CN214343832U - Special breathing machine for cutting severe trachea in oxygen chamber - Google Patents

Abstract

The utility model provides a special breathing machine of severe trachea cutting in oxygen cabin belongs to breathing machine technical field, including the breathing machine casing, the breathing machine casing is including oxygen discharge interface, oxygen suppliment interface, one-level oxygen uptake flowmeter, atomizing oxygen uptake flowmeter, conventional oxygen uptake flowmeter, atomizing bottle, oxygen suppliment switch, oxygen suppliment manometer, air supply manometer, oxygen suppliment gasbag, oxygen cache jar, one-way three-way valve and tee bend. And opening an oxygen supply switch, closing needle valves of the atomization oxygen inhalation flow meter and the conventional oxygen inhalation flow meter, opening a needle valve of the primary oxygen inhalation flow meter, adjusting the oxygen flow, enabling oxygen to enter the one-way three-way valve through the air source pressure gauge, the oxygen supply switch and the primary oxygen inhalation flow meter, enabling the one-way three-way valve to be in a cut-off state towards the direction of the three-way valve, enabling gas to flow in one direction only from the three-way valve towards the one-way three-way valve, and directly providing oxygen therapy for a patient through the oxygen supply pressure gauge and an oxygen supply interface.

Description

Special breathing machine for cutting severe trachea in oxygen chamber

Technical Field

The utility model relates to a breathing machine technical field, more specifically relates to a special breathing machine of severe trachea cutting in oxygen cabin.

Background

In modern clinical medicine, the ventilator has been widely used in respiratory failure due to various reasons, anesthesia and breathing management during major surgery, respiratory support therapy and emergency resuscitation, and has occupied a very important position in the modern medical field as an effective means for manually replacing the autonomous ventilation function. The breathing machine is a vital medical device which can prevent and treat respiratory failure, reduce complications and save and prolong the life of a patient, and the conventional breathing machine is usually used for patients with different disease conditions, so that the breathing machine has certain limitation and is not suitable for different patients. Therefore, the special breathing machine for cutting the severe trachea in the oxygen chamber is designed to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problem of proposing in the above-mentioned background to provide a special breathing machine of severe trachea cutting in oxygen cabin.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a special breathing machine of severe trachea cutting in oxygen cabin, includes the breathing machine casing, the breathing machine casing is including row oxygen interface, oxygen suppliment interface, one-level oxygen uptake flowmeter, atomizing oxygen uptake flowmeter, oxygen flowmeter, atomizing bottle, oxygen suppliment switch, oxygen suppliment manometer, air supply pressure gauge, oxygen suppliment gasbag, oxygen buffer tank, one-way three-way valve and tee bend, the positive left side bottom of breathing machine casing runs through and is provided with row oxygen interface, it is provided with row oxygen gasbag to cup joint on the row oxygen interface, the positive left side embedding of breathing machine casing is provided with the oxygen suppliment switch, the positive middle part embedding of breathing machine casing is provided with one-level oxygen uptake flowmeter, the right side embedding that just is located one-level oxygen uptake flowmeter in the front of breathing machine casing is provided with atomizing oxygen uptake flowmeter, the right side embedding that just is located atomizing oxygen uptake flowmeter in the front of breathing machine casing is provided with oxygen suppliment flowmeter, the embedding of the interior roof right side of breathing machine casing is provided with the atomizing bottle, the roof left side of breathing machine casing is run through and is provided with the air supply manometer, the positive right side bottom of breathing machine casing is run through and is provided with the oxygen suppliment gasbag, the right side upper end of the right side wall of breathing machine casing is run through and is provided with the oxygen suppliment manometer, the right side of oxygen suppliment manometer is run through and is provided with the oxygen suppliment interface, the interior bottom wall right side of breathing machine casing is still fixed and is provided with oxygen buffer memory jar, one-level oxygen uptake flowmeter is connected with one-way three-way valve through the trachea, and one-way three-way valve's output is connected on the oxygen suppliment manometer, the output of oxygen suppliment gasbag is provided with the tee bend through the trachea connection.

Preferably, the input end of the air source pressure gauge is provided with an oxygen inlet pipe, the output end of the air source pressure gauge is fixedly provided with an oxygen discharge pipe, and the oxygen supply switch is arranged on the oxygen discharge pipe.

Preferably, the primary oxygen uptake flowmeter, the atomization oxygen uptake flowmeter and the oxygen uptake flowmeter are all fixed on the oxygen exhaust pipe, and the primary oxygen uptake flowmeter, the atomization oxygen uptake flowmeter and the oxygen uptake flowmeter are connected in parallel.

Preferably, the output end of the atomization oxygen inhalation flow meter is connected to the atomization bottle through an air pipe, the output end of the atomization bottle is connected to the tee joint through an air pipe, and the other end of the tee joint is connected to the one-way three-way valve.

Preferably, the output end of the oxygen inhalation flow meter is connected to the oxygen buffer tank, and the oxygen buffer tank is connected to the oxygen supply air bag.

Preferably, the top end of the atomization bottle penetrates through the top wall of the respirator shell.

The utility model provides a special breathing machine of severe trachea cutting in oxygen cabin has following beneficial effect:

1. this kind of special breathing machine of severe trachea cutting in oxygen cabin is provided with one-level oxygen uptake flowmeter, opens the oxygen suppliment switch, closes atomizing oxygen uptake flowmeter and oxygen uptake flowmeter's needle valve simultaneously, opens one-level oxygen uptake flowmeter's needle valve, adjusts the oxygen flow, and oxygen gets into one-way three-way valve through air supply manometer, oxygen suppliment switch and one-level oxygen uptake flowmeter, and one-way three-way valve is the off-state toward the tee bend direction, and gas can only directly provide oxygen therapy for patient through the oxygen suppliment manometer rethread oxygen suppliment interface.

2. This kind of special breathing machine of severe trachea cutting in oxygen cabin is provided with atomizing oxygen uptake flowmeter and atomizing bottle, opens the oxygen suppliment switch, closes one-level oxygen uptake flowmeter and oxygen uptake flowmeter's needle valve simultaneously, opens atomizing oxygen uptake flowmeter's needle valve, adjusts the oxygen flow, and oxygen gets into the atomizing bottle through air supply pressure gauge, oxygen suppliment switch and atomizing oxygen uptake flowmeter, through the tee bend toward one-way three-way valve one-way flow, provides atomizing oxygen treatment for patient through oxygen suppliment manometer rethread oxygen suppliment interface.

3. This kind of special breathing machine of severe trachea cutting in oxygen cabin is provided with the oxygen uptake flowmeter, opens the oxygen suppliment switch, closes the needle valve of one-level oxygen uptake flowmeter and atomizing oxygen uptake flowmeter simultaneously, opens the needle valve of oxygen uptake flowmeter, adjusts the oxygen flow, and oxygen gets into oxygen buffer tank through air supply manometer, oxygen suppliment switch and oxygen uptake flowmeter, through oxygen suppliment gasbag and one-way three-way valve one-way flow, provides conventional oxygen therapy for patient through the oxygen suppliment interface of oxygen suppliment manometer rethread.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is the internal schematic view of the whole structure of the present invention.

Fig. 3 is a schematic view of the structure of the usage flow of the present invention.

In FIGS. 1-3: 1-oxygen discharge port, 2-oxygen supply port, 3-first-level oxygen supply flowmeter, 4-atomization oxygen supply flowmeter, 5-oxygen supply flowmeter, 6-atomization bottle, 7-oxygen supply switch, 8-oxygen supply pressure gauge, 9-gas source pressure gauge, 10-oxygen supply air bag, 11-oxygen discharge air bag, 12-oxygen buffer tank, 13-one-way three-way valve and 14-three-way valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 3, in the embodiment of the present invention, a respirator for cutting a critical trachea in an oxygen cabin comprises a respirator housing, the respirator housing comprises an oxygen discharge interface 1, an oxygen supply interface 2, a primary oxygen supply flowmeter 3, an atomized oxygen supply flowmeter 4, an oxygen supply flowmeter 5, an atomized bottle 6, an oxygen supply switch 7, an oxygen supply pressure gauge 8, an air source pressure gauge 9, an oxygen supply air bag 10, an oxygen discharge air bag 11, an oxygen buffer tank 12, a one-way three-way valve 13 and a three-way valve 14, the oxygen discharge interface 1 is arranged at the bottom of the left front side of the respirator housing in a penetrating manner, the oxygen discharge air bag 11 is sleeved on the oxygen discharge interface 1, the oxygen supply switch 7 is embedded at the left front side of the respirator housing, the primary oxygen supply flowmeter 3 is embedded at the middle of the front of the respirator housing, the atomized oxygen supply flowmeter 4 is embedded at the right side of the primary oxygen supply flowmeter 3, the front of breathing machine casing and the right side embedding that is located atomizing oxygen inhalation flow meter 4 are provided with oxygen inhalation flow meter 5, the embedding of the interior roof right side of breathing machine casing is provided with atomizing bottle 6, the roof left side of breathing machine casing is run through and is provided with air supply manometer 9, the front right side bottom of breathing machine casing is run through and is provided with oxygen suppliment gasbag 10, the right side wall upper end of breathing machine casing is run through and is provided with oxygen suppliment manometer 8, oxygen suppliment manometer 8's right side is run through and is provided with oxygen suppliment interface 2, the interior bottom wall right side of breathing machine casing still fixedly is provided with oxygen buffer memory jar 12, one-level oxygen inhalation flow meter 3 is connected with one-way three-way valve 13 through the trachea, and one-way three-way valve 13's output is connected on oxygen suppliment manometer 8, oxygen suppliment gasbag 10's output is provided with tee bend 14 through the trachea connection.

In this embodiment, the input end of the air source pressure gauge 9 is provided with an oxygen inlet pipe, the output end of the air source pressure gauge 9 is fixedly provided with an oxygen discharge pipe, and the oxygen supply switch 7 is arranged on the oxygen discharge pipe.

In this embodiment, the primary oxygen-inhalation flow meter 3, the atomization oxygen-inhalation flow meter 4, and the oxygen-inhalation flow meter 5 are all fixed on the oxygen discharge pipe, and the primary oxygen-inhalation flow meter 3, the atomization oxygen-inhalation flow meter 4, and the oxygen-inhalation flow meter 5 are connected in parallel, and the parallel connection facilitates the use of various different ways for supplying oxygen to patients.

In this embodiment, the output of atomizing oxygen uptake flowmeter 4 passes through the trachea and connects on atomizing bottle 6, and the output of atomizing bottle 6 passes through the trachea and connects on tee bend 14, and the other end of tee bend 14 is connected on one-way three-way valve 13 for form the route, conveniently give patient's oxygen suppliment.

In this embodiment, the output end of the oxygen inhalation flowmeter 5 is connected to the oxygen buffer tank 12, and the oxygen buffer tank 12 is connected to the oxygen supply airbag 10, so that oxygen in the oxygen buffer tank 12 can be discharged through the oxygen supply airbag 10.

In this embodiment, the top of atomizing bottle 6 runs through in the roof of respirator casing, conveniently adds the atomizing raw materials in the atomizing bottle 6.

In this embodiment, the one-way three-way valve 13 is in a cut-off state toward the three-way valve 14, and gas can only flow from the three-way valve 14 toward the one-way three-way valve 13 in one direction, so that oxygen does not flow back, and oxygen can be conveniently supplied to the patient.

When the special breathing machine for cutting the critical trachea in the oxygen cabin is used, the oxygen supply switch 7 is opened, the needle valves of the atomization oxygen supply flowmeter 4 and the oxygen supply flowmeter 5 are closed, the needle valve of the primary oxygen supply flowmeter 3 is opened, the oxygen flow is adjusted, the oxygen enters the one-way three-way valve 13 through the air source pressure gauge 9, the oxygen supply switch 7 and the primary oxygen supply flowmeter 3, the one-way three-way valve 13 is in a stop state towards the direction of the three-way valve 14, and the gas can only directly provide oxygen therapy for patients through the oxygen supply pressure gauge 8 and the oxygen supply 2 interface;

opening an oxygen supply switch 7, closing needle valves of the primary oxygen absorption flowmeter 3 and the oxygen absorption flowmeter 5, opening a needle valve of the atomization oxygen absorption flowmeter 4, adjusting oxygen flow, enabling oxygen to enter an atomization bottle 6 through an air source pressure gauge 9, the oxygen supply switch 7 and the atomization oxygen absorption flowmeter 4, flowing to a one-way three-way valve 13 in a one-way mode through a three-way valve 14, and providing atomization oxygen therapy for a patient through an oxygen supply pressure gauge 8 and an oxygen supply interface 2;

and opening an oxygen supply switch 7, closing needle valves of the first-stage oxygen inhalation flow meter 3 and the atomization oxygen inhalation flow meter 4, opening a needle valve of the oxygen inhalation flow meter 5, adjusting oxygen flow, enabling oxygen to enter an oxygen cache tank 12 through an air source pressure gauge 9, the oxygen supply switch 7 and the oxygen inhalation flow meter 5, enabling the oxygen to flow in a single direction through an oxygen supply air bag 10 and a one-way three-way valve 13, enabling the oxygen to flow in a single direction through an oxygen supply pressure gauge 8 and providing conventional oxygen therapy for patients through an oxygen supply interface 2.

The above is only the preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, without departing from the concept of the present invention, several modifications and improvements can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent.

Claims (7)

1. The utility model provides a special breathing machine of severe trachea cutting in oxygen cabin, includes the breathing machine casing, its characterized in that: the respirator shell comprises an oxygen discharge interface (1), an oxygen supply interface (2), a first-level oxygen inhalation flowmeter (3), an atomized oxygen inhalation flowmeter (4), an oxygen inhalation flowmeter (5), an atomization bottle (6), an oxygen supply switch (7), an oxygen supply pressure gauge (8), an air source pressure gauge (9), an oxygen supply air bag (10), an oxygen discharge air bag (11), an oxygen cache tank (12), a one-way three-way valve (13) and a three-way valve (14), wherein the oxygen discharge interface (1) is arranged at the bottom of the front left side of the respirator shell in a penetrating manner, the oxygen discharge air bag (11) is sleeved on the oxygen discharge interface (1), the oxygen supply switch (7) is arranged in the embedding manner at the left side of the front of the respirator shell, the first-level oxygen inhalation flowmeter (3) is arranged in the embedding manner at the middle part of the front of the respirator shell, the atomized oxygen inhalation flowmeter (4) is arranged in the embedding manner at the right side of the first-level oxygen inhalation flowmeter (3), an oxygen-absorbing flowmeter (5) is embedded into the right side of the atomization oxygen-absorbing flowmeter (4) on the front side of the respirator shell, an atomization bottle (6) is embedded into the right side of the inner top wall of the respirator shell, an air source pressure gauge (9) penetrates through the left side of the top wall of the respirator shell, and an oxygen supply air bag (10) penetrates through the bottom of the right side of the front side of the respirator shell;

the utility model discloses a respirator is characterized in that the right side wall upper end of the respirator casing is run through and is provided with oxygen suppliment manometer (8), the right side of oxygen suppliment manometer (8) is run through and is provided with oxygen suppliment interface (2), the inner diapire right side of the respirator casing is still fixed and is provided with oxygen buffer tank (12), one-level oxygen uptake flowmeter (3) are connected with one-way three-way valve (13) through the trachea, and the output of one-way three-way valve (13) is connected on oxygen suppliment manometer (8), the output of oxygen suppliment gasbag (10) is provided with tee bend (14) through the trachea connection.

2. The special respirator for cutting the critical trachea in the oxygen chamber according to claim 1, which is characterized in that: the input of air supply manometer (9) is provided with the oxygen admission pipe, and the output of air supply manometer (9) is fixed and is provided with the oxygen discharge pipe, and oxygen suppliment switch (7) set up on the oxygen discharge pipe.

3. The special respirator for cutting the critical trachea in the oxygen chamber according to claim 1, which is characterized in that: the one-level oxygen uptake flowmeter (3), the atomization oxygen uptake flowmeter (4) and the oxygen uptake flowmeter (5) are all fixed on the oxygen exhaust pipe, and the one-level oxygen uptake flowmeter (3), the atomization oxygen uptake flowmeter (4) and the oxygen uptake flowmeter (5) are connected in parallel.

4. The special respirator for cutting the critical trachea in the oxygen chamber according to claim 1, which is characterized in that: the output end of the atomization oxygen inhalation flow meter (4) is connected to the atomization bottle (6) through an air pipe, the output end of the atomization bottle (6) is connected to the tee joint (14) through the air pipe, and the other end of the tee joint (14) is connected to the one-way three-way valve (13).

5. The special respirator for cutting the critical trachea in the oxygen chamber according to claim 1, which is characterized in that: the output end of the oxygen inhalation flowmeter (5) is connected to the oxygen buffer tank (12), and the oxygen buffer tank (12) is connected to the oxygen supply air bag (10).

6. The special respirator for cutting the critical trachea in the oxygen chamber according to claim 1, which is characterized in that: the top end of the atomizing bottle (6) penetrates through the top wall of the respirator shell.

7. The special respirator for cutting the critical trachea in the oxygen chamber according to claim 1, which is characterized in that: the one-way three-way valve (13) is in a cut-off state towards the three-way valve (14), and gas can only flow towards the one-way three-way valve (13) in one way from the three-way valve (14).

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