CN217060137U - Atmospheric pollution monitoring device based on wireless network - Google Patents

Abstract

The utility model discloses an atmosphere pollution monitoring devices based on wireless network, the measuring instrument comprises an instrument body, fixing device is installed to the rear side of instrument, the instrument is installed to the below front end of standpipe, the below outer wall of standpipe closely laminates with the internal surface of rubber circle, the outer wall rigid coupling of rubber circle is at telescopic top inner wall. Compared with the prior art, the atmospheric pollution monitoring device based on the wireless network has the following advantages: through the cooperation between instrument and the fixing device, take off the nut on the upper and lower horizontal pole earlier in proper order, make the standpipe drive two horizontal poles and rotate to the left side, then two horizontal poles rotate to the left side in the curved groove on rubber circle and sleeve respectively, until arriving, rebound standpipe this moment, the standpipe leaves the sleeve, makes things convenient for the instrument to take away the maintenance, has solved current atmosphere pollution monitoring devices based on the wireless network, because long-time use, the problem of not convenient to detach maintenance.

Description

Atmospheric pollution monitoring device based on wireless network

Technical Field

The utility model relates to an atmosphere pollution monitoring technology field specifically is an atmosphere pollution monitoring devices based on wireless network.

Background

The atmospheric pollution monitoring is a process of measuring the types and concentrations of pollutants in the atmosphere and observing the time-space distribution and change rules of the pollutants, aims to identify pollutants in the atmosphere, master the distribution and diffusion rules of the pollutants, monitor the emission and control conditions of an atmospheric pollution source, and mostly adopts wireless control.

However, the existing wireless network-based atmospheric pollution monitoring device is inconvenient to disassemble and overhaul due to long-time use.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an atmosphere pollution monitoring devices based on wireless network to the current atmosphere pollution monitoring devices based on wireless network who proposes in solving above-mentioned background art, because long-time use, the problem of the dismantlement maintenance of being not convenient for.

In order to achieve the above purpose, the utility model provides a following technical scheme: an atmospheric pollution monitoring device based on a wireless network comprises an instrument, wherein a fixing device is installed on the rear side of the instrument;

the fixing device comprises a vertical pipe, a rubber ring, a sleeve, a cross rod, a curved groove and a screw cap;

the instrument is installed to the below front end of standpipe, the below outer wall of standpipe closely laminates with the internal surface of rubber circle, the outer wall rigid coupling of rubber circle is at telescopic top inner wall, the below front end rigid coupling of standpipe has a plurality of horizontal poles, the outer wall of horizontal pole all laminates with the internal surface in bent groove mutually, the bent groove is seted up at rubber circle and telescopic inner wall, the equal rigid coupling in the place ahead outer wall of horizontal pole has the nut that is connected with, the rear end of nut all supports tightly at telescopic top front end. The instrument is convenient to take away and overhaul.

Preferably, the screen is installed to the top of standpipe, the instrument passes through internal conductor and screen electric connection, the top rigid coupling of standpipe has the vertical pin. The vertical rod is a lightning rod, and plays a role in lightning protection.

Preferably, an embedded part is arranged below the vertical pipe, and the outer wall of the embedded part is fixedly connected to the inside of the ground surface. The embedded part is fixed in the ground surface.

Preferably, one side of the lower part of the sleeve is provided with a connecting device;

the connecting device comprises a cable, a circular tube, a connecting tube, a bent plate, a threaded hole, a threaded rod and a handle;

the outer wall laminating of cable has the pipe, the outer wall laminating of pipe has the takeover, the one end and the telescopic below of takeover are linked together, the equal rigid coupling in outer wall four corners of pipe has the bent plate, the inner wall of bent plate all sets up threaded hole, the equal threaded connection of internal surface of screw hole has the threaded rod, the equal rigid coupling in the outside of threaded rod has the handle, the inboard of threaded rod supports tight outer wall four corners at the takeover respectively. The connection and wiring are convenient, and the monitoring instrument can work normally.

Preferably, a mounting device is arranged below the sleeve;

the mounting device comprises a base, a circular plate, a bolt and a nut;

the top rigid coupling of base has the sleeve, the bottom rigid coupling of base has the plectane, the four corners inner wall of plectane all with the outer wall clearance fit of bolt, the bottom of bolt rigid coupling respectively is in the top four corners of built-in fitting, the equal threaded connection of outer wall of bolt has the nut, the bottom of nut supports tightly respectively in the top four corners of plectane. The integral installation is convenient on the embedded part.

Compared with the prior art, the beneficial effects of the utility model are that: compared with the prior art, the atmospheric pollution monitoring device based on the wireless network has the following advantages:

through the cooperation between instrument and the fixing device, take off the nut on the horizontal pole from top to bottom earlier in proper order, make the standpipe drive two horizontal poles and rotate to the left side, then two horizontal poles rotate to the left side in the curved inslot on rubber circle and sleeve respectively, until the head, the rebound standpipe this moment, the standpipe leaves the sleeve, makes things convenient for the instrument to take away the maintenance, has solved current atmosphere pollution monitoring devices based on the wireless network, because long-time use, the problem of the dismantlement maintenance of being not convenient for.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure A in FIG. 1;

FIG. 3 is a schematic view of the structure B in FIG. 1;

fig. 4 is a schematic structural diagram of C in fig. 1.

In the figure: 1. instrument, 2, screen, 3, vertical pin, 4, fixing device, 401, vertical pipe, 402, rubber ring, 403, sleeve, 404, cross rod, 405, curved groove, 406, nut, 5, connecting device, 501, cable, 502, circular pipe, 503, adapter, 504, curved plate, 505, threaded hole, 506, threaded rod, 507, handle, 6, mounting device, 601, base, 602, circular plate, 603, bolt, 604, nut, 7, embedded part, 8, earth's surface.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Referring to fig. 1-4, the present invention provides a technical solution: an atmospheric pollution monitoring device based on a wireless network comprises an instrument 1, wherein a fixing device 4 is installed on the rear side of the instrument 1, the instrument 1 can be selected according to actual use requirements, the fixing device 4 comprises a vertical pipe 401, a rubber ring 402, a sleeve 403, a cross rod 404, a curved groove 405 and a screw cap 406, the instrument 1 is installed at the front end of the lower portion of the vertical pipe 401, the outer wall of the lower portion of the vertical pipe 401 is tightly attached to the inner surface of the rubber ring 402, the outer wall of the rubber ring 402 is fixedly connected to the inner wall of the upper portion of the sleeve 403, the rubber ring 402 seals the connection portion of the vertical pipe 401 and the sleeve 403, the front end of the lower portion of the vertical pipe 401 is fixedly connected with two cross rods 404, the outer wall of each cross rod 404 is attached to the inner surface of the curved groove 405, the curved groove 405 is arranged on the inner walls of the rubber ring 402 and the sleeve 403, when the vertical pipe 401 drives the two cross rods 404 to rotate to the left side, the two cross rods 404 rotate to the left side in the curved grooves 405 on the rubber ring 402 and the sleeve 403 respectively, until the end, the outer wall in front of the cross rod 404 is fixedly connected with a nut 406, the rear end of the nut 406 is tightly propped against the front end above the sleeve 403, and the nuts 406 on the upper cross rod 404 and the lower cross rod 404 are sequentially taken down.

Screen 2 is installed to standpipe 401's top, screen 2 according to the in-service use needs select can, instrument 1 through inside conductor and screen 2 electric connection, instrument 1 monitors atmospheric data and transmits for screen 2 through inside conductor, then information shows through screen 2, standpipe 401's top rigid coupling has riser 3, riser 3 is the lightning rod, plays the lightning-arrest effect.

The electric wire of the connecting instrument 1 passes through the vertical pipe 401 and the sleeve 403 to descend, an embedded part 7 is arranged below the vertical pipe 401, the outer wall of the embedded part 7 is fixedly connected inside the ground surface 8, and the embedded part 7 is fixed in the ground surface 8.

A connecting device 5 is installed on one side below the sleeve 403, the connecting device 5 comprises a cable 501, a circular tube 502, a connecting tube 503, a curved plate 504, a threaded hole 505, a threaded rod 506 and a handle 507, the circular tube 502 is attached to the outer wall of the cable 501, the connecting tube 503 is attached to the outer wall of the circular tube 502, one end of the connecting tube 503 is communicated with the lower portion of the sleeve 403, the cable 501 is connected with an electric wire which passes through the connecting tube 503 below the sleeve 403, the circular tube 502 is inserted into the connecting tube 503, the curved plate 504 is fixedly connected to four corners of the outer wall of the circular tube 502, the threaded hole 505 is formed in the inner wall of the curved plate 504, the threaded rod 506 is in threaded connection with the inner surface of the threaded hole 505, the handle 507 is fixedly connected to the outer side of the threaded rod 506, the inner side of the threaded rod 506 is respectively abutted against the outer wall of the connecting tube 503, the handle 507 at the four corners is sequentially rotated, the threaded rods 506 are driven to rotate, the threaded rods 505 on the four corners of the curved plates 504 move inwards, until the outer wall of the adapter 503 is tightly pressed, so that the circular tube 502 is fixed in the adapter 503.

The installation device 6 is arranged below the sleeve 403, the installation device 6 comprises a base 601, a circular plate 602, bolts 603 and nuts 604, the sleeve 403 is fixedly connected to the top end of the base 601, the circular plate 602 is fixedly connected to the bottom end of the base 601, inner walls of four corners of the circular plate 602 are in clearance fit with outer walls of the bolts 603, the bottom ends of the bolts 603 are respectively fixedly connected to four corners of the top end of the embedded part 7, the circular plate 602 is driven by the sleeve 403 to move downwards through the base 601, the circular plate 602 penetrates through the bolts 603 at the four corners of the embedded part 7, the nuts 604 are in threaded connection with the outer walls of the bolts 603, the bottom ends of the nuts 604 respectively abut against the four corners of the top end of the circular plate 602, and the corresponding nuts 604 are installed on the bolts 603 at the four corners to fix the circular plate 602 on the embedded part 7, so that the sleeve 403 is fixed on the embedded part 7 without being disassembled.

When the wireless network-based atmospheric pollution monitoring device is used, firstly, the sleeve 403 is manually driven by the base 601 to move downwards, the circular plate 602 penetrates through the bolts 603 at the four corners of the embedded part 7, then the corresponding nuts 604 are arranged on the bolts 603 at the four corners, the circular plate 602 is fixed on the embedded part 7, so that the sleeve 403 is fixed on the embedded part 7, the cable 501 is connected with the electric wires coming out from the connecting pipe 503 below the sleeve 403 without being disassembled, the instrument 1 and the screen 2 are powered, then the circular pipe 502 is inserted into the connecting pipe 503, at the moment, the handles 507 at the four corners are sequentially rotated, the corresponding threaded rods 506 are driven to rotate, the cable 501 moves inwards in the threaded holes 505 on the bent plates 504 at the four corners until the cable is tightly abutted against the outer wall of the connecting pipe 503, the circular pipe 502 is fixed in the connecting pipe 503, the instrument 1 is connected with a network, the monitored atmospheric data is transmitted to the screen 2 through the internal conducting wires, and information is displayed by the screen 2, and the riser 3 is the lightning rod, plays the lightning protection effect, and the screw cap 406 on the upper and lower horizontal pole 404 is taken off in proper order earlier to the manual work, makes standpipe 401 drive two horizontal poles 404 and rotate to the left side, then two horizontal poles 404 rotate to the left side respectively in curved groove 405 on rubber circle 402 and sleeve 403, and until the head, rebound standpipe 401 this moment, standpipe 401 leave sleeve 403, can make instrument 1 take away the maintenance.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (5)

1. An atmospheric pollution monitoring device based on wireless network, includes instrument (1), its characterized in that: a fixing device (4) is arranged at the rear side of the instrument (1);

the fixing device (4) comprises a vertical pipe (401), a rubber ring (402), a sleeve (403), a cross rod (404), a curved groove (405) and a nut (406);

instrument (1) is installed to the below front end of standpipe (401), the below outer wall of standpipe (401) closely laminates with the internal surface of rubber circle (402), the outer wall rigid coupling of rubber circle (402) is at the top inner wall of sleeve (403), the below front end rigid coupling of standpipe (401) has a plurality of horizontal poles (404), the outer wall of horizontal pole (404) all laminates with the internal surface in curved groove (405), the inner wall in rubber circle (402) and sleeve (403) is seted up in curved groove (405), the equal rigid coupling of the place ahead outer wall of horizontal pole (404) has and is connected with nut (406), the rear end of nut (406) all supports the top front end in sleeve (403).

2. The wireless network-based atmospheric pollution monitoring device according to claim 1, wherein: the screen (2) is installed to the top of standpipe (401), instrument (1) is through inside wire and screen (2) electric connection, the top rigid coupling of standpipe (401) has riser pin (3).

3. The wireless network-based atmospheric pollution monitoring device of claim 1, wherein: an embedded part (7) is arranged below the vertical pipe (401), and the outer wall of the embedded part (7) is fixedly connected to the inside of the ground surface (8).

4. The wireless network-based atmospheric pollution monitoring device of claim 1, wherein: a connecting device (5) is arranged on one side below the sleeve (403);

the connecting device (5) comprises a cable (501), a round tube (502), a connecting tube (503), a curved plate (504), a threaded hole (505), a threaded rod (506) and a handle (507);

the outer wall laminating of cable (501) has pipe (502), the outer wall laminating of pipe (502) has takeover (503), the one end of takeover (503) is linked together with the below of sleeve (403), the equal rigid coupling in outer wall four corners of pipe (502) has bent plate (504), threaded hole (505) are all seted up to the inner wall of bent plate (504), the equal threaded connection in internal surface of threaded hole (505) has threaded rod (506), the equal rigid coupling in the outside of threaded rod (506) has handle (507), the inboard of threaded rod (506) supports tightly respectively in the outer wall four corners of takeover (503).

5. The wireless network-based atmospheric pollution monitoring device of claim 1, wherein: a mounting device (6) is arranged below the sleeve (403);

the mounting device (6) comprises a base (601), a circular plate (602), a bolt (603) and a nut (604);

the top rigid coupling of base (601) has sleeve (403), the bottom rigid coupling of base (601) has plectane (602), the four corners inner wall of plectane (602) all with the outer wall clearance fit of bolt (603), the bottom rigid coupling is respectively in the top four corners of built-in fitting (7) in the bottom of bolt (603), the equal threaded connection of outer wall of bolt (603) has nut (604), the bottom of nut (604) supports tightly respectively in the top four corners of plectane (602).

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