CN115449465A - Medical equipment for preventing aerosol infection of Xinguan pneumonia - Google Patents

Abstract

The utility model provides a medical equipment for new crown pneumonia prevents aerosol infection, including horizontal bottom plate, the buffer solution storage box, immersion type collection system, chip enrichment device and detachable detection device, chip enrichment device is located the left side of horizontal bottom plate upper end, immersion type collection system fixed mounting is in the left side of chip enrichment device up end, communicate between immersion type collection system and the chip enrichment device, buffer solution storage box fixed mounting just extends right in immersion type collection system's up end department, detection device passes through the mode that the bolt was dismantled and installs the up end right side at horizontal bottom plate. The immersion type collection device is used for immersing the aerosol in the air into the buffer solution, and the immersion type collection mode can be used for increasing the comprehensiveness and the collection efficiency of the aerosol collected by the buffer solution; the time of each acquisition is shortened by a batch-by-batch detection method, so that the suspicious range of the infection source is narrowed, the infection source can be found in time, and the spread range of the virus can be controlled from the source.

Description

Medical equipment for preventing aerosol infection of new coronary pneumonia

Technical Field

The invention relates to the field of medical cosmetology, and particularly provides medical equipment for preventing aerosol infection of Xinguan pneumonia.

Background

At present, the specific pathogen monitoring object mainly comprises culturable bacteria and fungi, and generally adopts complex methods such as directly searching for infection sources (secretions, excretions, article surface swabs and the like) in the environment, so that the method is completely not suitable for various cross-border pathogens which are currently distributed in the form of aerosol.

The principle of the virus aerosol collecting and enriching instrument is a cyclone type aerosol collecting system based on gas-liquid two-phase flow, and a unique tangential type sampling port of the instrument can effectively collect virus nanometer level microorganism aerosol into buffer solution, and rapidly enrich the virus nanometer level microorganism aerosol through nanometer magnetic particles to perform subsequent biological detection. However, there are some problems with the existing aerosol collection devices: 1, all collected samples are collected at the same position, after aerosol is collected by a buffer solution, the buffer solution for collecting the aerosol needs to be taken out manually and sent to a laboratory for detection, and then a new buffer solution is added, so that the use efficiency of an aerosol collector is greatly reduced, time is needed in the process of collecting and detecting, time difference exists, and cross infection risks exist in the process of conveying the collected samples; 2. aiming at large public places such as markets, stations and the like, virus carrying detection in aerosol is particularly important, people flow in the places is large, the risk of carrying viruses exists at any time, the aerosol in the air needs to be detected at any time, the existing aerosol acquisition instrument acquires and then detects a large amount of aerosol at one time, a large amount of time is needed in the acquisition process, the detection process also needs time, even the existing gene chip detection method also needs more than half an hour, when the viruses are detected out from the aerosol, only virus carriers can enter the whole acquisition process, the time and difficulty for determining infection sources are increased due to the large people flow in the public places, the time for each acquisition needs to be shortened through a batch detection method, the suspicious range of the infection sources is reduced, the infection sources are found timely, and the spread range of the viruses is controlled from the source.

Disclosure of Invention

In order to overcome the technical defects in the prior art, the invention provides medical equipment for preventing aerosol infection in new coronary pneumonia, which can effectively solve the problems in the background art.

The invention is realized by the following technical scheme:

the utility model provides a medical equipment that is used for new crown pneumonia to prevent aerosol infection, includes horizontal base plate, buffer solution storage box, immersion type collection system, chip enrichment device and detachable detection device, chip enrichment device is located the left side of horizontal base plate upper end, chip enrichment device is through its lower extreme triangle department evenly distributed's supporting leg and horizontal base plate fixed connection, immersion type collection system fixed mounting is in the left side of chip enrichment device up end, just communicate between immersion type collection system and the chip enrichment device, buffer solution storage box fixed mounting is in immersion type collection system's up end department and extends right, the up end fixed connection of a bracing piece and chip enrichment device is passed through on the lower terminal surface right side of buffer solution storage box, detection device passes through the mode of bolt dismantlement and installs the up end right side at horizontal base plate, just detection device's inside is equipped with the detection chamber, the right-hand member of chip enrichment device and the embedded joint of entry in detection chamber.

The chip enrichment device comprises a circular shell, a rotating motor fixedly mounted at the central position of the lower end face of the circular shell, a rotating space inside the circular shell and a rotating disk located inside the rotating space, wherein the upper end of the rotating motor is in power connection with a motor mandrel, the upper end of the motor mandrel penetrates through the lower end wall of the rotating space and is fixedly connected at the central position of the lower end face of the rotating disk, the lower end of the rotating disk is circular, the upper end of the rotating disk is annular, a plurality of step-shaped positioning grooves are uniformly distributed on the inner circumference of the rotating disk, gene chips are mounted inside the step-shaped positioning grooves, one ends, close to the circle center of the rotating disk, of the step-shaped positioning grooves are consistent with the contour lines of the gene chips, a connecting hole is formed in the inner wall of one end, close to the circle center of the rotating disk, of the step-shaped positioning grooves is communicated with the rotating space, and a left-right pushing mechanism is arranged at the central position of the lower end wall of the rotating space.

Furthermore, an opening is formed in the rear end wall of the rotating space, and a fitting clamping plate is clamped at the opening.

Further, the right end wall department in rotation space is provided with the opening, and an arc cardboard is installed through bolted connection's mode to the opening part.

Further, ejecting mechanism includes spacing bottom plate, two-way motor, spacing slide and push rod, spacing bottom plate fixed mounting is in the lower terminal wall central point department of rotating the space, the inside of spacing bottom plate is provided with the spacing spout in the left and right sides, two-way motor is located the left side of spacing bottom plate, two-way motor passes through the fixed hoist and mount of hoist and mount board and locates at the upper end wall of rotating the space, two-way motor's right-hand member power is connected with a threaded rod, the right-hand member of threaded rod runs through the left end wall of spacing spout and is connected with the right-hand member wall rotation of spacing spout, the upper end of spacing slide is located the front end both ends wall butt of both ends and spacing spout around and in spacing spout, just spacing slide passes through screw-thread fit's mode suit on the threaded rod, the left end fixed connection of push rod is in the right-hand member face department of spacing slide, just the axial lead of push rod is on same straight line with the central line of intercommunicating pore.

Furthermore, the detection device comprises a main machine body and a detection cavity, an opening of the detection cavity is leftwards and attached to the circular shell, a plurality of contact probes are arranged on the upper end wall of the detection cavity, synchronous electric sliding rails are symmetrically arranged on the lower end wall of the detection cavity in a front-back mode, electric sliding blocks are arranged inside the electric sliding rails, an arch plate is connected between the front electric sliding block and the rear electric sliding block, and the electric sliding blocks can move freely in the electric sliding rails in a normal state.

Further, the upper end of the main machine body is provided with a working lamp and an alarm lamp.

Further, the buffer solution storage box is internally provided with a storage space, and a cover plate is arranged at an opening of the upper end wall of the storage space.

Further, immersion collection system is including connecting the casing and connecting the inside collection space of casing, the upper end wall central point department of gathering the space runs through from top to bottom and is provided with first through-hole, first through-hole intercommunication collection space and storage space, the lower extreme wall central point department of gathering the space runs through from top to bottom and is provided with the second through-hole, second through-hole intercommunication collection space and rotation space, and the lower extreme opening of second through-hole and the coincidence of the upper end opening of gene chip, and all be provided with the solenoid valve in first through-hole and the second through-hole, the inside upside of the left end wall of collection space is provided with an arc space, the right-hand member wall intermediate position department of arc space is provided with a right side downwards through connection's intake pipe, the intake pipe runs through the upper end wall left side of collection space and extends to the downside of collection space, the left end wall department evenly distributed of arc space has a plurality of air inlet channel that run through about, air inlet channel intercommunication arc space and external space, the upper end wall right side intercommunication of collection space is provided with an upward right side through venthole, venthole intercommunication collection space and external space.

Furthermore, an electric control blowing fan is arranged in each air inlet channel.

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

1. the immersion type collection device is used for immersing and dissolving the aerosol in the air into the buffer solution, and the immersion type collection mode can be used for increasing the comprehensiveness and the collection efficiency of the aerosol collected by the buffer solution;

2. the time of each acquisition is shortened by a batch detection method, so that the suspicious range of the infection source is reduced, the infection source can be found in time, and the spread range of the virus can be controlled from the source;

3. because detection device is valuables, the damage of colliding with easily when using in the very big market of flow of people, and need send the sample of gathering to the laboratory and detect under the condition of not using detection device, to this contradiction problem, can be according to actual service behavior decision whether to install detection device.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a schematic perspective view of a medical device for preventing aerosol infection for neocoronary pneumonia according to the present invention;

FIG. 2 is a schematic perspective view of the full-section of the present invention without the detection device;

FIG. 3 is a schematic perspective view of the detecting device of the present invention;

FIG. 4 is a front view of a medical device for preventing aerosol infection for neo-coronary pneumonia according to the present invention;

FIG. 5 is a schematic perspective view of a rotary disk according to the present invention;

FIG. 6 is a front view, in full section, of a medical device for preventing aerosol infection for neocoronary pneumonia in accordance with the present invention;

FIG. 7 is a top plan view, in full section, of a medical device for preventing aerosol infection for neo-coronary pneumonia in accordance with the present invention;

FIG. 8 is a left side view of a full section of the chip enrichment device of the present invention;

FIG. 9 is a front view of the immersion type collecting apparatus of the present invention.

In the figure: 1. a horizontal floor; 2. a buffer storage tank; 3. an immersion type collecting device; 4. a chip enrichment device; 5. a detection device; 6. a support bar; 7. a detection chamber; 8. a circular housing; 9. a rotating electric machine; 10. a rotating space; 11. rotating the disc; 12. a motor spindle; 13. a stepped positioning groove; 14. gene chip; 15. a communicating hole; 16. a push-out mechanism; 17. Sticking a clamping plate; 18. an arc-shaped clamping plate; 19. a limiting bottom plate; 20. a bi-directional motor; 21. a limiting sliding plate; 22. a push rod; 23. A limiting chute; 24. hoisting the plate; 25. a threaded rod; 26. a main body; 27. a contact probe; 28. an electric slide rail; 29. An electric slider; 30. an arch plate; 31. a working lamp; 32. an alarm lamp; 33. a storage space; 34. a cover plate; 35. connecting the shell; 36. collecting a space; 37. a first through hole; 38. a second through hole; 39. an arc-shaped space; 40. an air inlet pipe; 41. an air intake passage; 42. an air outlet; 43. a blower fan; 44. and (5) supporting legs.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships illustrated in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically defined otherwise.

As shown in figures 1 to 4, a medical device for preventing aerosol infection of Xinguan pneumonia comprises a horizontal bottom plate 1, a buffer solution storage tank 2, an immersion type collecting device 3, a chip enriching device 4 and a detachable detection device 5, wherein the chip enriching device 4 is positioned on the left side of the upper end of the horizontal bottom plate 1, the chip enriching device 4 is fixedly connected with the horizontal bottom plate 1 through supporting legs 44 uniformly distributed at the lower end triangle part of the chip enriching device 4, the immersion type collecting device 3 is fixedly installed on the left side of the upper end surface of the chip enriching device 4, the immersion type collecting device 3 is communicated with the chip enriching device 4, the buffer solution storage tank 2 is fixedly installed on the upper end surface of the immersion type collecting device 3 and extends rightwards, the right side of the lower end surface of the buffer solution storage tank 2 is fixedly connected with the upper end surface of the chip enriching device 4 through a supporting rod 6, the detection device 5 is installed on the right side of the upper end surface of the horizontal bottom plate 1 in a bolt dismounting manner, and the detection device 5 is internally provided with a detection cavity 7, the right end of the chip enrichment device 4 is in embedded clamping connection with an inlet of the detection cavity 7, when in use, the buffer storage box 2 is used for storing buffer, the buffer enters the immersion type acquisition device 3 in batches, the aerosol in the air is immersed and dissolved into the buffer through the immersion type acquisition device 3, the immersion type acquisition mode can increase the comprehensiveness and the acquisition efficiency of the buffer for acquiring the aerosol, the buffer for acquiring the aerosol is discharged into the chip enrichment device 4 from the immersion type acquisition device 3 for chip acquisition and enrichment, the enriched buffer rotates into the detection cavity 7 of the detection device 5 for coronavirus detection, so as to acquire whether the aerosol in the air of a public place carries coronavirus in real time, and the time of each acquisition is shortened through the batch detection method, therefore, the suspicious range of the infection source is reduced, the infection source can be found in time, and the spread range of the virus can be controlled from the source.

As shown in fig. 5 to 8, the chip enrichment device 4 includes a circular housing 8, a rotating motor 9 fixedly installed at a central position of a lower end face of the circular housing 8, a rotating space 10 inside the circular housing 8, and a rotating disk 11 located inside the rotating space 10, an upper end of the rotating motor 9 is power connected with a motor spindle 12, an upper end of the motor spindle 12 penetrates through a lower end wall of the rotating space 10 and is fixedly connected at a central position of a lower end face of the rotating disk 11, a lower end of the rotating disk 11 is circular, an upper end of the rotating disk 11 is annular, a plurality of stepped positioning slots 13 are uniformly distributed on an inner circumference of the rotating disk 11, a gene chip 14 is installed inside the stepped positioning slots 13, one ends of the stepped positioning slots 13 close to a circle center of the rotating disk 11 are consistent with a contour line of the gene chip 14, a through hole 15 is respectively arranged at an inner wall of one end of the stepped positioning slots 13 close to the circle center of the rotating disk 11, the through hole 15 communicates the stepped positioning slots 13 with the rotating space 10, and a left and right push-out mechanism 16 is arranged at a central position of a lower end wall of the rotating space 10.

Preferably, an opening is formed in the rear end wall of the rotating space 10, an attaching plate 17 is clamped in the opening, the attaching plate 17 is pushed upward to open the rear end opening of the rotating space 10, so that the gene chip 14 filled with aerosol and buffer is placed in the stepped positioning groove 13, and the taking is convenient.

Preferably, an opening is formed in the right end wall of the rotating space 10, an arc-shaped clamping plate 18 is installed at the opening in a bolt connection mode, the detecting device 5 is a valuable article and is easy to collide and damage when being used in a mall with large flow of people, a collected sample needs to be sent to a laboratory for detection under the condition that the detecting device 5 is not used, whether the detecting device 5 is installed or not can be determined according to the actual use condition aiming at the contradiction problem, when the detecting device 5 is not installed, the opening in the right end wall of the rotating space 10 is blocked through the arc-shaped clamping plate 18, the rotating space 10 is closed, the situation that the gene chip 14 drops in the rotating process of the rotating disk 11 is avoided, the safety of the device is guaranteed, when the detecting device 5 is installed, the stepped positioning groove 13 can be communicated with the detecting cavity 7 on the right side by taking down the arc-shaped clamping plate 18, and the gene chip 14 can conveniently enter the detecting cavity 7 for detecting new crown viruses.

Preferably, the pushing mechanism 16 includes a limiting bottom plate 19, a bidirectional motor 20, a limiting sliding plate 21 and a push rod 22, the limiting bottom plate 19 is fixedly installed at the center of the lower end wall of the rotating space 10, a left-right limiting sliding groove 23 is formed inside the limiting bottom plate 19, the bidirectional motor 20 is located at the left side of the limiting bottom plate 19, the bidirectional motor 20 is fixedly hung at the upper end wall of the rotating space 10 through a hanging plate 24, a threaded rod 25 is dynamically connected to the right end of the bidirectional motor 20, the right end of the threaded rod 25 penetrates through the left end wall of the limiting sliding groove 23 and is rotatably connected with the right end wall of the limiting sliding groove 23, the upper end of the limiting sliding plate 21 is located in the limiting sliding groove 23, the front end and the rear end of the limiting sliding groove are abutted against the front end and two end walls of the limiting sliding groove 23, the limiting sliding plate 21 is sleeved on the threaded rod 25 in a thread fit manner, the left end of the push rod 22 is fixedly connected to the right end face of the limiting sliding plate 21, the axial line of the push rod 22 and the central line of the communication hole 15, when the gene chip 14 filled with buffer solution and aerosol is rotated to the right, the bidirectional motor 14 is driven by the threaded rod 25, the push rod 22 to push the gene chip 14 to move in a detection cavity for detecting the detection of the coronary virus chip in the detection cavity 13 and to be detected in the detection process of the detection chip detection cavity for the detection.

Preferably, the detection device 5 includes a main body 26 and a detection chamber 7, an opening of the detection chamber 7 is left and attached to the circular housing 8, a plurality of contact probes 27 are disposed on an upper end wall of the detection chamber 7, synchronous electric slide rails 28 are symmetrically disposed on a lower end wall of the detection chamber 7 in a front-back direction, electric slide blocks 29 are disposed inside the electric slide rails 28, an arch-shaped plate 30 is connected between the front electric slide block 29 and the rear electric slide block 29, the electric slide blocks 29 move freely in the electric slide rails 28 in a normal state, and in an electrified state, the electric slide blocks 29 move left and right on the electric slide rails 28 in an electric control mode. In the process that the pushing mechanism 16 pushes the gene chip 14 to the right to enter the detection cavity 7, the electric slider 29 moves to the right in the electric slide rail 28 to prevent the arch-shaped plate 30 from blocking the gene chip 14 from entering the detection cavity 7, then the contact probe 27 is used for detecting whether the aerosol in the gene chip 14 has coronavirus, after the detection is finished, the electric slider 29 moves to the left under the condition of being electrified, the detected gene chip 14 is pushed into the stepped positioning groove 13 through the arch-shaped plate 30, and the arch design of the arch-shaped plate 30 can push the gene chip 14 into the stepped positioning groove 13 completely.

Preferably, the upper end of the main body 26 is provided with a working lamp 31 and a warning lamp 32, the working lamp 31 is used for displaying the normal working state of the detecting device 5, and the warning lamp 32 is used for giving an alarm after detecting the coronavirus, so that an epidemic prevention person can be reminded to respond in time.

Preferably, the buffer storage tank 2 is provided with a storage space 33 inside, a cover plate 34 is arranged at an opening of an upper end wall of the storage space 33, the storage space 33 is used for storing buffer, and buffer addition is facilitated by opening the cover plate 34.

Preferably, as shown in FIG. 9, the immersion type collecting device 3 comprises a connecting housing 35 and a collecting space 36 inside the connecting housing 35, wherein a first through hole 37 is formed at the center of the upper end wall of the collecting space 36, the first through hole 37 connects the collecting space 36 and the storage space 33, a second through hole 38 is formed at the center of the lower end wall of the collecting space 36, the second through hole 38 connects the collecting space 36 and the rotating space 10, the lower end opening of the second through hole 38 coincides with the upper end opening of the gene chip 14, the first through hole 37 and the second through hole 38 are both provided with electromagnetic valves, the upper side inside the left end wall of the collecting space 36 is provided with an arc-shaped space 39, the middle position of the right end wall of the arc-shaped space 39 is provided with an air inlet pipe 40 which is connected in a penetrating way and penetrates downwards rightwards, the air inlet pipe 40 penetrates through the left side of the upper end wall of the collecting space 36 and extends to the lower side of the collecting space 36, the left end wall of the arc-shaped space 39 is uniformly distributed with a plurality of left and right penetrating air inlet channels 41, the air inlet channels 41 are communicated with the arc-shaped space 39 and the external space, the right side of the upper end wall of the collecting space 36 is communicated with an air outlet hole 42 which penetrates rightwards upwards, the air outlet hole 42 is communicated with the collecting space 36 and the external space, when in use, the electromagnetic valve in the first through hole 37 is electrified and opened, the buffer solution enters the collecting space 36 through the first through hole 37, the air with aerosol enters the bottom of the collecting space 36 through the air inlet channel 41, the arc-shaped space 39 and the air inlet pipe 40, the air floats upwards through the buffer solution and is discharged through the air outlet hole 42, during the process that the gas passes through the buffer solution, the buffer solution can be completely contacted with the air, so that the aerosol in the air is dissolved in the buffer solution, the comprehensive performance and the collection efficiency of aerosol collection by the buffer solution are improved by an immersion type collection mode.

Preferably, an electrically controlled blower fan 43 is disposed inside the air inlet channel 41, and the air is pressurized by the blower fan 43, so as to expel the buffer solution in the air inlet channel 40, and thus the air can infiltrate into the bottom of the collecting space 36.

The specific implementation mode of the invention is as follows: the storage space 33 is used for storing buffer solution, when in use, the electromagnetic valve in the first through hole 37 is electrified and opened, the buffer solution enters the collection space 36 through the first through hole 37, the air with aerosol enters the bottom of the collection space 36 through the air inlet channel 41, the arc-shaped space 39 and the air inlet pipe 40, the air floats upwards through the buffer solution and is discharged through the air outlet hole 42, the buffer solution can be completely contacted with the air in the process that the air passes through the buffer solution, so that the aerosol in the air is dissolved in the buffer solution, after the collection is completed, the electromagnetic valve in the second through hole 38 is opened, the buffer solution with aerosol falls into the gene chip 14 below through the second through hole 38 and is enriched inside the gene chip 14, then the rotary motor 9 drives the rotary disk 11 to rotate through the motor spindle 12, so that the next new gene chip 14 rotates to the lower end of the second through hole 38, and batch collection can be realized, when the gene chip 14 filled with buffer solution and aerosol is rotated to the right side by the rotation of the rotating disk 11, the bidirectional motor 20 works, the threaded rod 25 drives the limiting slide plate 21 to move rightwards, the push rod 22 passes through the communicating hole 15 to push the gene chip 14 in the step-shaped positioning groove 13 into the detection cavity 7 in the process of moving rightwards, the coronavirus detection is carried out, the bidirectional motor 20 rotates reversely and resets in the detection process, the electric slide block 29 moves rightwards in the electric slide rail 28 in the process of pushing the gene chip 14 rightwards by the pushing mechanism 16 into the detection cavity 7 to prevent the arch-shaped plate 30 from blocking the gene chip 14 from entering the detection cavity 7, then whether the coronavirus exists in the aerosol in the gene chip 14 is detected by the contact probe 27, after the detection is finished, the electric slide block 29 moves leftwards under the condition of being electrified, the gene chip 14 which is detected is pushed into the step-shaped positioning groove 13 by the arch-shaped plate 30, the arched design of the arched plate 30 can push the gene chip 14 into the stepped positioning groove 13 completely, wherein the attaching clamp plate 17 is pushed upwards to open the rear end opening of the rotating space 10, so that the gene chip 14 filled with aerosol and buffer solution is placed into the stepped positioning groove 13, and the taking is convenient.

Because detection device 5 is the valuables, the damage of colliding with easily when the very big market of people flow uses, and need send the sample of gathering to the laboratory under the condition that does not use detection device 5 and detect, to this contradiction problem, can decide whether to install detection device 5 according to the in-service use condition, when not installing detection device 5, block up the opening of rotation space 10 right side wall department through arc cardboard 18, make rotation space 10 airtight, avoid gene chip 14 to give the safety of the assurance device that drops at rotary disk 11 pivoted in-process, when installing detection device 5, take off arc cardboard 18 and can make echelonment constant head tank 13 communicate with detection chamber 7 on the right side, make things convenient for gene chip 14 to get into detection chamber 7 and carry out new crown virus detection.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. A medical device for preventing aerosol infection of new coronary pneumonia is characterized in that: the device comprises a horizontal bottom plate (1), a buffer solution storage box (2), an immersion type acquisition device (3), a chip enrichment device (4) and a detachable detection device (5), wherein the chip enrichment device (4) is positioned on the left side of the upper end of the horizontal bottom plate (1), the chip enrichment device (4) is fixedly connected with the horizontal bottom plate (1) through supporting legs (44) which are uniformly distributed at the lower end triangle part of the chip enrichment device, the immersion type acquisition device (3) is fixedly installed on the left side of the upper end surface of the chip enrichment device (4), the immersion type acquisition device (3) is communicated with the chip enrichment device (4), the buffer solution storage box (2) is fixedly installed on the upper end surface of the immersion type acquisition device (3) and extends rightwards, the right side of the lower end surface of the buffer solution storage box (2) is fixedly connected with the upper end surface of the chip enrichment device (4) through a supporting rod (6), the detection device (5) is installed on the right side of the upper end surface of the horizontal bottom plate (1) in a bolt dismounting manner, a detection cavity (7) is arranged inside the detection device (5), and the right end of the chip enrichment device (4) is connected with an embedded inlet of the detection cavity (7) in a clamping manner;

the chip enrichment device (4) comprises a circular shell (8), a rotating motor (9) fixedly installed at the central position of the lower end face of the circular shell (8), a rotating space (10) inside the circular shell (8) and a rotating disk (11) located inside the rotating space (10), wherein the upper end of the rotating motor (9) is in power connection with a motor mandrel (12), the upper end of the motor mandrel (12) penetrates through the lower end wall of the rotating space (10) and is fixedly connected to the central position of the lower end face of the rotating disk (11), the lower end of the rotating disk (11) is circular, the upper end of the rotating disk (11) is annular, a plurality of positioning grooves (13) are uniformly distributed on the inner circumference of the rotating disk (11), gene chips (14) are installed inside the positioning grooves (13), one end, close to the circle center of the rotating disk (11), of each step-shaped positioning groove (13) is consistent with the contour line of each gene chip (14), a through hole (15) is formed in the inner wall of one end, close to the step-shaped positioning groove (13), the step-shaped positioning groove (15) is communicated with the rotating space (10), and a left pushing mechanism is arranged at the central position of the rotating space (10).

2. The medical device for preventing aerosol infection for neocoronary pneumonia according to claim 1, wherein: an opening is arranged at the rear end wall of the rotating space (10), and a joint clamping plate (17) is clamped at the opening.

3. The medical device for preventing aerosol infection for neocoronary pneumonia according to claim 2, wherein: an opening is formed in the right end wall of the rotating space (10), and an arc-shaped clamping plate (18) is installed at the opening in a bolt connection mode.

4. The medical device for preventing aerosol infection for neocoronary pneumonia according to claim 3, wherein: ejecting mechanism (16) includes limiting bottom plate (19), two-way motor (20), spacing slide (21) and push rod (22), limiting bottom plate (19) fixed mounting is in the lower terminal wall central point department of putting of rotating space (10), limiting bottom plate's (19) inside is provided with limiting sliding groove (23) of the side of left and right sides, two-way motor (20) are located limiting bottom plate (19)'s left side, two-way motor (20) are through hoist and mount board (24) fixed hoist and mount in the upper end wall department of rotating space (10), the right-hand member power of two-way motor (20) is connected with a threaded rod (25), the right-hand member of threaded rod (25) runs through the left end wall of limiting sliding groove (23) and is connected with the right-hand member wall rotation of limiting sliding groove (23), the upper end of spacing slide (21) is located limiting sliding groove (23) and both ends and the front end both ends wall of front and limiting sliding groove (23) around, just spacing slide (21) pass through screw-thread fit's mode butt suit on threaded rod (25), the left end fixed connection of push rod (22) is in limiting slide (21), and the right-hand member central line and straight line (15) on the through straight line.

5. The medical device for preventing aerosol infection for neocoronary pneumonia according to claim 1, wherein: detection device (5) are including the host computer body (26) and detect chamber (7), the opening that detects chamber (7) is left and with the laminating of circular casing (8), the upper end wall department that detects chamber (7) is provided with a plurality of contact probes (27), the symmetry is provided with synchronous electronic slide rail (28) around the lower end wall department that detects chamber (7), the inside of electronic slide rail (28) all is provided with electronic slider (29), connects between two electronic slider (29) of front and back and is provided with an arch board (30).

6. The medical device for preventing aerosol infection for neocoronary pneumonia according to claim 5, wherein: the upper end of the main machine body (26) is provided with a working lamp (31) and an alarm lamp (32).

7. The medical device for preventing aerosol infection for neocoronary pneumonia according to claim 1, wherein: the buffer solution storage box is characterized in that a storage space (33) is arranged in the buffer solution storage box (2), and a cover plate (34) is arranged at an opening of the upper end wall of the storage space (33).

8. The medical device for preventing aerosol infection for new crown pneumonia according to claim 1, characterized by that: the immersion collecting device (3) comprises a connecting shell (35) and a collecting space (36) inside the connecting shell (35), wherein a first through hole (37) penetrates through the central position of an upper end wall of the collecting space (36) from top to bottom, the first through hole (37) is communicated with the collecting space (36) and a storage space (33), a second through hole (38) penetrates through the central position of a lower end wall of the collecting space (36) from top to bottom, the second through hole (38) is communicated with the collecting space (36) and a rotating space (10), a lower end opening of the second through hole (38) is coincided with an upper end opening of a gene chip (14), electromagnetic valves are arranged in the first through hole (37) and the second through hole (38), an arc-shaped space (39) is arranged on the upper side inside a left end wall of the collecting space (36), an air inlet pipe (40) which penetrates through the middle position of a right end wall of the arc-shaped space (39) from bottom to right is arranged, the air inlet pipe (40) penetrates through the left side of the upper end wall of the collecting space (36) and extends to the lower side of the collecting space (36), a plurality of left end walls (41) and a plurality of air inlet pipes (41) and a plurality of air outlet channels (41) which penetrate through the left end walls and a plurality of air inlet pipe (41) are uniformly distributed on the left side and right side, the air outlet (42) is communicated with the collecting space (36) and the external space.

9. The medical device for preventing aerosol infection for neocoronary pneumonia according to claim 8, wherein: an electric control blowing fan (43) is arranged in each air inlet channel (41).

Images