KR102474005B1 - Apparatus for measuring integrated weather and atmosphere condition - Google Patents

Abstract

The present invention relates to an apparatus for automatically and continuously performing integrated measurement of atmospheric quality, wherein devices for measuring a contamination state of an atmospheric environment, which includes a concentration of fine dust and a concentration of ultrafine particles are configured as a set to integrally manage various kinds of measurement data as well as facilitate movement and maintenance of the devices. The apparatus for automatically and continuously performing integrated measurement of atmospheric quality according to the present invention comprises: a rack for integrated installation; a PM2.5 measurement device and a PM10 measurement device whose main bodies are installed on and fixed to a holder for a fine dust measurement device in the rack for integrated installation; a nitrogen dioxide analyzer installed on one side of the accommodation space arranged in a lower case of the rack for integrated installation; a data logger installed on one side of the accommodation space arranged in the lower case to store measurement data obtained through measurement by the PM2.5 measurement device, the PM10 measurement device, and the nitrogen dioxide analyzer; a measurement device power source installed on one side of the accommodation space arranged in the lower case to supply power to the PM2.5 measurement device, the PM10 measurement device, the nitrogen dioxide analyzer, the nitrogen dioxide motor, and the data logger; and a weather sensor installed on a weather sensor holder.

Description

Air quality continuous automatic integrated measuring device {Apparatus for measuring integrated weather and atmosphere condition}

The present invention relates to a continuous automatic integrated measuring device for air quality, and more particularly, equipment for measuring air pollution conditions, including fine dust concentration and ultrafine dust concentration, is configured as a set and is easy to move and manage. In addition, it relates to a continuous automatic integrated measurement device for air quality configured to integrate and manage various types of measurement data.

In order to prevent damage from air pollution, air pollutants are discharged or are likely to be discharged, and air quality measurement equipment is used for regular inspections. In particular, in facilities such as power plants that emit air pollutants from time to time, the degree of air pollution must be monitored through continuous inspection through air environment measurement equipment.

In addition, recently, as the damage caused by fine dust and ultrafine dust has increased rapidly, a fine dust sampler is being used to measure the concentration of fine dust and ultrafine dust. The fine dust sampler, which is a fine dust measuring device, is divided into a PM2.5 sampler for measuring the concentration of ultrafine dust with a particle size of 2.5㎛ or less, and a PM10 sampler for measuring the concentration of fine dust with a particle size of 10㎛ or less. .

Particulate matter of fine particles floating in the air is so large that it cannot be seen with the naked eye. Fine dust caused by pollen, soil, dust, mold, etc. falls under PM10, and sulfur oxides (SOx), nitrogen oxides (NOx), ammonia, volatile organic compounds (VOCs), heavy metals (lead, nickel, copper, zinc) , arsenic, etc.) and polycyclic aromatic hydrocarbons (PAHs) are converted into nitrate, sulfate, ammonium, non-volatile organic matter, organic carbon, soot, and minerals in the air, which corresponds to PM2.5. Therefore, it is considered important to manage PM2.5 and PM10 because they are not only harmful to the human body but also have a great impact on the natural environment.

1 is a view for explaining a process of measuring the concentration of fine dust in the air by the prior art. As shown in FIG. 1, a PM2.5 measuring device 12 for measuring ultrafine dust and a PM10 measuring device 14 for measuring fine dust are installed at a certain height as equipment for measuring the atmospheric environment, and a nitrogen dioxide analyzer 22 is installed The above-mentioned PM2.5 measuring device 12 and PM10 measuring device 14 may be configured to perform functions such as temperature measurement, flow rate measurement, and atmospheric pressure measurement in addition to the function of measuring fine dust.

The aforementioned PM2.5 measuring device 12 and PM10 measuring device 14 are installed by tripods 12a and 14a, respectively, and air collecting heads 12b and 14b are installed at a certain height. The aforementioned PM2.5 meter 12 and PM10 meter 14 are configured as one set, and are stored in the fine dust meter case 10 during storage and mobile installation.

And, as shown in the drawing, an air inlet 24 for introducing sample air is formed through one side of the nitrogen dioxide analyzer 22, and the sample air introduced through the air inlet 24 is formed inside the nitrogen dioxide analyzer 22. An apparatus is installed to determine the concentration of NOx by allowing the absorbent coloring solution to pass through and measuring the absorbance of the colored solution. This nitrogen dioxide analyzer 22 is stored in the NOx analyzer case 20.

On the other hand, in the process of measuring the atmospheric environment in an outdoor field, as shown in FIG. 1, the fine dust measuring instrument case 10 and the NOx analyzer case 20 are sometimes used as a pedestal on which the nitrogen dioxide analyzer 22 is placed.

As described above, in the past, there was a difficulty in moving a large number of measurement equipment to an outdoor site where atmospheric environment measurement is required, and management costs increase as a manager resides at the site where the atmospheric environment measurement equipment is installed and measures. There were problems with becoming.

In addition, as the measurement data measured from the PM2.5 meter for measuring the concentration of ultrafine dust, the PM10 meter for measuring the concentration of fine dust, and the nitrogen dioxide analyzer for measuring the concentration of nitrogen dioxide in the air are separately managed, management is easy. There was a problem that couldn't be easily done.

Korean Intellectual Property Office Registered Patent Publication 10-2062161 (2020.01.03. Notice) Korean Intellectual Property Office Registered Patent Publication 10-1937735 (2019.01.11. Notice) Korean Intellectual Property Office Registered Patent Publication 10-0789477 (2008.01.02. Notice) Korean Intellectual Property Office Publication No. 10-2021-0048775 (published on May 4, 2021)

This invention was invented to solve the problems of the prior art as described above, and the equipment for measuring the air pollution state, including the concentration of fine dust and the concentration of ultrafine dust, is composed of a set and is easy to move and manage. An object of the present invention is to provide a device for continuous automatic integrated measurement of air quality, which is not only easy but also configured to integrate and manage various types of measurement data.

This invention can be configured as follows as a means for achieving the object of the invention as described above.

In the air quality continuous integrated measuring device according to the present invention, doors are assembled and installed on the front and rear surfaces of a lower case formed in the form of a box having a storage space therein, and an upper case is installed on the rear side of the upper surface of the lower case, A storage space is formed, a door is installed at the rear, a fine dust measuring equipment cradle is installed on the upper part of the lower case at the front of the upper case, and a weather sensor cradle is installed on the upper part of the fine dust measuring equipment cradle. Integrated installation rack; A PM2.5 measuring instrument in which the main body of the measuring instrument is fixedly installed on one side of the cradle for the fine dust measuring equipment of the rack for integrated installation, and the air collection head is connected to the upper side of the measuring instrument body through a connecting pipe; A PM10 measuring instrument in which the main body of the measuring instrument is fixedly installed on the other side of the cradle for the fine dust measuring equipment of the rack for integrated installation, and the air collection head is connected to the upper side of the measuring instrument body through a connection pipe; A nitrogen dioxide analyzer installed on one side of the storage space provided in the lower case of the rack for integrated installation; A nitrogen dioxide motor installed on the other side of the storage space of the lower case to supply nitrogen dioxide to the nitrogen dioxide analyzer; A data logger installed on one side of the storage space provided in the lower case to store measurement data measured by the PM2.5 meter, the PM10 meter, and the nitrogen dioxide analyzer; A measuring device power supply installed on one side of the storage space provided in the lower case to supply power to the PM2.5 meter, the PM10 meter, the nitrogen dioxide analyzer, the nitrogen dioxide motor, and the data logger; And a weather sensor installed on the weather sensor cradle; It can be configured to include.

In the air quality continuous integrated measuring device according to the present invention, the storage space of the lower case may be configured to be separated by shelves and bulkheads so that the space in which the nitrogen dioxide analyzer, the nitrogen dioxide motor, the data logger, and the power supply for the measuring device are installed is distinguished.

In the air quality continuous integrated measuring device according to the present invention, a moving wheel may be installed in the lower part of the lower case, and a stopper may be installed in the moving wheel.

In the air quality continuous integrated measuring device according to the present invention, in the storage space of the upper case, there is a buffer storage member in which an air collecting head connected to the upper part of the measuring instrument body of the PM2.5 measuring instrument and the upper part of the measuring instrument body of the PM10 measuring instrument and the connecting pipe are accommodated. can be placed.

In the continuous integrated automatic air quality measuring device according to the present invention, a camera cradle is installed on the top of the upper case, and a camera may be installed in the camera cradle.

In the continuous automatic integrated measuring device for air quality according to the present invention, the fine dust measuring equipment cradle has a base frame fixed to the upper surface of the lower case, a center frame extending from the middle of the base frame to a certain height toward the top, and a front of the center frame. A first post frame extending to a height corresponding to the center frame, a second post frame extending to a height lower than the center frame at the rear of the center frame, and connecting the middle of the first post frame and the upper end of the second post frame to each other. However, it consists of a cross frame in which the middle part is connected in the middle of the center frame, and both sides of the intersection section where the center frame and the cross frame are connected in a + shape are configured to include hangers for attaching the main body of the fine dust measuring equipment. can

According to the continuous automatic integrated measuring device for air quality according to an embodiment of the present invention, in the process of going out to an outdoor site to measure the pollution state of the air environment, a plurality of air environment measuring devices are mounted in one set and moved and As it can be managed, not only is it easy to manage, but it also has the effect of reducing management costs.

In particular, according to the air quality continuous integrated measuring device according to an embodiment of the present invention, a PM2.5 meter for measuring the concentration of ultrafine dust, a PM10 meter for measuring the concentration of fine dust, and a nitrogen dioxide concentration in the air There is a very useful advantage that the measurement data measured from the nitrogen dioxide analyzer for each can be integrated and managed in the data logger.

1 is a view for explaining the prior art;
Figure 2 is a perspective view of the continuous automatic integrated measuring device for air quality according to the present invention.
3 and 4 are front views for explaining the configuration of the continuous automatic integrated air quality measuring device according to the present invention.
5 and 6 are rear views for explaining the configuration of the air quality continuous integrated integrated measuring device according to the present invention.
Figure 7 is a side view of the continuous automatic integrated measuring device for air quality according to the present invention.
Figure 8 is a perspective view of a rack for integrated installation according to the present invention.
Figure 9 is a side view of the integrated installation rack according to the present invention.
Fig. 10 is a view for explaining the rear configuration of the integrated installation rack;
11 and 12 are diagrams for explaining a state when an air quality continuous integrated measurement device configured according to an embodiment of the present invention is moved.

Hereinafter, the configuration and use state of the air quality continuous integrated integrated measuring device according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

In the drawings for explaining the embodiments of the present invention, parts irrelevant to the description are omitted in order to clearly explain the present invention, and similar reference numerals will be attached to similar parts throughout the specification. Throughout the specification, when a part is said to be "connected" to another part, this includes not only the case where it is "directly connected" but also the case where it is "indirectly connected" with another member interposed therebetween. . In addition, when a part "includes" a certain component, it means that it may further include other components without excluding other components unless otherwise stated.

Figure 2 is a perspective view of the continuous integrated automatic air quality measuring device according to the present invention, Figures 3 and 4 are front views for explaining the configuration of the continuous integrated automatic air quality measuring device according to the present invention, Figures 5 and 6 are It is a rear view for explaining the configuration of the continuous integrated automatic air quality measuring device according to the present invention, and FIG. 7 is a side view of the continuous integrated automatic air quality measuring device according to the present invention, and FIGS. 8 to 10 are integrated according to the present invention. It is a drawing for explaining the configuration of the rack for installation.

Reference numeral 10 indicated in the drawings indicates an air quality continuous integrated integrated measuring device according to an embodiment of the present invention, and reference numeral 100 indicates an integrated installation rack according to the present invention.

As shown in FIGS. 2 to 7, the air quality continuous integrated integrated measuring device 10 according to an embodiment of the present invention includes an integrated installation rack 100 and a fine dust measuring equipment cradle 150 of the integrated installation rack 100. PM2.5 measuring instrument 210 installed on one side, PM10 measuring instrument 220 installed on the other side of the fine dust measuring equipment cradle 150 of the rack 100 for integrated installation, lower case of the rack 100 for integrated installation ( A nitrogen dioxide analyzer 230 installed in 110), a nitrogen dioxide motor 232 installed in the lower case 110 of the rack 100 for integrated installation, and a data logger installed in the lower case 110 of the rack 100 for integrated installation ( 240), a measuring device power supply 250 installed in the lower case 110 of the rack 100 for integrated installation, and a weather sensor 270 installed in the weather sensor cradle 170 of the rack 100 for integrated installation. do.

As shown in the drawing, the bodies of the PM2.5 measuring device 210 and the PM10 measuring device 220 mounted on the fine dust measuring equipment cradle 150 of the air quality continuous integrated measuring device 10 according to the present invention are fixed and installed. , Air collecting heads 212 and 222 are installed above the bodies of the PM2.5 measuring instrument 210 and the PM10 measuring instrument 220 via the connection pipes 214 and 224, respectively.

The nitrogen dioxide analyzer 230 installed in the lower case 110 of the integrated installation rack 100 according to the present invention is installed to measure the concentration of NOx in the air. An air inlet is formed on the side or door of the lower case 110 so that air can flow into the nitrogen dioxide analyzer 230 . In addition, devices such as a nitrogen dioxide motor 232 and a nitrogen dioxide filter 234 for supplying nitrogen dioxide necessary for the operation of the nitrogen dioxide analyzer 230 are installed in the lower case 110 .

In particular, the data logger 240 may be installed in the lower case 110 of the rack 100 for integrated installation according to the present invention. This data logger 240 measures the concentration of ultrafine dust measured through the PM2.5 meter 210, the concentration of fine dust measured through the PM10 meter 220, and the concentration of NOx measured through the nitrogen dioxide analyzer 230 It is a device that stores measurement data including

Supply of power required to drive devices such as the aforementioned PM2.5 meter 210, PM10 meter 220, nitrogen dioxide analyzer 230, nitrogen dioxide motor 232, nitrogen dioxide filter 234, and data logger 240 For this purpose, a wire reel 260, an outlet, a charger, a USB port, and the like may be installed in the lower case 110 as shown in the drawing in addition to the measuring device power source 250.

Figure 8 is a perspective view of the rack 100 for integrated installation according to the present invention, Figure 9 is a side view of the rack 100 for integrated installation according to this invention, Figure 10 is for explaining the rear configuration of the rack 100 for integrated installation it is a drawing

As shown in FIGS. 8 and 9, in the rack 100 for integrated installation according to an embodiment of the present invention, the upper case 130 is integrally formed on one side of the upper part of the lower case 110, and the upper case 130 is formed integrally with the front side. A fine dust measuring equipment cradle 150 is installed on the upper part of the lower case 110 at the position, a weather sensor cradle 170 is installed on the upper part of the fine dust measuring equipment cradle 150, and a camera is installed on top of the upper case 130. A cradle 180 is installed.

As shown in FIG. 9, the lower case 110 of the rack 100 for integrated installation according to the present invention is formed in the shape of a hexahedral box having a certain storage space 112 therein. Doors 114 and 116 are assembled and installed on the front and rear surfaces of the lower case 110, respectively. The lower case 110 has a structure in which frames having a certain length and a certain cross-sectional shape are connected in the horizontal and vertical directions at regular intervals, and plate materials are attached to each side. In particular, a shelf 120 dividing the storage space 112 into a lower layer and an upper layer may be installed inside the lower case 110 according to the present invention, and storage of the lower layer and the upper layer may be provided through one or more internal partition walls 122. Space 112 may be divided into a plurality of spaces.

The lower case 110 of the measuring equipment installation rack 100 according to the present invention includes a nitrogen dioxide analyzer 230, a nitrogen dioxide motor 232, a data logger 240, a measuring device power supply 250, a wire reel 260, and a power supply. It is a space for storing accessories, etc. Meanwhile, a cooling fan may be installed in the lower case 110 to cool heat generated while the above-described electric devices are driven. In addition, an air inlet and an air outlet may be formed on the side surface of the lower case 110 and/or on the doors 114 and 116 to allow air to flow in and out while the above-described devices operate.

A moving wheel 118 may be attached to the lower part of the lower case 110 of the rack 100 for integrated installation of the atmospheric environment measuring equipment according to an embodiment of the present invention, and the moving wheel 118 is for limiting movement. A stopper may be installed.

On the other hand, the upper case 130 of the rack 100 for integrated installation according to the present invention is formed in the shape of a hexahedral box having a certain height on the upper rear side of the lower case 110, and therein is a storage space of a certain volume ( 132) is formed, and a door 134 is installed on the rear surface thereof. In the storage space 132 of the upper case 130, air collecting heads 212 and 222 connected to the PM2.5 meter 210 and the PM10 meter 220, connection pipes 214 and 224, and fine dust A buffer storage member 140 is disposed so that measuring equipment accessories and the like can be stably stored even in the event of an external impact. The buffer storage member 140 may be formed of a sponge or a Styrofoam material depending on the shape of the air collecting heads 212 and 222 and accessories of fine dust measuring equipment.

A slot 136 having a predetermined height and a predetermined width may be formed in the middle portion of the front surface of the upper case 130 according to an embodiment of the present invention. This slot 136 is formed in a structure that is slimmed down to prevent lockers or the like protruding from the door from being caught when opening and closing the door installed on the main body of the fine dust measuring equipment installed on the fine dust measuring equipment holder 150.

In addition, guides 138 guiding a loading position when objects are loaded on the upper surface of the upper case 130 may be attached to rear corners on both sides of the upper surface of the upper case 130 according to the present invention.

In particular, the fine dust measuring equipment cradle 150 of the rack 100 for integrated installation according to the present invention is formed on the upper part of the lower case 110 described above, as shown in the drawing, but is fixed to the front of the upper case 130 described above. installed The specific configuration of the fine dust measuring equipment cradle 150 may be made as follows.

The fine dust measuring equipment cradle 150 according to the present invention includes a base frame 151 fixed to the upper surface of the lower case 110 and a center frame 152 extending from the middle of the base frame 151 to a certain height toward the top. ), a first post frame 153 extending to a height corresponding to the center frame 152 at the front of the center frame 152, and a lower height than the center frame 152 at the rear of the center frame 152. The second post frame 154 formed, the middle of the first post frame 153 and the upper end of the second post frame 154 are mutually connected, and the cross frame 155 whose middle part is connected to the middle of the center frame 152 It can be configured including.

In addition, in the fine dust measuring equipment cradle 150 according to the present invention, the front and rear ends of the base frame 151 are the front base support frame 156 and the rear base support frame fixed to the upper surface of the lower case 110, respectively. It can be installed to be fixed to the middle part of (157).

In addition, the middle part of the upper support frame 158 is fixedly installed at one end of the upper end of the first post frame 153 of the fine dust measuring equipment holder 150 according to the present invention, and one end and the front end of the upper support frame 158 A side support frame 159 having a height corresponding to that of the first post frame 153 may be fixedly installed between one end of the base support frame 156 . The side support frame 159 can be used as a handle held by an operator's hand in the process of moving the continuous integrated automatic air quality measuring device 10 constructed according to the present invention.

In particular, each frame constituting the fine dust measuring equipment cradle 150 according to the present invention may be made of aluminum material. In addition, each frame may have a rectangular shape in cross section and a groove formed in the middle of each slope. Each frame constituting the fine dust measuring equipment cradle 150 according to the present invention may be interconnected and fixed via a bracket 150a and a bolt 150b.

In addition, hangers 160 in the form of square plates for attaching the body of the fine dust measuring equipment are installed on both sides of the crossing section where the aforementioned center frame 152 and the cross frame 155 intersect in a + shape. A bolt hole 162 for fastening is formed in the middle of the hanger 160 described above.

And, as shown in the drawing, the weather sensor cradle 170 is installed at the top of the fine dust measuring equipment cradle 150 according to the present invention. That is, as shown in the drawing, the weather sensor cradle 170 is installed on the upper end of the center frame 152 of the fine dust measuring device cradle 150. The weather sensor cradle 170 is formed in a T shape when viewed from the side, and the lower end of the post bar 172 extending at a certain height toward the top is fixed to the upper end of the center frame 152. A middle portion of a cross bar 174 having a predetermined length in the forward and backward directions is fixedly installed at the upper end of the post bar 172.

In addition, in the device 10 for continuous integrated air quality measurement according to an embodiment of the present invention, a camera holder 180 for installing a camera for monitoring the surroundings is provided on the upper front side of the upper case 130 . Cameras 280 for monitoring the front and rear around the continuous automatic integrated air quality measuring device 10 may be installed on the camera holder 180, respectively.

11 and 12 are diagrams showing a state when the air quality continuous integrated integrated measuring device 10 configured according to an embodiment of the present invention is moved.

In the air quality continuous integrated measuring device 10 according to the present invention, the air collecting heads 212 and 222 and the connecting pipes 214 and 224 connected to the PM2.5 measuring device 210 and the PM10 measuring device 220, respectively, are shown in FIG. As shown in 11, it can be separated from the measuring instrument body. As shown in FIG. 12 , the separated air collecting heads 212 and 222 and the connecting pipes 214 and 224 may be stored in the buffer storage member 140 installed inside the upper case 130 . That is, the air collecting heads 212 and 222 and the connecting pipes 214 and 224 are stored in the state shown in FIG. 12 and installed as shown in FIG. 2 at the measurement site.

Therefore, in the process of measuring the atmospheric environment state while moving from place to place from time to time, the air quality collection head 212, 222, which is inconvenient to move, And the connection pipes 214 and 224, the camera 280, etc. may be stored in the upper case 130 or the like after being separated.

In addition, a moving wheel 118 is installed at the lower part of the lower case 110 so that it can be easily moved, and if necessary, the stopper of the moving wheel 118 is operated to maintain a stable state fixed to the ground. .

According to the continuous automatic integrated measuring device for air quality configured according to an embodiment of the present invention, in the past, there was not only the inconvenience of having to move several devices in the process of going out to the outdoor field to measure the pollution state of the air environment, but also Even in the place where the atmospheric environment measurement equipment was installed, the manager had to reside on site. There is an effect that can be done.

In particular, according to the air quality continuous integrated measuring device according to an embodiment of the present invention, a PM2.5 meter for measuring the concentration of ultrafine dust, a PM10 meter for measuring the concentration of fine dust, and a nitrogen dioxide concentration in the air There is a very useful advantage that the measurement data measured from the nitrogen dioxide analyzer for each can be integrated and managed in the data logger.

In the above, the continuous automatic integrated measuring device for air quality according to an embodiment of the present invention has been described with reference to the accompanying drawings. These embodiments are included in the technical idea described in the claims of this invention. In addition, the foregoing embodiments should not be construed as merely illustrative.

10: Continuous automatic integrated measuring device for air quality 100: Rack for integrated installation
110: lower case 112: storage space
114, 116: door 118: moving wheel
120: shelf 130: upper case
132: storage space 134: door
140: buffer storage member 150: fine dust measuring equipment cradle
151: base frame 152: center frame
160: hanger 170: weather sensor cradle
180: camera cradle 210: PM2.5 meter
220: PM10 meter 230: nitrogen dioxide analyzer
240: data logger 270: weather sensor
280: camera

Claims (6)

Doors are assembled and installed on the front and rear surfaces of the lower case formed in the form of a box with a storage space inside, and the upper case is installed on the rear side of the upper surface of the lower case, but a storage space is formed inside and a door is installed on the rear side. and an integrated installation rack in which a fine dust measuring equipment cradle is installed on the upper part of the lower case at a front position of the upper case, and a weather sensor cradle is installed on the upper part of the fine dust measuring equipment cradle;
A PM2.5 measuring instrument in which a measuring instrument body is fixedly installed on one side of the fine dust measuring equipment cradle of the integrated installation rack, and an air collection head is installed connected to the upper side of the measuring instrument body through a connection pipe;
A PM10 measuring instrument in which a measuring instrument body is fixedly installed on the other side of the fine dust measuring equipment cradle of the integrated installation rack, and an air collection head is installed connected to the upper side of the measuring instrument body through a connecting pipe;
A nitrogen dioxide analyzer installed on one side of a storage space provided in a lower case of the integrated installation rack;
a nitrogen dioxide motor installed on the other side of the storage space of the lower case to supply nitrogen dioxide to the nitrogen dioxide analyzer;
a data logger installed on one side of the storage space provided in the lower case to store measurement data measured by the PM2.5 meter, the PM10 meter, and the nitrogen dioxide analyzer;
a measuring device power source installed on one side of the storage space provided in the lower case to supply power to the PM2.5 meter, the PM10 meter, the nitrogen dioxide analyzer, the nitrogen dioxide motor, and the data logger;
a weather sensor installed on the weather sensor cradle; and
a buffer storage member disposed in the storage space of the upper case for accommodating an air collecting head connected to the upper part of the measuring instrument body of the PM2.5 measuring instrument and the measuring instrument body of the PM10 measuring instrument, respectively; Air quality continuous integrated automatic measuring device, characterized in that configured to include.
According to claim 1,
The storage space of the lower case is configured to be separated by shelves and partitions so that the space in which the nitrogen dioxide analyzer, the nitrogen dioxide motor, the data logger, and the measuring device power supply are installed is divided. .
According to claim 1,
A moving wheel is installed on the lower part of the lower case, and a stopper is installed on the moving wheel.
delete According to claim 1,
A camera cradle is installed on the top of the upper case, and a camera is installed on the camera cradle.
The method of any one of claims 1 to 3 and 5,
The fine dust measuring device cradle has a base frame fixedly installed on the upper surface of the lower case, a center frame extending upward from the middle of the base frame to a certain height, and a height corresponding to the center frame in front of the center frame. A first post frame that extends, a second post frame that extends at a lower height than the center frame at the rear of the center frame, and interconnects a middle of the first post frame and an upper end of the second post frame, and the center frame It consists of a cross frame to which the middle part is connected in the middle of the frame, and both sides of the intersection section where the center frame and the cross frame are connected in a + shape include hangers for attaching the main body of the fine dust measuring equipment. Air quality continuous automatic integrated measuring device, characterized in that.

Images