12 is connected with a breathing mask; the air supply conduit 9 is provided with a connector, the atomizer conduit is connected to the connector, the end part of the atomizer conduit is provided with a connector, and the atomizer 13 is connected to the connector at the end part of the atomizer conduit.

Furthermore, a one-way valve is arranged on the atomizer guide pipe.

Further, an extension pipe 14 is connected to the atomizer 13.

Further, the extension pipe 14 is connected with an ultrasonic atomizer.

Further, the extension pipe 14 is provided with a pipe plug 15 at the end. When the delay tube is not in use, the line is closed with a plug 15.

Furthermore, the connector at the end part of the atomizer conduit is matched with the connector of the water accumulation cup body. When nebulized delivery is not desired, the nebulizer 13 can be removed and a water collection cup III10 attached to the end fitting of the nebulizer conduit, as shown in fig. 2.

Furthermore, the water accumulation cup I3 and the water accumulation cup II8 comprise a cup cover 17 and a cup body 19, the cup cover 17 is in threaded connection with the cup body 19, a joint 16 is fixed on the cup cover 17, and a one-way valve 18 is arranged on the joint 16, as shown in fig. 3.

Furthermore, the cup body 19 and the cup cover 17 are made of transparent materials, so that the condition of water accumulated in the cup can be observed conveniently.

Preferably, the cup body 19 and the cup cover 17 are made of medical plastics.

Furthermore, scales are marked on the side surface of the cup body 19, so that the water accumulation condition in the cup can be observed quantitatively.

The present invention is capable of other embodiments, and various changes and modifications may be made by one skilled in the art without departing from the spirit of the utility model.

Claims (10)

1. A breathing machine pipeline that can be used to fog inhalation is characterized in that: the breathing limb breathing device comprises a breathing limb, a breathing limb and a Y-shaped pipe (12), wherein the breathing limb comprises an exhaust pipe (2), a water accumulation cup I (3) and a breathing pipe (4) which are sequentially connected, the breathing limb comprises an air inlet pipe (5), a humidifier (6), a humidifying pipe (7), a water accumulation cup II (8), an air supply pipe (9) and an air suction pipe (11) which are sequentially connected, the exhaust pipe (2) and the air inlet pipe (5) are respectively connected with an air inlet and an air outlet of a respirator, the air suction pipe (11) and the breathing pipe (4) are respectively connected with the Y-shaped pipe (12), and the Y-shaped pipe (12) is connected with a breathing mask; the air supply conduit (9) is provided with a connector, the atomizer conduit is connected to the connector, the end part of the atomizer conduit is provided with a connector, and the atomizer (13) is connected to the connector at the end part of the atomizer conduit.

2. A ventilator circuit useful for aerosol therapy as described in claim 1, wherein: the atomizer guide pipe is provided with a one-way valve.

3. Ventilator circuit for nebulisation treatment according to claim 1 or 2, characterized in that: the atomizer (13) is connected with an extension pipe (14).

4. The ventilator circuit for nebulisation therapy according to claim 3, wherein: the extension pipe (14) is connected with an ultrasonic atomizer.

5. The ventilator circuit for nebulisation therapy according to claim 3, wherein: the tail end of the extension pipe (14) is provided with a pipe plug (15).

6. A ventilator circuit useful for aerosol therapy as described in claim 1, wherein: the connector at the end part of the atomizer conduit is matched with the connector of the water accumulation cup body.

7. A ventilator circuit useful for aerosol therapy as described in claim 1, wherein: ponding cup I (3), ponding cup II (8) include bowl cover (17) and cup (19), threaded connection between bowl cover (17) and cup (19), are fixed with one on bowl cover (17) and connect (16), have check valve (18) on connecting (16).

8. The ventilator circuit of claim 7 wherein: the cup body (19) and the cup cover (17) are both made of transparent materials.

9. The ventilator circuit of claim 8 wherein: the cup body (19) and the cup cover (17) are made of medical plastics.

10. The ventilator circuit of claim 7 wherein: the side surface of the cup body (19) is marked with scales.

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