CN212729866U - Multifunctional nasopharynx swab collecting device for avoiding cross infection risk - Google Patents

Abstract

The utility model discloses a avoid multi-functional nasopharynx swab collection system of cross infection risk, including impel to come and go slide system, push-and-pull integrated system, installation and uninstallation system, virus culture solution filling system and automatic closing cap system. The utility model belongs to the technical field of medical equipment makes, the utility model aims to solve among the prior art because the sampling cotton swab that takes out from the nasopharynx portion adheres to a large amount of viruses, probably because reasons such as manual operation, space move, easily cause the virus strain to expose in the air for a long time, increase the risk that the virus propagated diffusion and cross infection then. The technical effects achieved are as follows: the device can realize the installation and uninstallation of cotton swab collection handle, flexible and sampling cotton swab gesture around the sample and rotate, adds virus culture solution simultaneously and fills and automatic closing cap function. The medical care personnel can effectively reduce the exposure time of the virus in the air by means of the nasopharyngeal swab collecting device, and greatly reduce the risk of virus transmission and cross infection.

Description

Multifunctional nasopharynx swab collecting device for avoiding cross infection risk

Technical Field

The utility model relates to a medical equipment makes technical field, concretely relates to avoid multi-functional nasopharynx swab collection system of cross infection risk.

Background

In the prior art, the main transmission path of most viruses is respiratory droplets, close contact and the like, wherein the long-term exposure of the virus strain to aerosol in the air environment is also a large induction factor causing the transmission of the virus strain.

In order to inhibit the malignant spread of epidemic situations, nucleic acid detection is particularly important at present. Nasopharyngeal swabs are important collection methods in conventional nucleic acid detection processes. However, in the process of collecting viruses by using a conventional nasopharyngeal swab, an independently packaged sterile cotton swab is clinically used to deepen the nasal cavity and the deep throat, after sampling is completed, a large amount of bacterial viruses can be attached to the head of the sampling cotton swab, and at the moment, the sampling cotton swab can be easily exposed in the air for a long time due to the problems of manual operation, space moving and the like, so that the risks of virus propagation and cross infection are greatly increased. In addition, during the clinical sampling process, one hand holds a sterile cotton swab, and after the cotton swab takes out a specimen, the other hand needs to loosen the virus culture tube, which undoubtedly increases the exposure time of the virus in the air and the complexity of the operation.

The above problems are very serious, considering the complexity of the operation and the differences in the reaction capacity of the sampling personnel, and it is not completely possible to place the swab immediately in the virus culture tube, which does not meet the "rapid" sampling criteria specified in the virus detection protocol. In view of the characteristics of high virus propagation speed and the problems of different reaction capacities of operators and the like, the development of a multifunctional nasopharyngeal swab collecting device for avoiding the risk of cross infection is urgently needed to reduce the risk of virus cross infection between medical staff and tested staff and the complexity of nucleic acid sampling operation, which is particularly important for precise medical treatment and is a hotspot of the current society.

SUMMERY OF THE UTILITY MODEL

Therefore, the utility model provides a avoid multi-functional nasopharynx swab collection system of cross infection risk to solve among the prior art because behind the nasopharynx swab sampling, a large amount of viruses can be attached to the sampling cotton swab, sampling cotton swab when taking out from the nasopharynx portion can be because reasons such as manual operation, space move, easily cause the virus to expose in the air for a long time, increase the risk problem that diffusion and cross infection were propagated to the virus then.

In order to achieve the above object, the present invention provides the following technical solutions:

the utility model discloses a avoid multi-functional nasopharynx swab collection system of cross infection risk, including impel to come and go slide system, push-and-pull integrated system, installation and uninstallation system, virus culture solution filling system and automatic closing cap system.

This nasopharynx swab collection system through the integrated button of push-and-pull, adjust the length that the handle was gathered to the virus cotton swab through installation and uninstallation axial slide and axial collection slide and circumference slide, gather and accomplish the automatic back lid of annular ball sleeve on the back, then place its sampling swab in virus culture solution through the installation with the device of dismantling the sampling swab, accomplish whole collection process.

The propelling reciprocating slide way system comprises a propelling device shell, a positioning and locking slide way, a first circumferential slide way, a second circumferential slide way, a third circumferential slide way, a fourth circumferential slide way, an axial collecting slide way, a virus filling liquid circumferential slide way, a virus filling liquid axial slide way, an installing and unloading axial slide way, a push-pull integrated inlet and outlet slide way, a circular baffle with a rectangular hole, an annular thin elastic gasket, a circumferential connecting slide way and the like; the axial collection slide way on the propulsion device shell and the axial virus filling liquid slide way are spatially parallel to each other, and the rotation angle of the radial reference plane where the axial collection slide way and the axial virus filling liquid slide way are located is set to be 90 degrees. Further, the axial collection slide way is vertically connected with the axial slide way of the virus filling liquid through the circumferential slide way of the virus filling liquid. The axial collecting slideway is spatially parallel to the mounting and unloading axial slideway and the push-pull integrated inlet and outlet slideway respectively, and the rotation angle of the axial collecting slideway and the radial reference plane where the mounting and unloading axial slideway is arranged is set to be 30 degrees. The axial collecting slide way is connected with the mounting and dismounting axial slide way and the push-pull integrated inlet and outlet slide way through the circumferential connecting slide way. The axial collection slideway is vertically intersected with the first circumferential slideway, the second circumferential slideway, the third circumferential slideway and the fourth circumferential slideway respectively, and the circumferential radians of the first circumferential slideway, the second circumferential slideway, the third circumferential slideway and the fourth circumferential slideway are set to be 270 degrees. The shell of the propelling device and the circular baffle plate with the rectangular hole are molded into a whole, and one side of the circular baffle plate with the rectangular hole is bonded with the compressing annular thin elastic gasket adhesive. The shell of the propelling device is detachably and lockingly matched and connected with a detachable tubular virus loading shell in a virus culture solution filling system through a positioning lug with a sliding hole under the tangential action of a positioning locking slideway.

The push-pull integrated system comprises a push-pull integrated button, a push-pull integrated pressing pipe, a push-pull integrated connecting piece, a manual rotary set screw and the like; wherein, the push-pull integrated button, the push-pull integrated pressing pipe and the push-pull integrated connecting piece are integrated by injection molding. The push-pull integrated button is connected with the manual rotary type set screw through threads.

The mounting and dismounting system comprises a rectangular baffle system with a positioning opening, a moving and pressing system with a slide way and a swab collecting handle handling system.

The rectangular baffle system with the positioning port comprises a rectangular baffle with the positioning port, a first inner positioning port, a second inner positioning port and the like; wherein, the first inner positioning port and the second inner positioning port are arranged in mirror symmetry with the central axis of the rectangular baffle hole with the positioning port.

The movable pressing pipe system with the slideway comprises a movable pressing pipe with the slideway, a rectangular baffle, a first semicircular outer slideway, a second semicircular outer slideway and the like; the rectangular baffle is fixed on the movable pressing pipe with the slideway, and the first semicircular outer slideway and the second semicircular outer slideway are arranged in mirror symmetry with the central axis of the hole of the movable pressing pipe with the slideway.

The swab collecting handle huff and puff system comprises a toothed occlusion arc-shaped sheet, a separated lengthened pushing rod, occlusion small teeth, blocking edges, a first semicircular outer sliding strip, a second semicircular outer sliding strip, a first outer positioning port, a second outer positioning port, anti-loosening threads and the like; wherein, interlock dentition evenly distributed takes the tooth to interlock the arc piece, and the arris is moulded plastics and is taken tooth interlock arc piece border position, prevents to take the slide to remove to compress tightly the pipe roll-off. The first semicircular outer sliding strip is fixed with the first outer positioning port, the second semicircular outer sliding strip is fixed with the second outer positioning port, the first semicircular outer sliding strip and the second semicircular outer sliding strip are injection-molded on the separated lengthened pushing rod and distributed in a mirror image mode through the central shaft of the separated lengthened pushing rod, and meanwhile, the first semicircular outer sliding strip, the second semicircular outer sliding strip and the push-pull integrated connecting piece are arranged in the same plane. The locknut connects the first outer positioning hole and the second outer positioning hole with the rectangular baffle plate with the positioning hole through the locknut.

The virus culture solution filling system comprises a detachable tubular sterile virus culture solution supply system and a rubber piston injection system.

The detachable tubular sterile virus culture solution supply system comprises a plastic folding connecting piece, a positioning lug with a slide hole, a virus culture solution discharge cavity, a partition plate with a discharge hole, a virus culture solution annular cavity, a rectangular acquisition channel, a virus culture solution discharge port, a rotary unthreaded hole and the like; the other end of the plastic folding connecting piece is bonded with the adhesive of the lower annular ball sleeve cover, and the detachable tubular virus loading shell is connected with the lower annular ball sleeve cover in an opening and closing mode. The detachable tubular virus loading shell and the partition plate with the discharge hole are integrally molded by injection, the virus culture solution annular cavity is separated from the virus culture solution discharge cavity, and meanwhile, the partition plate with the discharge hole and the rectangular collection channel are integrally molded by injection. The detachable tubular virus loading shell and the positioning lug with the sliding hole are molded into a whole by injection.

The rubber piston injection system comprises a rectangular hole water-stop rubber piston, a piston connecting piece and the like; the rectangular hole water-stop rubber piston is connected with the piston connecting piece in an embedded sealing mode, and meanwhile the piston connecting piece is perpendicular to the upper bottom face of the rectangular hole water-stop rubber piston.

The automatic capping system comprises an automatic capping system for a sterile virus loading chamber. The automatic sealing system of the sterile virus loading cavity comprises a lower annular ball sleeve cover, a plastic ball, a first spring hanging ring, an upper annular ball sleeve and the like; wherein, lower annular ball upper shield and the sealed laminating of upper ring ball sleeve, plastics ball and embedded in lower annular ball upper shield and the clearance fit of upper ring ball sleeve can roll. The lower annular ball sleeve cover is fixedly connected with the first spring hanging ring.

The rectangular opening of the rectangular acquisition channel is consistent with the rectangular hole water-proof rubber piston and the circular baffle with the rectangular hole in shape and area. The rectangular baffle with the positioning opening is consistent with the rectangular baffle in shape and area. The rectangular block with the positioning port and the rectangular baffle is in clearance fit with the rectangular port of the rectangular acquisition channel, the rectangular hole water-proof rubber piston and the rectangular hole of the round baffle with the rectangular hole.

The utility model has the advantages of as follows:

firstly, the collecting device can complete the installation and the uninstallation of a cotton swab collecting handle, the front and back stretching of a sample and the gesture rotation of the sampling cotton swab, and is additionally provided with the functions of virus culture solution filling and automatic capping. The medical care personnel can effectively reduce the exposure time of the virus in the air by means of the nasopharyngeal swab collecting device, and greatly reduce the risk of virus transmission and cross infection.

Secondly, the rectangular block with the positioning port and the rectangular baffle, the rectangular port of the rectangular acquisition channel, the rectangular hole water-proof rubber piston and the rectangular hole of the round baffle with the rectangular hole are in clearance fit, so that the virus culture solution is ingeniously filled and has functions, and the risk of cross infection is reduced.

Then, the automatic capping system realizes automatic capping by means of the rolling sliding of the plastic ball and the return telescopic principle of the return spring, and cuts off the way of virus propagation.

Finally, the virus cotton swab collecting handle handling system realizes the installation and the uninstallation of the cotton swab collecting handle by means of the propelling reciprocating slideway system, and meanwhile, the propelling reciprocating slideway system and the push-pull integrated system can be recycled after being disinfected, so that the detection efficiency is improved, the system is ecological and environment-friendly, and the resource waste is saved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

The structure, ratio, size and the like shown in the present specification are only used for matching with the content disclosed in the specification, so as to be known and read by people familiar with the technology, and are not used for limiting the limit conditions which can be implemented by the present invention, so that the present invention has no technical essential significance, and any structure modification, ratio relationship change or size adjustment should still fall within the scope which can be covered by the technical content disclosed by the present invention without affecting the efficacy and the achievable purpose of the present invention.

Fig. 1 is a perspective view of the whole system of the multi-functional nasopharyngeal swab collecting device for avoiding the risk of cross infection of the present invention.

Fig. 2 is a sectional view of the whole system of the multi-functional nasopharyngeal swab collecting device for avoiding the risk of cross infection of the present invention.

Fig. 3 is a perspective view of a swab collecting handle throughput system of the multifunctional nasopharyngeal swab collecting device of the present invention for avoiding the risk of cross infection.

Fig. 4 is a perspective view of a push-pull integrated system of the multi-functional nasopharyngeal swab collecting device for avoiding the risk of cross infection of the present invention.

Fig. 5 is a perspective view of the sterile virus loading cavity automatic capping system of the multifunctional nasopharyngeal swab collecting device for avoiding the risk of cross infection of the present invention.

Fig. 6 is a sectional view of the detachable tubular sterile virus culture fluid supply system of the multifunctional nasopharynx swab collecting device for avoiding the risk of cross infection of the present invention.

Fig. 7 is a perspective view of the rectangular baffle system with a positioning opening of the multifunctional nasopharynx swab collecting device for avoiding the risk of cross infection of the present invention.

Fig. 8 is a perspective view of a rubber piston injection system of a multifunctional nasopharyngeal swab collecting device for avoiding the risk of cross infection according to the present invention.

Fig. 9 is a perspective view of the utility model of a multifunctional nasopharyngeal swab collecting device with a sliding way movable tube pressing system for avoiding the risk of cross infection.

Fig. 10 is a perspective view of a swab propelling reciprocating slide system of the multi-functional nasopharyngeal swab collecting device for avoiding the risk of cross infection according to the present invention.

Reference numerals:

1 virus collection swab head 2 lower annular ball sleeve cover 3 virus swab collection handle

4 plastic ball 5 first spring hanging ring 6 telescopic plastic spring

7 annular ball sleeve 8 plastic folding connecting piece 9 on the ring dismantles the tubular virus and loads the shell

10 positioning lug 11 with sliding hole and rubber sealing cover 12 positioning locking slideway of loading cavity

13 first circumferential slide 14 second circumferential slide 15 third circumferential slide

16 fourth circumferential slideway 17 push-pull integrated button 18 manual rotary type set screw

19 axial collection slide way, 20 virus filling liquid circumferential slide way, 21 virus filling liquid axial slide way

22 installation and removal axial slide 23 push-pull integrated access slide 24 second spring hitch ring

25 virus culture solution discharge cavity 26 with discharge hole, partition plate 27 and virus culture solution annular cavity

28 rectangular acquisition channel 29 rectangular hole water-proof rubber piston 30 piston connecting piece

31 toothed meshing arc sheet 32 with slideway moving compression tube 33 return expansion spring

34 rectangular baffle 35 with positioning hole and locknut 36 separated lengthened propelling rod

37 push-pull integrated pressing pipe 38 push-pull integrated connecting piece 39 occlusion denticle

40 first semicircular outer slide 42 and second semicircular outer slide of rib 41

43 first outer positioning hole 44 and second outer positioning hole 45 anti-loose thread

46 first inner positioning hole 47 and second inner positioning hole 48 rectangular baffle

49 first semicircular outer slideway 50 and second semicircular outer slideway 51 virus culture solution discharge port

52 rotating light hole 53 circular baffle 54 with rectangular hole propulsion device shell

55 annular thin elastic washer 56 circumferential connecting slideway

Detailed Description

The present invention is described in terms of specific embodiments, and other advantages and benefits of the present invention will become apparent to those skilled in the art from the following disclosure. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model discloses a avoid multi-functional nasopharynx swab collection system of cross infection risk, including impel to come and go slide system, push-and-pull integrated system, installation and uninstallation system, virus culture solution filling system and automatic closing cap system.

As shown in fig. 10, the propulsion shuttle chute system comprises a propulsion device housing 54, a positioning locking chute 12, a first circumferential chute 13, a second circumferential chute 14, a third circumferential chute 15, a fourth circumferential chute 16, an axial collection chute 19, a virus filling liquid circumferential chute 20, a virus filling liquid axial chute 21, an installation and unloading axial chute 22, a push-pull integrated inlet-outlet chute 23, a circular baffle plate 53 with a rectangular hole, an annular thin elastic washer 55, a circumferential connecting chute 56, and the like; the axial collection slide way 19 on the propulsion unit shell 54 and the axial virus filling liquid slide way 21 are spatially parallel to each other, and the rotation angle of the radial reference plane of the axial collection slide way and the radial reference plane of the axial virus filling liquid slide way are set to be 90 degrees. Further, the axial collection slide 19 and the virus filling liquid axial slide 21 are vertically intersected and communicated through a virus filling liquid circumferential slide 20. The axial collection slideway 19 is spatially parallel to the mounting and unloading axial slideway 22 and the push-pull integrated inlet-outlet slideway 23 respectively, and the rotation angle of the axial collection slideway and the radial reference plane where the mounting and unloading axial slideway 22 is arranged is set to be 30 degrees. The axial collection slideway 19 is connected with the installation and unloading axial slideway 22 and the push-pull integrated inlet-outlet slideway 23 through a circumferential connecting slideway 56. The axial collection slideway 19 is perpendicularly intersected with the first circumferential slideway 13, the second circumferential slideway 14, the third circumferential slideway 15 and the fourth circumferential slideway 16 respectively, and the circumferential radians of the first circumferential slideway 13, the second circumferential slideway 14, the third circumferential slideway 15 and the fourth circumferential slideway 16 are set to be 270 degrees. The propulsion device shell 54 is integrated with the round baffle plate 53 with the rectangular hole in an injection molding mode, and one side of the round baffle plate 53 with the rectangular hole is bonded with the pressing annular thin elastic gasket 55 through an adhesive. The propelling device shell 54 is detachably and lockingly matched and connected with the detachable tubular virus loading shell 9 in the virus culture solution filling system through the positioning lug 10 with the sliding hole under the tangential action of the positioning locking slide way 12.

As shown in fig. 4, the push-pull integrated system comprises a push-pull integrated button 17, a push-pull integrated pressing pipe 37, a push-pull integrated connecting piece 38, a manual rotary set screw 18 and the like; wherein, the push-pull integrated button 17, the push-pull integrated pressing pipe 37 and the push-pull integrated connecting piece 38 are integrated by injection molding. The push-pull integrated button 17 is in threaded connection with a manually rotatable set screw 18, and the manually rotatable set screw 18 is mainly used for locking the separate lengthened push rod 36.

The mounting and dismounting system comprises a rectangular baffle system with a positioning opening, a moving and pressing system with a slide way and a swab collecting handle handling system.

As shown in fig. 7, the rectangular baffle system with positioning openings comprises a rectangular baffle 34 with positioning openings, a first inner positioning opening 46, a second inner positioning opening 47 and the like; the first inner positioning opening 46 and the second inner positioning opening 47 are arranged in a mirror symmetry mode through the central axis of the hole of the rectangular baffle plate 34 with the positioning openings.

As shown in fig. 9, the movable pressing pipe system with a slide includes a movable pressing pipe with a slide 32, a rectangular baffle 48, a first semicircular outer slide 49, a second semicircular outer slide 50, and the like; wherein, the rectangular baffle 48 is fixed on the movable pressing pipe 32 with the slideway, and the first semicircular outer slideway 49 and the second semicircular outer slideway 50 are arranged in mirror symmetry with the central axis of the hole of the movable pressing pipe 32 with the slideway.

As shown in fig. 3, the swab collecting handle throughput system comprises a toothed occlusion arc-shaped sheet 31, a separate lengthened pushing rod 36, occlusion dentition 39, a blocking edge 40, a first semicircular outer slide bar 41, a second semicircular outer slide bar 42, a first outer positioning port 43, a second outer positioning port 44, a locking thread 45 and the like; wherein, the small occlusion teeth 39 are evenly distributed on the occlusion arc-shaped sheet 31 with teeth, and the blocking edge 40 is injected at the edge position of the occlusion arc-shaped sheet 31 with teeth to prevent the movable pressing pipe 32 with slide way from sliding out. The first semicircular outer sliding strip 41 is fixed with the first outer positioning port 43, the second semicircular outer sliding strip 42 is fixed with the second outer positioning port 44, the first semicircular outer sliding strip 41 and the second semicircular outer sliding strip are injected on the separated lengthened push rod 36 and distributed in a mirror image mode according to the central shaft of the separated lengthened push rod 36, and meanwhile, the first semicircular outer sliding strip 41, the second semicircular outer sliding strip 42 and the push-pull integrated connecting piece 38 are arranged in a plane. The locknut 35 connects the first outer positioning hole 43 and the second outer positioning hole 44 with the rectangular baffle plate 34 with the positioning holes through the lockthread 45.

The virus culture solution filling system comprises a detachable tubular sterile virus culture solution supply system and a rubber piston injection system.

As shown in fig. 6, the detachable tubular sterile virus culture solution supply system comprises a plastic folding connector 8, a positioning bump 10 with a slide hole, a virus culture solution discharge cavity 25, a partition plate 26 with a discharge hole, a virus culture solution ring cavity 27, a rectangular collection channel 28, a virus culture solution discharge opening 51, a rotary unthreaded hole 52 and the like; wherein, dismantle tubular virus among the virus culture solution filling system and load casing 9 and the bonding of the one end adhesive of plasticity folding joint spare 8, the other end and the lower annular ball housing 2 adhesive bonding of plasticity folding joint spare 8, dismantle tubular virus and load casing 9 and lower annular ball housing 2 and open and shut and be connected. The detachable tubular virus loading shell 9 and the splitter plate with the drain hole 26 are molded into a whole, the virus culture solution containing cavity 27 is separated from the virus culture solution drain cavity 25, and the splitter plate with the drain hole 26 and the rectangular collecting channel 28 are molded into a whole. The detachable tubular virus loading shell 9 and the positioning lug 10 with the sliding hole are molded into a whole.

As shown in fig. 8, the rubber piston injection system includes a rectangular hole water-stop rubber piston 29, a piston connector 30, and the like; the rectangular hole water-stop rubber piston 29 is connected with the piston connecting piece 30 in an embedded sealing mode, and meanwhile the piston connecting piece 30 is perpendicular to the upper bottom face of the rectangular hole water-stop rubber piston 29.

As shown in fig. 5, the automated capping system comprises a sterile virus loading chamber automated capping system. The automatic sealing system of the sterile virus loading cavity comprises a lower annular ball sleeve cover 2, a plastic ball 4, a first spring hanging ring 5, an upper annular ball sleeve 7 and the like; wherein, lower annular ball upper shield 2 and the sealed laminating of upper annular ball sleeve 7, plastics ball 4 and embedded in lower annular ball upper shield 2 and the clearance fit of upper annular ball sleeve 7 can roll. The lower annular ball sleeve cover 2 is fixedly connected with the first spring hanging ring 5.

As shown in fig. 6 and 8, the rectangular opening of the rectangular collection channel 28 is identical in shape and area with the rectangular hole water-stop rubber piston 29 and the circular baffle plate 53 with the rectangular hole. As shown in fig. 7 and 9, the rectangular baffle 34 with positioning holes has the same shape and area size as the rectangular baffle 48. The rectangular blocks of the rectangular baffle 34 with the positioning openings and the rectangular baffle 48 are in clearance fit with the rectangular openings of the rectangular acquisition channels 28, the rectangular hole water-stop rubber pistons 29 and the rectangular holes of the circular baffle 53 with the rectangular holes.

Preparing before the step:

in the initial state, firstly, the automatic cover sealing system of the sterile virus loading cavity is in a closed state, and the virus culture solution surrounding cavity 27 is filled with a certain amount of culture solution required by viruses; secondly, the virus cotton swab collecting handle 3 is mounted through a swab collecting handle handling system; then, the propulsion device shell 54 is in locking fit connection with the detachable tubular virus loading shell 9 in the virus culture solution filling system through the positioning lug 10 with the sliding hole under the tangential action of the positioning locking slide way 12. Finally, the push-pull integrated button 17 is positioned at the push-pull integrated inlet-outlet slide 23 to wait for the start of sliding.

The process comprises the following steps:

when the work is started, the integrated button 17 is pushed and pulled to enter the axial collection slideway 19 and move forwards during the sampling process; at the moment, the sampling handle 3 of the sampling virus cotton swab pushes the lower annular ball sleeve cover 2 to be opened under the rolling action of the plastic ball 4 under the pushing action of the separated lengthened push rod 36. The sampling handle 3 of the sampling virus swab slowly enters the nasopharynx part, and medical staff can properly and reasonably prefer four slide ways of a first circumferential slide way 13, a second circumferential slide way 14, a third circumferential slide way 15 and a fourth circumferential slide way 16 according to the age of a tested person and the depth of the nasopharynx part. The position of the slide way is selected by pushing and pulling the integrated button 17, the slide way slowly rotates along the circumferential direction of each slide way, and the virus stays for the specified time of national virus sampling, so that more viruses of the nasopharynx part are collected. After sampling, the push-pull integrated button 17 is pushed along the axial collecting slide way 19 and moves backwards, the sampling virus cotton swab collecting handle 3 is pushed by the separated lengthened push rod 36 to close the lower annular ball sleeve cover 2 under the rolling action of the plastic balls 4, and meanwhile, the telescopic plastic spring 6 between the first spring hanging ring 5 and the second spring hanging ring 24 begins to shorten, and the sealing work of the lower annular ball sleeve cover 2 is completed. Further, the swab collection handle handling system starts to work, the push-pull integrated button 17 moves backwards along the virus filling liquid axial slide way 21, the push-pull integrated button 17 slide way axial collection slide way 19 is waited, the push-pull integrated button 17 slides into the installation and unloading axial slide way 22 at the moment, according to the principle that the long side of the rectangle is larger than the broadside relation, the rectangular baffle plate 48 compresses the circular baffle plate 53 with the rectangular hole, the toothed meshing arc-shaped piece 31 can release the virus swab collection handle 3, and the virus swab collection handle 3 can fall into the virus culture liquid discharge cavity 25 along the rectangular collection channel 28 at the moment. Further, the virus culture solution supply system starts to work, the push-pull integrated button 17 slides into the virus filling solution circumferential slide way 20, and at the moment, the rectangular baffle 34 with the positioning opening and the rectangular baffle 48 both pass through the circular baffle 53 with the rectangular hole and are horizontally turned over by 90 degrees at the same time. The push-pull integrated button 17 moves forward along the virus filling liquid axial slide way 21, and similarly, according to the principle that the long side of the rectangle is larger than the wide side, the rectangular baffle plate 48 can continuously send the virus cotton swab collecting handle 3 to the virus culture liquid discharging cavity 25 on the one hand, and can press the piston connecting piece 30 and drive the rectangular hole water-proof rubber piston 29 to release the virus culture liquid annular cavity 27 into the virus culture liquid discharging cavity 25 through the separating plate 26 with the discharging hole. Further, the propelling device shell 54 and the tubular virus loading shell 9 in the virus culture solution filling system are disassembled by the positioning lug 10 with a sliding hole under the tangential action of the positioning locking slideway 12, and the loading cavity rubber sealing cover 11 is covered. And pushing and pulling the integrated button 17 to return to the initial state starting point, so far, the whole acquisition process is finished.

Although the invention has been described in detail with respect to the general description and the specific embodiments, it will be apparent to those skilled in the art that modifications and improvements can be made based on the invention. Therefore, such modifications and improvements are intended to be within the scope of the invention as claimed.

In the present specification, the terms "upper", "lower", "left", "right", "middle", "front" and "rear" are used for convenience of description, and are not intended to limit the scope of the present invention, and changes or adjustments of the relative relationship between the terms and the sections may be made without substantial technical changes.

Claims (7)

1. A multifunctional nasopharynx swab collecting device for avoiding the risk of cross infection is characterized by comprising a propelling reciprocating slideway system, a push-pull integrated system, an installing and unloading system, a virus culture solution filling system and an automatic capping system; the propelling reciprocating slide way system comprises a positioning locking slide way (12), a first circumferential slide way (13), a second circumferential slide way (14), a third circumferential slide way (15), a fourth circumferential slide way (16), an axial collecting slide way (19), a virus filling liquid circumferential slide way (20), a virus filling liquid axial slide way (21), an installing and unloading axial slide way (22), a push-pull integrated inlet and outlet slide way (23), a circular baffle plate (53) with a rectangular hole, a propelling device shell (54), an annular thin elastic gasket (55) and a circumferential connecting slide way (56); the axial collection slide way (19) and the virus filling liquid axial slide way (21) on the propulsion device shell (54) are mutually parallel in space, and the rotation angle of the radial reference plane of the axial collection slide way and the radial reference plane of the axial collection slide way is set to be 90 degrees; further, the axial collection slide way (19) is vertically intersected and communicated with the virus filling liquid axial slide way (21) through a virus filling liquid circumferential slide way (20); the axial acquisition slide way (19) is respectively in parallel with the installation and unloading axial slide way (22) and the push-pull integrated inlet and outlet slide way (23) in space, and the rotation angle of the axial acquisition slide way and the radial reference plane where the installation and unloading axial slide way (22) is arranged is set to be 30 degrees; the axial acquisition slide way (19) is connected with the installation and unloading axial slide way (22) and the push-pull integrated inlet and outlet slide way (23) through a circumferential connecting slide way (56); the axial collection slideway (19) is respectively and vertically intersected with the first circumferential slideway (13), the second circumferential slideway (14), the third circumferential slideway (15) and the fourth circumferential slideway (16), and the circumferential radians of the first circumferential slideway (13), the second circumferential slideway (14), the third circumferential slideway (15) and the fourth circumferential slideway (16) are set to be 270 degrees; the propulsion device shell (54) and the round baffle plate (53) with the rectangular hole are integrated by injection molding, one side of the propulsion device shell and the round baffle plate (53) with the rectangular hole are bonded with a pressing annular thin elastic gasket (55) by an adhesive, and the pressing annular thin elastic gasket (55) is an O-shaped ring; the propelling device shell (54) and a detachable tubular virus loading shell (9) in a virus culture solution filling system are in tangent action by a positioning lug (10) with a sliding hole through a positioning locking slideway (12) so as to complete detachable and locked matched connection; the push-pull integrated system comprises a push-pull integrated button (17), a manual rotary set screw (18), a push-pull integrated pressing pipe (37) and a push-pull integrated connecting piece (38); the push-pull integrated button (17), the push-pull integrated pressing pipe (37) and the push-pull integrated connecting piece (38) are integrated by injection molding; the push-pull integrated button (17) is connected with a manual rotary set screw (18) through threads; the mounting and unloading system comprises a rectangular baffle system with a positioning opening, a moving and pressing system with a slideway and a swab collecting handle handling system; the rectangular baffle system with the positioning port comprises a rectangular baffle (34) with the positioning port, a first inner positioning port (46) and a second inner positioning port (47); the first inner positioning opening (46) and the second inner positioning opening (47) are arranged in a mirror symmetry mode through the central axis of the hole of the rectangular baffle plate (34) with the positioning openings.

2. The multifunctional nasopharyngeal swab collecting device avoiding the risk of cross-infection according to claim 1, wherein the movable pressing pipe system with slide comprises a movable pressing pipe with slide (32), a rectangular baffle (48), a first semicircular outer slide (49), a second semicircular outer slide (50); the rectangular baffle (48) is fixed on the movable pressing pipe (32) with the slideway, and the first semicircular outer slideway (49) and the second semicircular outer slideway (50) are arranged in a mirror symmetry mode by the central shaft of the hole of the movable pressing pipe (32) with the slideway.

3. The multifunctional nasopharyngeal swab collecting device avoiding the risk of cross-infection according to claim 2, wherein the swab collecting handle throughput system comprises a toothed occlusion arc (31), a separate elongated pushing rod (36), occlusion dentition (39), a blocking edge (40), a first semicircular outer slide strip (41), a second semicircular outer slide strip (42), a first outer positioning port (43), a second outer positioning port (44) and a locking thread (45); the small occlusion teeth (39) are uniformly distributed on the occlusion arc-shaped sheet (31) with teeth, and the blocking edge (40) is injected at the edge position of the occlusion arc-shaped sheet (31) with teeth to prevent the movable compression pipe (32) with a slideway from sliding out; the first semicircular outer sliding strip (41) is fixed with the first outer positioning opening (43), the second semicircular outer sliding strip (42) is fixed with the second outer positioning opening (44), the second semicircular outer sliding strip and the second semicircular outer sliding strip are injected on the separated lengthened push rod (36) and distributed in a mirror image mode by the central shaft of the separated lengthened push rod (36), and meanwhile, the push-pull integrated connecting piece (38), the first semicircular outer sliding strip (41) and the second semicircular outer sliding strip (42) are arranged in a plane; the locknut (35) connects the first outer positioning hole (43) and the second outer positioning hole (44) with the rectangular baffle (34) with the positioning hole through the lockthread (45).

4. The multifunctional nasopharyngeal swab collecting device for avoiding the risk of cross-infection according to claim 3, wherein said virus culture medium filling system comprises a detachable tubular sterile virus culture medium supply system and a rubber piston injection system; the detachable tubular sterile virus culture solution supply system comprises a plastic folding connecting piece (8), a positioning lug (10) with a slide hole, a virus culture solution discharge cavity (25), a partition plate (26) with a discharge hole, a virus culture solution annular cavity (27), a rectangular acquisition channel (28), a virus culture solution discharge port (51) and a rotary unthreaded hole (52); in the virus culture solution filling system, a dismounting tubular virus loading shell (9) is bonded with an adhesive at one end of a plastic folding connecting piece (8), the other end of the plastic folding connecting piece (8) is bonded with an adhesive of a lower annular ball sleeve cover (2), and the dismounting tubular virus loading shell (9) is connected with the lower annular ball sleeve cover (2) in an opening and closing manner; the disassembly tubular virus loading shell (9) and the division plate (26) with the discharge hole are molded into a whole by injection, the virus culture solution discharge cavity (25) is separated from the virus culture solution annular cavity (27), and the division plate (26) with the discharge hole and the rectangular collection channel (28) are molded into a whole by injection; the detachable tubular virus loading shell (9) and the positioning lug (10) with the sliding hole are molded into a whole by injection.

5. The multifunctional nasopharyngeal swab collecting device avoiding the risk of cross-infection according to claim 4, wherein the rubber piston injection system comprises a rectangular hole water-proof rubber piston (29) and a piston connector (30); the piston connecting piece (30) is embedded into the rectangular hole water-stop rubber piston (29) and is connected with the rectangular hole water-stop rubber piston in a sealing mode, and meanwhile the piston connecting piece is perpendicular to the upper bottom face of the rectangular hole water-stop rubber piston (29).

6. A multi-functional nasopharyngeal swab collecting device avoiding the risk of cross-infection according to claim 5, wherein the automatic capping system comprises a lower annular ball cover (2), a plastic ball (4), a first spring hanging ring (5), an upper annular ball sleeve (7); the lower annular ball sleeve cover (2) is in sealing fit with the upper annular ball sleeve (7), and the plastic balls (4) are embedded in the lower annular ball sleeve cover (2) and the upper annular ball sleeve (7) and are in clearance fit and can roll; the lower annular ball sleeve cover (2) is fixedly connected with the first spring hanging ring (5).

7. The multifunctional nasopharynx swab collecting device avoiding the risk of cross infection as claimed in claim 6, wherein the rectangular opening of the rectangular collecting channel (28) is consistent with the shape and area size of the rectangular hole water-proof rubber piston (29) and the rectangular hole round baffle plate (53); the rectangular baffle (34) with the positioning opening is consistent with the rectangular baffle (48) in shape and area; rectangular blocks with positioning openings, namely the rectangular baffle (34) and the rectangular baffle (48), are in clearance fit with rectangular openings of the rectangular acquisition channels (28), rectangular hole water-stop rubber pistons (29) and rectangular holes of the circular baffles (53) with the rectangular holes.

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