CN214647855U - Movable large-scale respiratory tract specimen collecting and integrating device - Google Patents

Abstract

The utility model discloses a movable large-scale respiratory tract specimen collecting and integrating device, which comprises an integrating device body, wherein a first workshop, a second workshop and a third workshop are arranged inside the integrating device body, the second workshop is positioned between the first workshop and the third workshop, the first workshop is positioned at one side of the third workshop, a second isolating door and a third isolating door are rotatably arranged inside the integrating device body, the second isolating door is positioned at one side of the third isolating door, and the first isolating door is rotatably arranged at one side of the integrating device body; the utility model discloses an each aspect can solve current respiratory track sample collection system and can not effectively protect sampling staff, does not possess safety protection, portable and the problem that sample and information acquisition were accomplished to one-stop formula.

Description

Movable large-scale respiratory tract specimen collecting and integrating device

Technical Field

The utility model relates to a sample collection technical field especially relates to a portable extensive respiratory track sample collection integrated device.

Background

When the large-scale collection needs the investigation crowd to have the sample of potential infection risk, the sampling staff need contact with the crowd that has a large amount of infection risks, and because the air flue is open when gathering respiratory track sample, the sampling staff faces very high risk. At present, no movable integrated device which can effectively protect sampling workers and can perform large-scale sampling exists.

The defects of the existing respiratory tract specimen collecting integrated device comprise: can not effectively protect sampling staff, does not have the problem of safety protection, can move and accomplish sample and information acquisition one-stop-type.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a portable extensive respiratory track sample collection integrated device, the technical problem of solution includes:

how to solve current respiratory track sample collection system and can not effectively protect sampling staff, do not possess safety protection, portable and the one-stop type problem of accomplishing sample and information acquisition.

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

a movable large-scale respiratory tract specimen collecting and integrating device comprises an integrating device body, wherein a first workshop, a second workshop and a third workshop are arranged inside the integrating device body, the second workshop is positioned between the first workshop and the third workshop, the first workshop is positioned on one side of the third workshop, a second isolating door and a third isolating door are rotatably arranged inside the integrating device body, the second isolating door is positioned on one side of the third isolating door, a first isolating door is rotatably arranged on one side of the integrating device body, a first sampling window, a second sampling window and a connecting seat are fixedly arranged on one side of the integrating device body, the first sampling window is positioned between the second sampling window and the connecting seat, the connecting seat is positioned in front of the second sampling window, a ticket outlet is arranged on one side of the integrating device body and positioned behind the connecting seat, a storage barrel and a delivery seat are embedded in one side of the integrated device body, the storage barrel and the delivery seat are both positioned below the first sampling window, the storage barrel is positioned in front of the delivery seat, and the front end of the delivery seat is rotatably connected with a delivery frame;

the integrated device comprises an integrated device body and is characterized in that a third sampling window and a fourth sampling window are fixedly mounted on the other side of the integrated device body, the third sampling window is located in front of the fourth sampling window, a plurality of seats are arranged inside the integrated device body, a plurality of pedals are fixedly mounted on the position, close to the bottom, inside the integrated device body, the plurality of seats and the pedals are all located in a second workshop, a processor case is arranged on the position, close to one side, inside the integrated device body, a plurality of folding chairs are rotatably connected to the position, close to the side, inside the integrated device body, and the processor case and the folding chairs are both located in the third workshop.

Furthermore, an exhaust seat and an air inlet seat are installed at the position, close to the upper side, of the inner surface of the integrated device body, the exhaust seat is located above the second workshop, the air inlet seat is located above the third workshop, a first filter and a second filter are arranged at the upper end of the integrated device body, the first filter is connected with the exhaust seat through a pipeline, the second filter is connected with the air inlet seat through a pipeline, and a vibration sensor is arranged on the upper surface of the pedal plate.

Further, the internal surface of delivering the seat is close to the fixed position of one side and has the fixing base, the side of fixing base is rotated and is connected with the spliced pole, the outer fixed surface of spliced pole is connected with the commentaries on classics board, the one end that the spliced pole was kept away from to the commentaries on classics board is rotated and is connected with the connection diaphragm, change the board and be connected with the pivot between the diaphragm, the one end that the commentaries on classics board was kept away from to the connection diaphragm is connected with the frame of delivering, it is connected with the commentaries on classics post to deliver the frame and deliver between the seat, the inside of delivering the seat is provided with the bin, the top of bin is provided with the feed inlet.

Further, a plurality of rubber gloves are all installed to the surface of first sampling window, second sampling window, third sampling window and fourth sampling window, the position that the lower extreme of integrated device body is close to both sides all is provided with a plurality of tire.

Furthermore, the position of the upper end of the delivery frame, which is close to one side, is glued and fixed with a sealing gasket, and a sliding groove is arranged in the delivery frame.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses various aspects, through the integrated device body that sets up and the cooperation use of first workplace, second workplace and third workplace, can be with removing the operation, sampling operation and rest operation to the integrated device body, through the cooperation use of the first sampling window that sets up, the second sampling window, the third sampling window, the fourth sampling window, can sample many people simultaneously, the sample that the delivery seat that sets up can gather is accomodate and is kept apart, the convenience and the security of sampling have been improved, through the cooperation use of spliced pole, the revolving plate and connection diaphragm, can safely and fast accomodate the sample that gathers, the spliced pole rotates forward or back, the spliced pole rotates to drive the revolving plate to rotate forward or back through the pivot, the revolving plate drives the connection diaphragm through the pivot and rotates forward or back, the connection diaphragm drives the delivery frame and outwards or inwards overturns, can drive the delivery frame and seat and carry out separation and be connected, can reach and effectively protect sampling staff, possess safety protection, portable and the purpose of one-stop completion sample and information acquisition.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

Fig. 1 is a schematic structural view of the movable large-scale respiratory tract specimen collecting and integrating device of the present invention;

FIG. 2 is a side view of the integrated device body of the present invention;

FIG. 3 is a cross-sectional internal view of the integrated device body of the present invention;

FIG. 4 is a diagram of the internal connection of the delivery seat of the present invention;

fig. 5 is a block diagram of the movable large-scale respiratory tract specimen collecting and integrating device of the present invention.

In the figure: 1. an integrated device body; 2. a first sampling window; 3. a second sampling window; 4. a third sampling window; 5. a fourth sampling window; 6. a connecting seat; 7. a ticket outlet; 8. a storage barrel; 9. a delivery seat; 10. rubber gloves; 11. a tire; 12. a first isolation gate; 13. a second isolation gate; 14. a second isolation gate; 15. a delivery rack; 16. a seat; 17. a foot pedal; 18. an exhaust seat; 19. an air inlet seat; 20. a processing cabinet; 21. A folding chair; 22. a fixed seat; 23. connecting columns; 24. rotating the plate; 25. connecting the transverse plates; 26. a storage box.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Example one

As shown in fig. 1-5, a movable large-scale respiratory tract specimen collection integrated device comprises an integrated device body 1, wherein a first workshop, a second workshop and a third workshop are arranged inside the integrated device body 1, the second workshop is positioned between the first workshop and the third workshop, the first workshop is positioned on one side of the third workshop, a second isolating door 13 and a third isolating door 14 are rotatably installed inside the integrated device body 1, the second isolating door 13 is positioned in front of the third isolating door 14, a first isolating door 12 is rotatably installed on one side of the integrated device body 1, a first sampling window 2, a second sampling window 3 and a connecting seat 6 are fixedly installed on one side of the integrated device body 1, the first sampling window 2 is positioned between the second sampling window 3 and the connecting seat 6, the connecting seat 6 is positioned behind the second sampling window 3, a ticket outlet 7 is formed in one side of the integrated device body 1, the ticket outlet 7 is located in front of the connecting seat 6, a storage barrel 8 and a delivery seat 9 are inlaid in one side of the integrated device body 1, the storage barrel 8 and the delivery seat 9 are both located below the first sampling window 2, the storage barrel 8 is located on one side of the delivery seat 9, and a delivery frame 15 is rotatably connected to the front end of the delivery seat 9; the first workshop is used for operating and controlling the integrated device body 1 to move, the second workshop is used for sampling, and the third workshop is used for resting of workers; the connecting seat 6 is used for fixing the identity card to collect identity information, and the ticket outlet 7 is used for outputting a printed sampling ticket; the storage barrel 8 is used for collecting garbage generated during sampling; the delivery seat 9 is used for accommodating collected specimens;

the integrated device comprises an integrated device body 1 and is characterized in that a third sampling window 4 and a fourth sampling window 5 are fixedly mounted on the other side of the integrated device body 1, the third sampling window 4 is located in front of the fourth sampling window 5, a plurality of seats 16 are arranged inside the integrated device body 1, a plurality of pedals 17 are fixedly mounted on the position, close to the bottom end, inside the integrated device body 1, the seats 16 and the pedals 17 are located in a second workshop, a processor case 20 is arranged on the position, close to one side, inside the integrated device body 1, a plurality of folding chairs 21 are rotatably connected to the position, close to the side, inside the integrated device body 1, and the processor case 20 and the folding chairs 21 are located in the third workshop.

An exhaust seat 18 and an air inlet seat 19 are installed on the inner surface of the integrated device body 1 close to the upper portion, the exhaust seat 18 is located above a second workshop, the air inlet seat 19 is located above a third workshop, a first filter and a second filter are arranged at the upper end of the integrated device body 1, the first filter is connected with the exhaust seat 18 through a pipeline, the second filter is connected with the air inlet seat 19 through a pipeline, and a vibration sensor is arranged on the upper surface of the pedal plate 17.

The internal surface of delivering seat 9 is close to the fixed position of one side and installs fixing base 22, the side of fixing base 22 is rotated and is connected with spliced pole 23, the outer fixed surface of spliced pole 23 is connected with commentaries on classics board 24, the one end that spliced pole 23 was kept away from to commentaries on classics board 24 is rotated and is connected with connection diaphragm 25, change board 24 and be connected and install the pivot between diaphragm 25, the one end that commentaries on classics board 24 was kept away from to connection diaphragm 25 is connected with delivery frame 15, delivery frame 15 and deliver and be connected with the commentaries on classics post between the seat 9, the inside of delivering seat 9 is provided with bin 26, bin 26's top is provided with the feed inlet.

The outer surfaces of the first sampling window 2, the second sampling window 3, the third sampling window 4 and the fourth sampling window 5 are respectively provided with a plurality of rubber gloves 10, and the positions of the lower end of the integrated device body 1, which are close to the two sides, are respectively provided with a plurality of tires 11; the first sampling window 2, the second sampling window 3, the third sampling window 4 and the fourth sampling window 5 are all made of transparent plastics, and sampling is convenient through the rubber gloves 10.

A sealing gasket is fixedly glued at a position, close to one side, of the upper end of the delivery frame 15, and a sliding groove is formed in the delivery frame 15; the sealing gasket is used for sealing and isolating the delivery seat 9 when the delivery frame 15 is connected with the delivery seat 9.

Example two

The processor case 20 comprises a data acquisition module, a data processing module, a data analysis module, a display module, a deployment module and a printing module;

the data acquisition module is used for acquiring identity information of personnel, vibration information of the pedal plate 17 and sampling information of a specimen;

the data processing module is used for receiving and processing the identity information, the vibration information and the sampling information to obtain a data processing set;

the data analysis module is used for receiving and analyzing the data processing set to obtain a data analysis set;

the display module is used for receiving the data analysis set and displaying the sampling state data, the allocation module is used for receiving the data analysis set and allocating the sampling, and the printing module is used for receiving the data analysis set and printing the sampling state data.

The data processing module is used for receiving and processing the identity information, the vibration information and the sampling information to obtain a data processing set, and the specific steps comprise:

receiving identity information, vibration information and sampling information, acquiring identity card data, identity acquisition time and acquisition items in the identity information, and generating an acquisition number according to the identity acquisition time and a preset number rule;

combining the identity card data, the identity acquisition time, the acquisition items and the acquisition numbers to obtain sampling state data; obtaining the squeezing action and the loosening action in the vibration information, generating a first adjusting signal according to the squeezing action, generating a second adjusting signal according to the loosening action, and combining the first adjusting signal and the second adjusting signal to obtain an adjusting signal set;

acquiring the number of sampled persons, the number of remaining samples, the sampling rate and the number of queuing persons in the acquired information, marking the number of sampled persons as D1, marking the number of remaining samples as D2, marking the sampling rate as D3, marking the number of queuing persons as D4, and carrying out normalization processing and value combination on the marked number of sampled persons, the number of remaining samples, the sampling rate and the number of queuing persons to obtain sampling processing data;

and classifying and combining the sampling state data, the adjustment signal set and the sampling processing data to obtain a data processing set.

The data analysis module is used for receiving and analyzing the data processing set to obtain a data analysis set, and the specific steps comprise:

receiving a data analysis set and acquiring the number of sampled persons D1, the number of remaining samples D2, the sampling rate D3 and the number of queuing persons D4 marked in the sampling processing data;

and calculating and acquiring the I-shaped value of each window by using a formula, wherein the formula is as follows:

wherein Q is_gzThe values are expressed as I-shaped values of all windows, mu is expressed as a preset I-shaped correction factor, and a1, a2 and a3 are expressed as preset different proportionality coefficients;

matching the I-shaped value with a preset standard I-shaped range, and if the I-shaped value is smaller than or equal to the minimum value of the standard I-shaped range, judging that the window working state corresponding to the I-shaped value is easy and generating a first matching signal; if the I-shaped value belongs to the standard I-shaped range, judging that the window working state corresponding to the I-shaped value is normal and generating a second matching signal; if the work state value is larger than or equal to the maximum value of the standard work state range, judging that the window work state corresponding to the work state value is busy, and generating a third matching signal;

and classifying and combining the I-shaped value, the first matching signal, the second matching signal and the third matching signal to obtain a data analysis set.

The deployment module is used for receiving the data analysis set and deploying the sampling, and the specific steps comprise:

receiving and analyzing a data analysis set;

if the data analysis set contains a first matching signal and a second matching signal, generating a first allocation signal, acquiring a window corresponding to the first matching signal and marking the window as a first window to be received, acquiring a window corresponding to the second matching signal and marking the window as a first window to be received, and allocating queuing personnel of the first window to be received according to the first allocation signal;

if the data analysis set contains a third matching signal and a second matching signal, generating a second allocation signal, acquiring a window corresponding to the third matching signal and marking as a second window to be allocated, acquiring a window corresponding to the second matching signal and marking as a second window to be allocated, and allocating queuing personnel of the second window to be allocated to the second window to be allocated according to the second allocation signal;

and if the data analysis set comprises the first matching signal, the second matching signal and the third matching signal, generating a third allocation signal, acquiring a window corresponding to the first matching signal and marking as a third window to be received, acquiring a window corresponding to the third matching signal and marking as a third window to be divided, and distributing queuing personnel of the third window to be divided to the third window to be received according to the third allocation signal.

EXAMPLE III

When the pedal 17 is pedaled, the vibration sensor in the pedal 17 acquires the extrusion action to generate a first adjusting signal, the type of the vibration sensor can be sw-420, a PLC controller is arranged in the processor case 20 and receives the first adjusting signal and controls the connecting column 23 to rotate forwards, the connecting column 23 rotates to drive the rotating plate 24 to rotate forwards, the rotating plate 24 drives the connecting transverse plate 25 to rotate forwards through a rotating shaft, the connecting transverse plate 25 pushes the delivery frame 15 to turn over outwards, when the collected sample is placed in the delivery frame 15, the sample slides into the delivery seat 9 through the delivery frame 15 and enters the storage box 26 through the feeding hole to release the pedalling on the pedal 17, the vibration sensor in the pedal 17 acquires the loosening action to generate a second adjusting signal, the PLC controller receives the second adjusting signal and controls the connecting column 23 to rotate backwards, the connecting column 23 rotates to drive the rotating plate 24 to rotate backwards, the rotating plate 24 drives the connecting transverse plate 25 to rotate backwards through the rotating shaft, the connecting transverse plate 25 drives the delivery frame 15 to turn backwards and attach to the delivery seat 9, and the delivery seat 9 is sealed through a sealing gasket on the delivery frame 15;

the utility model discloses a theory of operation does: in the embodiment of the utility model, through the cooperation use of the integrated device body 1 and the first workshop, the second workshop and the third workshop that set up, can be with moving operation, sampling operation and rest operation to integrated device body 1, through the cooperation use of the first sampling window 2 that sets up, second sampling window 3, third sampling window 4, fourth sampling window 5, can sample many people simultaneously, the sample that the delivery seat 9 that sets up can be gathered is accomodate and is kept apart, the convenience and the security of sampling have been improved, can reach and effectively protect sampling staff, possess safety protection, can move and the purpose of one-stop completion sample and information acquisition;

through the matching use of the data acquisition module, the data processing module, the data analysis module, the display module, the allocation module and the printing module, the aim of reasonably allocating queuing personnel during acquisition can be fulfilled; acquiring identity information of personnel, vibration information of the pedal plate 17 and sampling information of a specimen by using a data acquisition module; wherein, the identity card of the personnel is fixed and information is obtained through the connecting seat 6; receiving and processing the identity information, the vibration information and the sampling information by using a data processing module to obtain a data processing set; receiving and analyzing the data processing set by using a data analysis module to obtain a data analysis set; the display module is used for receiving the data analysis set and displaying sampling state data, the allocation module is used for receiving the data analysis set and allocating sampling, the printing module is used for receiving the data analysis set and printing the sampling state data, and printing bills are output through the bill outlet 7; the sampling voucher can be obtained according to the collected data information, the queuing condition of each window can be timely obtained, the number of people in queue can be reasonably arranged, and the sampling efficiency is improved.

The preferred embodiments of the present invention disclosed above are intended only to help illustrate the present invention. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, to thereby enable others skilled in the art to best understand the invention for and utilize the invention. The present invention is limited only by the claims and their full scope and equivalents.

Claims (5)

1. The movable large-scale respiratory tract specimen collecting integrated device is characterized by comprising an integrated device body (1), wherein a first workshop, a second workshop and a third workshop are arranged inside the integrated device body (1), the second workshop is positioned between the first workshop and the third workshop, the first workshop is positioned on one side of the third workshop, a second isolating door (13) and a third isolating door (14) are rotatably installed inside the integrated device body (1), the second isolating door (13) is positioned on one side of the third isolating door (14), a first isolating door (12) is rotatably installed on one side of the integrated device body (1), a first sampling window (2), a second sampling window (3) and a connecting seat (6) are fixedly installed on one side of the integrated device body (1), the first sampling window (2) is positioned between the second sampling window (3) and the connecting seat (6), the integrated device comprises a connecting seat (6), an integrated device body (1), a ticket outlet (7), a receiving barrel (8) and a delivery seat (9), wherein the connecting seat (6) is positioned in front of a second sampling window (3), the ticket outlet (7) is positioned behind the connecting seat (6), one side of the integrated device body (1) is inlaid with the receiving barrel (8) and the delivery seat (9), the receiving barrel (8) and the delivery seat (9) are both positioned below a first sampling window (2), the receiving barrel (8) is positioned in front of the delivery seat (9), and the front end of the delivery seat (9) is rotatably connected with a delivery frame (15);

the integrated device is characterized in that a third sampling window (4) and a fourth sampling window (5) are fixedly mounted on the other side of the integrated device body (1), the third sampling window (4) is located in front of the fourth sampling window (5), a plurality of seats (16) are arranged inside the integrated device body (1), a plurality of foot pedals (17) are fixedly mounted on the position, close to the bottom, inside the integrated device body (1), the plurality of seats (16) and the foot pedals (17) are located in a second workshop, a processing case (20) is arranged on the position, close to one side, inside the integrated device body (1), a plurality of folding chairs (21) are rotatably connected to the position, close to the side, inside the integrated device body (1), and the processing case (20) and the folding chairs (21) are located in the third workshop.

2. The movable large-scale respiratory tract specimen collection integrated device according to claim 1, wherein an exhaust seat (18) and an air inlet seat (19) are installed on the inner surface of the integrated device body (1) near the upper position, the exhaust seat (18) is located above the second workshop, the air inlet seat (19) is located above the third workshop, a first filter and a second filter are arranged at the upper end of the integrated device body (1), the first filter is connected with the exhaust seat (18) through a pipeline, the second filter is connected with the air inlet seat (19) through a pipeline, and a vibration sensor is arranged on the upper surface of the pedal plate (17).

3. The integrated mobile large-scale airway specimen collection device according to claim 1, it is characterized in that a fixed seat (22) is fixedly arranged at the position of one side of the inner surface of the delivery seat (9), a connecting column (23) is rotatably connected to the side surface of the fixed seat (22), a rotating plate (24) is fixedly connected to the outer surface of the connecting column (23), one end of the rotating plate (24) far away from the connecting column (23) is rotatably connected with a connecting transverse plate (25), a rotating shaft is arranged between the rotating plate (24) and the connecting transverse plate (25), one end of the connecting transverse plate (25) far away from the rotating plate (24) is connected with the delivery frame (15), a rotary column is connected between the delivery frame (15) and the delivery seat (9), a storage box (26) is arranged in the delivery seat (9), and a feeding hole is formed above the storage box (26).

4. The movable large-scale respiratory tract specimen collection integrated device according to claim 1, wherein a plurality of rubber gloves (10) are arranged on the outer surfaces of the first sampling window (2), the second sampling window (3), the third sampling window (4) and the fourth sampling window (5), and a plurality of tires (11) are arranged at the positions, close to the two sides, of the lower end of the integrated device body (1).

5. The integrated device for collecting the movable large-scale respiratory tract specimen according to claim 1, wherein a sealing gasket is fixed at a position, close to one side, of the upper end of the delivery frame (15) in a gluing manner, and a sliding groove is formed in the delivery frame (15).

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