KR20240008528A - Pm 10 pm 2.5 . - Google Patents

Abstract

Existing beta-ray measuring devices have two air inlets to measure PM 10 or PM 2.5 at the same time and each has an independent beta-ray measuring system, so the device is complicated and heavy.
In order to solve this problem, the present invention seeks to provide a dual beta ray type PM 10 and PM 2.5 simultaneous measurement device with one air inlet.
For this purpose, a PM10 particle selection and air inlet device equipped with a vertically installed air inlet that introduces sample air to be measured in a dual beta-ray continuous PM 10 and PM 2.5 simultaneous measurement device; and an air channel separator for dividing particles of 10 um or less selected in the PM10 particle selection inlet into two channels to measure particles of 10 um or less, and separately re-selecting particles of 2.5 um or less to measure PM 2.5; And one side of the air passage separator is connected to the PM10 beta ray measuring unit, and the other side of the air passage separator is connected to the PM 2.5 beta ray measuring unit through the PM 2.5 separator, and the PM10 beta ray measuring unit and the PM2.5 beta ray measuring unit. A PM10 beta ray source and a PM2.5 beta ray source are provided at the bottom of each ray measurement unit, and a PM10 flow control valve and a PM2.5 flow control valve are provided in the side space of the PM10 beta ray source and the PM2.5 beta ray source. , the filter paper is provided so that it can be moved by winding to the side between the PM10 beta-ray measuring unit, the PM2.5 beta-ray measuring unit, the PM10 beta-ray source, and the PM2.5 beta-ray source, and the PM10 beta-ray measuring unit and the PM2.5 beta-ray measuring unit. 5 Simultaneous dual beta-ray type continuous PM 10 and PM 2.5 system, which includes a compression section between the beta-ray measurement unit, PM10 beta-ray source, and PM2.5 beta-ray source to prevent air from moving to the side of the filter paper by compressing the filter paper. A measuring device is provided, and the above-described configuration of the invention has the effect of providing a device that can simultaneously and continuously measure PM 10 and PM 2.5 fine dust using one air inlet.

Description

Dual beta ray continuous PM 10 and PM 2.5 simultaneous measurement device{.}

This application relates to a device that measures fine dust using the beta ray method. In more detail, it is about a beta-ray measurement device that simultaneously measures PM 10 and PM 2.5.

A continuous beta-ray fine dust measuring device is disclosed as prior art prior to the application of the present invention. In this technology, a fine dust separation unit 200 that introduces air from the external atmosphere and separates the fine dust contained in the air so that the concentration of fine dust can be measured; And a measuring air inlet 210 that guides the fine dust and air, which are measurement objects separated from the fine dust separation unit, to the beta ray measuring unit; And a roll-type filter filter (400) that filters all the fine dust passing through the measurement air inlet; and a beta ray generator 300, which is connected to the bottom of the roll-type filter paper and consists of a suction part for sucking the air, and emits beta-rays to measure fine dust filtered in the roll-type filter paper. And a beta ray measuring unit 310 that measures the beta rays reduced by the beta ray generated from the beta ray generator 300 passing through fine dust filtered through the roll type filter paper.

As another prior art, a technology related to fine dust measurement using beta rays and a measurement room using the same has been disclosed. In this technology, the air introduced from the air inlet 110 passes through the straight air inlet pipe 125 and is directed diagonally to the side of the measuring body equipped with the beta ray generator 200 and the beta ray measuring device 300. Fine dust is filtered into the roll-type filter while passing through the roll-type filter through the air passage formed by the filter, and the beta-ray generated from the beta-ray generator passes through the filtered filter of the fine dust, and the amount of fine dust is As it increases, the intensity of the beta-ray signal passing through the filter decreases, so in the fine dust measuring device using beta-ray, which measures the amount of fine dust from the change in size of the beta-ray signal measured by the beta-ray measuring device, In order to collect the beta ray (-) generated from the beta ray generator by the power of the electric field, a cylindrical cathode pipe is provided from the side of the beta ray generator to the front, and an anode mesh is installed on the front of the beta ray measuring device. Furthermore, the beta ray (-) generated from the beta ray generator is collected at the center of the cathode pipe by a repulsive force between the cathodes inside the cathode pipe, and the beta ray exiting the cathode pipe is the beta ray. A technology is disclosed that has a configuration that reaches the beta ray meter without being scattered by receiving the attractive force pulled from the anode mesh on the front of the ray meter.

Public Patent Publication No. 10-2022-0026062 Registered Patent Publication No. 10-2376031

Existing beta-ray measuring devices have two air inlets to measure PM 10 or PM 2.5 at the same time and each has an independent beta-ray measuring system, so the device is complicated and heavy. Additionally, since the 10um and 2.5um particle separators each suck in 16.7 Litte/min of air and measure PM 10 and PM 2.5, respectively, there has been a problem of needing two separate pumps.

The present application uses a PM 10 filter that requires an air flow of 16.7 Litter/min for PM 10, and uses a classifier that requires an air flow of 5 Litter/min for PM 2.5 to branch one air inlet path. Therefore, we would like to provide an improved invention that can measure PM 10 and PM 2.5 using one pump.

A PM10 particle selection and air inlet device equipped with a vertically installed air inlet that introduces sample air to be measured in a dual beta-ray continuous PM 10 and PM 2.5 simultaneous measurement device; and

An air channel separator for dividing particles of 10 um or less selected in the PM10 particle selection inlet into two channels to measure particles of 10 um or less, and separately re-selecting particles of 2.5 um or less to measure PM 2.5; and

One side of the air passage separator is connected to the PM10 beta ray measurement unit,

The other side of the air flow separator is connected to the PM 2.5 beta ray measurement unit through the PM 2.5 separator,

A PM10 beta ray source and a PM2.5 beta ray source are provided at the lower portions of the PM10 beta ray measuring unit and the PM2.5 beta ray measuring unit, respectively.

A PM10 flow control valve and a PM2.5 flow control valve are provided in the side space of the PM10 beta ray source and the PM2.5 beta ray source,

A filter paper is provided between the PM10 beta-ray measuring unit, the PM2.5 beta-ray measuring unit, the PM10 beta-ray source, and the PM2.5 beta-ray source so that it can be moved while being wound to the side,

Between the PM10 beta ray measuring unit and the PM2.5 beta ray measuring unit and the PM10 beta ray source and the PM2.5 beta ray source, a pressing unit is provided to compress the filter paper to prevent air from moving to the side of the filter paper. It provides a dual beta ray type continuous PM 10 and PM 2.5 simultaneous measurement device.

In addition, an air inlet pump is connected to the rear end of the PM10 flow control valve and the PM2.5 flow control valve, and the PM10 particle sorting and air inlet device equipped with the air inlet inflows at a flow rate of 16.7 Litter per minute, and the PM10 beta Dual beta, characterized in that the air inflow pump, the PM10 flow control valve, and the PM2.5 flow control valve are driven so that 11.5 Litter per minute of air flows into the ray measuring unit and 5 Litter per minute into the PM2.5 beta ray measuring unit. Provides a continuous simultaneous measurement device for PM 10 and PM 2.5.

In addition, the air flow distribution unit is a continuous PM 10 and PM 2.5 simultaneous dual beta ray type, characterized in that the area of the flow path on the PM10 beta ray measuring part and the area of the flow path on the PM2.5 beta ray measuring part are 11.5 to 5. A measuring device is provided.

In addition, a dual beta-ray type continuous PM 10 and PM 2.5 simultaneous measurement device is provided, wherein the flow rates per minute of the PM10 flow control valve and the PM2.5 flow control valve are 11.5 Litter and 5 Litter, respectively.

In addition, the PM 2.5 separator provides a dual beta ray type continuous PM 10 and PM 2.5 simultaneous measurement device, which separates the dust cleaning stopper at set intervals to clean the dust accumulated inside.

In addition, a dual beta-ray type continuous PM 10 and PM 2.5 simultaneous measurement device further provided with an observation window for checking dust on the dust cleaning stopper so that dust accumulated in the PM 2.5 separator can be checked during operation. provides.

In addition, the dust cleaning stopper can be further equipped with a dust measurement sensor and a measurement light to check the amount of dust accumulated in the PM 2.5 separator remotely or without disconnecting the device. Provides continuous PM 10 and PM 2.5 simultaneous measurement device.

The configuration of the invention as described above has the effect of providing a device that can simultaneously and continuously measure PM 10 and PM 2.5 fine dust using one air inlet.

In addition, because it uses a particle sorter that varies the size of the flow rate, it is an invention that has the effect of making the entire system lighter by using a single pump to create the entire air flow.

Figure 1 shows the continuous PM 10 and PM 2.5 simultaneous measurement device of the dual beta ray method of the present invention.
Figure 2 shows the air flow path distribution unit of the present invention.
Figure 3 shows the structure of the air flow path distribution unit of the present invention.
Figure 4 shows an improved air flow path distribution unit of the present invention.
Figure 5 is a cross-sectional view of the PM 2.5 measuring unit of the present invention
Figure 6 is a cross-sectional view of the PM 2.5 measuring unit of the present invention further provided with an observation window.
Figure 7 is a cross-sectional view of the PM 2.5 measurement unit of the present invention further equipped with a dust measurement sensor and measurement light.

The effects of the above invention are explained using drawings as follows.

Figure 1 is a diagram illustrating the configuration of a dual beta-ray continuous PM 10 and PM 2.5 simultaneous measurement device of the present invention. When the sample air to be measured flows into the PM10 particle selection and air inlet device, only particles of 10 μm or less from the PM10 particle selection and air inlet device flow into the measurement passage. The PM10 particle sorting and air inlet used in the present invention is a device that can sort out particles of 10 um or less when passing at a flow rate of 16.7 Litter per minute, so the air inlet pump provided at the opposite end of the sample air inlet is used. It operates by sound pressure.

The air and particles introduced in this way are separated from the air flow distribution unit into a flow path leading to the PM 2.5 separation unit, which separates particles of 2.5 um or less, and a flow path that sends particles of 10 um or less to the PM10 measurement unit without further particle separation. In the case of the PM 2.5 separation unit, when using a separation device that requires a flow rate of 16.7 liters per minute, PM10 and PM 2.5 cannot be measured simultaneously because there is no flow rate separated to the PM 10 measurement unit, so a flow rate of 5 liters per minute is used. A separation device with a flow rate was used.

Therefore, in the air flow distribution unit, 11.5 liters of air per minute must be moved to the PM10 measuring unit, and 5 liters of air per minute must be moved to the PM 2.5 separation unit.

To control this, in addition to the air inlet pump, a PM10 flow control valve and a PM2.5 flow control valve were installed in the middle of each flow path to control the flow rate.

Figure 2 shows an air flow distribution unit of the present invention. The left side of the drawing is the PM10 measurement section and the right side is the PM 2.5 measurement section. It can be seen that only the PM 2.5 measurement part has an additional PM 2.5 separation part on the flow path. Since the PM 2.5 separator is designed to operate accurately only at a flow rate of 5 liters per minute, the flow rate is fixed at 5 liters per minute in the right flow path. As mentioned above, the PM 10 separator requires a flow rate of 16.7 liters per minute, so the flow path toward the PM 10 measuring unit must flow at a flow rate of 11.5 liters.

Figure 3 shows the structure of the air flow path distribution unit of the present invention. In order to meet the above flow rate, a flow rate of 11.5 liters per minute must flow toward P1, V1, and D1, and a flow rate of 5 liters per minute must flow toward P2, V2, and D2.

In the D1 = D2 condition, the conditions are P1 > P2 and/or V1 > V2, so the left flow path and the right flow path do not have a constant velocity condition, so the fine dust cannot be considered to be divided equally.

Figure 4 shows an improved air flow path distribution unit of the present invention. By applying the information discussed in Figure 3 above, it was designed under the condition of D1'/D2' = 11.5/5. It would be good to make the entire flow path under this condition, but even in the separation part where the sample air is separated, this condition must be maintained so that the flow path can be separated in the sampled state without mixing or separating particles and accurate measurements can be made.

Figure 5 shows a cross-sectional view of the PM 2.5 measuring unit of the present invention. Using the principle of a cyclone, particles above PM 2.5 are collected in the particle discharge bin provided on the left, and only particles below PM 2.5 move back to the measurement unit through the discharge pipe. At this time, the flow rate and flow rate of exactly 5 liters per minute must be maintained so that only particles smaller than 2.5um pass through and particles larger than this sink.

Figure 6 is a cross-sectional view of the PM 2.5 measuring unit of the present invention further provided with an observation window. As the particles accumulate, dust accumulated on one side of the PM 2.5 separation unit must be removed, but there is no function to check without opening it. To solve this problem, a transparent window can be provided in the center of the dust cleaning stopper so that it can be checked without opening it.

Figure 7 is a cross-sectional view of the PM 2.5 separator of the present invention further equipped with a dust measurement sensor and measurement light. This is equipped with additional sensors and lights so that dust accumulated in the PM 2.5 separator can be checked remotely. You can have an observation window and have sensors and lights there, or you can have sensors and lights without an observation window and check it from outside.

The structure of the invention to demonstrate the effects of the invention as described above is as follows.

A PM10 particle selection and air inlet device equipped with a vertically installed air inlet that introduces sample air to be measured in a dual beta-ray continuous PM 10 and PM 2.5 simultaneous measurement device; and

An air channel separator for dividing particles of 10 um or less selected in the PM10 particle selection inlet into two channels to measure particles of 10 um or less, and separately re-selecting particles of 2.5 um or less to measure PM 2.5; and

One side of the air passage separator is connected to the PM10 beta ray measurement unit,

The other side of the air flow separator is connected to the PM 2.5 beta ray measurement unit through the PM 2.5 separator,

A PM10 beta ray source and a PM2.5 beta ray source are provided at the lower portions of the PM10 beta ray measuring unit and the PM2.5 beta ray measuring unit, respectively.

A PM10 flow control valve and a PM2.5 flow control valve are provided in the side space of the PM10 beta ray source and the PM2.5 beta ray source,

A filter paper is provided between the PM10 beta-ray measuring unit, the PM2.5 beta-ray measuring unit, the PM10 beta-ray source, and the PM2.5 beta-ray source so that it can be moved while being wound to the side,

Between the PM10 beta ray measuring unit and the PM2.5 beta ray measuring unit and the PM10 beta ray source and the PM2.5 beta ray source, a pressing unit is provided to compress the filter paper to prevent air from moving to the side of the filter paper. It provides a dual beta ray type continuous PM 10 and PM 2.5 simultaneous measurement device.

In addition, an air inlet pump is connected to the rear end of the PM10 flow control valve and the PM2.5 flow control valve, and the PM10 particle sorting and air inlet device equipped with the air inlet inflows at a flow rate of 16.7 Litter per minute, and the PM10 beta Dual beta, characterized in that the air inflow pump, the PM10 flow control valve, and the PM2.5 flow control valve are driven so that 11.5 Litter per minute of air flows into the ray measuring unit and 5 Litter per minute into the PM2.5 beta ray measuring unit. Provides a continuous simultaneous measurement device for PM 10 and PM 2.5.

In addition, the air flow distribution unit is a continuous PM 10 and PM 2.5 simultaneous dual beta ray type, characterized in that the area of the flow path on the PM10 beta ray measuring part and the area of the flow path on the PM2.5 beta ray measuring part are 11.5 to 5. A measuring device is provided.

In addition, a dual beta-ray type continuous PM 10 and PM 2.5 simultaneous measurement device is provided, wherein the flow rates per minute of the PM10 flow control valve and the PM2.5 flow control valve are 11.5 Litter and 5 Litter, respectively.

In addition, the PM 2.5 separator provides a dual beta ray type continuous PM 10 and PM 2.5 simultaneous measurement device, which separates the dust cleaning stopper at set intervals to clean the dust accumulated inside.

In addition, a dual beta-ray type continuous PM 10 and PM 2.5 simultaneous measurement device further provided with an observation window for checking dust on the dust cleaning stopper so that dust accumulated in the PM 2.5 separator can be checked during operation. provides.

In addition, the dust cleaning stopper can be further equipped with a dust measurement sensor and a measurement light to check the amount of dust accumulated in the PM 2.5 separator remotely or without disconnecting the device. Provides continuous PM 10 and PM 2.5 simultaneous measurement device.

10: PM 10 particle selection and air inlet
20: Air flow distribution unit
30: PM 2.5 separation part
31: PM 2.5 air inlet
32: PM 2.5 air outlet
33A: Dust cleaning stopper
33B: observation window
33C: Dust measurement sensor
33D: Measuring light
34: PM 2.4 or lower discharge pipe
35: PM 2.5 Cyclone
40A: PM 10 beta ray measurement unit
40B: PM 2.5 beta ray measurement unit
50: Beta Ray Source
60: PM10 flow control valve
70: PM 2.5 flow control valve
80: filter paper
90: Filter paper winding part
100: Correction film section
200: Dual beta-ray continuous PM 10 and PM 2.5 simultaneous measurement device
(A) Air channel distribution structure (B) Improved air channel distribution structure
P1, V1, P2, V2, D1, D2: Values in air passage distribution structure (A)
P1, V1, P2, V2, D1, D2: Values in air passage distribution structure (A)
Particle(PM 2.5 >)

Claims (4)

A PM10 particle selection and air inlet device equipped with a vertically installed air inlet that introduces sample air to be measured in a dual beta-ray continuous PM 10 and PM 2.5 simultaneous measurement device; and
An air channel separator for dividing particles of 10 um or less selected in the PM10 particle selection inlet into two channels to measure particles of 10 um or less, and separately re-selecting particles of 2.5 um or less to measure PM 2.5; and
One side of the air passage separator is connected to the PM10 beta ray measurement unit,
The other side of the air flow separator is connected to the PM 2.5 beta ray measurement unit through the PM 2.5 separator,
A PM10 beta ray source and a PM2.5 beta ray source are provided at the lower portions of the PM10 beta ray measuring unit and the PM2.5 beta ray measuring unit, respectively.
A PM10 flow control valve and a PM2.5 flow control valve are provided in the side space of the PM10 beta ray source and the PM2.5 beta ray source,
A filter paper is provided between the PM10 beta-ray measuring unit, the PM2.5 beta-ray measuring unit, the PM10 beta-ray source, and the PM2.5 beta-ray source so that it can be moved while being wound to the side,
Between the PM10 beta ray measuring unit and the PM2.5 beta ray measuring unit and the PM10 beta ray source and the PM2.5 beta ray source, a pressing unit is provided to compress the filter paper to prevent air from moving to the side of the filter paper. Dual beta-ray continuous PM 10 and PM 2.5 simultaneous measurement device. According to paragraph 1,
An air inlet pump is connected to the rear end of the PM10 flow control valve and the PM2.5 flow control valve, and a flow rate of 16.7 Litter per minute is introduced from the PM10 particle sorting and air inlet device equipped with the air inlet, and the PM10 beta ray measurement Dual beta-ray system, characterized in that the air inlet pump, the PM10 flow control valve, and the PM2.5 flow control valve are driven so that 11.5 Litter per minute of air flows into the PM2.5 beta-ray measurement unit. Continuous PM 10 and PM 2.5 simultaneous measurement device. According to paragraph 2,
The air flow distribution unit is a dual beta-ray type continuous PM 10 and PM 2.5 simultaneous measurement device, characterized in that the area of the flow path on the PM10 beta-ray measurement part and the area of the flow path on the PM2.5 beta-ray measurement part are 11.5 to 5. . According to paragraph 3,
A dual beta-ray continuous PM 10 and PM 2.5 simultaneous measurement device, characterized in that the flow rates per minute of the PM10 flow control valve and the PM2.5 flow control valve are 11.5 Litter and 5 Litter, respectively.