CN116577156A

CN116577156A - Virus detection device containing buffer piece

Info

Publication number: CN116577156A
Application number: CN202310537168.5A
Authority: CN
Inventors: 朱洪伟; 姜琳琳; 陈国忠; 张兴晓; 张建龙; 于馨
Original assignee: Ludong University
Current assignee: Shandong Baijun Biotechnology Co ltd
Priority date: 2021-08-24
Filing date: 2021-08-24
Publication date: 2023-08-11
Anticipated expiration: 2041-08-24
Also published as: CN116577156B; CN116577157A; CN116577157B; CN116558899B; CN113607505A; CN116558899A; CN113607505B

Abstract

The application discloses a virus detection device with a buffer part, relates to the technical field of air virus detection devices, and solves the problems that an air collection component (namely a pipeline, a box body and the like) is required to be cleaned manually frequently and is inconvenient to use in order to keep the air collection component clean. The two buffer parts can drive the two mounting frames and the rectangular sponge rings on the two mounting frames to slide back and forth when being impacted and slid to brush and clean the inner walls of the two air collecting mechanisms, so that the times of manual cleaning are greatly reduced, the use is convenient and trouble-saving, the two air collecting mechanisms are kept relatively clean, the attachment and breeding of germs are reduced, and the interference of the attached and bred germs on test results is reduced.

Description

Virus detection device containing buffer piece

The application relates to a division application of application number 202110975394.2, application day 2021, month 08 and 24, and the application name of the application is 'a medical device for detecting viruses in air'.

Technical Field

The application relates to the technical field of air virus detection devices, in particular to a virus detection device with a buffer piece.

Background

For example, patent No. cn202010732282.X discloses an in-air virus detection device comprising an air delivery air passage to which a virus collection device (2) and a fan (7) are connected, and an air heating device (8) for killing viruses by heating air is provided on the air delivery air passage. The aim of the device is to provide a device for detecting the viruses in the air, which can be attached to the inside of the device for detecting the viruses in time, avoid the situation that people cannot accurately judge the time or place of the bacteria or the viruses in the air, thoroughly kill the bacteria and the viruses, has high efficiency and has no pollution to the external environment.

The existing virus detection device mostly adopts a negative pressure suction mode to collect air in a carriage, and then a negative pressure suction mechanism is specially matched with the detection device, and a driving motor is required to be arranged for the mechanism, so that the weight reduction of the device is not facilitated, the power consumption and the manufacturing cost are reduced, in addition, in order to keep the air collection components (namely, pipelines, boxes and the like) clean, the air collection components are required to be cleaned manually and frequently, and the use is troublesome and inconvenient.

Disclosure of Invention

The application aims to provide a virus detection device with a buffer piece, which aims to solve the problems that in the prior art, in order to keep the air collection component (namely a pipeline, a box body and the like) clean, the air collection component needs to be cleaned frequently by manpower, and the use is troublesome.

In order to achieve the above purpose, the present application provides the following technical solutions: a virus detection device with a buffer part comprises an orbit shaft lever; the track shaft lever comprises mounting seats, two symmetrical track shaft levers are arranged, two mounting seats are symmetrically welded at the left end and the right end of the two track shaft levers, the two mounting seats are integrally formed by a top transverse supporting plate and two vertical supporting plates symmetrically welded at the bottom of the two mounting seats, and the two track shaft levers are locked and suspended on a ceiling of a bus through the two mounting seats; the buffer piece further comprises rectangular sponge rings, wherein one rectangular sponge ring is fixed on the periphery of each of the two mounting frames through velcro, and the two rectangular sponge rings are in sliding contact with the inner walls of the two air collecting mechanisms; the whole plug-in positioning piece is formed by jointly welding two vertical support inserting rods and a bottom transverse support connecting plate, wherein the vertical support inserting rods correspondingly pass through and are matched with the mounting rings in a sliding manner, and the head end sections of the four vertical support inserting rods of the two plug-in positioning pieces correspondingly plug-in match with the four groups of positioning rings; two rectangular detection components are sleeved on the two track shaft rods in a sliding manner, two rectangular air collecting mechanisms are inserted into the left end and the right end of the detection components, and two buffer pieces are inserted into the left end plate and the right end plate of the two air collecting mechanisms in a penetrating manner through spring pushing; the buffer piece is integrally formed by jointly welding upper and lower longitudinal sliding shafts, wherein the upper two longitudinal sliding shafts are correspondingly in penetrating sliding fit with end plates of the air collecting mechanism, the bottom two longitudinal sliding shafts are correspondingly in penetrating sliding fit with two mounting battens, and the distance between the two longitudinal sliding shafts at the bottom of the right side is smaller than the distance between the two sliding shafts at the bottom of the left side; a detection section; two U-shaped inserting positioning pieces are inserted into the left side and the right side of the bottom of the detection component through spring pushing, and two buzzer alarms are symmetrically locked and installed on the two smaller-area shell walls on the two sides of the detection component; the track shaft lever further comprises stop rods, two vertical stop rods are symmetrically welded at the bottoms of the middle sections of the two mounting seat cross support plates, the two stop rods are positioned between two groups of vertical support plates at the bottoms of the two mounting seats, and the lengths of the two stop rods are twice the lengths of the two groups of vertical support plates; the detection component comprises a shaft sleeve, two shaft sleeves are symmetrically welded at the top end of the detection component, and the two shaft sleeves are correspondingly in sliding fit with the two track shaft rods; the bottom of the detection part is symmetrically welded with two mounting strips, and the two mounting strips provide convenience for sliding mounting of the two buffer parts; the detection part further comprises mounting rings, four mounting rings are symmetrically welded at two sides of the bottom of the detection part, and the four mounting rings provide convenience for the two plug-in positioning pieces to penetrate through sliding installation; the square sleeve frames are symmetrically arranged on the left side wall and the right side wall of the detection part, three rows of ventilation holes are formed in the wall surfaces of the inner parts of the two square sleeve frames in a penetrating mode, air in the two air collecting mechanisms can enter the detection part to be detected through the ventilation holes, and if viruses are detected, two buzzer alarms on the detection part can buzzing and warning; the air collection mechanism comprises inclined air deflectors, two strip-shaped air inlet grooves are formed in the side walls of the two sides of the air collection mechanism in a penetrating mode, and three inclined air deflectors are arranged in the two strip-shaped air inlet grooves at equal intervals; the air collecting mechanism further comprises positioning rings, tail end sections of the two air collecting mechanisms are correspondingly matched with the two square sleeve frames in an inserting mode, and two groups of positioning rings are symmetrically welded on two sides of the tail ends of the two air collecting mechanisms; the buffer piece comprises mounting frames, two mounting frames are fixedly welded at the head ends of two longitudinal sliding shafts at the top of the buffer piece, and the two mounting frames are slidably positioned in the two air collecting mechanisms.

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

1. the detection part can drive the two track shafts to slide back and forth in the carriage along the two track shafts by utilizing the self gravity of the detection part when the vehicle runs and the inertia impact force when the vehicle brakes and decelerates, so that the detection part is favorable for comprehensively sliding and detecting the air in the carriage, and the detection part can drive the detection part to slide by utilizing the inertia force generated by the running of the vehicle, so that a special matched sliding driving motor can be omitted, and the overall cost of the device can be reduced;

2. according to the four-row inclined air guide plate, air in a carriage can be guided into two air collecting mechanisms in the sliding process, and the inclination directions of the left and right four-row inclined air guide plates are opposite, so that the detection component can slide back and forth, the detection component can slide and collect the air in the carriage in a forward sliding state or a backward sliding state, in addition, the air is collected in a sliding convection mode, compared with the traditional negative pressure air suction collecting mode, a special suction mechanism can be omitted, and the cost of a detection device can be further reduced;

3. when the two buffer parts slide to the two ends of the two track shafts, the two buffer parts can be in impact contact with the two stop rods to buffer impact force, so that the detection parts are prevented from being damaged by impact;

4. the two buffer parts can drive the two mounting frames and the rectangular sponge rings on the two mounting frames to slide back and forth when being impacted and slid to brush and clean the inner walls of the two air collecting mechanisms, so that the times of manual cleaning are greatly reduced, the use is convenient and trouble-saving, the two air collecting mechanisms are kept relatively clean, the attachment and breeding of germs are reduced, and the interference of the attached and bred germs on test results is reduced.

Drawings

FIG. 1 is a schematic view of the present application in a mounted and in-use state;

FIG. 2 is a schematic view of a sliding installation of a detection component of the present application;

FIG. 3 is a schematic view of a three-dimensional structure of a detecting unit according to the present application;

FIG. 4 is a schematic view of the three-dimensional structure of the bottom of the detecting unit according to the present application;

FIG. 5 is a schematic view showing a sliding and disassembling state of two air collection mechanisms according to the present application;

FIG. 6 is a schematic view of the air collection assembly of the present application in semi-section;

FIG. 7 is an enlarged schematic view of the portion A of FIG. 2 according to the present application;

FIG. 8 is a schematic view of a buffer structure according to the present application.

In the figure, the correspondence between the component names and the drawing numbers is:

1. an orbital shaft; 101. a mounting base; 102. a stop lever; 2. a detection section; 201. a shaft sleeve; 202. mounting a slat; 203. a mounting ring; 204. a square sleeve frame; 3. an air collection mechanism; 301. tilting the air deflector; 302. a positioning ring; 4. a buffer member; 401. a mounting frame; 402. a rectangular sponge ring; 5. and (5) inserting a positioning piece.

Description of the embodiments

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments.

Referring to fig. 1 to 7, in a first embodiment of the present application: a medical virus detection device in air comprises an orbit shaft lever 1; the track shaft lever 1 comprises mounting seats 101, two positions are symmetrically arranged on the track shaft lever 1, two mounting seats 101 are symmetrically welded at the left end and the right end of the track shaft lever 1, the whole of the two mounting seats 101 is composed of a top transverse supporting plate and two vertical supporting plates symmetrically welded at the bottom, and the two track shaft levers 1 are locked and suspended on a ceiling of a bus through the two mounting seats 101; the track shaft lever 1 further comprises a stop lever 102, two vertical stop levers 102 are symmetrically welded at the bottoms of the middle sections of the transverse supporting plates of the two mounting seats 101, and the two stop levers 102 are positioned between two groups of vertical supporting plates at the bottoms of the two mounting seats 101;

the length of the two stop rods 102 is twice that of the two sets of vertical supporting plates; a rectangular detection part 2 is sleeved on the two track shaft rods 1 in a sliding manner, two rectangular air collecting mechanisms 3 are inserted and mounted at the left end and the right end of the detection part 2, and two buffer pieces 4 are inserted and mounted on the left end plate and the right end plate of the two air collecting mechanisms 3 in a penetrating manner through spring pushing; the detection part 2 further comprises mounting rings 203, and four mounting rings 203 are symmetrically welded at two sides of the bottom of the detection part 2; two square sleeve frames 204 are symmetrically arranged on the left side wall and the right side wall of the detection part 2, and three rows of ventilation holes are formed in the wall surfaces inside the two square sleeve frames 204 in a penetrating manner; a detection section 2; two U-shaped plug-in positioning pieces 5 are inserted at the left side and the right side of the bottom of the detection component 2 through spring pushing, and two buzzer alarms are symmetrically locked and installed on the shell walls with smaller areas at the two sides of the detection component 2; the air collection mechanism 3 further comprises positioning rings 302, tail end sections of the two air collection mechanisms 3 are correspondingly matched with the two square sleeve frames 204 in a plugging manner, and two groups of positioning rings 302 are symmetrically welded on two sides of the tail ends of the two air collection mechanisms 3;

the buffer piece 4 comprises a mounting frame 401, two mounting frames 401 are fixedly welded at the head ends of two longitudinal sliding shafts at the top of the two buffer pieces 4, and the two mounting frames 401 are slidably positioned in the two air collecting mechanisms 3; the whole plug-in positioning piece 5 is formed by jointly welding two vertical supporting inserting rods and a bottom transverse supporting connecting plate, the vertical supporting inserting rods are correspondingly matched with the mounting rings 203 in a penetrating and sliding mode, the head end sections of the four vertical supporting inserting rods of the two plug-in positioning pieces 5 are correspondingly matched with the four groups of positioning rings 302 in a plug-in mode, the two air collecting mechanisms 3 and the detecting components 2 can be fixedly plugged together by the two plug-in positioning pieces 5, the two plug-in positioning pieces 5 are installed in a spring pushing mode, the air collecting mechanisms 3 can be conveniently detached through sliding-down and pulling-out mode, and replacement is conducted on the rectangular sponge rings 402.

Further, the detecting component 2 comprises shaft sleeves 201, two shaft sleeves 201 are symmetrically welded at the top end of the detecting component 2, the two shaft sleeves 201 are correspondingly in sliding fit with the two track shaft rods 1, the detecting component 2 can drive the two track shaft rods 1 to slide back and forth in the carriage by utilizing the inertial impact force generated by the acceleration and the braking deceleration of the vehicle during running by the gravity of the detecting component 2, so that the air in the carriage can be comprehensively detected in a sliding manner, and the detecting component 2 can drive the sliding driving motor by utilizing the inertial force generated by the running of the vehicle, so that the special matched sliding driving motor can be omitted, and the overall cost of the device can be reduced; the bottom of the detecting part 2 is symmetrically welded with two mounting strips 202.

Further, the air collection mechanism 3 includes inclined air deflectors 301, a strip-shaped air inlet slot is formed in the side walls of the two sides of the air collection mechanism 3, three inclined air deflectors 301 are arranged in the two strip-shaped air inlet slots at equal intervals, four rows of inclined air deflectors 301 can guide air in a carriage into the two air collection mechanisms 3 in the sliding process, and the inclination directions of the left and right four rows of inclined air deflectors 301 are opposite, so that the detection part 2 can slide back and forth in a reciprocating manner, the detection part 2 can slide and collect air in the carriage in a forward sliding state or a backward sliding state, in addition, the application adopts a sliding convection mode to collect air, compared with the traditional negative pressure suction air collection mode, a special suction mechanism can be omitted, and the cost of the detection device can be further reduced.

Further, the whole buffer member 4 is formed by jointly welding upper and lower longitudinal sliding shafts, wherein the upper two longitudinal sliding shafts are correspondingly in penetrating sliding fit with the end plate of the air collecting mechanism 3, the bottom two longitudinal sliding shafts are correspondingly in penetrating sliding fit with the two mounting slats 202, the distance between the two longitudinal sliding shafts at the bottom of the right side is smaller than that between the two sliding shafts at the bottom of the left side, and the two buffer members 4 can buffer impact force by being in impact contact with the two stop rods 102 when sliding to the two ends of the two track shafts 1, so that the detection part 2 is prevented from being damaged by impact.

Referring to fig. 8, a second embodiment of the present application is provided: a medical air virus detection device, which also comprises a buffer piece 4; the buffer piece 4 further comprises rectangular sponge rings 402, the periphery of the two mounting frames 401 is fixedly provided with one rectangular sponge ring 402 in a magic manner, the two rectangular sponge rings 402 are in sliding contact with the inner walls of the two air collecting mechanisms 3, the two buffer pieces 4 can drive the two mounting frames 401 and the rectangular sponge rings 402 on the two mounting frames to slide reciprocally when being impacted and slide so as to brush and clean the inner walls of the two air collecting mechanisms 3, the times of manual cleaning are greatly reduced, the use is convenient and trouble-saving, the two air collecting mechanisms 3 are kept relatively clean, the attachment breeding of germs is reduced, and the interference of the attached breeding germs on test results is reduced.

Working principle: the detection part 2 can drive the air in the carriage to slide back and forth along the two track shafts 1 by utilizing the inertia impact force of the vehicle during the speed increasing and the braking and decelerating under the self gravity, the four rows of inclined air deflectors 301 can guide the air in the carriage into the two air collecting mechanisms 3 during the sliding process, and the inclined directions of the left and right four rows of inclined air deflectors 301 are opposite, so that the detection part 2 can slide back and forth, the detection part 2 can slide and collect the air in the carriage in both the forward sliding state and the backward sliding state, the air in the left and right side walls of the detection part 2 can enter the detection part 2 for detection through the air holes on the left and right side walls of the detection part 2, and if viruses are detected, two buzzer alarms on the detection part 2 can buzzing and warn;

the two buffer pieces 4 can be in impact contact with the two stop rods 102 to buffer impact force when sliding to the two ends of the two track shafts 1, and the two buffer pieces 4 can drive the two mounting frames 401 and the rectangular sponge rings 402 on the two mounting frames to slide back and forth to brush and clean the inner walls of the two air collecting mechanisms 3 when being impacted and slid.

It will be evident to those skilled in the art that the application is not limited to the details of the foregoing illustrative embodiments, and that the present application may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the application being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. A virus detection device that contains bolster, its characterized in that: the device is a medical virus in air detection device and comprises an orbit shaft lever (1); two positions are symmetrically arranged on the track shaft rod (1), two mounting seats (101) are symmetrically welded at the left end and the right end of the track shaft rod (1), the whole of the two mounting seats (101) is composed of a top transverse supporting plate and two vertical supporting plates symmetrically welded at the bottom, and the two track shaft rods (1) are locked and suspended on a ceiling of a bus through the two mounting seats (101); two rectangular detection components (2) are sleeved on the two track shaft rods (1) in a sliding manner, two rectangular air collecting mechanisms (3) are inserted into the left end and the right end of the detection components (2), and two buffer pieces (4) are inserted into the left end plate and the right end plate of the two air collecting mechanisms (3) in a penetrating manner through spring pushing; a detection unit (2); two U-shaped inserting positioning pieces (5) are inserted into the left side and the right side of the bottom of the detection component (2) through spring pushing, and two buzzer alarms are symmetrically locked and installed on the shell walls with smaller areas at the two sides of the detection component (2);

the detection component (2) further comprises mounting rings (203), and four mounting rings (203) are symmetrically welded at two sides of the bottom of the detection component (2); the detection device comprises a square sleeve frame (204), wherein two square sleeve frames (204) are symmetrically arranged on the left side wall and the right side wall of the detection part (2), and ventilation holes are formed in the wall surfaces inside the two square sleeve frames (204) in a penetrating manner;

the air collection mechanism (3) comprises inclined air deflectors (301), strip-shaped air inlet grooves are formed in the side walls of the two sides of the air collection mechanism (3) in a penetrating mode, and the inclined air deflectors (301) are arranged in the two strip-shaped air inlet grooves at equal intervals;

the inclined air deflector 301) guides the air in the carriage into two air collecting mechanisms (3) in the sliding process, and the air in the two air collecting mechanisms (3) enters the detecting component (2) for detection through the air holes on the left side wall and the right side wall of the detecting component (2);

each buffer piece (4) is integrally formed by jointly welding four longitudinal sliding shafts, wherein the two longitudinal sliding shafts at the upper part are correspondingly in penetrating sliding fit with the end plate of the air collecting mechanism (3), the two longitudinal sliding shafts at the bottom are correspondingly in penetrating sliding fit with the two mounting battens (202), and the distance between the two longitudinal sliding shafts at the bottom of the right buffer piece is smaller than the distance between the two sliding shafts at the bottom of the left buffer piece;

the buffer piece (4) comprises a mounting frame (401), two mounting frames (401) are fixedly welded at the head ends of two longitudinal sliding shafts at the tops of the buffer piece (4), and the two mounting frames (401) are slidably located in the two air collecting mechanisms (3).

2. The apparatus according to claim 1, wherein:

the buffer piece (4) further comprises rectangular sponge rings (402), the periphery of the two mounting frames (401) is fixed with one rectangular sponge ring (402) by using a magic tape, and the two rectangular sponge rings (402) are in sliding contact with the inner walls of the two air collecting mechanisms (3);

the detection component (2) comprises a shaft sleeve (201), two shaft sleeves (201) are symmetrically welded at the top end of the detection component (2), and the two shaft sleeves (201) are correspondingly in sliding fit with the two track shaft rods (1); the bottom of the detection component (2) is symmetrically welded with two mounting laths (202);

the track shaft lever (1) further comprises a stop lever (102), wherein two vertical stop levers (102) are symmetrically welded at the bottoms of the middle sections of the transverse supporting plates of the two mounting seats (101), and the symmetrical welding is symmetrical about the middle of the track shaft lever; each of the two vertical supporting plates consists of a pair of supporting plates, and each pair of supporting plates is a group of vertical supporting plates;

the air collection mechanism (3) further comprises positioning rings (302), tail end sections of the two air collection mechanisms (3) are correspondingly matched with the two square sleeve frames (204) in an inserting mode, and two groups of positioning rings (302) are symmetrically welded at the front side and the rear side of the tail ends of the two air collection mechanisms (3);

the plug-in positioning piece (5) is integrally formed by jointly welding two vertical supporting inserting rods and a bottom transverse supporting connecting plate, wherein the vertical supporting inserting rods are correspondingly matched with the mounting rings (203) in a penetrating and sliding mode, and the head end sections of the four vertical supporting inserting rods of the two plug-in positioning pieces (5) are correspondingly matched with the four groups of positioning rings (302) in a plug-in mode.