KR102615019B1 - Betaray fine dust measuring device equipped with an improved fine dust filter supply unit - Google Patents

Abstract

Because fine dust filter wick diameters vary, there has been a problem of having to prepare fine dust filters that fit the different wick sizes for each device. The present application seeks to provide means for solving the following problems in order to solve the above problems.
Fine dust filter supply base (110); And a fine dust filter friction plate 130 that is spaced at a predetermined distance in the center of the fine dust filter supply base 110 and adjusts the rotational tension of the fine dust filter rotating unit 120 by friction force, and the fine dust filter friction plate 130 and the above. A friction plate pressing spring 140 that elastically supports a certain gap between the fine dust filter supply base parts 110; and a fine dust filter inclined head fixing cap 150 for fixing the fine dust filter inserted into the fine dust filter rotating unit.
The configuration of the invention as described above has the effect of providing a beta-ray fine dust measuring device that can use fine dust filters having wicks of different sizes.

Description

Betaray fine dust measurement device equipped with an improved fine dust filter supply unit{.}

The invention of this application relates to a fine dust measuring device. More specifically, it is a technology for a device that measures the amount of fine dust by filtering the fine dust using a filter and then measuring the degree to which the amount of beta rays passing through the fine dust is reduced.

As prior art before the application of the present invention, a technology related to a dual fine dust measuring device using beta rays has been disclosed. This technology is about a device that measures the amount of fine dust in the air using beta rays, a radiation source. More specifically, it is a technology that can simultaneously measure PM10 and PM2.5 in real time in the same space and at the same time.

Another prior art discloses a continuous beta-ray fine dust measurement device and a measurement method using the same. This technology includes a fine dust separator that introduces air from the outside 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 unit 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 filtering all the fine dust passing through the measurement air inlet; and a suction part connected to the bottom of the roll-type filter paper to suck in the air, and a beta-ray generator that emits beta-rays to measure fine dust filtered in the roll-type filter paper. And a technology including a beta-ray measuring unit that measures the beta-ray reduced by the beta-ray generated from the beta-ray generator penetrating fine dust filtered through the roll-type paper is disclosed.

Registered Patent Publication No. 10-1278289 B1 Public Patent Publication No. 10-2022-0026062

In order to measure fine dust using the beta-ray measurement method as shown in FIG. 1, the present invention requires supply of a fine dust filter to filter fine dust. However, as shown in Figure 3, the wick diameter of the fine dust filter varies, so there has been a problem of preparing a fine dust filter that matches the size of the wick for each device. The invention of this application is intended to solve the above problems.

In addition, another problem to be solved by the invention of the present application is to pull the fine dust filter from one side and generate friction force from the other side, and supply the fine dust filter while pulling the fine dust filter with a tension equal to the friction force in case of high humidity. As the friction increases, the strength of the fine dust filter decreases due to high humidity, causing the problem of the fine dust filter breaking. This is not unrelated to supply, and when the supply of fine dust filters is cut off, there has been a problem of consuming a lot of money and time because you have to immediately rush to the site and take action.

The present application seeks to provide means for solving the following problems in order to solve the above problems.

Fine dust filter supply base (110); and

A fine dust filter friction plate 130 that is spaced at a predetermined distance in the center of the fine dust filter supply base 110 and adjusts the rotational tension of the fine dust filter rotating unit 120 by friction force, and the fine dust filter friction plate 130 and the fine dust filter friction plate 130. A friction plate pressing spring 140 that elastically supports a certain gap between the dust filter supply base parts 110; and

It provides a Betaray fine dust measuring device with an improved fine dust filter supply unit, characterized in that it is provided with a fine dust filter inclined head fixing cap 150 for fixing the fine dust filter inserted into the fine dust filter rotating part.

In addition, when the fine dust filter inclined head fixing cap 150 is composed of a body and a head, the head is composed of a fine dust filter inclined head fixing cap having a fine dust filter inclined portion from the body to the size of the fine dust filter wick. Accordingly, a Betaray fine dust measuring device with an improved fine dust filter supply unit is provided, which allows the use of fine dust filters with wicks of various sizes by varying the contact position with the fine dust filter inclined portion.

In addition, a pressing force control plate 170 is further provided between the fine dust filter supply base 110 and the friction plate pressing spring 140 to adjust the pressure applied to the friction plate joining spring to control the fine dust filter rotating unit 120 and the fine dust filter rotation unit 120. Provided is a Betaray fine dust measuring device equipped with an improved fine dust filter supply unit, characterized in that it adjusts the rotational tension between the dust filter friction plates 130.

In addition, the pressing pressure control plate 170 is equipped with an improved fine dust filter supply unit, characterized in that the height is adjusted in the direction of the fine dust filter friction plate 130 by a pressing pressure control plate height adjustment motor and a pressure control plate height adjustment motor gear. We provide the Betaray fine dust measurement device.

In addition, the height of the pressing pressure control plate moves in the direction of decreasing the tension when the humidity of the outside air is high at the set tension, and the height is returned to the set tension position when the humidity is normal. Equipped with an improved fine dust filter supply unit. We provide the Betaray fine dust measurement device.

In addition, the setting value of the height of the pressing pressure control plate varies depending on the season, and depending on the humidity of the outside air, when the humidity is high, the tension moves in the direction of decreasing, and when the humidity is normal, the height returns to the set tension position. It provides a Betaray fine dust measurement device equipped with an improved fine dust filter supply unit, which is characterized in that:

In addition, a Betaray fine dust measuring device with an improved fine dust filter supply unit is provided, which further includes an additional temperature and humidity measuring device to adjust the height of the pressing pressure control plate.

By the configuration of the invention as described above, the invention of the present application has the effect of providing a beta-ray fine dust measuring device that can use fine dust filters having wicks of different sizes.

In addition, by allowing the tension supplied to the fine dust filter to be adjusted, it is possible to measure the fine dust filter continuously without interruption even in operating situations with high humidity.

Figure 1 is a fine dust filter supply configuration diagram of a basic beta-ray type fine dust measurement device.
Figure 2 is a configuration diagram of the existing fine dust filter supply unit
Figure 3 shows various wick diameters of fine dust filters.
Figure 4 is a comparison diagram between the fine dust filter inclined head fixing cap of the present invention and the existing fine dust filter fixing cam.
Figure 5 Example of use of a fine dust filter with wicks of various sizes using the fine dust filter inclined head fixing cap of the present invention
Figure 6 is a diagram illustrating the operation of the pressure control plate that adjusts the supply tension of the fine dust supply unit.

The necessity and advantages of fine dust measurement technology using Beta Ray are as follows.

The increase in energy use due to economic activities and the rapid increase in the number of automobiles have led to an increase in the concentration of suspended dust in the air of large cities, causing problems such as visibility problems and human respiratory diseases.

In Korea, particulate air pollutants have been managed by setting the standard for suspended dust particles existing in the air with a diameter of 10㎛ or less (hereinafter referred to as PM10) since 1995. Recently, fine dust pollution levels in major cities have reached the environmental standard. As it far exceeds , environmental standards for PM10 are being significantly strengthened.

Meanwhile, the U.S. EPA has been managing PM2.5 particles in the air by adding more stringent fine dust standards since 1997. Recognition of the importance of fine particles less than 2.5㎛ (hereinafter referred to as PM2.5) and identification of the risks they may have on humans have been in the past and are currently actively underway.

According to what has been revealed so far, if PM2.5 is inhaled, humans can suffer from diseases of the respiratory system such as chronic asthma, as well as various diseases related to heart disease and, in severe cases, lung cancer. The range of particle size of fine dust that can reach the human chest is about 10㎛, and in particular, when the particle size is 2.5㎛, the chest deposition rate is maximum. As a standard for air quality pollution, particle measurement should be less than 2.5㎛. do. Recognizing this, our government also changed the air pollutant standard, which had been regulated as total suspended dust, to PM10 standard (annual average of 80㎍/㎥, daily average of 150㎍/㎥) in 1995, and plans to revise it to PM2.5 in the future. .

Meanwhile, in Korea, a significant number of PM10 suspended dust meters have been distributed to the nationwide automatic air measurement network and are being measured on a regular basis. There are several methods to measure the concentration of particulate matter (PM), such as traditional gravity measurement and optical scattering measurement, but due to the problems each has, the beta-ray measurement method based on the attenuation principle of beta rays is used. It is being applied and used for dust measurement.

This technology measures fine dust by exploiting the phenomenon that the size of beta rays decreases even with fine dust, as the material permeability of beta rays generated from beta decay, which emits beta rays when the radioactive nucleus of the beta ray source material decays, is very low. It's technology.

The half-life of beta rays is over 5,000 years, so there is no need to set a reference point. This is a measurement method using beta rays, in which a certain amount of beta rays (beta rays) are generated by nuclear decay, and the degree of attenuation is checked by passing them through a measurement object. .

The beta ray is a (-) particle whose behavior is very similar to that of an electron. The light transmission method using light, which is easily used as a method of measuring the concentration of fine dust, has many aspects to consider when measuring depending on the optical properties of the material, but the beta-ray measurement method does not need to take these matters into consideration, so it depends on the type of material. It has the advantage of having very little measurement error. The degree to which beta particles are attenuated when they pass through a medium through the beta-ray absorption method varies exponentially with the mass density of the material according to the Beer-Lambert relationship. Therefore, in measuring the concentration of beta rays, the degree to which beta particles are attenuated when passing through a medium can be obtained from a function that changes exponentially with the mass density of the material.

formula 1

Using a beta ray detector and If measured accurately, the mass density of the absorbed material is can be determined, so the mass concentration of fine dust in the atmosphere can be measured using this principle. The mass concentration of fine dust is obtained from the following equation.

formula 2

Using the above measurement principle, there is a batch type that is divided into a sampling stage and a measurement stage, and a continuous beta-ray fine dust measurement device that measures fine dust continuously. The use of the continuous beta-ray device is gradually increasing.

Looking at the operation of the continuous beta-ray fine dust measuring device, a fine dust separation unit introduces air from the external atmosphere and separates fine dust so that the concentration of fine dust can be measured by separating fine particles contained in the air. ; and a measuring air inlet unit 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 filtering all the fine dust passing through the measurement air inlet; and a suction part connected to the bottom of the roll-type filter paper to suck in the air, and a beta-ray generator that emits beta-rays to measure fine dust filtered in the roll-type filter paper. And a technology including a beta-ray measuring unit that measures the beta-ray reduced by the beta-ray generated from the beta-ray generator penetrating fine dust filtered through the roll-type paper is disclosed.

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

Figure 1 is a fine dust filter supply configuration diagram of a basic beta-ray type fine dust measuring device. The fine dust filter 200 is coupled to the fine dust filter supply unit and is released while rotating. The fine dust filter supply quantity counting roller is equipped with an encoder to count the amount of fine dust filter used. On the right side, a fine dust filter winding unit driven by a motor is provided. A fine dust filter supply guide roller is provided at the front end of the fine dust filter winding part to accurately transport the fine dust filter.

Figure 2 is a configuration diagram of an existing fine dust filter supply unit, and is configured to adjust the rotation of the fine dust filter rotating part by having a friction plate pressing spring pressurize the fine dust filter friction plate. In addition, the existing fine dust filter fixing cap is composed of a certain diameter, so only fine dust filters with wicks of the same size can be used.

Figure 3 shows various wick diameters of fine dust filters. The existing fine dust filter fixing cap can be changed according to the size of the fine dust filter, or only a fine dust filter having a wick of the same diameter as the existing fine dust filter fixing cap can be used.

Figure 4 is a comparison diagram between the fine dust filter inclined head fixing cap of the present invention and the existing fine dust filter fixing cam. Both the fine dust filter inclined head fixing cap of the above invention and the existing fine dust filter fixing cap are composed of a body portion and a head portion of the filter fixing cap. The basic cap is configured at a right angle between the body portion and the head portion, but in the invention of the present application, It has been improved so that even in the case of a wick having a slanted portion larger than the diameter of the body, sufficient friction is generated at the slanted portion so that it can be used in combination.

Figure 5 is an example of the use of a fine dust filter having wicks of various sizes using the fine dust filter inclined head fixing cap of the present invention. In the usage example, an example of fixing a fine dust filter with a wick having a small inner diameter (A) and an example of fixing a fine dust filter with a wick having a relatively large inner diameter (B) are shown using the same fine dust filter inclined head fixing cap 160. An example of fixing is shown.

Figure 6 is a diagram illustrating the operation of the pressing force control plate that adjusts the supply tension of the fine dust supply unit. A pressure control plate is provided between the existing fine dust filter supply base and the friction plate pressure spring, and the pressure control plate is moved by a motor to move from L1 to L2, so that the pressure of the friction plate pressure spring is varied to control the fine dust filter rotating part. By adjusting the friction between the fine dust filter friction plates, the tension required for rotation of the fine dust filter rotating unit can be adjusted.

With this configuration, if the friction between the fine dust filter rotating part and the fine dust filter friction plate changes due to high humidity, or the fine dust filter weakens due to humidity, the fine dust filter breaks or stretches by lowering the pressing force of the friction plate pressing spring. It can be controlled so that it can be supplied without it. Of course, for this operation, separate temperature and humidity sensors can be further provided outside and/or inside the measuring device.

The composition of the invention to achieve the above-mentioned effects is as follows.

Fine dust filter supply base (110); and

A fine dust filter friction plate 130 that is spaced at a predetermined distance in the center of the fine dust filter supply base 110 and adjusts the rotational tension of the fine dust filter rotating unit 120 by friction force, and the fine dust filter friction plate 130 and the fine dust filter friction plate 130. A friction plate pressing spring 140 that elastically supports a certain gap between the dust filter supply base parts 110; and

It provides a Betaray fine dust measuring device with an improved fine dust filter supply unit, characterized in that it is provided with a fine dust filter inclined head fixing cap 150 for fixing the fine dust filter inserted into the fine dust filter rotating part.

In addition, when the fine dust filter inclined head fixing cap 150 is composed of a body and a head, the head is composed of a fine dust filter inclined head fixing cap having a fine dust filter inclined portion from the body to the size of the fine dust filter wick. Accordingly, a Betaray fine dust measuring device with an improved fine dust filter supply unit is provided, which allows the use of fine dust filters with wicks of various sizes by varying the contact position with the fine dust filter inclined portion.

In addition, a pressing force control plate 170 is further provided between the fine dust filter supply base 110 and the friction plate pressing spring 140 to adjust the pressure applied to the friction plate joining spring to control the fine dust filter rotating unit 120 and the fine dust filter rotation unit 120. Provided is a Betaray fine dust measuring device equipped with an improved fine dust filter supply unit, characterized in that it adjusts the rotational tension between the dust filter friction plates 130.

In addition, the pressing pressure control plate 170 is equipped with an improved fine dust filter supply unit, characterized in that the height is adjusted in the direction of the fine dust filter friction plate 130 by a pressing pressure control plate height adjustment motor and a pressure control plate height adjustment motor gear. We provide the Betaray fine dust measurement device.

In addition, the height of the pressing pressure control plate moves in the direction of decreasing the tension when the humidity of the outside air is high at the set tension, and the height is returned to the set tension position when the humidity is normal. Equipped with an improved fine dust filter supply unit. We provide the Betaray fine dust measurement device.

In addition, the setting value of the height of the pressing pressure control plate varies depending on the season, and depending on the humidity of the outside air, when the humidity is high, the tension moves in the direction of decreasing, and when the humidity is normal, the height returns to the set tension position. It provides a Betaray fine dust measurement device equipped with an improved fine dust filter supply unit, which is characterized in that:

In addition, a Betaray fine dust measuring device with an improved fine dust filter supply unit is provided, which further includes an additional temperature and humidity measuring device to adjust the height of the pressing pressure control plate.

100: Fine dust filter supply unit
110: Fine dust filter supply base
120: Fine dust filter rotating part
130: Fine dust filter friction plate
140: Friction plate pressure spring
150: Existing fine dust filter fixing cap
151: Existing fine dust filter fixed cap head
160: Fine dust filter inclined head fixing cap
161: Fine dust filter inclined head
170: Pressure control plate
180: Pressure control plate height adjustment motor
181: Pressure control plate height adjustment motor gear
200: Fine dust filter
210: Fine dust filter supply coefficient roller
220: Fine dust filter supply guide roller
230: Fine dust filter wick
300: Fine dust filter winding part
350: Filter supply moving frame
460: Standard film unit for calibration of measured values
461: Standard film for proofreading
500: Laser range finder

Claims (4)

Fine dust filter supply base (110); and
A fine dust filter friction plate 130 that is spaced at a predetermined distance in the center of the fine dust filter supply base 110 and adjusts the rotational tension of the fine dust filter rotating unit 120 by friction force, and the fine dust filter friction plate 130 and the fine dust filter friction plate 130. A friction plate pressing spring 140 that elastically supports a certain gap between the dust filter supply base parts 110; and
It is provided with a fine dust filter inclined head fixing cap (150) for fixing the fine dust filter inserted into the fine dust filter rotating part,
When the fine dust filter inclined head fixing cap 150 is composed of a body and a head, the head is composed of a fine dust filter inclined head fixing cap having a fine dust filter inclined portion from the body, and the fine dust filter inclined head fixing cap 150 is composed of a fine dust filter inclined head fixing cap according to the size of the fine dust filter wick. Betaray fine dust measuring device with an improved fine dust filter supply unit, characterized in that fine dust filters with wicks of various sizes can be used by varying the contact position with the fine dust filter slope. delete According to paragraph 1,
A pressing force control plate 170 is further provided between the fine dust filter supply base 110 and the friction plate pressing spring 140 to adjust the pressure applied to the friction plate joining spring to control the fine dust filter rotating unit 120 and the fine dust filter. Betaray fine dust measuring device equipped with an improved fine dust filter supply unit, characterized in that it adjusts the rotational tension between the friction plates 130. According to paragraph 3,
The pressure control plate 170 is a beta ray equipped with an improved fine dust filter supply unit, characterized in that the height is adjusted in the direction of the fine dust filter friction plate 130 by a pressure control plate height adjustment motor and a pressure control plate height adjustment motor gear. Fine dust measurement device.