CN115006698A - Breathing leather bag - Google Patents

Abstract

The invention provides a breathing leather bag, and belongs to the field of instruments. The device comprises a balloon, an installation pipe, a safety valve, a duckbill valve, an expiratory valve and a ventilation piece, wherein one end of the installation pipe is connected to one end of the balloon, the safety valve, the duckbill valve and the expiratory valve are connected to the installation pipe, a first air passage is arranged in the expiratory valve, the device further comprises a first treatment piece, the first treatment piece comprises a shell, a second air passage is arranged in the shell, one end of the second air passage is an inlet, the other end of the second air passage is an outlet, the inlet of the second air passage is communicated with the first air passage, the outlet of the second air passage is communicated with the ventilation piece, treatment medicines are further arranged in the shell, and when the duckbill valve is opened, the treatment medicines can be discharged from the outlet along air flow to enter the ventilation piece. The respiratory leather bag solves the problems of poor treatment safety, high visceral load of a human body and the like of the existing intravenous injection asthma treatment mode.

Description

Breathing leather bag

Technical Field

The invention belongs to the field of instruments, and relates to a breathing leather bag, which is a divisional application of a patent application named as 'breathing leather bag' with the application number of 2020114638691 on 12-14-2020.

Background

Bronchial asthma is a heterogeneous disease, and this chronic inflammation is associated with airway hyperresponsiveness, and is usually characterized by a wide and variable reversible expiratory airflow limitation, resulting in recurrent wheezing, shortness of breath, chest tightness and/or cough, with time-varying intensity. It is usually attacked and aggravated at night and/or in the early morning. When an asthma patient suffers from a disease, if the disease condition is light, the patient can control the asthma by self-inhaling medicaments such as Shuliqing, Xinbike and the like, but when the disease condition of the patient is serious, the patient loses the autonomous consciousness during the disease, and cannot perform medicament treatment autonomously at all, in the face of the condition, the current treatment mode is to directly inject the medicaments into veins, although the intravenous injection treatment effect is obvious, the veins can be damaged by long-term intravenous injection, so that the vessel wall is hardened, the elasticity is weakened, and a series of vascular diseases are caused; secondly, because the administration mode is too rapid, the internal organ load is inevitably increased when the human body absorbs too much medicine at one time, and the adverse reaction of the human body to the medicine is also obviously amplified.

The present application is proposed to solve the above problems.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a respiratory leather bag which can adopt a non-intravenous injection treatment mode under the condition of serious illness, improve the treatment safety, reduce the visceral load of a human body, reduce the adverse reaction and solve the problems of poor treatment safety, high visceral load of the human body and the like of the existing intravenous injection treatment mode of asthma.

The purpose of the invention can be realized by the following technical scheme:

the breathing leather bag comprises a ball bag, a mounting pipe, a safety valve, a duckbill valve, an exhalation valve and an air vent, wherein one end of the mounting pipe is connected to one end of the ball bag, the safety valve, the duckbill valve and the exhalation valve are connected to the mounting pipe, a first air passage is arranged in the exhalation valve, the breathing leather bag is characterized by further comprising a first therapeutic piece, the first therapeutic piece comprises a shell, a second air passage is arranged in the shell, one end of the second air passage is an inlet, the other end of the second air passage is an outlet, the inlet of the second air passage is communicated with the first air passage, the outlet of the second air passage is communicated with the air vent, therapeutic drugs are further arranged in the shell, and when the duckbill valve is opened, the therapeutic drugs can be discharged from the outlet to the air vent along air flow and enter the air vent.

The breathing leather bag is a common tool in the field of medical breathing, and generally aims to provide artificial ventilation and oxygen supply for patients without artificial air passages, spontaneous breathing or weak and irregular breathing and serious poor ventilation. Before operation, each part of the breathing leather bag is checked, then an air passage is opened, foreign matters in the oral cavity are removed, then the mask covers the mouth and the nose of a patient, a middle finger, a ring finger and a little finger of one hand are placed on the lower jaw of the patient to keep the mouth of the patient open, an index finger and a thumb are placed on the mask (CE method), the mask is tightly pressed and does not leak air, the balloon is extruded by the right hand, oxygen enters the duckbill valve through the mounting tube after being extruded by the balloon, the one-way valve clack of the duckbill valve is expanded, the oxygen continues to enter the first air passage of the expiratory valve and then enters the mask, finally oxygen supply is realized in the patient, the expiratory valve is provided with an air release flap, the duckbill valve and the expiratory valve are abutted to each other, a gap is formed between the duckbill valve and the expiratory valve, when the mouth of the patient is closed or the first air passage is blocked, the oxygen can directly move reversely to open the air release flap, and quick air release is realized. The installation pipe is used for installing various valves. The above-mentioned basic operation flow for breathing the leather bag, do not specifically do not need to be repeated, and the mounting means and the detailed structure of spare parts such as duckbill valve, expiratory valve, relief valve are also not repeated, are prior art.

The breathing leather bag in this scheme has add treatment piece one, presses the sacculus after, and oxygen is through air channel one and air channel two, and under the effect of oxygen, the treatment medicine in the casing gets into the piece of ventilating along the air current to the effect respiratory track makes the asthma symptom obtain alleviating fast, and the piece of ventilating plays the effect of the conduction of ventilating here. The scheme utilizes the extrusion power to send therapeutic drugs into the respiratory tract of a patient, simulates the mouth inhalation operation of the patient through a reverse injection mode, realizes a non-venous treatment mode, greatly improves the treatment safety, reduces the visceral load of a human body, and reduces adverse reactions. Meanwhile, the oxygen power is sufficient due to the external force injection mode, the medicine moves rapidly, and compared with active inhalation, the medicine can directly reach the respiratory tract rapidly and takes effect rapidly. In addition, the basic function of the breathing leather bag is fully utilized, oxygen is supplied to the patient, the patient is helped to quickly recover normal breathing, and the concept is novel and ingenious.

In the breathing bag, the ventilation piece is a mask.

When the ventilation piece is a mask, the mask and the shell are in inserted connection or tight fit, and can be detached at any time. The respiration leather bag in the scheme has two functions of oxygen supply and treatment, and the oxygen supply function is not described any more and is a basic function. When treating, open patient's oral area, cover the face guard at patient's face to airtight, then extrude the sacculus, treatment medicine is under oxygen drive, transmits to patient's oral area through the face guard, reaches respiratory tract region at last, realizes the treatment function, and this kind of scheme makes the treatment quick, need not to carry out other operations.

In the respiratory leather bag, the ventilation piece is a tracheal cannula, the inner end of the tracheal cannula extends into the respiratory tract of a patient, and the outer end of the tracheal cannula is communicated with the second outlet of the ventilation channel.

In the scheme, the trachea cannula is directly inserted into the respiratory tract of a patient, when treatment is carried out, the outer end of the trachea cannula is connected with the two outlets of the ventilation channel (generally in tight fit), then balloon pressing operation is carried out, therapeutic drugs can directly enter the respiratory tract along the trachea cannula, the therapeutic drugs can be prevented from acting on irrelevant positions such as the oral cavity, the therapeutic drugs can fully exert effects, the loss of the therapeutic drugs is reduced, stronger pertinence is achieved, and no side effect exists because other positions are not in contact with the therapeutic drugs, and the safety performance is strong.

In the breathing leather bag, the duckbill valve, the expiratory valve and the first treatment piece are respectively arranged in the mounting pipe from inside to outside.

The duckbill valve is opened to oxygen, through the air passage one in the expiratory valve, through the air passage two in the treatment piece one, under this kind of overall arrangement mode, when patient's oral area is closed or the passageway blocks up, because treatment medicine is far away apart from the air release flap, consequently oxygen is direct to be discharged from the air release flap of expiratory valve, can not pass through treatment medicine and also take it out from the air release flap. Conversely, if a treatment member is placed between the duckbill valve and the exhalation valve, when the patient's mouth is closed or the passageway is blocked, oxygen may pass through the treatment medicament and carry the treatment medicament out of the discard valve, potentially resulting in wasted and leaked medicament.

In foretell breathing leather bag, the casing is including the left casing and the right casing that all are the halfcylinder and can lock each other, seted up the lane one in the left casing, seted up the lane two in the right casing, lane one and lane two components cross gas passageway two.

The shell of the split structure is convenient for replacing the treatment medicine.

In the breathing leather bag, one ends of the left shell and the right shell are provided with external threads, and the first air passing channel is provided with internal threads.

After the shell is assembled, one end of the shell is screwed in the overdue channel II to realize the connection between the exhalation valve and the shell, and further realize the smoothness between the air passing channel I and the air passing channel II.

In the breathing leather bag, the inner wall of the left shell is provided with a plurality of buckling parts, and the inner wall of the right shell is provided with a plurality of corresponding buckling grooves.

The detachable connection between the left shell and the right shell is realized through the arrangement of the buckling part and the buckling groove. In practice there are many other alternatives.

In the breathing leather bag, the buckling part comprises a cylindrical connecting column and a spherical buckling ball, the buckling groove is spherical, one end of the connecting column is connected with the left shell, the other end of the connecting column is connected with the buckling ball, the diameter of the buckling groove is smaller than that of the buckling ball, and the buckling ball can enter the buckling groove.

The structure realizes that the buckling ball enters the buckling groove in an extrusion deformation mode, and the buckling ball resets after extrusion to realize that the left shell and the right shell are connected. When the left shell and the right shell are separated, the left shell and the right shell are broken off so that the buckling ball deforms and is separated from the buckling groove.

In the breathing leather bag, the therapeutic medicine is stored in the capsule, the capsule is fixed in the second air passage, a flow-through gap is formed between the capsule and the second air passage, and the therapeutic medicine can flow out after the capsule is punctured.

When the therapeutic medicine in the capsule is used up, the shell can be opened to replace the capsule. The capsule is punctured to form a leak hole, and the therapeutic medicine is taken away by the airflow through the leak hole. The built-in capsule can be placed and used at any time, and the design is ingenious and convenient.

In the breathing bag, the therapeutic drug is powder.

The powder does not flow like liquid at will, has light weight, can quickly flow into respiratory tract along with airflow, and has quick and effective action.

In foretell breathing leather bag, treatment piece one still includes fixed knot constructs, fixed knot constructs including the link that is the T font, the bottom of link firmly in shells inner wall, all have an O type rand on the link both ends, the both ends of capsule stretch into respectively and realize axial fixity in two O type rands.

The internal diameter of O type rand is less than the biggest external diameter of capsule, consequently back in two O type rands are gone into to capsule both ends card, and the both ends of capsule can receive the restriction, and then prevent that axial displacement from appearing in the capsule, prevent to receive the influence of piercing operation and air current motion, and fixed knot constructs and has stable fixed action to the capsule.

In the breathing leather bag, the first treatment piece further comprises a puncture structure, the puncture structure comprises a through hole formed in the shell, the through hole penetrates through the capsule, and the outer end of the through hole is plugged through a stud.

In this solution, the piercing is performed by means of an external tool, by unscrewing the studs, piercing the capsule with a sharp object, and then resetting the studs, which reduces the complexity of the first treatment element and simplifies the structure.

In the breathing leather bag, the first treatment piece further comprises a puncture structure, the puncture structure comprises a through mounting hole formed in the shell, the through mounting hole is communicated with the capsule, a puncture needle is connected in the through mounting hole, the inner end of the puncture needle is a sharp end, the outer end of the puncture needle is a pressing end, and the puncture structure further comprises a spring sleeved outside the puncture needle.

In the scheme, the first treatment piece is provided with the puncture structure, the sharp end punctures the capsule only by operating the pressing end, and the capsule is automatically reset through the spring after the hand is loosened.

In the breathing leather bag, the inner wall of the through mounting hole is provided with the blocking edge, one end of the spring is fixedly connected with the blocking edge, and the other end of the spring is fixedly connected with the pressing end.

The felting needle passes through the spring realization and runs through being connected between the mounting hole, and the one end of spring is fixed in and keeps off along, and the spring other end is fixed in and presses the end, and modes such as accessible spot welding, tight fit realize.

The respiratory leather bag comprises a balloon, a mounting pipe, a safety valve, a duckbill valve, an exhalation valve and an air vent piece, wherein one end of the mounting pipe is connected to one end of the balloon, the safety valve, the duckbill valve and the exhalation valve are connected to the mounting pipe, a first air passing channel is arranged in the exhalation valve, the respiratory leather bag is characterized by further comprising a second therapeutic piece, therapeutic medicines are arranged in the second therapeutic piece, when a one-way valve clack of the duckbill valve is opened, the second therapeutic piece is broken, the therapeutic medicines leak from the second therapeutic piece and enter the first air passing channel, and the first air passing channel is communicated with the air vent piece.

In the scheme, the first treatment piece is replaced by the second treatment piece. When the sacculus is extruded, the oxygen acts on the duckbill valve to open the one-way valve clack, the one-way valve clack moves outwards when being opened, the process can touch the second treatment piece, the second treatment piece is broken under the action of impulsive force to form a leakage channel, the treatment medicine leaks from the leakage channel to enter the first air channel and then enters the ventilation piece, and finally enters the respiratory tract of the human body to play a role. The second therapeutic piece is extruded by the aid of impulsive force generated when the one-way valve clack is opened, so that the internal medicine of the therapeutic piece can flow out, the existing structure is fully utilized, and the novel therapeutic piece is ingenious in structural design and simple in structure. The ventilation piece can be a mask or a trachea cannula and the like, and the ventilation piece and the trachea cannula are directly connected with a breather valve, which is not described in detail and is the prior art.

In the breathing leather bag, the second treatment piece comprises a circular ring-shaped bag body with a cavity inside, a convex body which protrudes outwards and is provided with a cavity inside is arranged on the bag body, the convex body is separated from the bag body through a diaphragm, and a flow hole is formed in the convex body.

The therapeutic drug is filled in the capsule body, the therapeutic drug is preferably powder, the therapeutic drug does not fill the cavity in the capsule body, and a small part of gap is reserved for the impact force to play a role. When the one-way valve clack extrudes the capsule, the extrusion force breaks the diaphragm, the treatment medicine enters the convex body and finally flows out from the flow hole, and the convex body is generally arranged downwards, so that the treatment medicine can smoothly flow out. The setting of convex body plays the transition effect, can prevent that treatment medicine from leaking from the diaphragm breach is direct, can lead to the velocity of flow fast like this, and the medicine is extravagant, has the excessive risk of using medicine simultaneously. After the diaphragm is broken, the medicine enters the convex body, the therapeutic medicine flows out through the flow hole with the smaller aperture, the flow rate is limited, the medicine waste is reduced, and the structural design is ingenious.

In the breathing bladder, the wall thickness of the diaphragm is smaller than that of the bladder body.

The size design ensures that the diaphragm can be smoothly broken when the one-way valve clack extrudes the capsule body.

In the breathing leather bag, the second treatment piece is made of nylon, and the thickness of the diaphragm is not more than 0.5 mm.

The size design can make the impact force of the one-way valve clack smoothly open the diaphragm.

In the breathing leather bag, the inner wall of the inner end of the expiratory valve is provided with an annular embedded groove, and a part of the bag body is embedded into the embedded groove.

The second treatment piece is disposable, and the bag body is clamped into the embedded groove during installation.

Compared with the prior art, the breathing leather bag has the following advantages:

1. the respiratory bag utilizes extrusion power to send therapeutic drugs into the respiratory tract of a patient, and simulates the mouth inhalation operation of the patient in a reverse injection mode, so that a non-venous treatment mode is realized, the treatment safety is greatly improved, the internal organ load of a human body is reduced, and the adverse reaction is reduced.

2. The breathing leather bag is sufficient in oxygen power through an external force injection mode, the medicine moves rapidly, and compared with active inhalation, the breathing leather bag can enable the medicine to directly reach the respiratory tract rapidly and takes effect rapidly.

3. The breathing leather bag makes full use of the basic functions of the common breathing leather bag, supplies oxygen to patients, helps the patients to quickly recover normal breathing, and has novel and ingenious conception.

4. The breathing leather bag is designed by a built-in capsule, and when the therapeutic medicine in the capsule is used up, the shell can be opened to replace the capsule. The capsule is punctured to form a leak hole, and the therapeutic medicine is taken away by the airflow through the leak hole. Can be placed and used at any time, and has ingenious and convenient design.

5. The therapeutic drug in the respiratory bark pocket is powder which does not flow randomly like liquid, and the powder has light weight and can quickly flow into the respiratory tract along with airflow, so that the effect is quick and effective.

6. This breathe leather bag extrudees treatment piece two with the help of the impulsive force when one-way valve clack is opened, makes the inside medicine of treatment piece flow out, make full use of current structure, structural design is ingenious, simple structure.

Drawings

Fig. 1 is a structural cross-sectional view of the one-way flap of the first or second embodiment when open (back half of the balloon, oxygen assembly, and vent, etc. are not shown).

Fig. 2 is a structural cross-sectional view of the one-way flap of the first or second embodiment when closed (back half of the balloon, oxygen assembly, and vent, etc. are not shown).

Fig. 3 is an enlarged view of a structure of a region a in fig. 1.

Fig. 4 is an enlarged view of a structure of a region B in fig. 2.

Fig. 5 is an exploded view of the first treatment member according to the first embodiment.

Fig. 6 is a schematic structural diagram of a right housing in the first embodiment.

Fig. 7 is a structural sectional view of a first treatment member in the first embodiment.

Fig. 8 is a top view of the first treatment element according to the first embodiment.

Fig. 9 is a schematic structural view of the first treatment member in the second embodiment.

FIG. 10 is an enlarged view of a portion of the one-way valve flap of the third embodiment when the second therapeutic member is pressed.

Fig. 11 is a structural sectional view (partial) of a treatment member in a third embodiment.

FIG. 12 is an enlarged view of a portion of the one-way valve flap of the third embodiment when closed.

List of reference numerals

In the figure, 1, balloon;

2. installing a pipe;

3. a safety valve;

4. a duckbill valve;

4a, a one-way valve clack;

5. an exhalation valve;

5a, a first air passage;

5b, an air release valve;

5c, embedding a groove;

6. a first treatment piece;

6a, a shell;

6a1, left shell;

6a1a, lane one;

6a1b, a snap fit;

6a1b1, connecting column;

6a1b2, snap ball;

6a2, right housing;

6a2a, lane two;

6a2b, a fastening groove;

6b, a second air passage;

6b1, inlet;

6b2, outlet;

6c, penetrating through the through hole;

6d, penetrating through the mounting hole;

6d1, blocking edge;

7. a capsule;

76b, flow-through gaps;

8. a connecting frame;

8a, an O-shaped collar;

9. a stud;

10. a needle;

10a, a sharp end;

10b, a pressing end;

11. a spring.

12. A second treatment piece;

12a, a capsule body;

12b, convex bodies;

12b1, flow orifice;

12c, a diaphragm;

Detailed Description

Example one

As shown in fig. 1 to 8, the respiration bag comprises a balloon 1, a mounting tube 2, a safety valve 3, a duckbill valve 4, an exhalation valve 5 and a ventilation member, wherein one end of the mounting tube 2 is connected to one end of the balloon 1, the safety valve 3, the duckbill valve 4 and the exhalation valve 5 are connected to the mounting tube 2, a first ventilation channel 5a is arranged in the exhalation valve 5, the first ventilation channel 6 further comprises a first therapy member 6, the first therapy member 6 comprises a shell 6a, a second ventilation channel 6b is arranged in the shell 6a, one end of the second ventilation channel 6b is an inlet 6b1, the other end of the second ventilation channel 6b is an outlet 6b2, an inlet 6b1 of the second ventilation channel 6b is communicated with the first ventilation channel 5a, an outlet 6b2 of the second ventilation channel 6b is communicated with the ventilation member, the shell 6a is also provided with a therapy medicament, and when the duckbill valve 4 is opened, the therapy medicament can be discharged from the outlet 6b2 into the ventilation member along with air flow.

The breathing leather bag is a common tool in the field of medical breathing, generally, the breathing leather bag aims to provide artificial ventilation and oxygen supply for patients without artificial air passages, without spontaneous breathing or weak and irregular breathing and serious poor ventilation, the traditional structure generally comprises a mask, a duckbill valve 4, a balloon 1, an oxygen gas storage valve, an oxygen gas storage bag and an oxygen conduit, the mask is provided with a socket, the mask is connected with an expiratory valve 5 through the socket and is communicated, the oxygen gas storage bag is connected with the balloon 1, and the oxygen conduit is connected with the balloon 1 and an oxygen source. Before operation, the respiratory skin bag needs to be inspected on each component, then the air passage is opened, the foreign body in the oral cavity is removed, then covering the mouth and nose of the patient with the mask, placing the middle finger, ring finger and little finger of one hand on the lower jaw of the patient to keep the mouth of the patient open, placing the index finger and thumb on the mask (in CE method), pressing tightly without air leakage, squeezing the saccule 1 with the right hand, after squeezing the saccule 1, oxygen enters the duckbill valve 4 through the mounting tube 2, the one-way valve flap 4a of the duckbill valve 4 expands, the oxygen continues to enter the first air passage 5a of the exhalation valve 5, then enters the mask and finally enters the patient to realize oxygen supply, an air release valve 5b is arranged on the expiratory valve 5, the duckbill valve 4 is abutted against the expiratory valve 5 with a gap, when the mouth of the patient is closed or the first air passage 5a is blocked, the oxygen can directly move reversely to open the air release valve 5b, so that the rapid air release is realized. The mounting tube 2 is used for mounting various valves. The above-mentioned basic operation flow for breathing the leather bag, not specifically not being described in detail, installation methods and detail structure of spare parts such as duckbill valve 4, expiratory valve 5, relief valve 3 are also not described in detail, are prior art.

The treatment piece 6 has been add in the breathing leather bag in this scheme, presses sacculus 1 back, and oxygen passes through air passage one 5a and air passage two 6b, and under the effect of oxygen, the treatment medicine in the casing 6a gets into the piece of ventilating along the air current to the effect respiratory track makes asthma symptom obtain alleviating fast, and the piece of ventilating plays the effect of the conduction of ventilating here. The scheme utilizes the extrusion power to send therapeutic drugs into the respiratory tract of a patient, simulates the mouth inhalation operation of the patient through a reverse injection mode, realizes a non-venous treatment mode, greatly improves the treatment safety, reduces the visceral load of a human body, and reduces adverse reactions. Meanwhile, the external force injection mode has enough oxygen power, the medicine moves quickly, and compared with active inhalation, the medicine can quickly reach the respiratory tract and take effect quickly. In addition, the basic function of the breathing leather bag is fully utilized, oxygen is supplied to the patient, the patient is helped to quickly recover normal breathing, and the concept is novel and ingenious.

In particular, the vent is a mask. When the ventilation piece is a mask, the mask is in inserted connection or tight fit with the shell 6a and can be detached at any time. The respiration leather bag in the scheme has two functions of oxygen supply and treatment, and the oxygen supply function is not described any more and is a basic function. When carrying out the treatment, open patient's oral area, cover the face guard at patient's face to airtight, then extrude sacculus 1, the treatment medicine is under the oxygen drive, transmits to patient's oral area through the face guard, reaches respiratory tract region at last, realizes the treatment function, and this kind of scheme makes the treatment quick, need not to carry out other operations. In another alternative, the ventilation member is an endotracheal tube, the inner end of which extends into the patient's airway and the outer end of which communicates with the outlet 6b2 of the second ventilation channel 6 b. In this kind of scheme, breathe the leather bag and can play two kinds of effects of oxygen suppliment and treatment equally, trachea cannula cut straightly in patient's respiratory track, when treating, be connected trachea cannula outer end and second 6b export 6b2 of air channel (general tight fit), then carry out sacculus 1 and press the operation, treatment medicine can directly get into in the respiratory track along trachea cannula, can prevent that treatment medicine from acting on irrelevant position such as oral cavity, make treatment medicine can fully exert a function fast, reduce the loss of treatment medicine, have stronger pertinence, and because other positions do not contact with treatment medicine, consequently, there is not the side effect, the security performance is strong.

Specifically, in the mounting tube 2, from inside to outside, are a duckbill valve 4, an exhalation valve 5, and a treatment member one 6, respectively. The duckbill valve 4 is opened by oxygen, the oxygen passes through the first air passage 5a in the expiratory valve 5 and then passes through the second air passage 6b in the treatment piece 6, and in the layout mode, when the mouth of a patient is closed or the passage is blocked, because the treatment medicine is far away from the air release flap 5b, the oxygen is directly discharged from the air release flap 5b of the expiratory valve 5 and cannot pass through the treatment medicine and is also taken out of the air release flap 5 b. Conversely, if treatment element one 6 is disposed between duckbill valve 4 and exhalation valve 5, when the patient's mouth is closed or the passageway is blocked, oxygen may pass through the treatment medication and carry the treatment medication out of the discard valve, potentially resulting in wasted leakage of medication. The shell 6a comprises a left shell 6a1 and a right shell 6a2 which are semi-cylindrical and can be buckled with each other, a first channel 6a1a is arranged in the left shell 6a1, a second channel 6a2a is arranged in the right shell 6a2, and a second air passing channel 6b is formed by the first channel 6a1a and the second channel 6a2 a. The shell 6a with a split structure facilitates the replacement of the treatment medicine. One end of the left housing 6a1 and the right housing 6a2 is externally threaded, and the first air passage 5a is internally threaded. After the shell 6a is assembled, one end of the shell 6a is screwed in the overdue passage II to realize the connection between the exhalation valve 5 and the shell 6a, and further realize the smoothness between the air passing passage I5 a and the air passing passage II 6 b. The inner wall of the left shell 6a1 is provided with a plurality of buckling parts 6a1b, and the inner wall of the right shell 6a2 is provided with a plurality of corresponding buckling grooves 6a2 b. The detachable connection between the left housing 6a1 and the right housing 6a2 is realized by the arrangement of the fastening part 6a1b and the fastening groove 6a2 b. In practice there are many other alternatives. The buckling part 6a1b comprises a cylindrical connecting column 6a1b1 and a spherical buckling ball 6a1b2, the buckling groove 6a2b is spherical, one end of the connecting column 6a1b1 is connected with the left shell 6a1, the other end of the connecting column 6a1b1 is connected with the buckling ball 6a1b2, the diameter of the buckling groove 6a2b is smaller than that of the buckling ball 6a1b2, and the buckling ball 6a1b2 can enter the buckling groove 6a2 b. The structure realizes that the buckling ball 6a1b2 enters the buckling groove 6a2b through a squeezing deformation mode, and the buckling ball 6a1b2 resets after squeezing to realize that the left shell 6a1 is connected with the right shell 6a 2. When the left casing 6a1 and the right casing 6a2 are separated, the two casings are separated so that the engaging balls 6a1b2 are deformed and separated from the engaging grooves 6a2 b.

Specifically, the therapeutic drug is stored in the capsule 7, the capsule 7 is fixed in the second air passage channel 6b, and a flow gap 76b is formed between the capsule 7 and the second air passage channel 6b, so that the therapeutic drug can flow out after the capsule 7 is punctured. When the therapeutic agent in the capsule 7 is used up, the housing 6a can be opened to replace the capsule 7. The capsule 7 is pierced to form a leak hole through which the air flow takes away the therapeutic drug. The built-in capsule 7 can be placed and used at any time, and is ingenious and convenient in design. The therapeutic agent is powder. The powder does not flow like liquid at will, has light weight, can flow into respiratory tract along with airflow, and has quick and effective action. The first treatment piece 6 further comprises a fixing structure, the fixing structure comprises a T-shaped connecting frame 8, the bottom end of the connecting frame 8 is fixedly connected to the inner wall of the shell 6a, the two ends of the connecting frame 8 are respectively provided with an O-shaped clamping ring 8a, and the two ends of the capsule 7 respectively extend into the two O-shaped clamping rings 8a to realize axial fixation. The internal diameter of the O-shaped retainer ring 8a is smaller than the maximum external diameter of the capsule 7, so that after the two ends of the capsule 7 are clamped into the two O-shaped retainer rings 8a, the two ends of the capsule 7 can be limited, the capsule 7 is prevented from moving axially, the influence of puncture operation and air flow movement is prevented, and the fixing structure has a stable fixing effect on the capsule 7.

The first treatment piece 6 further comprises a puncture structure, the puncture structure comprises a through mounting hole 6d formed in the shell 6a, the through mounting hole 6d penetrates through the capsule 7, a puncture needle 10 is connected in the through mounting hole 6d, the inner end of the puncture needle 10 is a sharp end 10a, the outer end of the puncture needle 10 is a pressing end 10b, and the puncture structure further comprises a spring 11 sleeved outside the puncture needle 10. In the scheme, the first treatment piece 6 is provided with a puncture structure, the sharp end 10a punctures the capsule 7 only by operating the pressing end 10b, and the capsule is automatically reset through the spring 11 after the hand is released. A blocking edge 6d1 is arranged on the inner wall of the through mounting hole 6d, one end of the spring 11 is fixedly connected with the blocking edge 6d1, and the other end of the spring 11 is fixedly connected with the pressing end 10 b. The puncture needle 10 is connected with the through mounting hole 6d through a spring 11, one end of the spring 11 is fixed to the blocking edge 6d1, and the other end of the spring 11 is fixed to the pressing end 10b, and the connection can be realized through spot welding, tight fit and the like. Aiming at the puncture structure, the normal oxygen supply function of the breathing leather bag can be directly used under the condition that the capsule 7 is not punctured, and if the normal oxygen supply function is required to pursue larger air flow, the whole treatment piece I6 can be detached, and then the ventilation piece is connected to the expiratory valve 5, so that the function switching is perfectly realized, the structural design is ingenious, and the breathing leather bag is convenient and quick.

Example two

As shown in fig. 9, the present embodiment is different from the embodiment in that the puncturing structure includes a through hole 6c opened on the housing 6a, the through hole 6c penetrates to the capsule 7, and the outer end of the through hole 6c is blocked by a stud 9. In this solution, the piercing is performed by an external tool by unscrewing the stud 9, piercing the capsule 7 with a sharp object, and then resetting the stud 9, which reduces the complexity of the treatment member 6 and simplifies the structure.

EXAMPLE III

As shown in fig. 10 to 12, the respiration bag comprises a balloon 1, a mounting tube 2, a safety valve 3, a duckbill valve 4, an exhalation valve 5 and an air vent, wherein one end of the mounting tube 2 is connected to one end of the balloon 1, the safety valve 3, the duckbill valve 4 and the exhalation valve 5 are connected to the mounting tube 2, a first air passage 5a is arranged in the exhalation valve 5, a second treatment piece 12 is further included, a treatment medicine is arranged in the second treatment piece 12, when the one-way valve flap 4a of the duckbill valve 4 is opened, the second treatment piece 12 is broken, the treatment medicine leaks from the second treatment piece 12 and enters the first air passage 5a, and the first air passage 5a is communicated with the air vent. In the scheme, the second treatment piece 12 replaces the first treatment piece. When the sacculus 1 is squeezed, the oxygen acts on the duckbill valve 4 to open the one-way valve clack 4a, the one-way valve clack 4a is opened to move outwards, the process can touch the second treatment piece 12, the second treatment piece 12 is broken under the action of impulsive force to form a leakage channel, the treatment medicine leaks from the leakage channel to enter the first air channel 5a and then enters the air passing piece, and finally enters the respiratory tract of the human body to play a role. The second therapeutic piece 12 is extruded by the aid of impulsive force generated when the one-way valve clack 4a is opened, so that medicine in the therapeutic piece can flow out, the existing structure is fully utilized, and the novel therapeutic piece is ingenious in structural design and simple in structure. The ventilation piece can be a mask or a trachea cannula and the like, and the ventilation piece and the trachea cannula are directly connected with a breather valve, which is not described in detail and is the prior art.

Specifically, the second therapeutic member 12 includes a circular capsule 12a with a cavity inside, the capsule 12a has a protrusion 12b protruding outwards and having a cavity inside, the protrusion 12b is separated from the capsule 12a by a diaphragm 12c, and the protrusion 12b is provided with a flow hole 12b 1. The therapeutic drug is filled in the capsule body 12a, the therapeutic drug is preferably powder, the therapeutic drug does not fill the inner cavity of the capsule body 12a, and a small part of gap is reserved for the action of the impact force. When the one-way valve flap 4a presses the capsule body 12a, the pressing force breaks the diaphragm 12c, the therapeutic drug enters the convex body 12b and finally flows out of the flow hole 12b1, and the convex body 12b is arranged downwards generally, so that the therapeutic drug can flow out smoothly. The setting of convex body 12b plays the transition effect, can prevent that treatment medicine from directly spilling from diaphragm 12c breach, can lead to the velocity of flow fast like this, and the medicine is extravagant, has the excessive risk of using medicine simultaneously. After the diaphragm 12c is broken, the medicine enters the convex body 12b, the therapeutic medicine flows out through the flow hole 12b1 with smaller aperture, the flow rate is limited, the medicine waste is reduced, and the structural design is ingenious. Membrane 12c has a wall thickness less than the wall thickness of bladder 12 a. This dimensioning allows the one-way flap 4a to break the membrane 12c smoothly when it presses against the capsule 12 a. The second treatment member 12 is made of nylon, and the thickness of the diaphragm 12c is not more than 0.5 mm. This dimensioning enables the impact force of the one-way flap 4a to smoothly blow open the diaphragm 12 c. An annular embedded groove 5c is formed in the inner end inner wall of the expiratory valve 5, and a part of the bag body 12a is embedded into the embedded groove 5 c. The second therapeutic piece 12 is disposable, and the capsule body 12a is clamped into the embedded groove 5c during installation.

Details, structures, dimensions and principles not mentioned in the present application are all known in the art or can be obtained by simple selection of those skilled in the art, and are not described in detail.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (8)

1. The breathing leather bag comprises a ball bag, a mounting pipe, a safety valve, a duckbill valve, an exhalation valve and an air vent, wherein one end of the mounting pipe is connected to one end of the ball bag, the safety valve, the duckbill valve and the exhalation valve are connected to the mounting pipe, a first air passage is arranged in the exhalation valve, the breathing leather bag is characterized by further comprising a first therapeutic piece, the first therapeutic piece comprises a shell, a second air passage is arranged in the shell, one end of the second air passage is an inlet, the other end of the second air passage is an outlet, the inlet of the second air passage is communicated with the first air passage, the outlet of the second air passage is communicated with the air vent, therapeutic drugs are further arranged in the shell, and when the duckbill valve is opened, the therapeutic drugs can be discharged from the outlet to the air vent along air flow and enter the air vent.

2. The breathing bladder of claim 1 wherein said vent is a face mask.

3. The respiratory bladder according to claim 1, wherein said ventilation member is a tracheal cannula, the inner end of said tracheal cannula extends into the respiratory tract of the patient, and the outer end of said tracheal cannula communicates with the outlet of said ventilation channel.

4. The breathing bladder according to claim 1, 2 or 3, wherein the housing comprises a left housing and a right housing which are both semi-cylindrical and can be mutually buckled, a first branch is arranged in the left housing, a second branch is arranged in the right housing, and the first branch and the second branch form the second air passage.

5. The breathing bladder of claim 1, 2 or 3 wherein said therapeutic agent is stored in a capsule, said capsule is secured in said second airway, a flow gap is provided between said capsule and said second airway, said therapeutic agent is able to flow out after said capsule is punctured.

6. The respiratory bladder according to claim 1, 2 or 3, wherein said first therapeutic member further comprises a fixing structure, said fixing structure comprises a T-shaped connecting frame, the bottom end of said connecting frame is fixedly connected to the inner wall of said housing, said connecting frame has an O-shaped retainer ring at both ends, and said two ends of said bladder extend into said two O-shaped retainer rings respectively to achieve axial fixation.

7. The breathing bladder according to claim 1, 2 or 3 wherein said first therapeutic member further comprises a piercing structure, said piercing structure comprising a through hole provided in said housing, said through hole extending through to said bladder, said through hole having an outer end plugged by a stud.

8. The respiratory bladder according to claim 1, 2 or 3, wherein said first therapeutic member further comprises a puncturing structure, said puncturing structure comprises a through mounting hole formed on said housing, said through mounting hole is through to said bladder, a puncturing needle is connected in said through mounting hole, an inner end of said puncturing needle is a sharp end, an outer end of said puncturing needle is a pressing end, said puncturing structure further comprises a spring sleeved outside said puncturing needle.

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