CN217505570U - Real-time monitoring equipment applied to aerosol monitoring and acquisition - Google Patents

Abstract

The utility model relates to the technical field of aerosol monitoring, in particular to a real-time monitoring device applied to aerosol monitoring and acquisition, which comprises an aerosol acquisition device and an intelligent mobile device; the aerosol collecting device is fixedly arranged on the intelligent mobile device, and the intelligent mobile device comprises a mobile device, a camera, a lifting control platform, a first positioning mechanism, a second positioning mechanism and an equipment protection mechanism; the lifting control platform is fixedly arranged on the mobile device, and the working end of the lifting control platform vertically extends upwards; the camera is fixedly arranged on the lifting control platform; the mobile device, the camera and the lifting control platform are all communicated with a remote control room; the first positioning mechanism and the second positioning mechanism are both fixedly arranged on the lifting control platform; the equipment protection mechanism is fixedly arranged on the lifting control platform. This application can reduce the manpower effectively, reduces the staff simultaneously and discrepancy detection area number of times and avoids infecting.

Description

Real-time monitoring equipment applied to aerosol monitoring and acquisition

Technical Field

The utility model relates to an aerosol monitoring technology field specifically relates to a be applied to real-time supervision equipment that aerosol monitoring gathered.

Background

Current aerosol collection system is when using, need gather the operation to the assigned position through artifical removal aerosol collection system, during real-time supervision gathers the operation, need artifical change in real time and gather the position, lead to excessive extravagant manpower, aerosol collection is mostly the bacterial content in gathering the air simultaneously, it is frequent to lead to the staff to come in and go out the monitoring area number of times by artifical removal aerosol collection system at every turn, the staff can have certain infection risk, need a real-time supervision equipment who is applied to aerosol monitoring and gathers to solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide a real-time monitoring device applied to aerosol monitoring and acquisition for solving the problems in the prior art. This application can effectual reduction manpower, reduces the staff simultaneously and comes in and go out the detection area number of times and avoid infecting.

For solving the prior art problem, the utility model discloses a technical scheme be:

a real-time monitoring device applied to aerosol monitoring and acquisition comprises an aerosol acquisition device and an intelligent mobile device; the aerosol collecting device is fixedly arranged on the intelligent mobile device, and the intelligent mobile device comprises a mobile device, a camera, a lifting control platform, a first positioning mechanism, a second positioning mechanism and an equipment protection mechanism; the lifting control platform is fixedly arranged on the mobile device, and the working end of the lifting control platform vertically extends upwards; the camera is fixedly arranged on the lifting control platform; the mobile device, the camera and the lifting control platform are all communicated with a remote control room; the first positioning mechanism and the second positioning mechanism are both fixedly arranged on the lifting control platform; the equipment protection mechanism is fixedly arranged on the lifting control platform.

Preferably, the outside of mobile device is equipped with the guardrail, and the guardrail is toughness material, and the outside of guardrail is equipped with several radar induction system to evenly distributed.

Preferably, the lifting control platform comprises a lifting mounting plate, a guide rail, a guide telescopic rod and a lifting driving device; the lifting mounting plate is arranged above the moving device; the guide rails are provided with a plurality of guide rails and are uniformly distributed on the moving device; the guide telescopic rods are provided with a plurality of guide telescopic rods and are uniformly distributed on the guide rails; the lifting driving device is fixedly arranged on the moving device, and the output end of the lifting driving device is fixedly connected with the lifting mounting plate.

Preferably, the lifting driving device comprises a mounting base, a threaded sleeve, a threaded push rod, a mounting frame, a rotary driver, a driving wheel and a driven wheel; the mounting base is fixedly mounted on the mobile device; the threaded sleeve is rotatably arranged on the mounting base; the threaded push rod is in threaded connection with the threaded sleeve, and one end of the threaded push rod, which is far away from the threaded sleeve, is fixedly connected with the lifting mounting plate; the mounting rack is fixedly arranged on the mobile device; the rotary driver is fixedly arranged on the mounting frame; the driving wheel is fixedly connected with the output end of the rotary driver; the driven wheel is fixedly connected with the threaded sleeve and meshed with the driving wheel.

Preferably, the first positioning mechanism comprises a limiting rail, a bidirectional threaded rod, a sliding block and a clamping block; the limit rail is fixedly arranged on the lifting mounting plate; the bidirectional threaded rod is rotatably installed in the limiting rail; the sliding blocks are arranged in a plurality and are slidably arranged in the limiting rails and are in threaded connection with the bidirectional threaded rods; the clamping blocks are provided with a plurality of clamping blocks and are evenly distributed on the sliding block, and elastic abutting layers are arranged inside the clamping openings of the clamping blocks.

Preferably, the second positioning mechanism comprises a limiting frame, a limiting stop block, a locking screw and a limiting contact block; the limiting frame is fixedly arranged on the lifting mounting plate, the limiting stop block is fixedly connected with the limiting frame, and inner threaded holes are symmetrically formed in two sides of the limiting stop block; the limiting and abutting blocks are provided with a plurality of limiting and abutting blocks and are symmetrically arranged on two sides of the limiting stop block, and through holes are formed in the limiting and abutting blocks; the locking screw rods are provided with a plurality of locking screw rods, and the locking screw rods penetrate through the through holes of the limit stop blocks and are in threaded connection with the inner threaded holes of the limit stop blocks.

Preferably, the equipment protection mechanism comprises a horizontal sensor and an air bag; the horizontal sensor is fixedly arranged at the bottom of the lifting mounting plate; the gasbag is equipped with the several to the symmetry sets up on the lift mounting panel.

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

1. this application passes through the staff with aerosol collection system through first positioning mechanism and second positioning mechanism fixed mounting at lift control platform's top, will drive aerosol collection system through the staff and remove at operation mobile device, the staff can observe direction of travel and position at the control room through the camera, drive aerosol collection system rising position through lift control platform according to the testing environment, be convenient for better data collection, gather a slice regional data back, it can to move to next region, when the mobile device receives the striking and leads to turning on one's side, equipment protection mechanism then auto-induction and in time start protection aerosol collection system, this application can effectual reduction manpower, reduce the staff discrepancy detection area number of times simultaneously and avoid infecting.

2. This application is through the staff when the operation mobile device removes, when being close the barrier, and radar induction system discovery alarm suggestion staff, the guardrail reduces the impact for the toughness material can effectually ensure when the mobile device receives the striking.

3. This application is through passing through lift drive arrangement drive lift mounting panel lift removal according to the testing environment staff, drives aerosol collection system synchronous motion when lift mounting panel removes, and the stability when guide rail and guide telescopic link cooperation can effectually keep the lift mounting panel to remove.

4. This application is put the bottom through aerosol collection system on the lift mounting panel, and the staff turns to two-way threaded rod, and two-way threaded rod drives the synchronous mutual displacement of slider, and the slider removes and drives fixture block mutual displacement simultaneously, and fixture block mutual displacement passes through the bayonet socket with the spacing joint in aerosol collection system bottom, and the elastic conflict layer can effectually press the aerosol collection system bottom, avoids rocking from top to bottom when effectively avoiding removing.

5. This application is placed aerosol collection system on the lift mounting panel through the staff, and one side and the limit stop of aerosol collection system are contradicted, and the staff turns to locking screw, and locking screw drives spacing touch multitouch and aerosol collection system's lateral part and contradicts, and the spacing touch multitouch of limit stop both sides is contradicted aerosol collection system spacing and is held, effectively restricts aerosol collection system and rocks the stability when improving the removal all around.

6. When this application received to lead to turning on one's side when the striking through intelligent movement device, horizontal inductor detected that the inclination is too big and judges to turn on one's side, starts the gasbag and pops out the effectual striking damage of avoiding of parcel aerosol collection system.

Drawings

FIG. 1 is a perspective view of the present application and an aerosol collection device;

FIG. 2 is a side view of the present application;

FIG. 3 is a perspective view of the mobile device of the present application;

FIG. 4 is a perspective view of the lift console and moving device of the present application;

FIG. 5 is a sectional view at section A-A of FIG. 4;

FIG. 6 is a perspective view of a first positioning mechanism of the present application;

fig. 7 is a perspective view of a second positioning mechanism of the present application.

The reference numbers in the figures are:

1. a mobile device; 1. a guardrail; 1b, a radar sensing device;

2. a camera;

3. a lifting console; 3a, lifting and mounting plates; 3b, guiding a guide rail; 3c, guiding the telescopic rod; 3d, a lifting driving device; 3d1, mounting base; 3d2, threaded sleeve; 3d3, threaded push rod; 3d4, mounting rack; 3d5, rotary drive; 3d6, driving wheel; 3d7, driven wheel;

4. a first positioning mechanism; 4a, a limit rail; 4b, a bidirectional threaded rod; 4c, a sliding block; 4d, clamping blocks;

5. a second positioning mechanism; 5a, a limiting frame; 5b, a limit stop; 5c, limiting the abutting block; 5d, locking the screw rod;

6. an equipment protection mechanism; 6a, a horizontal sensor; 6b, an air bag;

7. an aerosol collection device.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

As shown in fig. 1 to 7, the present application provides:

a real-time monitoring device applied to aerosol monitoring and collection comprises an aerosol collection device 7 and an intelligent mobile device; the aerosol collecting device 7 is fixedly arranged on the intelligent mobile device, and the intelligent mobile device comprises a mobile device 1, a camera 2, a lifting control platform 3, a first positioning mechanism 4, a second positioning mechanism 5 and an equipment protection mechanism 6; the lifting control platform 3 is fixedly arranged on the mobile device 1, and the working end of the lifting control platform 3 vertically extends upwards; the camera 2 is fixedly arranged on the lifting control platform 3; the mobile device 1, the camera 2 and the lifting control platform 3 are all communicated with a remote control room; the first positioning mechanism 4 and the second positioning mechanism 5 are both fixedly arranged on the lifting control platform 3; the equipment protection mechanism 6 is fixedly installed on the lifting control platform 3.

Based on the above embodiment, the technical problem that this application wants to solve is effectual using manpower sparingly, avoids equipment to receive the collision simultaneously and leads to damaging. For this reason, this application is through the staff with aerosol collection system 7 through first positioning mechanism 4 and 5 fixed mounting of second positioning mechanism at the top of lifting control platform 3, will drive aerosol collection system removal at operation mobile device 1 through the staff, the staff can observe direction of travel and position through camera 2 in the control room, it rises the position to drive aerosol collection set through lifting control platform 3 according to the testing environment, be convenient for better acquisition data, gather after a slice regional data, it can to remove next slice region, when mobile device 1 receives the striking and leads to turning on one's side, equipment protection mechanism 6 then auto-induction and in time start protection aerosol collection system 7, this application can reduce the manpower effectively, reduce the staff and come in and go out the testing area number of times simultaneously and avoid infecting.

Further, as shown in fig. 3:

the outside of mobile device 1 is equipped with guardrail 1a, and guardrail 1a is toughness material, and the outside of guardrail 1a is equipped with several radar induction system 1b to evenly distributed.

Based on the above embodiments, the technical problem that the present application intends to solve is to facilitate the installation of the mobile device 1 for assisting the remote operation of the worker. For this reason, this application passes through the staff when operation mobile device 1 removes, when being close the barrier, and radar induction system 1b discovers alarm suggestion staff, and guardrail 1a is the toughness material, can effectually ensure that mobile device 1 reduces the impact when receiving the striking.

Further, as shown in fig. 4 and 5:

the lifting control platform 3 comprises a lifting mounting plate 3a, a guide rail 3b, a guide telescopic rod 3c and a lifting driving device 3 d; the lifting mounting plate 3a is arranged above the mobile device 1; the guide rails 3b are provided with a plurality of guide rails and are uniformly distributed on the mobile device 1; the guide telescopic rods 3c are provided with a plurality of guide telescopic rods and are uniformly distributed on the guide rails 3 b; the lifting driving device 3d is fixedly arranged on the moving device 1, and the output end of the lifting driving device 3d is fixedly connected with the lifting mounting plate 3 a.

Based on above-mentioned embodiment, the technical problem that this application wanted to solve is the height of stable lift regulation aerosol collection system 7, and the better data collection of aerosol collection system 7 of being convenient for. For this reason, this application is through going up and down to move through lift drive arrangement 3d drive lift mounting panel 3a according to the detection ring border staff, and lift mounting panel 3a drives 7 synchronous motion of aerosol collection system when moving, and the stability when guide rail 3b and guide telescopic link 3c cooperation can keep lift mounting panel 3a to move effectively.

Further, as shown in fig. 5:

the lifting driving device 3d comprises a mounting base 3d1, a threaded sleeve 3d2, a threaded push rod 3d3, a mounting frame 3d4, a rotary driver 3d5, a driving wheel 3d6 and a driven wheel 3d 7; the mounting base 3d1 is fixedly mounted on the mobile device 1; the threaded sleeve 3d2 is rotatably mounted on the mounting base 3d 1; the threaded push rod 3d3 is in threaded connection with the threaded sleeve 3d2, and one end of the threaded push rod 3d3, which is far away from the threaded sleeve 3d2, is fixedly connected with the lifting mounting plate 3 a; the mounting rack 3d4 is fixedly arranged on the mobile device 1; the rotary driver 3d5 is fixedly arranged on the mounting frame 3d 4; the driving wheel 3d6 is fixedly connected with the output end of the rotary driver 3d 5; the driven wheel 3d7 is fixedly connected with the threaded sleeve 3d2, and the driven wheel 3d7 is meshed with the driving wheel 3d 6.

Based on the above embodiment, the technical problem to be solved by the present application is to push the lifting mounting plate 3a to move up and down smoothly. For this reason, this application is preferred servo motor through the rotation driver, servo motor drives action wheel 3d6 and rotates, action wheel 3d6 drives from the rotation of driving wheel 3d7, it rotates to drive screw sleeve 3d2 when rotating from driving wheel 3d7, screw sleeve 3d2 rotates and drives screw thread push rod 3d3 concertina movement, then promote the steady lifting movement of lift mounting panel 3a during screw thread push rod 3d3 concertina movement, can effectively control lifting speed and distance through servo motor, effectively ensure the stationarity of going up and down.

Further, as shown in fig. 6:

the first positioning mechanism 4 comprises a limiting rail 4a, a bidirectional threaded rod 4b, a sliding block 4c and a clamping block 4 d; the limit rail 4a is fixedly arranged on the lifting mounting plate 3 a; the bidirectional threaded rod 4b is rotatably arranged in the limit rail 4 a; a plurality of sliding blocks 4c are arranged and are slidably arranged in the limiting rail 4a, and the sliding blocks 4c are in threaded connection with the bidirectional threaded rod 4 b; the clamping blocks 4d are provided with a plurality of clamping blocks and are evenly distributed on the sliding block 4c, and an elastic abutting layer is arranged inside the clamping opening of each clamping block 4 d.

Based on above-mentioned embodiment, the technical problem that this application wants to solve is the fixed aerosol collection system 7 bottom of joint, avoids rocking from top to bottom. For this reason, this application is put the bottom on lift mounting panel 3a through aerosol collection system 7, and the staff rotates two-way threaded rod 4b, and two-way threaded rod 4b drives the synchronous mutual displacement of slider 4c, and slider 4c removes and drives fixture block 4d mutual displacement simultaneously, and fixture block 4d mutual displacement passes through the bayonet socket with 7 spacing joints in bottom of aerosol collection system, and the elastic conflict layer can effectually press 7 bottoms of aerosol collection system, effectively avoids rocking from top to bottom.

Further, as shown in fig. 7:

the second positioning mechanism 5 comprises a limiting frame 5a, a limiting stop block 5b, a locking screw 5d and a limiting contact block 5 c; the limiting frame 5a is fixedly arranged on the lifting mounting plate 3a, the limiting stop 5b is fixedly connected with the limiting frame 5a, and inner threaded holes are symmetrically formed in two sides of the limiting stop 5 b; the limiting contact blocks 5c are arranged in a plurality and are symmetrically arranged on two sides of the limiting stop block 5b, and through holes are formed in the limiting contact blocks 5 c; the locking screw rods 5d are provided with a plurality of locking screw rods, and the locking screw rods 5d penetrate through the through holes of the limit stop blocks 5b and are in threaded connection with the inner threaded holes of the limit stop blocks 5 b.

Based on the above embodiment, the technical problem that this application wants to solve is that restriction aerosol collection system 7 rocks all around. For this reason, this application is placed aerosol collection system 7 on lift mounting panel 3a through the staff, one side and the conflict of limit stop 5b of aerosol collection system 7, the staff rotates locking screw 5d, locking screw 5d drives the conflict of spacing conflict 5c and aerosol collection system 7, the spacing conflict 5c of limit stop 5b both sides is with 7 spacing the hugging of conflicting of aerosol collection system, effectively restrict 7 rocks all around of aerosol collection system, stability when improving the removal.

Further, as shown in fig. 5 and 6:

the equipment protection mechanism 6 includes a horizontal sensor 6a and an air bag 6 b; the horizontal sensor 6a is fixedly arranged at the bottom of the lifting mounting plate 3 a; the air bags 6b are provided in a plurality and are symmetrically arranged on the lifting mounting plate 3 a.

Based on the above embodiment, the technical problem that the aerosol collection device 7 is damaged due to rollover of the equipment during movement is solved. For this reason, when this application leads to turning on one's side when receiving the striking through intelligent Mobile device, horizontal inductor 6a detects that the angle of inclination is too big and judges turning on one's side, starts gasbag 6b and pops out parcel aerosol collection system 7, effectively avoids the striking to damage.

This application is through the staff with aerosol collection system 7 through first positioning mechanism 4 and 5 fixed mounting of second positioning mechanism at the top of lift control platform 3, will drive aerosol collection system removal at operation mobile device 1 through the staff, the staff can observe direction of travel and position through camera 2 in the control room, drive aerosol collection package rising position through lift control platform 3 according to the detection environment, be convenient for better data collection, gather a slice regional data after, it can to move to next slice region, when mobile device 1 receives the striking and leads to turning on one's side, equipment protection mechanism 6 is then auto-induction and in time start protection aerosol collection system 7, this application can effectual reduction manpower, reduce the staff and come in and go out the detection area number of times and avoid infecting simultaneously.

The above examples are merely illustrative of one or more embodiments of the present invention, and the description thereof is more specific and detailed, but not intended to be construed as limiting the scope of the invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (7)

1. A real-time monitoring device applied to aerosol monitoring and collection comprises an aerosol collection device (7) and an intelligent mobile device; the aerosol collecting device (7) is fixedly arranged on the intelligent mobile device and is characterized in that the intelligent mobile device comprises a mobile device (1), a camera (2), a lifting control platform (3), a first positioning mechanism (4), a second positioning mechanism (5) and an equipment protection mechanism (6); the lifting control platform (3) is fixedly arranged on the mobile device (1), and the working end of the lifting control platform (3) vertically extends upwards; the camera (2) is fixedly arranged on the lifting control platform (3); the mobile device (1), the camera (2) and the lifting control platform (3) are communicated with a remote control room; the first positioning mechanism (4) and the second positioning mechanism (5) are both fixedly arranged on the lifting control platform (3); the equipment protection mechanism (6) is fixedly arranged on the lifting control platform (3).

2. The real-time monitoring device for monitoring and collecting the aerosol as claimed in claim 1, wherein a guardrail (1a) is disposed outside the moving device (1), the guardrail (1a) is made of flexible material, and a plurality of radar sensing devices (1b) are disposed outside the guardrail (1a) and are uniformly distributed.

3. The real-time monitoring device applied to aerosol monitoring and collection according to claim 1, wherein the lifting control platform (3) comprises a lifting mounting plate (3a), a guide rail (3b), a guide telescopic rod (3c) and a lifting driving device (3 d); the lifting mounting plate (3a) is arranged above the moving device (1); the guide rails (3b) are provided with a plurality of guide rails and are uniformly distributed on the moving device (1); the guide telescopic rods (3c) are provided with a plurality of guide telescopic rods and are uniformly distributed on the guide rails (3 b); the lifting driving device (3d) is fixedly arranged on the moving device (1), and the output end of the lifting driving device (3d) is fixedly connected with the lifting mounting plate (3 a).

4. The real-time monitoring equipment applied to aerosol monitoring and collection is characterized in that the lifting driving device (3d) comprises a mounting base (3d1), a threaded sleeve (3d2), a threaded push rod (3d3), a mounting frame (3d4), a rotary driver (3d5), a driving wheel (3d6) and a driven wheel (3d 7); the mounting base (3d1) is fixedly mounted on the mobile device (1); the threaded sleeve (3d2) is rotatably arranged on the mounting base (3d 1); the threaded push rod (3d3) is in threaded connection with the threaded sleeve (3d2), and one end, far away from the threaded sleeve (3d2), of the threaded push rod (3d3) is fixedly connected with the lifting mounting plate (3 a); the mounting rack (3d4) is fixedly arranged on the mobile device (1); the rotary driver (3d5) is fixedly arranged on the mounting frame (3d 4); the driving wheel (3d6) is fixedly connected with the output end of the rotary driver (3d 5); the driven wheel (3d7) is fixedly connected with the threaded sleeve (3d2), and the driven wheel (3d7) is meshed with the driving wheel (3d 6).

5. The real-time monitoring device applied to aerosol monitoring and collection according to claim 3, wherein the first positioning mechanism (4) comprises a limit rail (4a), a bidirectional threaded rod (4b), a sliding block (4c) and a clamping block (4 d); the limit rail (4a) is fixedly arranged on the lifting mounting plate (3 a); the bidirectional threaded rod (4b) is rotatably arranged in the limit rail (4 a); a plurality of sliding blocks (4c) are arranged and are slidably mounted in the limiting rail (4a), and the sliding blocks (4c) are in threaded connection with the bidirectional threaded rod (4 b); the clamping blocks (4d) are provided with a plurality of clamping blocks and are uniformly distributed on the sliding block (4c), and an elastic abutting layer is arranged inside the clamping opening of each clamping block (4 d).

6. The real-time monitoring device applied to aerosol monitoring and collection according to claim 3, wherein the second positioning mechanism (5) comprises a limit bracket (5a), a limit stop (5b), a locking screw (5d) and a limit contact block (5 c); the limiting frame (5a) is fixedly arranged on the lifting mounting plate (3a), the limiting stop block (5b) is fixedly connected with the limiting frame (5a), and inner threaded holes are symmetrically formed in two sides of the limiting stop block (5 b); the limiting contact blocks (5c) are provided with a plurality of limiting contact blocks and are symmetrically arranged on two sides of the limiting stop block (5b), and through holes are formed in the limiting contact blocks (5 c); the locking screw rods (5d) are provided with a plurality of locking screw rods, and the locking screw rods (5d) penetrate through the through holes of the limit stop blocks (5b) and are in threaded connection with the inner threaded holes of the limit stop blocks (5 b).

7. A real-time monitoring device for aerosol monitoring collection according to claim 3, wherein the device protection mechanism (6) comprises a level sensor (6a) and an air bag (6 b); the horizontal sensor (6a) is fixedly arranged at the bottom of the lifting mounting plate (3 a); the air bags (6b) are provided with a plurality of air bags and are symmetrically arranged on the lifting mounting plate (3 a).

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