CN111888597A - Medical artificial respiration auxiliary device special for rescuing infectious disease - Google Patents

Abstract

The invention provides a medical artificial respiration assisting device special for rescuing an infectious patient, relates to the technical field of artificial respiration assistance, and solves the problems that a doctor is in direct mouth-to-mouth contact with the patient, diseases are easily spread, and the health of the doctor is easily endangered. The medical artificial respiration assisting device special for rescuing the infectious diseases comprises a wrist-sleeve type artificial respiration assisting mechanism, wherein a set of duckbilled respiration membrane is arranged at the top and the bottom of the wrist-sleeve type artificial respiration assisting mechanism. When the wrist-sleeve type artificial respiration assisting mechanism is used in daily life, the wrist-sleeve type artificial respiration assisting mechanism can be always sleeved on the wrist of a doctor or a nurse, when a patient suddenly breathes difficultly and needs emergency artificial respiration rescue, the assisting equipment used for artificial respiration cannot be sent to the wrist of the doctor or the nurse as soon as possible due to emergency, and therefore the wrist-sleeve type artificial respiration assisting mechanism is beneficial to timely carrying out artificial respiration rescue on the patient by the doctor or the nurse through the wrist-sleeve type artificial respiration assisting mechanism.

Description

Medical artificial respiration auxiliary device special for rescuing infectious disease

Technical Field

The invention belongs to the technical field of artificial respiration assistance, and particularly relates to a medical artificial respiration assistance device special for rescuing infectious diseases.

Background

At present, when patients have dyspnea, medical care personnel often adopt the fastest and effective emergency treatment mode and adopt mouth-to-mouth artificial respiration.

For example, application No.: 201810054064.8 the invention relates to the field of artificial respiration devices, in particular to an artificial respiration device which can avoid air leakage during artificial respiration. The technical scheme is as follows: an inflatable artificial respiration device comprises an inflatable hollow column, wherein the inflatable hollow column is in an annular column shape, the inflatable hollow column is made of one of rubber, plastic film and cloth coating, and an air blowing mechanism for blowing air to the inflatable hollow column is arranged on the inflatable hollow column; one end of the inflatable hollow column is connected with a sealing bag which is used for being filled into the mouth of a rescuee to avoid air leakage, the sealing bag is in an annular column shape, and the sealing bag is communicated with the inflatable hollow column. The invention provides an inflatable artificial respiration device which is convenient to carry and avoids air leakage, and solves the problems that the conventional artificial respiration device cannot be compressed and is difficult to carry about and air is difficult to be added into the lung of a rescued person.

Retrieval based on above-mentioned patent to and combine the equipment discovery among the prior art, when rescuing the patient in the hospital, often can carry out artificial respiration, the most effective swift method during mouth-to-mouth artificial respiration, but because doctor and patient mouth-to-mouth direct contact, spread the disease easily, crisis doctor's health, some patients probably send to because of the proruption breathing difficulty moreover, the artificial respiration auxiliary device who is equipped with in the hospital can't the very first time, lead to unable rescue the patient through artificial respiration of artificial respiration auxiliary device, only can mouth-to-mouth artificial respiration rescue, there is the infection hidden danger.

Disclosure of Invention

In order to solve the technical problems, the invention provides the medical artificial respiration assisting device special for rescuing the infectious patients, which aims to solve the problems that artificial respiration is frequently carried out when patients are rescued in hospitals, the artificial respiration is most effective and rapid during mouth-to-mouth artificial respiration, but doctors are easy to spread diseases and the health of the doctors is endangered because the doctors are in direct mouth-to-mouth contact with the patients.

The invention is specially used for the purpose and the efficacy of a medical artificial respiration auxiliary device for rescuing infectious patients, and is achieved by the following specific technical means:

the medical artificial respiration assisting device special for rescuing the infectious disease comprises a wrist sleeve type artificial respiration assisting mechanism, wherein a group of duckbilled respiration membranes are respectively arranged at the top and the bottom of the wrist sleeve type artificial respiration assisting mechanism, and a group of artificial respiration stretching assisting mechanisms are fixedly bonded at the top and the bottom of the wrist sleeve type artificial respiration assisting mechanism relative to the duckbilled respiration membranes; the top and the bottom of the wrist sleeve type artificial respiration auxiliary mechanism are fixedly connected with a group of sealing mechanisms relative to the artificial respiration stretching auxiliary mechanism.

Further, wrist shell formula artificial respiration complementary unit is including plastics muffetee, circular recess A, circular through-hole A, gas transmission chamber, and the inside gas transmission chamber of having seted up of plastics muffetee, and a circular recess A has been seted up to plastics muffetee top end face central point, and circular recess A inner bottom surface axle center position sets up a circular through-hole A that is linked together with the gas transmission chamber, and circular through-hole A inner peripheral surface fixed mounting has a set of duckbilled to breathe the diaphragm, and this duckbilled breathing diaphragm closed diaphragm end is state down.

Further, the wrist sleeve type artificial respiration assisting mechanism comprises a circular groove B and a circular through hole B, the circular groove B is arranged at the center of the bottom end face of the plastic wrist sleeve, the circular through hole B communicated with the gas conveying cavity is arranged at the axis of the bottom face of the inner end of the circular groove B, a group of duckbilled respiration membranes are fixedly arranged on the inner circumferential surface of the circular through hole B, and the closed membrane end of each duckbilled respiration membrane is downward.

Furthermore, the wrist-sleeve type artificial respiration assisting mechanism comprises a thumb socket, the outer end surface of the right side of the plastic wrist sleeve is symmetrically provided with two thumb sockets which are communicated with the inner end surface of the plastic wrist sleeve, and the outer end surface and the inner end surface of the plastic wrist sleeve are respectively sleeved with a silica gel layer.

Furthermore, the artificial respiration extension auxiliary mechanism comprises an annular gasket, a rubber sleeve and a plastic pipe, wherein the inner peripheral surface of the annular gasket is fixedly connected with a group of rubber sleeves, the longitudinal section of one side of each rubber sleeve is of an M-shaped structure, and the inner peripheral surface of each rubber sleeve is fixedly connected with a plastic pipe.

Further, under artificial respiration extension assisting mechanism and circular recess A mounted state, the annular gasket bottom face bonds with the inner bottom surface stationary phase of circular recess A, and plastic tubing top face is located circular recess A, under artificial respiration extension assisting mechanism and circular recess B mounted state, the annular gasket bottom face bonds with the inner bottom surface stationary phase of circular recess B, and plastic tubing top face is located circular recess B.

Further, the closing mechanism is including the rubber sheet, the incision mouth, the son is buckled, the box, rubber sheet top end face axle center position is offered one and is the incision mouth of cruciform structure, under the ordinary condition, incision mouth is in sealed laminating state, the annular array form is personally submitted on the rubber sheet top and is provided with four groups of son and box altogether, and every group son and box all detains and a box via a son and constitute, four groups of son and box set up respectively in the contained angle region of four places that is the incision mouth of cruciform structure, the son is buckled and the box is all inlayed and is installed on rubber sheet top end face, when son in every group son and box all is in the lock joint state, incision mouth that is the cruciform structure is under the expansion state.

Further, when the sealing mechanism is mounted with the circular groove A, the outer peripheral surface of the rubber sheet is fixedly bonded with the inner peripheral surface of the circular groove A, the top end surface of the rubber sheet and the top end surface of the plastic wrist sleeve are positioned on the same horizontal plane, when the sealing mechanism is mounted with the circular groove B, the outer peripheral surface of the rubber sheet is fixedly bonded with the inner peripheral surface of the circular groove B, and the top end surface of the rubber sheet and the bottom end surface of the plastic wrist sleeve are positioned on the same horizontal plane.

Compared with the prior art, the invention has the following beneficial effects:

when the wrist sleeve type artificial respiration assisting mechanism is used in daily life, the wrist sleeve type artificial respiration assisting mechanism can be sleeved on the wrist of a doctor or a nurse all the time, when a patient is difficult to breathe suddenly and needs emergency artificial respiration rescue, auxiliary equipment used for artificial respiration can not be sent to the wrist of the doctor or the nurse all the time, so that the doctor or the nurse can rescue the patient through the wrist sleeve type artificial respiration assisting mechanism in time, when the rescue is carried out, the wrist sleeve type artificial respiration assisting mechanism is firstly pulled to the palm part from the wrist sleeve, two groups of sealing mechanisms are unfolded, a plastic pipe positioned below is inserted into the mouth of the patient, the wrist sleeve type artificial respiration assisting mechanism is buckled on the mouth of the patient, the mouth area of the patient is sealed, the nose of the patient is pinched by one hand, when the artificial respiration rescue is carried out, the doctor or the nurse can inhale oxygen into a gas conveying cavity through the plastic pipe positioned above, so that oxygen in the inhaled gas delivery cavity enters the mouth of a patient through the plastic tube positioned below the inhaled gas delivery cavity to ensure that oxygen is supplied to the patient uninterruptedly and prevent irreversibility damage to important organs caused by oxygen deficiency.

Drawings

Fig. 1 is a schematic structural diagram in a split state of the present invention.

Fig. 2 is a schematic top end axial view of the present invention.

Fig. 3 is a bottom end axial view structure schematic diagram of the invention.

Fig. 4 is a top axial view of the wrist-mounted artificial respiration assisting mechanism of the invention.

Fig. 5 is a bottom end axial view structure diagram of the wrist-sleeve type artificial respiration assisting mechanism.

Fig. 6 is a longitudinal sectional structural view of the wrist-worn artificial respiration assisting mechanism of the invention.

Figure 7 is a schematic view of a duckbill breathing membrane configuration of the present invention.

Fig. 8 is an axial view of the stretching auxiliary mechanism for artificial respiration of the present invention.

Fig. 9 is a longitudinal sectional structural view of the artificial respiration extension assisting mechanism of the present invention.

Fig. 10 is a schematic view of the closure mechanism of the present invention.

Fig. 11 is a longitudinal sectional structural view of the present invention.

Fig. 12 is a partially enlarged view of a portion a of fig. 11 according to the present invention.

Fig. 13 is a partial enlarged view of the structure of fig. 11 at B according to the present invention.

Fig. 14 is a cross sectional view of the wrist-worn artificial respiration assisting mechanism of the invention.

Fig. 15 is a schematic top view of the closure mechanism of the present invention in an expanded state.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a wrist sleeve type artificial respiration auxiliary mechanism; 101. a plastic wrist cover; 102. a thumb jack; 103. a circular groove A; 104. a circular through hole A; 105. a circular groove B; 106. a circular through hole B; 107. a gas delivery chamber; 2. a duckbill breathing membrane; 3. an artificial respiration extension assisting mechanism; 301. an annular gasket; 302. a rubber sleeve; 303. a plastic tube; 4. a sealing mechanism; 401. a rubber sheet; 402. cutting off the port; 403. a sub-buckle; 404. a female buckle;

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 15:

the invention provides a medical artificial respiration auxiliary device special for rescuing an infectious patient, which comprises: the wrist-sleeve type artificial respiration assisting mechanism 1 is characterized in that a set of duckbilled respiration membranes 2 are respectively arranged at the top and the bottom of the wrist-sleeve type artificial respiration assisting mechanism 1, and a set of artificial respiration stretching assisting mechanisms 3 are fixedly bonded at the top and the bottom of the wrist-sleeve type artificial respiration assisting mechanism 1 relative to the duckbilled respiration membranes 2; the top and the bottom of the wrist sleeve type artificial respiration auxiliary mechanism 1 are fixedly connected with a group of sealing mechanisms 4 relative to the parts of the artificial respiration stretching auxiliary mechanism 3.

Wherein, the artificial respiration assisting mechanism 1 of the wrist strap type comprises a plastic wrist strap 101, a circular groove A103, a circular through hole A104, a gas conveying cavity 107, the gas conveying cavity 107 is arranged inside the plastic wrist strap 101, the circular groove A103 is arranged at the center of the top end face of the plastic wrist strap 101, the circular through hole A104 communicated with the gas conveying cavity 107 is arranged at the axle center of the bottom face of the inner end of the circular groove A103, a set of duckbilled respiration membrane 2 is fixedly arranged on the inner circumferential surface of the circular through hole A104, and the closed membrane end of the duckbilled respiration membrane 2 is in a downward state.

Wherein, the wrist-sleeve type artificial respiration assisting mechanism 1 comprises a circular groove B105 and a circular through hole B106, the center part of the bottom end surface of the plastic wrist-sleeve 101 is provided with the circular groove B105, the axle center part of the bottom surface of the inner end of the circular groove B105 is provided with the circular through hole B106 communicated with the gas conveying cavity 107, the inner peripheral surface of the circular through hole B106 is fixedly provided with a group of duckbilled respiration membranes 2, and the closed membrane ends of the duckbilled respiration membranes 2 are downward.

The wrist-sleeve type artificial respiration assisting mechanism 1 comprises a thumb socket 102, the outer end surface of the right side of the plastic wrist sleeve 101 is provided with two thumb sockets 102 which are communicated with the inner end surface of the plastic wrist sleeve in a front-back symmetrical manner, and the outer end surface and the inner end surface of the plastic wrist sleeve 101 are respectively sleeved with a silica gel layer.

The artificial respiration stretching auxiliary mechanism 3 comprises an annular gasket 301, a rubber sleeve 302 and a plastic pipe 303, wherein the inner peripheral surface of the annular gasket 301 is fixedly connected with a group of rubber sleeves 302, the longitudinal section of one side of each rubber sleeve 302 is of an M-shaped structure, and the inner peripheral surface of each rubber sleeve 302 is fixedly connected with the plastic pipe 303.

Wherein, under the installation state of the artificial respiration extension assisting mechanism 3 and the circular groove A103, the bottom end surface of the annular gasket 301 is fixedly bonded with the bottom surface of the inner end of the circular groove A103, and the top end surface of the plastic pipe 303 is positioned in the circular groove A103, under the installation state of the artificial respiration extension assisting mechanism 3 and the circular groove B105, the bottom end surface of the annular gasket 301 is fixedly bonded with the bottom surface of the inner end of the circular groove B105, and the top end surface of the plastic pipe 303 is positioned in the circular groove B105.

The sealing mechanism 4 comprises a rubber sheet 401, a cutting opening 402, a male buckle 403 and a female buckle 404, wherein the cutting opening 402 with a cross structure is formed in the axis position of the top end face of the rubber sheet 401, the cutting opening 402 is in a sealing and attaching state in a common state, four groups of male and female buckles are arranged on the top end face of the rubber sheet 401 in an annular array, each group of male and female buckles are formed by one male buckle 403 and one female buckle 404, the four groups of male and female buckles are respectively arranged in four included angle regions of the cutting opening 402 with the cross structure, the male buckles 403 and the female buckles 404 are both mounted on the top end face of the rubber sheet 401 in an embedded mode, and when the male buckles 403 and the female buckles 404 in each group of the male and female buckles are both in a buckling state, the cutting opening 402 with the cross structure is in an unfolding state.

When the sealing mechanism 4 and the circular groove a103 are mounted, the outer peripheral surface of the rubber sheet 401 is fixedly bonded to the inner peripheral surface of the circular groove a103, the top end surface of the rubber sheet 401 and the top end surface of the plastic wristband 101 are located on the same horizontal plane, when the sealing mechanism 4 and the circular groove B105 are mounted, the outer peripheral surface of the rubber sheet 401 is fixedly bonded to the inner peripheral surface of the circular groove B105, and the top end surface of the rubber sheet 401 and the bottom end surface of the plastic wristband 101 are located on the same horizontal plane.

When in use:

when the wrist-sleeve type artificial respiration assisting mechanism 1 is used in daily life, the wrist-sleeve type artificial respiration assisting mechanism can be sleeved on the wrist of a doctor or a nurse all the time, the surfaces of the outer end face and the inner end face of the plastic wrist sleeve 101 are respectively sleeved with a silica gel layer, and the comfort of the wrist-sleeve type artificial respiration assisting mechanism 1 sleeved on the wrist of the doctor or the nurse is ensured through the arrangement of the silica gel layers;

when a patient suddenly breathes difficultly and needs emergency artificial respiration rescue, because of an emergency, auxiliary equipment used for artificial respiration cannot be sent to the patient at the first time, so that the patient can be rescued by the patient through artificial respiration by the doctor or the nurse through the invention which is sleeved on the wrist of the doctor or the nurse all the time, and the patient can be rescued by the doctor or the nurse through the artificial respiration rescue method in time, and the specific operation is as follows:

1. the wrist sleeve type artificial respiration assisting mechanism 1 is pulled to a palm part from a wrist sleeve, and because the outer end surface of the right side of the plastic wrist sleeve 101 is provided with two thumb sockets 102 which are symmetrically distributed in the front-back direction and communicated with the inner end surface of the plastic wrist sleeve, the thumb sockets 102 are arranged in the front-back symmetrical distribution, so that the thumb end of the wrist sleeve type artificial respiration assisting mechanism 1 can penetrate through the corresponding thumb socket 102 no matter the wrist sleeve type artificial respiration assisting mechanism 1 is sleeved on the left palm or the right palm, and the cutting degree of the wrist sleeve type artificial respiration assisting mechanism 1 and the palm can be ensured on the basis that the top end surface of the wrist sleeve type artificial respiration assisting mechanism 1 is always upward;

2. the sub-buckle 403 and the female buckle 404 in each sub-female buckle on the two groups of sealing mechanisms 4 are buckled and matched, so that the incision 402 in a cross structure on the two groups of sealing mechanisms 4 is in a spreading state, the artificial respiration extension auxiliary mechanism 3 covered by the sub-female buckle is exposed, at this time, a doctor or a nurse can pull the plastic pipe 303 outwards to cause the rubber sleeve 302 to extend, during the subsequent artificial respiration rescue, the plastic pipe 303 positioned below can be inserted into the mouth of a patient, the wrist sleeve type artificial respiration auxiliary mechanism 1 is buckled on the mouth of the patient, so as to seal the mouth area of the patient, the nose of the patient is pinched by one hand, during the artificial respiration rescue, the doctor or the nurse can inhale oxygen into the gas conveying cavity 107 through the plastic pipe 303 positioned above, because the closed membrane end of the duckbilled respiration membrane 2 fixedly installed on the inner peripheral surface of the circular through hole A104 is in a downward state, and the closed membrane end of the duckbilled respiration membrane 2 fixedly installed on the inner peripheral surface of the circular through hole B106 is also in, therefore, when a doctor or a nurse breathes in oxygen, the closed membrane ends of the two groups of duckbill breathing membranes 2 are unfolded, so that the oxygen in the inspired gas delivery cavity 107 can conveniently enter the mouth of a patient through the plastic tube 303 positioned below the inspired gas delivery cavity, oxygen can be supplied to the patient uninterruptedly, and irreversibility damage of important organs due to oxygen deficiency is prevented;

further, breathe the installation setting of diaphragm 2 closed diaphragm end down state through two sets of duckbills, play one-way effect to effectual patient saliva of avoiding or the oxygen of exhaling in the mouth passes through gas delivery chamber 107 and gets into doctor or nurse mouth, avoids infecting the disease and causes the infection to doctor or nurse.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. Medical artificial respiration auxiliary device special for rescuing infectious diseases is characterized in that: the wrist-sleeve type artificial respiration assisting mechanism comprises a wrist-sleeve type artificial respiration assisting mechanism (1), wherein a group of duckbilled respiration membranes (2) are respectively arranged at the top and the bottom of the wrist-sleeve type artificial respiration assisting mechanism (1), and a group of artificial respiration stretching assisting mechanisms (3) are fixedly bonded at the positions, corresponding to the duckbilled respiration membranes (2), of the top and the bottom of the wrist-sleeve type artificial respiration assisting mechanism (1); the top and the bottom of the wrist sleeve type artificial respiration auxiliary mechanism (1) are fixedly connected with a group of sealing mechanisms (4) relative to the parts of the artificial respiration stretching auxiliary mechanism (3).

2. A medical artificial respiration assisting apparatus for rescuing an infectious patient as set forth in claim 1, wherein: wrist shell formula artificial respiration complementary unit (1) is including plastics wrist cover (101), circular recess A (103), circular through-hole A (104), gas transmission chamber (107), inside gas transmission chamber (107) of having seted up of plastics wrist cover (101), a circular recess A (103) have been seted up to plastics wrist cover (101) top end face central point, and circular through-hole A (104) that a department and gas transmission chamber (107) are linked together have been seted up to circular recess A (103) inner bottom surface axle center position, circular through-hole A (104) inner peripheral surface fixed mounting has a set of duckbilled to breathe diaphragm (2), and this duckbilled breathe diaphragm (2) closed diaphragm end and be state down.

3. A medical artificial respiration assisting apparatus for rescuing an infectious patient as set forth in claim 1, wherein: wrist shell formula artificial respiration complementary unit (1) is including circular recess B (105), circular through-hole B (106), and a circular recess B (105) has been seted up to plastics wrist shell (101) bottom end face central point, and circular through-hole B (106) that a department and gas delivery chamber (107) are linked together have been seted up to circular recess B (105) inner bottom surface axle center position, and circular through-hole B (106) inner peripheral surface fixed mounting has a set of duckbilled to breathe diaphragm (2), and this duckbilled breathing diaphragm (2) closed diaphragm end also is state down.

4. A medical artificial respiration assisting apparatus for rescuing an infectious patient as set forth in claim 1, wherein: the wrist sleeve type artificial respiration assisting mechanism (1) comprises a thumb socket (102), the front and back of the outer end surface of the right side of the plastic wrist sleeve (101) are symmetrical, the thumb socket (102) communicated with the inner end surface of the plastic wrist sleeve is arranged at two positions, and the outer end surface and the inner end surface of the plastic wrist sleeve (101) are sleeved with a silica gel layer.

5. A medical artificial respiration assisting apparatus for rescuing an infectious patient as set forth in claim 1, wherein: the artificial respiration stretching auxiliary mechanism (3) comprises an annular gasket (301), a rubber sleeve (302) and a plastic pipe (303), wherein the inner peripheral surface of the annular gasket (301) is fixedly connected with a group of rubber sleeves (302), the longitudinal section of one side of each rubber sleeve (302) is of an M-shaped structure, and the inner peripheral surface of each rubber sleeve (302) is fixedly connected with the plastic pipe (303).

6. A medical artificial respiration assisting apparatus for rescuing an infectious patient as set forth in claim 1, wherein: under artificial respiration extension assisting mechanism (3) and circular recess A (103) installation state, annular gasket (301) bottom face and the inner bottom face of circular recess A (103) stationary phase bond, and plastic tubing (303) top end face is located circular recess A (103), under artificial respiration extension assisting mechanism (3) and circular recess B (105) installation state, annular gasket (301) bottom face and the inner bottom face stationary phase bond of circular recess B (105), and plastic tubing (303) top end face is located circular recess B (105).

7. A medical artificial respiration assisting apparatus for rescuing an infectious patient as set forth in claim 1, wherein: the sealing mechanism (4) comprises a rubber sheet (401), a cutting opening (402), a sub-button (403) and a female button (404), wherein the axis part of the top end surface of the rubber sheet (401) is provided with the cutting opening (402) which is in a cross structure, the cutting port (402) is in a sealing and jointing state, four groups of primary and secondary fasteners are arranged on the top surface of the rubber sheet (401) in an annular array, each group of the male and female fasteners consists of a male fastener (403) and a female fastener (404), the four groups of the male and female fasteners are respectively arranged in the four included angle areas of the cutting opening (402) with the cross structure, the male fastener (403) and the female fastener (404) are all embedded and installed on the top end surface of the rubber sheet (401), when the male buckle (403) and the female buckle (404) in each group of the male and female buckles are in a buckling state, the cutting port (402) in the cross structure is in an unfolding state.

8. A medical artificial respiration assisting apparatus for rescuing an infectious patient as set forth in claim 1, wherein: the outer peripheral surface of the rubber sheet (401) is fixedly bonded with the inner peripheral surface of the circular groove A (103) under the installation state of the sealing mechanism (4) and the circular groove A (103), the top end surface of the rubber sheet (401) and the top end surface of the plastic wrist sleeve (101) are located on the same horizontal plane, the outer peripheral surface of the rubber sheet (401) is fixedly bonded with the inner peripheral surface of the circular groove B (105) under the installation state of the sealing mechanism (4) and the circular groove B (105), and the top end surface of the rubber sheet (401) and the bottom end surface of the plastic wrist sleeve (101) are located on the same horizontal plane.

Images