CN109725114A - A kind of air-quality monitoring system - Google Patents

Abstract

The invention discloses a kind of air-quality monitoring systems, with at least one data acquisition device, the data acquisition device includes cabinet and the monitoring device that is installed in cabinet, the front end of the cabinet is pivoted with door-plate, cabinet is fixedly installed mounting plate in the wall outer surface adjacent with the door-plate or simultaneously in the wall outer surface adjacent and opposite with the door-plate, and the upper end of the mounting plate is provided with the hanging ring extended above cabinet.Hanging ring by being fixed on the side of cabinet by data acquisition device used by the air-quality monitoring system in the present invention, the requirement of the installation strength to the intensity and top plate of material of roof plate can be reduced, production cost can be reduced, and when top plate protrudes from side of cabinet, it can be to avoid its deformation, it is conducive to extend equipment life, it is practical.

Description

A kind of air-quality monitoring system

Technical field

The invention belongs to environmental monitoring technology fields, and in particular to a kind of air-quality monitoring system.

Background technique

Air quality automation monitoring system is used for pollution source monitoring point, Air Quality Evaluation point, air quality control point Ambient air quality monitoring is carried out with the ambient air quality monitoring point of the different function such as air quality background dot.System collection data Acquisition, data audit, statistical analysis, report publication, map can be used for environmental quality monitoring, roadside air quality prison in one Survey, industrial park, rural area station, venue monitoring and environmental impact assessment monitoring etc..Air-quality monitoring system data acquisition be by to Measuring point is arranged data acquisition device and realizes, the detecting instrument that data acquisition device generally comprises cabinet and is installed in cabinet, Traditional data acquisition device has the disadvantage that first, the hanging ring of cabinet upper end is directly fixed on the top plate side of cabinet, because This is more demanding to the installation strength of material of roof plate intensity and top plate when using hanging ring lifting data acquisition device, and In part data acquisition device, the top plate side of cabinet protrudes from side of cabinet, be easy to cause top plate all when lifting by hanging ring Side deformation；Second, detecting instrument is generally provided with multiple and respectively has different function, it is logical in traditional data acquisition device The mode for crossing screw connection will test instrument and be fixed in cabinet, be not easy to installation, maintenance.

Summary of the invention

To solve the above-mentioned problems, the present invention provides a kind of air-quality monitoring system, and hanging ring is used to be fixedly connected with machine The data acquisition device of cabinet side, and monitor is slidably mounted in cabinet and forms drawer-type structure, in order to install, tie up It repairs.

The technical solution adopted by the present invention to solve the technical problems is: a kind of air-quality monitoring system, has at least One data acquisition device, the data acquisition device include cabinet and the monitoring device that is installed in cabinet, the cabinet Front end is pivoted with door-plate, and cabinet is in the wall outer surface adjacent with the door-plate or simultaneously in the side adjacent and opposite with the door-plate Wall outer surface is fixedly installed mounting plate, and the upper end of the mounting plate is provided with the hanging ring extended above cabinet.

Preferably, the monitoring device is provided with several monitors, and the monitor includes β ray method particle monitoring One of instrument, flue gas analyser, nitrogen-oxide analyzer, ozone analyzer, carbonyl analyzer are a variety of.

Preferably, the monitoring device is additionally provided with dynamic calibration instrument and Zero gas generator.

Preferably, several sliding rails are provided in the cabinet, several sliding rails are each perpendicular to door-plate and beating The front opening setting of sliding rail when enabling plate, the monitor, dynamic calibration instrument and Zero gas generator can be from the front end sleeves of sliding rail Enter in sliding rail and is slidably mounted in sliding rail.

Preferably, several sliding rails are vertically stacked setting, the monitor, dynamic calibration instrument and zero gas hair Raw device is stackably installed in sliding rail along the vertical direction, and the bottom of the monitor, dynamic calibration instrument and Zero gas generator is equal It is provided with feet.

Preferably, the front end of the monitor, dynamic calibration instrument and Zero gas generator, which is provided with one, can cover sliding rail The panel of open end, the two sides of the panel are provided with several card slots, and the locking machine with card slot cooperation is provided on the cabinet Structure.

Preferably, thermostat is provided in the cabinet.

Preferably, the bottom of the cabinet is provided with idler wheel.

The beneficial effects of the present invention are: data acquisition device used by air-quality monitoring system in the present invention passes through Hanging ring is fixed on to the side of cabinet, the requirement of the installation strength to the intensity and top plate of material of roof plate can be reduced, can be dropped Low production cost, and when top plate protrudes from side of cabinet, it can be conducive to extend equipment life to avoid its deformation, it is practical Property is strong.

Detailed description of the invention

Present invention will be further explained below with reference to the attached drawings and examples:

Fig. 1 is the overall structure diagram of data acquisition device in the present invention；

Fig. 2 is the schematic diagram of internal structure of data acquisition device in the present invention.

Specific embodiment

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.The present invention being usually described and illustrated herein in the accompanying drawings is implemented The component of example can be arranged and be designed with a variety of different configurations.Therefore, below to the reality of the invention provided in the accompanying drawings The detailed description for applying example is not intended to limit the range of claimed invention, but is merely representative of selected implementation of the invention Example.

First embodiment

Referring to Figures 1 and 2, the present invention discloses a kind of air-quality monitoring system, has at least one data acquisition device, The data acquisition device includes cabinet 1 and the monitoring device that is installed in cabinet 1, and the front end of the cabinet 1 is pivoted with door-plate 2, cabinet 1 is logical in the wall outer surface adjacent and opposite with the door-plate 2 in the wall outer surface adjacent with the door-plate 2 or simultaneously The mode for crossing welding or screw connection is fixedly installed mounting plate 3, and the upper end of the mounting plate 3, which is provided with, extends cabinet 1 The hanging ring 4 of top.

The hanging ring 4 can be integrally formed with mounting plate 3 and be made, and being also possible to the later period is welded on mounting plate 3.In top plate When side is concordant with the side of cabinet 1, mounting plate 3 can be extended hanging ring 4 directly up.And machine is protruded from the side of top plate When the side of cabinet 1, installation can be set in the nose section of top plate and step down, so that mounting plate 3 can be extended hanging ring directly up 4, mounting plate 3 can also be made to extend to the top of top plate outward along the lower end of the nose section of top plate, then hanging ring 4 is set.It has The set-up mode of body can be selected according to factors such as the intensity of real material, or be made on the basis of above-mentioned several ways suitable When deformation and make hanging ring 4 be located at the top of cabinet 1.

Preferably, the monitoring device is provided with several monitors, and the monitor specifically includes β ray method particulate matter One of monitor, flue gas analyser, nitrogen-oxide analyzer, ozone analyzer, carbonyl analyzer are a variety of. Wherein, β ray method particle monitoring instrument is used to measure the particulate matter of different-grain diameter in air, the benefit interfered by β gamma ray background It repays, more accurate particulate matter quality data can be provided；Flue gas analyser is used to measure the concentration of sulfur dioxide in air, And ultraviolet pulse light source is preferably used, make instrument UV energy with higher, so that the dioxy of extremely low concentration can be detected Change sulfur content；Nitrogen-oxide analyzer, is used to measure the content of nitrogen oxides in air；Ozone analyzer is for measuring in air Ozone content；Carbonyl analyzer is used to measure the carbon monoxide content in air.Above-mentioned several monitors are all made of The instrument of known structure on the market, therefore therefore not to repeat here for its specific structure.

In addition to this, the monitoring device being installed in cabinet 1 further includes for providing the dynamic of the various gases of Exact concentrations State prover, by providing the various gases of Exact concentrations come for calibrating to all kinds of monitors, according to external standard Gaseous species provide the calibrating gas output of Exact concentrations, complete zero point, span, precision and the multiple spot calibration work of monitor Make.So the monitoring device is additionally provided with Zero gas generator, which is used to dilute zero gas source of dynamic calibration instrument, Zero stable gas is provided.Since dynamic calibration instrument and Zero gas generator are also disclosed in the prior art, therefore its specific structure is herein It does not repeat.

In view of each detecting instrument is fixedly installed in cabinet 1 in traditional data acquisition device, part instrument is being installed After device, the space in cabinet 1 reduces and remaining instrument is made to be not easy to install, and is also not easy to tear open in the Maintenance and Repair stage It unloads.So several sliding rails are each perpendicular to door-plate 2 and make in being provided with several sliding rails in the cabinet 1 in the present embodiment The front opening setting of the sliding rail when opening door-plate 2 is obtained, the monitor, dynamic calibration instrument and Zero gas generator can be from sliding rails It is inserted in sliding rail and is slidably mounted in sliding rail in front end.Also, the monitor, dynamic calibration instrument and Zero gas generator Front end is provided with the panel 5 for the open end that one can cover sliding rail, and the two sides of the panel 5 are provided with several card slots 7, the machine The retaining mechanism cooperated with card slot 7 is provided on cabinet 1.In this way, when installing above-mentioned instrument, it is only necessary to which instrument is inserted into corresponding sliding rail It is interior, then locked from the card slot 7 of the instrument by retaining mechanism.In the Maintenance and Repair stage, when needing to dismantle instrument, only Corresponding retaining mechanism need to be unlocked, then instrument is extracted out out of corresponding sliding rail.So be arranged by above structure, Data acquisition device simple installation, disassembly are saved trouble in the present embodiment, practical.

In order to facilitate dismounting instrument, the outside of panel 5 is equipped at least two vertical handles 8, and user can be by holding Handle 8 is held to control the movement of instrument.

As shown, the front end of each instrument (i.e. monitor, dynamic calibration instrument and Zero gas generator) in the present embodiment Panel 5 is opened up in the left and right sides there are two card slot 7, and card slot 7 is the open slot of outer end opening setting, in order to be processed into Type, while being also convenient for cooperating with retaining mechanism.Retaining mechanism in the present embodiment is arranged in a one-to-one correspondence with corresponding instrument, i.e., often A instrument is respectively provided with a retaining mechanism, to realize individually locking and unlock.

As the first preferred embodiment of retaining mechanism in the present embodiment, which includes being set to sliding rail two Side, the multiple studs vertical with card slot 7 have been removably installed wing nut 6 on stud.It is pushed completely into sliding rail in instrument When, stud passes through card slot 7 from the back side of panel 5 and is positioned partially or entirely in facial front end, then installs wing nut 6 and locked Tightly, to realize the fixation of instrument.The installation of the stud can be directly welded on cabinet 1, can also first by stud welding in On one angle steel, then angle steel is fixed on cabinet 1 to the installation for realizing stud by screw or bolt.In order to avoid wing nut 6 during locking instrument rub 5 surface of panel cause lacquer painting to damage, can be further between wing nut 6 and panel 5 Elastic component is set, spring or rubber ring are such as set, after instrument is pushed into sliding rail, spring or rubber ring are first inserted in stud On, then wing nut 6 is installed.

As the second preferred embodiment of retaining mechanism in the present embodiment, which includes that can slide up and down to peace Loaded on cabinet 1 and the fixture blocks of sliding rail two sides is located at, the outer end face of fixture block is provided with along lower upwardly direction gradually outwardly convex Lozenges or cambered surface, the recessing groove for passing through after fixture block uplink is offered on the panel 5 of instrument.In this way, by instrument During device is pushed into sliding rail, the end of recessing groove first abuts the outer end face of fixture block on panel 5, makes under pressure thereon Row, after fixture block compression uplink certain distance, the end of recessing groove and the lower end of fixture block are concordant, so that panel 5 is pushed into fixture block Inside, at this time fixture block under gravity downlink and be clamped panel 5, realize locking to instrument.In addition can further in Spring is set above fixture block, so that the elastic force by spring applies a downward thrust to fixture block, avoid fixture block when jolting on Lower floating.

In order to reduce occupied area, the horizontal foot print of cabinet 1 will not generally be arranged it is larger, it is several so preferably The sliding rail is vertically stacked setting, and the monitor, dynamic calibration instrument and Zero gas generator stack along the vertical direction Ground is installed in sliding rail.In its actual production process, several sliding rails can be set to a column or two column or multiple row.So phase Has a fixed spacing between two adjacent sliding rails, so that keeping certain safe distance, in turn, panel between two adjacent instruments 5 size setting is greater than the size of instrument body so that blocked between two sliding rails when being installed in sliding rail by panel 5 or Gap between two instruments of person, promotes the associative perception of data acquisition device.

In addition to this, the bottom of the monitor in the present embodiment, dynamic calibration instrument and Zero gas generator is provided with feet. The feet is set to four angles of above-mentioned instrument, and its lower end protrudes from the lower end of panel 5, so that individually taking out instrument When, instrument can be supported by feet, 5 compressive deformation of panel will not be caused, while instrument can also be kept horizontal, be conducive in holding The stabilization of portion's structure, the progress of work easy to repair.

Further, it is provided with thermostat in the cabinet 1, the thermostat is using known structure on the market, therefore it has Therefore not to repeat here for body structure.Cabinet 1 can keep internal temperature constant by the effect of thermostat, so that data acquisition device It is practical in the environment of can be adapted for different temperatures.

Further, the bottom of the cabinet 1 is provided with idler wheel, which is preferably arranged to the rolling for having lock function Wheel.By the idler wheel can in order to cabinet 1 movement, carry, and idler wheel lockable, can prevent cabinet 1 from non-control shifting occurs It is dynamic, convenient for control.

Further, it is provided with back door to be opened/closed on the backboard of cabinet 1, the wiring of instrument is realized by back door.

In conclusion data acquisition device used by air-quality monitoring system in the present embodiment is by by hanging ring 4 It is fixed on the side of cabinet 1, the requirement of the installation strength to the intensity and top plate of material of roof plate can be reduced, production can be reduced Cost, and when top plate protrudes from 1 side of cabinet, it can be conducive to extend equipment life to avoid its deformation, it is practical.

Second embodiment

The present embodiment based on first embodiment, the difference is that, in the present embodiment only have monitor be sliding peace Loaded on cabinet 1, dynamic calibration instrument and Zero gas generator are that common detachable mounting means is installed on cabinet 1, with It is unsuitable for that the situation of more sliding rail is arranged suitable for cabinet 1.

Above-described embodiment is preferred embodiment of the invention, and the present invention can also have other embodiments.The technology of this field Personnel can also make equivalent deformation or replacement on the premise of without prejudice to spirit of the invention, these equivalent variation or replacement are wrapped It is contained in range set by the claim of this application.

Claims (8)

1. a kind of air-quality monitoring system, which is characterized in that have at least one data acquisition device, the data acquisition dress Set including cabinet and the monitoring device that is installed in cabinet, the front end of the cabinet is pivoted with door-plate, cabinet in the door-plate phase Adjacent wall outer surface is fixedly installed mounting plate, the peace in the wall outer surface adjacent and opposite with the door-plate simultaneously The upper end of loading board is provided with the hanging ring extended above cabinet.

2. a kind of air-quality monitoring system as described in claim 1, which is characterized in that the monitoring device is provided with several A monitor, the monitor include β ray method particle monitoring instrument, flue gas analyser, nitrogen-oxide analyzer, ozone One of analyzer, carbonyl analyzer are a variety of.

3. a kind of air-quality monitoring system as claimed in claim 2, which is characterized in that the monitoring device is additionally provided with dynamic State prover and Zero gas generator.

4. a kind of air-quality monitoring system as claimed in claim 3, which is characterized in that be provided with several cunnings in the cabinet Rail, several sliding rails are each perpendicular to door-plate and the front opening of the sliding rail when opening door-plate are arranged, the monitor, Dynamic calibration instrument and Zero gas generator can be inserted in sliding rail from the front end of sliding rail and be slidably mounted in sliding rail.

5. a kind of air-quality monitoring system as claimed in claim 4, which is characterized in that several sliding rails are along vertical side To being stacked, the monitor, dynamic calibration instrument and Zero gas generator are stackably installed in sliding rail along the vertical direction, and institute The bottom for stating monitor, dynamic calibration instrument and Zero gas generator is provided with feet.

6. a kind of air-quality monitoring system as claimed in claim 5, which is characterized in that the monitor, dynamic calibration instrument The panel for the open end that one can cover sliding rail is provided with the front end of Zero gas generator, the two sides of the panel are provided with several Card slot is provided with the retaining mechanism with card slot cooperation on the cabinet.

7. a kind of air-quality monitoring system as claimed in any one of claims 1 to 6, which is characterized in that setting in the cabinet There is thermostat.

8. a kind of air-quality monitoring system as claimed in any one of claims 1 to 6, which is characterized in that the bottom of the cabinet It is provided with idler wheel.