CN116443551A - Medical multiple resistant fungus storage device - Google Patents

Abstract

The invention relates to the technical field of medical appliances, and in particular relates to a medical multi-drug resistant bacteria storage device which aims at the problem that a mask and a gas pipe communicated with the mask remain multi-drug resistant bacteria after a breathing machine is used.

Description

Medical multiple resistant fungus storage device

Technical Field

The invention relates to the technical field of medical instruments, in particular to a medical multi-drug resistant bacteria storage device.

Background

The term "multidrug-resistant bacteria" refers to pathogens and pathogenic bacteria that are resistant to multiple drugs, and is defined as a microorganism that is resistant to three or more antibiotics simultaneously, but not to three of the same type. For example, pathogens are resistant to aminoglycosides, cephalosporins and penicillins, and three or more pathogens may be referred to as multidrug-resistant bacteria.

Multiple resistant bacteria can be transmitted through a variety of pathways, including contact transmission, air transmission, water transmission, food transmission, and the like; contact transmission is the most common transmission route, including direct contact with the patient or contact with the patient's clothing, bedding, etc., and also including transmission by medical personnel when treating the patient; air transmission mainly refers to transmission of bacteria or viruses suspended in air into a human body through respiratory tracts, for example, in hospitals or closed spaces, and therefore, in order to prevent transmission of multi-drug resistant bacteria, attention is required to measures such as personal hygiene, maintenance of environmental sanitation, enhancement of medical prevention and control, and the like.

Patent: CN114504663a discloses a degassing unit based on multi-drug resistant fungus infection of prevention breathing machine, can dry effect to humidification jar, trachea No. one and trachea No. two, is convenient for take and use when meetting and provide breathing for the patient, and rethread ozone degassing unit body can disinfect to inside dust of breathing machine body and bacterium, facilitates the use.

Because the multiple resistant bacteria of the breathing machine are concentrated in the mask and the connected air pipes in the process of using the breathing machine, the use of the breathing machine in the medical care work is often very frequent, the use efficiency of the breathing machine is greatly reduced after the mask and the air pipes are sterilized, the use efficiency of the breathing machine can be improved by directly replacing the mask and the air pipes, and the mask and the air pipes cannot be cleaned and sterilized in batches in the above patent, so that the medical multiple resistant bacteria storage device is required to be provided for solving the problem.

Disclosure of Invention

In order to solve the technical problem that the mask and the connecting air pipe of the respirator remain multi-drug resistant bacteria after the respirator is used.

The utility model provides a medical multiple resistant fungus storage device, which comprises an organic case, the inside of machine case is provided with the material conveying mechanism who is used for carrying the face guard, be provided with pipeline stretching mechanism on the material conveying mechanism, pipeline stretching mechanism is used for stretching the trachea for straight state, the inside of machine case still is provided with clean subassembly, clean subassembly is in on material conveying mechanism's the delivery path, clean subassembly is including the support frame, be provided with hydrojet head and jet head on the support frame, the jet head is used for spraying the antiseptic solution to the face guard inside, the hydrojet head passes through the water pump and is connected with the disinfection jar, the jet head is used for blowing in hot-blast to the face guard inside, the jet head is connected with hot-blast conveying mechanism, the frame is inside still to be provided with the support bracket, the support bracket is in material conveying mechanism's discharge end, the machine case inside still is provided with ultraviolet disinfection lamp.

Preferably, the material conveying mechanism comprises a supporting turntable and a supporting base, the supporting turntable comprises a top plate and a bottom plate, the top plate is positioned above the bottom plate, the top plate is fixedly connected with the bottom plate, a clamping groove is formed in the outer edge of the top plate, a sleeve is arranged on the bottom plate, one end of the sleeve is fixedly connected with the bottom plate, the other end of the sleeve is rotatably connected with the supporting base, a rotary driver is arranged on the supporting base, and the rotary driver is in transmission connection with the sleeve.

Preferably, the feeding point, the discharging point and the sterilizing point of the mask are distributed along the axial direction of the top plate, a route from the feeding point to the discharging point, which comprises the sterilizing point, is a transportation section, a limiting semi-ring plate is rotatably arranged on the top plate and fixedly arranged on the supporting base, and the limiting semi-ring plate is used for plugging a top plate clamping groove in the transportation section.

Preferably, the pipeline stretching mechanism comprises a clamping plate, a clamping groove is formed in the clamping plate, the clamping plate is arranged on the bottom plate in a sliding mode through a first limiting rod, a first elastic element for pushing the clamping plate to ascend is arranged on the first limiting rod, the pipeline stretching mechanism further comprises a pressing driving piece, the pressing driving piece is connected with the clamping plate in a transmission mode, and the pressing driving piece is used for stretching the mask air pipe into a straight state through the clamping plate.

Preferably, the pushing driving piece is circular plate-shaped, the bottom surface of the pushing driving piece is divided into a straight surface and a convex surface, the pushing driving piece is fixedly arranged on the supporting base through a fixing rod, the top of the clamping plate is provided with a push rod, the top end of the push rod is provided with a ball head, the ball head is contacted with the bottom surface of the pushing driving piece, and when the ball head is contacted with the convex surface of the pushing driving piece, the clamping plate is in a descending state.

Preferably, the material conveying mechanism further comprises a supporting cylinder, the supporting cylinder is arranged at the top of the pushing-down driving piece and fixedly connected with the pushing-down driving piece, a linear driver is arranged at the top of the supporting cylinder, a clamping jaw is arranged at the output end of the linear driver, and the linear driver is used for pushing the mask away from a discharging point of the top plate through the clamping jaw.

Preferably, the storage device further comprises a station driving mechanism, a driving disc and a connecting rod assembly, wherein the driving disc is arranged below the bottom plate, the support frame is in sliding connection with the support base through a second elastic element, one end of the connecting rod assembly is connected with the support frame, the other end of the connecting rod assembly is in transmission connection with the driving disc, and when the mask moves to a cleaning point, the station driving mechanism controls the driving disc to descend, and the driving disc drives the support frame to be close to the cleaning point of the top plate through the connecting rod assembly.

Preferably, the station driving mechanism comprises a pressing ring and a driving disc, the pressing ring is arranged between the pressing driving piece and the bottom plate, a guide rod is arranged at the bottom of the pressing plate and penetrates through the bottom plate to be connected with the driving disc, a third elastic element for pushing the pressing ring to move upwards is arranged on the guide rod, a position control plate is arranged on a top rod of the clamping plate, the top of the pressing ring is contacted with the bottom of the position control plate of the top rod, and when the top plate clamping groove is positioned at a cleaning point, the position control plate is used for pressing the pressing ring to descend.

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

this application is accomodate the face guard through material conveying mechanism to accomplish the disinfection processing of face guard and tracheal at the in-process of accomodating, still accomplished through pipeline stretching mechanism and made the trachea be in straight state before the disinfection, in order to avoid the inside dead angle that produces the unable infiltration of antiseptic solution of trachea, accomplished the purpose of face guard and tracheal degree of depth clearance.

Drawings

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

FIG. 2 is a top view of the internal structure of the present invention;

FIG. 3 is a schematic perspective view of the material handling mechanism, the pipe stretching mechanism and the cleaning assembly of the present invention;

FIG. 4 is a front view of the material handling mechanism, the pipe stretching mechanism and the cleaning assembly of the present invention;

FIG. 5 is a top view of the material handling mechanism and the pipe stretching mechanism of the present invention;

FIG. 6 is a schematic view of the structure of the material handling mechanism and the pipe stretching mechanism of the present invention;

FIG. 7 is an enlarged view at A of FIG. 6;

FIG. 8 is a schematic perspective view of a push-down driving member according to the present invention;

FIG. 9 is a schematic view of the material handling mechanism, the pipe stretching mechanism and the cleaning assembly of the present invention;

fig. 10 is an enlarged view at B of fig. 9.

The reference numerals in the figures are:

1-a case;

2-a material conveying mechanism; 2 a-supporting a turntable; 2a 1-top plate; 2a 2-a bottom plate; 2 b-a support base; 2 c-a sleeve; 2 d-a rotary drive; 2 e-limiting semi-ring plates; 2 f-a support cylinder; 2 g-a second linear drive; 2g 1-jaws;

3-a pipe stretching mechanism; 3 a-a clamping plate; 3a 1-ejector rod; 3a 2-ball head; 3a 3-a position control plate; 3 b-a first stop lever; 3b 1-a first elastic element; 3 c-pressing down the driving member; 3c 1-plane; 3c 2-convex; 3c 3-a fixed rod;

4-cleaning assembly; 4 a-a support frame; 4a 1-a second elastic element; 4 b-a liquid jet head; 4 c-a jet head;

5-a support bracket; 5 a-supporting sliding grooves; 5 b-a first linear drive;

6-a station driving mechanism; 6 a-a compression ring; 6a 1-guiding rod; 6a 2-a third elastic element;

7-driving a disc; 7 a-an annular groove;

8-a connecting rod assembly; 8 a-a first rod body; 8 b-a second rod body; 8 c-first rolling elements; 8 d-second rolling elements;

9-face mask; 9 a-trachea.

Detailed Description

The following description is presented to enable one of ordinary skill in the art to make and use the invention. The preferred embodiments in the following description are by way of example only and other obvious variations will occur to those skilled in the art.

In some embodiments:

as shown in fig. 1 to 3, the following preferred technical solutions are provided:

the utility model provides a medical multiple resistant fungus storage device, including organic case 1, the inside of organic case 1 is provided with the material conveying mechanism 2 that is used for carrying face guard 9, be connected with trachea 9a on the face guard 9, trachea 9a is the bellows but not only limited to this, be provided with pipeline stretching mechanism 3 on the material conveying mechanism 2, pipeline stretching mechanism 3 is arranged in with trachea 9a tensile state, the inside of organic case 1 still is provided with clean subassembly 4, clean subassembly 4 is in on the delivery path of material conveying mechanism 2, clean subassembly 4 is including support frame 4a, be provided with hydrojet 4b and air jet 4c on the support frame 4a, hydrojet 4c is used for spraying the antiseptic solution to face guard 9 inside, hydrojet 4b passes through the water pump and is connected with the disinfection jar, water pump and the antiseptic jar picture are not shown, air jet 4c is used for blowing in to face guard 9 inside hot-blast, air jet 4c is connected with hot-blast conveying mechanism, not shown in the hot-blast conveyer picture, the frame inside still is provided with bracket 5, support frame 5 is in the discharge end of material conveying mechanism 2, set up a plurality of being used for supporting face guard 9a 5 on the support bracket 5, support 5a drive the ultraviolet lamp 5 is connected with the frame 5 through the inside carrier that is not shown in the frame, can be used for carrying out the inside the ultraviolet lamp 9, can be directly carried out the drive device through the carrier 9, can be directly connected with the carrier 9 of the inside of the frame, and can be further through the carrier 9 is connected with the carrier 9, can be used for carrying out the ultraviolet lamp is directly to the inside through the carrier 9, and can be connected with the carrier 9, and can be directly carried out the carrier is not shown by the carrier 9.

Specifically, because the mask 9 on the breathing machine needs to be used for multiple times in the medical care work, in order to solve the technical problem that the mask 9 may be remained with multiple drug resistant bacteria to cause infection to the next user, when collecting the breathing machine mask 9, a worker needs to detach the mask 9 together with the air pipe 9a, then the worker opens the case 1 in the work flow of collecting the mask 9, then places the mask 9 on the material conveying mechanism 2, in the process that the material conveying mechanism 2 drives the mask 9 to move to the working end of the cleaning assembly 4, the pipe stretching mechanism 3 starts to work, because the air pipe 9a is connected to the mask 9, the pipe stretching mechanism 3 straightens the air pipe 9a to make the air pipe 9a in a straight state, so as to avoid the air pipe 9a in a loose and bending state, because dead corners which cannot be infiltrated by the disinfection solution exist in the formed folding point inside the air pipe 9a in the loose bending state, when the mask 9 is moved to the output end of the cleaning assembly 4 by the material conveying mechanism 2, the opened water pump can enable the disinfectant in the disinfection tank to be conveyed to the liquid spraying head 4b through the connecting pipe, the disinfectant is sprayed to the inner surface of the mask 9 through the liquid spraying head 4b, the disinfectant flows into the air pipe 9a along the mask 9 and flows down along the air pipe 9a to flow into the drainage groove, the inner surface of the mask 9 and the inner part of the air pipe 9a are disinfected by the disinfectant, and after the spraying of the disinfectant is completed, the hot air conveying mechanism conveys hot air to the inner surface of the mask 9 and the air pipe 9a communicated with the hot air conveying mechanism through the air spraying head 4c to dry, and the worker can put the respirator 9 which needs to be stored next into the material conveying mechanism 2 in the cleaning process of the mask 9 by the cleaning assembly 4, then, the mask 9 which is completed and cleaned is moved to the corresponding bearing groove on the bearing bracket 5 in the continuous operation process of the material conveying mechanism 2, and the storage process of the mask 9 of the breathing machine is completed, so that the mask 9 and the air pipe 9a which are sterilized can be recycled and cannot be infected with a patient using the breathing machine next time, and the use efficiency of the breathing machine is improved.

In some embodiments:

as shown in fig. 3 to 10, the following preferred technical solutions are provided:

the material conveying mechanism 2 comprises a supporting turntable 2a and a supporting base 2b, the supporting turntable 2a comprises a top plate 2a1 and a bottom plate 2a2, the top plate 2a1 is positioned above the bottom plate 2a2, the top plate 2a1 is fixedly connected with the bottom plate 2a2, a sleeve 2c is arranged on the bottom plate 2a2, one end of the sleeve 2c is fixedly connected with the bottom plate 2a2, the other end of the sleeve 2c is rotatably connected with the supporting base, a rotary driver 2d is arranged on the supporting base 2b, the rotary driver 2d is a servo motor, but not limited to the servo motor is in transmission connection with the sleeve 2c through a synchronous belt;

the outer edge of the top plate 2a1 is provided with three clamping grooves, the three clamping grooves are circumferentially arranged along the axis of the top plate 2a1, the diameter of each clamping groove is larger than or equal to that of the air pipe 9a, the feeding point, the discharging point and the sterilizing point of the mask 9 are distributed along the axial direction of the top plate 2a1, a route from the feeding point to the discharging point, which comprises the sterilizing point, is a transportation section, the top plate 2a1 is rotatably provided with a limiting half-ring plate 2e, the limiting half-ring plate 2e is fixedly arranged on a supporting base 2b, the limiting half-ring plate 2e wraps the outer edge surface of the top plate 2a1, the limiting half-ring plate 2e is positioned in the transportation section, and the outer leakage opening of the clamping groove on the top plate 2a1 in the transportation section of the mask 9 can be prevented by the arrangement of the limiting half-ring plate, so that the mask 9 is prevented from being separated from the limiting of the clamping groove of the top plate 2a 1;

the pipeline stretching mechanism 3 comprises clamping plates 3a, clamping grooves are formed in the clamping plates 3a, the clamping plates 3a are three, the three clamping plates 3a are all arranged on the bottom plate 2a2, the three clamping plates 3a are circumferentially arranged along the axis of the bottom plate 2a2, first limiting rods 3b are symmetrically arranged on the clamping plates 3a, the clamping plates 3a are in sliding connection with the bottom plate 2a2 through the first limiting rods 3b, first elastic elements 3b1 for pushing the clamping plates 3a to ascend are arranged on the first limiting rods 3b, the first elastic elements 3b1 are springs, but not limited to the springs, the clamping plates 3a are flush with the top surface of the bottom plate 2a2 under the normal state of the first elastic elements 3b1, the pipeline stretching mechanism 3 further comprises a pressing driving piece 3c, the pressing driving piece 3c is in transmission connection with the clamping plates 3a, and the pressing driving piece 3c is used for stretching the mask 9 air pipe 9a into a straight state through the clamping plates 3 a;

the pressing driving piece 3c is in a circular plate shape, the bottom surface of the pressing driving piece 3c is divided into a straight surface 3c1 and a convex surface 3c2, the pressing driving piece 3c is fixedly arranged on the supporting base 2b through a fixing rod 3c3, a push rod 3a1 is arranged at the top of the clamping plate 3a, a ball head 3a2 is arranged at the top end of the push rod 3a1, the ball head 3a2 is contacted with the bottom surface of the pressing driving piece 3c, and when the ball head 3a2 is contacted with the convex surface 3c2 of the pressing driving piece 3c, the clamping plate 3a is in a descending state;

the material conveying mechanism 2 further comprises a supporting cylinder 2f, the supporting cylinder 2f is arranged at the top of the pushing-down driving piece 3c and is fixedly connected with the pushing-down driving piece, a second linear driver 2g is arranged at the top of the supporting cylinder 2f, a clamping jaw 2g1 is arranged at the output end of the second linear driver 2g, and the second linear driver 2g is positioned at the unloading point of the mask 9;

the storage device further comprises a station driving mechanism 6, a driving disc 7 and a connecting rod assembly 8, wherein the driving disc 7 is arranged below the bottom plate 2a2, the support frame 4a is in sliding connection with the support base 2b through a second elastic element 4a1, one end of the connecting rod assembly 8 is connected with the support frame 4a, the other end of the connecting rod assembly 8 is in transmission connection with the driving disc 7, when the mask 9 moves to a cleaning point, the station driving mechanism 6 controls the driving disc 7 to descend, and the driving disc 7 drives the support frame 4a to be close to the cleaning point through the connecting rod assembly 8;

the station driving mechanism 6 comprises a pressing ring 6a and a driving disc 7, the pressing ring 6a is arranged between a pressing driving piece 3c and a bottom plate 2a2, a plurality of guide rods 6a1 are arranged at the bottom of the pressing plate, the guide rods 6a1 penetrate through the bottom plate 2a2 and are connected with the driving disc 7, third elastic elements 6a2 used for pushing the pressing ring 6a to move upwards are arranged on the guide rods 6a1, the third elastic elements 6a2 are springs but not limited to the springs, a position control plate 3a3 is arranged on a push rod 3a1 of the clamping plate 3a, the top of the pressing ring 6a is contacted with the bottom of the position control plate 3a3 of the push rod 3a1, the position control plate 3a3 is used for pressing the pressing ring 6a to descend when the push rod 3a1 is positioned at a cleaning point, a connecting rod assembly 8 is composed of a first rod body 8a and a second rod 8b, a joint of the first rod 8a and the second rod 8b is hinged to the inner wall of a machine shell, a first rolling body 8c and a second rolling body 8d are respectively arranged on the first rod 8a and the second rod 8b, the first rolling body 8c and the second rolling body 8d are respectively arranged on the first rod 8c and the second rod 8b and the second rolling body 8d are not limited to be in contact with the annular groove 7a, and the first rolling body 7a is arranged on the side of the annular groove 7a and the second rolling body is not limited to be contacted with the supporting disc 7a, and the first rolling body 7a is arranged on the side and the supporting disc 4a side is arranged.

Specifically, in order to make the material conveying mechanism 2 complete stretching of the air pipe 9a of the mask 9 and the upper position of the cleaning assembly 4 when conveying the mask 9 to the cleaning point, a worker places the mask 9 on the clamping groove of the top plate 2a1 supporting the loading tray and being positioned at the feeding point, the joint at the bottom end of the air pipe 9a of the mask 9 is positioned below the clamping groove of the clamping plate 3a, the rotary driver 2d starts to work, the output end of the rotary driver 2d drives the supporting turntable 2a to rotate, the top plate 2a1 drives the mask 9 to rotate through the clamping groove in the rotating process of the supporting turntable 2a, the bottom plate 2a2 rotates along with the top plate 2a1, the clamping plate 3a2 arranged on the bottom plate 2a2 gradually moves from the straight surface 3c1 of the lower driving piece 3c to the convex surface 3c2 position of the lower driving piece 3c in the rotating process along with the bottom plate 2a2, the ejector rod 3a1 is indirectly lowered under the action of the convex surface 3c2 at the bottom of the push-down driving piece 3c in the process of rotating along with the bottom plate 2a2, the ejector rod 3a1 drives the bottom end of the air pipe 9a of the mask 9 to continuously descend through the clamping plate 3a, the air pipe 9a also completes the straightening process when the mask 9 is at a cleaning point, the ball head 3a2 is required to be noted here to continuously descend until the top plate 2a1 is completed in the process of moving from the flat surface 3c1 of the push-down driving piece 3c to the convex surface 3c2, the position control plate 3a3 on the ejector rod 3a1 can move down the compression ring 6a in the process of descending the ejector rod 3a1, the compression ring 6a descends through the guide rod 6a1 to drive the driving plate 7, the driving plate 7 drives the first rod 8a to angularly rotate through the first rolling body 8c, the first rod 8a drives the second rod 8b to angularly rotate along with the first rod 8b, the second rod 8b pushes the support frame 4a to be close to the cleaning point through the second rolling body 8d, bringing the liquid jet head 4b and the gas jet head 4c close to the inner wall of the mask 9;

after the cleaning of the mask 9 and the air pipe 9a is completed, the rotary driver 2d continuously drives the supporting turntable 2a to rotate, and in the process that the bottom plate 2a2 drives the clamping plate 3a to rotate along with the supporting turntable 2a, the ball head 3a2 is transferred to the flat surface 3c1 from the convex surface 3c2 at the bottom of the downward-pressing driving piece 3c under the action of the first elastic element 3b1, in the process, the pressing ring 6a is reset under the action of the third elastic element 6a2 after being separated from the pressing of the controlled positioning plate 3a3, the connecting rod assembly 8 also stops pushing the supporting frame 4a, and the supporting frame 4a is far away from the supporting turntable 2a under the pushing of the second elastic element 4a 1;

the cleaned mask 9 is driven by the top plate 2a1 to move to a feed inlet of the corresponding bearing chute 5a on the bearing bracket 5, the second linear driver 2g pushes the mask 9 to move to the bearing bracket 5 through the clamping jaw 2g1, and the mask 9 is arranged on the bearing bracket 5 after repeated cleaning for a plurality of times.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present invention, and various changes and modifications may be made therein without departing from the spirit and scope of the invention, which is defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a medical multiple resistant fungus storage device, a serial communication port, including organic case (1), the inside of case (1) is provided with material conveying mechanism (2) that are used for carrying face guard (9), be provided with pipeline stretching mechanism (3) on material conveying mechanism (2), pipeline stretching mechanism (3) are used for drawing trachea (9 a) to straight state, the inside of case (1) still is provided with clean subassembly (4), clean subassembly (4) are in on the delivery path of material conveying mechanism (2), clean subassembly (4) are including support frame (4 a), be provided with hydrojet head (4 b) and air jet head (4 c) on support frame (4 a), air jet head (4 c) are used for spraying the antiseptic solution to face guard (9) inside, hydrojet head (4 b) are connected with the disinfection jar through the water pump, air jet head (4 c) are used for blowing in face guard (9) inside, air jet head (4 c) are connected with hot air conveying mechanism, the inside is provided with carrier (5), carrier (5) are in the discharge end of material conveying mechanism (2), the inside ultraviolet lamp that is provided with of case (1).

2. The medical multi-drug resistant bacteria storage device according to claim 1, wherein the material conveying mechanism (2) comprises a supporting rotary table (2 a) and a supporting base (2 b), the supporting rotary table (2 a) comprises a top plate (2 a 1) and a bottom plate (2 a 2), the top plate (2 a 1) is positioned above the bottom plate (2 a 2), the top plate (2 a 1) is fixedly connected with the bottom plate (2 a 2), a clamping groove is formed in the outer edge of the top plate (2 a 1), a sleeve (2 c) is arranged on the bottom plate (2 a 2), one end of the sleeve (2 c) is fixedly connected with the bottom plate (2 a 2), the other end of the sleeve (2 c) is rotatably connected with the supporting base, a rotary driver (2 d) is arranged on the supporting base (2 b), and the rotary driver (2 d) is in transmission connection with the sleeve (2 c).

3. The medical multi-drug resistant bacteria storage device according to claim 2, wherein a feeding point, a discharging point and a sterilizing point of the mask (9) are axially distributed along the top plate (2 a 1), a route from the feeding point to the discharging point including the sterilizing point is a transportation section, a limiting semi-annular plate (2 e) is rotatably arranged on the top plate (2 a 1), the limiting semi-annular plate (2 e) is fixedly arranged on the supporting base (2 b), and the limiting semi-annular plate (2 e) is used for plugging a clamping groove of the top plate (2 a 1) in the transportation section.

4. The medical multi-drug resistant bacteria storage device according to claim 2, wherein the pipe stretching mechanism (3) comprises a clamping plate (3 a), a clamping groove is formed in the clamping plate (3 a), the clamping plate (3 a) is slidably arranged on a bottom plate (2 a 2) through a first limiting rod (3 b), a first elastic element (3 b 1) for pushing the clamping plate (3 a) to ascend is arranged on the first limiting rod (3 b), the pipe stretching mechanism (3) further comprises a pressing driving piece (3 c), the pressing driving piece (3 c) is in transmission connection with the clamping plate (3 a), and the pressing driving piece (3 c) is used for stretching an air pipe (9 a) of the mask (9) into a straight state through the clamping plate (3 a).

5. The medical multi-drug resistant bacteria storage device according to claim 4, wherein the pushing-down driving member (3 c) is disc-shaped, the bottom surface of the pushing-down driving member (3 c) is divided into a flat surface (3 c 1) and a convex surface (3 c 2), the pushing-down driving member (3 c) is fixedly mounted on the supporting base (2 b) through the fixing rod (3 c 3), the top of the clamping plate (3 a) is provided with the ejector rod (3 a 1), the top of the ejector rod (3 a 1) is provided with the ball head (3 a 2), the ball head (3 a 2) is in contact with the bottom surface of the pushing-down driving member (3 c), and the clamping plate (3 a) is in a descending state when the ball head (3 a 2) is in contact with the convex surface (3 c 2) of the pushing-down driving member (3 c).

6. The medical multi-drug resistant bacteria storage device according to claim 4, wherein the material conveying mechanism (2) further comprises a supporting cylinder (2 f), the supporting cylinder (2 f) is arranged at the top of the pushing-down driving piece (3 c) and is fixedly connected with the pushing-down driving piece, a linear driver is arranged at the top of the supporting cylinder (2 f), a clamping jaw (2 g 1) is arranged at the output end of the linear driver, and the linear driver is used for pushing the mask (9) away from a discharging point of the top plate (2 a 1) through the clamping jaw (2 g 1).

7. The medical multi-drug resistant bacteria storage device according to claim 4, further comprising a station driving mechanism (6), a driving disc (7) and a connecting rod assembly (8), wherein the driving disc (7) is arranged below the bottom plate (2 a 2), the supporting frame (4 a) is slidably connected with the supporting base (2 b) through a second elastic element (4 a 1), one end of the connecting rod assembly (8) is connected with the supporting frame (4 a), the other end of the connecting rod assembly (8) is in transmission connection with the driving disc (7), when the mask (9) moves to a cleaning point, the station driving mechanism (6) controls the driving disc (7) to descend, and the driving disc (7) drives the supporting frame (4 a) to be close to the cleaning point of the top plate (2 a 1) through the connecting rod assembly (8).

8. The medical multi-drug resistant bacteria storage device according to claim 7, wherein the station driving mechanism (6) comprises a pressing ring (6 a) and a driving disc (7), the pressing ring (6 a) is arranged between a pressing driving piece (3 c) and a bottom plate (2 a 2), a guide rod (6 a 1) is arranged at the bottom of the pressing plate, the guide rod (6 a 1) penetrates through the bottom plate (2 a 2) to be connected with the driving disc (7), a third elastic element (6 a 2) for pushing the pressing ring (6 a) to move upwards is arranged on the guide rod (6 a 1), a position control plate (3 a 3) is arranged on a top rod (3 a 1) of the clamping plate (3 a), the top of the pressing ring (6 a) is in contact with the bottom of the position control plate (3 a 3) of the top rod (3 a 1), and the pressing ring (6 a) is pressed down by the position control plate (3 a 3) when a clamping groove of the top plate (2 a 1) is at a cleaning point.