KR101832100B1 - Monitoring System for Measuring Ultrafine Dust - Google Patents

Abstract

The present invention relates to a system for measuring and monitoring fine dust with an ultra-fine particle size. According to the present invention, the system includes: a fine dust meter; a control circuit unit connected to the fine dust meter; and a display board, a smartphone, or a computer which transmits a measured fine dust concentration rate on a real-time basis in accordance with control signals of the control circuit unit to display the same. The fine dust meter includes: a dust inlet coupled to the upper cap; an air inlet pipe screw-coupled to the dust inlet; an air induction guide assisting member which is coupled to the lower part of an exterior cylinder coupled to the dust inlet on the exterior of the periphery of the air inlet pipe; and an insulated air induction guide discharging pipe which is coupled to the lower part of the air induction guide assisting member. Heating coils, which are wound on the outer peripheral surface of the air inlet pipe, are sequentially fit into the guide holes of a heating coil guide bracket. A temperature and humidity sensor installed into the guide holes punctured to the insulated air induction guide discharging pipe are installed on the outer peripheral surface of the air inlet on the center of the air induction guide assisting member. A fine dust measurement sensor unit is installed on the lower part of the air induction guide discharging pipe.

Description

Technical Field [0001] The present invention relates to a monitoring system for measuring ultrafine dust,

The present invention relates to a fine dust measuring and monitoring system having an ultrafine particle size. More particularly, the present invention relates to a fine dust measuring and monitoring system having an ultrafine particle size measuring apparatus, So that the degree of contamination of the external fine dust can be confirmed.

The damage caused by pollutants in the atmosphere is well known even if it is not listed. In particular, ultra fine dusts of 2.5 micrometers or less in diameter contained in the air are very troublesome to the health and daily life of the people. For example, "Super Fine Dust (PM2.5) Alarm System", which is being implemented in Seoul city since October 2014, is one such activity.

To determine how much of these ultrafine dusts are contained in the atmosphere, it is necessary to measure the amount of ultrafine particulate matter contained in the air per unit volume. In particular, larger and smaller particles should be separated based on a diameter of 2.5 micrometers to determine the concentration of small particles.

Here, the fine dust is dust having a diameter of 10 μm or less. In the environmental regulation, it is often referred to as PM-10. This PM-10 permeates deeply into the alveoli of a human, And it is generated by combustion, and it consists of ion components such as sulfate, nitrate, and ammonia, harmful substances such as metal compounds and carbon compounds. For this reason, it is regulated more strictly than general dust, and in recent developed countries, it is being considered to manage PM-2.5 separately having a diameter of 2.5 μm or less.

Especially, in order to manage the air quality of the living space, "Air Quality Management Act of Underground Living Space" was enacted on December 30, 1996, and the above - mentioned "Air Quality Management Act of Underground Living Space" The indoor air quality management law for multi-use facilities was amended as a corporation that prescribes matters to maintain and manage indoor air quality of housing properly and protect people's health and prevent environmental harm.

At this time, in order to manage the air quality, a fine dust measuring device (ENVIRONMENTAL DUST-MONITOR) is used to measure the pollution degree of various dusts and fine dusts.

The micro dust measuring device includes a fine dust sensor main body having a pump and a measurement module for sucking up fine dust, and a micro dust sensor main body A dust inlet provided at an end of the sample pipe for allowing the fine dust to enter the sample pipe; a humidity and temperature measuring module for measuring humidity and temperature; .

The conventional fine dust measuring device configured as described above operates the pump built in the main body to suck air through the dust inlet and the sample pipe to measure and monitor the fine dust contained in the air. If condensation occurs inside the measuring device due to high humidity and external temperature and humidity, it is difficult to collect and analyze the sample efficiently, and furthermore, fine particles It is pointed out that the dust is stuck to deteriorate the sensing function greatly, and also the measurement module is damaged, shortening the life of the measurement module.

In order to solve this problem, according to Japanese Patent Application Laid-Open No. 10-2016-0101493, a heating part considering the vulnerability of the measurement and analysis module to moisture is used to control the moisture content due to high humidity in the underground environment, And provides an indoor air quality monitoring system that can be analyzed.

In the prior art, the heating coil is wound on the outside of the air inlet pipe so as to vaporize the moisture in the air inlet pipe, thereby allowing for efficient sample collection and analysis. In addition, the heating coil is wound in a certain structure and stably installed In particular, since the air inlet pipe and the manifold are directly connected and the fine dust is introduced by the blowing fan, the air resistance due to the blowing pressure is generated inside the air inlet pipe, and the fine dust concentration value is changed, It is pointed out that the measurement of fine dust is difficult and reliability is greatly deteriorated.

(Patent Literature)

Patent Document 10-2016-0101493

It is an object of the present invention to solve the above problems in the prior art, and it is possible to perform fine dust measurement with little error without being influenced by humidity, and to rapidly measure while maintaining the fine dust average value through stabilization of air inflow The purpose of this

The present invention relates to a fine dust measuring device, A control circuit connected to the fine dust meter; And a smartphone or a computer for displaying the fine dust measurement concentration in real time according to a control signal of the control circuit unit and displaying the minute dust measurement concentration, wherein the fine dust meter includes a dust inlet coupled with an upper cap; An air inlet pipe threaded with the dust inlet; An air induction guide assisting member screwed to the outside of the outer cylindrical body coupled to the dust inlet on the outer side of the air inlet pipe; A heating coil wound around an outer circumferential surface of the air inlet tube is fixed to a guide hole of a heating coil guide bracket in order and fixed to the air guide tube, A temperature and humidity sensor fitted in a guide hole pierced by the guide guide assistant member is installed on the upper circumferential surface of the air inlet in the center of the air guidance guide assisting member and a fine dust measuring sensor unit is installed below the air induction / .

INDUSTRIAL APPLICABILITY The present invention has an effect that fine dust measurement can be performed with little error without being influenced by humidity.

Further, the present invention prevents leakage of the current applied to the heater coil, thereby preventing malfunction of the fine dust measuring sensor unit, thereby greatly improving the reliability of the system.

Further, the present invention has an effect of extending the service life of the fine dust measuring sensor part.

1 is a perspective view showing the overall appearance of the present invention.
2 is an assembled perspective view of the fine dust measuring sensor unit of the present invention.
3 is an exploded perspective view of the fine dust measuring sensor unit of the present invention.
4 is a sectional view of the fine dust measuring sensor unit of the present invention.
5 is a circuit block diagram of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The present invention will become more apparent from the following description of preferred embodiments with reference to the accompanying drawings. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

The fine dust measurement monitoring system P having an ultrafine particle size according to an embodiment of the present invention is installed inside or outside a building, and includes a fine dust measuring device 100; A control circuit unit (200) connected to the fine dust measuring device (100); And a smartphone 400 or a computer for displaying the fine dust measurement concentration in real time according to a control signal of the control circuit unit 200 and displaying the fine dust measurement concentration in real time, A dust inlet 20 coupled with the upper cap 10; An air inlet pipe (30) screwed with the dust inlet (20); An air induction guide assisting member 50 screwed under the outer cylindrical body 40 coupled with the dust inlet 20 around the air inlet pipe 30; A heating coil 70 wound around the outer circumferential surface of the air inlet pipe 30 is connected to the heating coil guide 60 through the heating coil guide 60, And the temperature and humidity sensor 90 fitted in the guide hole 51 pierced by the air guide guide assisting member 50 is inserted into the guide hole 81 of the bracket 80, And the fine dust measurement sensor unit 100A may be installed below the air induction discharge connection 60. The fine dust measurement sensor unit 100A may be installed on the upper circumferential surface of the air inlet 52 at the center of the air inlet 50,

The dust inlet 20 has an air inlet hole 22 formed in an upper portion of the cylindrical body 21 and an upper threaded portion 31 of the air inlet pipe 30 is connected to the lower threaded portion 23 of the cylindrical body 21. [ The upper cylindrical portion 40 of the outer cylindrical body 40 is coupled with the coupling pin 20A by fitting the upper portion of the outer cylindrical body 40 inside the outer cylindrical coupling portion 24, The air inlet 52 at the center of the air induction guide assisting member 50 is positioned at the lower center of the inside of the air inlet pipe 30 by coupling the screw portion 53 of the air induction guide assisting member 50 .

According to the present invention, the inner diameter of the air inlet pipe 30 coupled with the dust inlet 20 can be made larger than the inner diameter of the air inlet 52 of the air induction guide assisting member 50, The airflow can be quickly discharged to the air induction and discharge junction 60 side as the flow is buffered, thereby reducing the air resistance. Thus, it becomes possible to measure the average fine dust by reducing the change of the average value of the fine dust inflow.

A sleeve 50A is provided in the guide hole 81 of the air induction guide assisting member 50 and the temperature and humidity sensor 90 is placed on the packing 50B fitted inside the upper portion of the sleeve 50A So that the temperature and humidity of the internal space of the air inlet pipe 30 can be sensed so that the temperature and humidity sensor 90 can be installed via the air guide guide assisting member 50, The ease of humidity measurement can be improved.

The air induction discharge insulation connection 60 provided between the lower central recessed portion 54 of the air induction guide assisting member 50 and the fitting guide projection 100A-1 protruding from the fine dust measurement sensor portion 100A The fine dust measuring sensor unit 100A is a dust measuring sensor based on a light scattering type, and includes a laser light emitting unit, a reflector for reflecting the laser light, and a blower for air discharge A fan 100A-2 is installed.

The heating coil 70 wound on the outer circumferential surface of the air inlet pipe 30 is fitted and fixed in the guide hole 81 of the heating coil guide bracket 80, The insulating tape 30A is placed between the outer circumferential surface of the air inlet pipe 30 and the inner surface of the heating coil 70 by fixing the engaging pin 80A to the air inlet pipe 30 by inserting the engaging pin 80A in the lower hole, It is possible to prevent leakage current of the heating coil 70 from leaking to the air inflow pipe 30 side.

Therefore, the present invention can prevent the heating coil 70 from leaking to the air inflow pipe 30 side by the insulating tape 30A or to the fine dust measuring sensor unit 100A side by the air induction discharge insulation connection 60 It is possible to improve the reliability of the system by preventing the malfunction of the fine dust measuring sensor unit 100A by preventing leakage of the air, and in particular, when the temperature inside the air inflow pipe 30 is low or dew condensation occurs The heating coil 70 is heated by the sensing signal from the temperature and humidity sensor 90 to increase the temperature of the air inlet pipe 30 due to heat generation so as to vaporize and dry the moisture entering the inside, It is possible to perform fine dust measurement with a small error without being influenced by humidity by excluding the case where the dust adheres to the inner surface of the air inlet pipe 30 and the inner surface of the fine dust measuring sensor portion 100A Loses.

In addition, the present invention prevents malfunctioning of the fine dust measuring sensor unit 100A by preventing the current applied to the heater coil from being leaked, thereby greatly improving the reliability of the system and, at the same time, improving the life of the fine dust measuring sensor unit 100A It has an effect of extending.

The heating coil 70 wound on the outer circumferential surface of the air inlet pipe 30 can be fitted and fixed in the guide hole 81 of the heating coil guide bracket 80 so as to prevent mutual contact between the coil wire and the coil wire, And a solid installation can be achieved.

The dust inlet 20, the air inlet pipe 30, the air induction guide assisting member 50, and the air induction and discharge insulation connection 60 are in communication with each other to allow fine dust containing external air to flow therein. In the figure, 500 is a packing.

In addition, the control circuit unit 200 includes a control unit 210 including a microprocessor for controlling a sensing signal by the temperature and humidity sensor 90 and a fine dust concentration measured by the fine dust measurement sensor unit 100A; A driving unit 220 driven by the control unit 210; A heating coil 70 and an air blowing fan 100A-2 operated by the driving unit 220; The storage unit 230 stores data by the controller 210 and the communication unit 240. The first communication unit 240A of the communication unit 240 is connected to the second communication unit 230B are connected to a smartphone 400 or a computer and include a monitor 250 for displaying the concentration of fine dust measured by the control unit 210 and an input unit 250 including a density adjustment adjustment and ON / 260, and the monitor 250 and the electric sign board 300 are configured to monitor the fine dust concentration in real time.

In the above, the input unit 260 is a function button, in particular, a Hight point (PM 10), a Low (PM 2.5). For example, when the current concentration is displayed on the screen of the monitor 250, the calibration concentration can be inputted after injecting the calibration gas.

The communication units of the first communication unit 240A and the second communication unit 230B are RS232 / 485 and Wipi / TCP / IP.

In the present invention, the measurement value of the fine dust concentration is displayed on the electric signboard 300 or the smartphone 400, so that indoor and outdoor fine dust pollution can be confirmed in real time, and thus it is useful for coping with various personal health and utilizing disaster alert Can be used.

Although the present invention has been described with reference to the preferred embodiments thereof with reference to the accompanying drawings, it will be apparent to those skilled in the art that many other obvious modifications can be made therein without departing from the scope of the invention. Accordingly, the scope of the present invention should be interpreted by the appended claims to cover many such variations.

10: upper cap 20: dust inlet
20A, 80A: coupling pin 21: cylindrical body
22: air inlet holes 23, 31, 41, 53:
24: outer coupling cylinder 30: air inlet pipe
30A: Insulation tape 40: Outer cylinder
50: air guide guide assisting member 50A: sleeve
50B: packing 51: guide hole
52: air inlet 54:
60: air induction ventilation connection 70: heating coil
80: Heated coil guide bracket 81: Guide hole
90: Temperature and humidity sensor 100: Fine dust meter
100A: fine dust measuring sensor unit 100A-1: fitting guide projection
200: control circuit part 210:
220: driving unit 230:
240: communication unit 250: monitor
260: input unit 300:
400: Smartphone P: Fine dust measurement monitoring system

Claims (7)

A fine dust meter 100; A control circuit unit (200) connected to the fine dust measuring device (100); And a smartphone 400 or a computer for displaying the fine dust measurement concentration in real time according to a control signal of the control circuit unit 200 and displaying the fine dust measurement concentration in real time, A dust inlet 20 coupled with the upper cap 10; An air inlet pipe (30) screwed with the dust inlet (20); An air induction guide assisting member 50 screwed under the outer cylindrical body 40 coupled with the dust inlet 20 around the air inlet pipe 30; And the air induction and exhaust insulation association 60 connected to the air induction guide assist member 50 under the air induction guide auxiliary member 50. The heating coil 70 wound on the outer circumferential surface of the air induction pipe 30, And the temperature and humidity sensor 90 fitted in the guide hole 51 pierced by the air guide guide assisting member 50 is inserted into the guide hole 81 of the bracket 80, And a fine dust measuring sensor part (100A) is installed below the air induction discharge connection (60), and the dust inlet (20) is connected to the dust inlet Wherein the inner diameter of the air inlet pipe (30) is larger than the inner diameter of the air inlet (52) of the air induction guide assisting member (50). The dust inlet according to claim 1, wherein the dust inlet (20) has an air inlet hole (22) formed in an upper portion of the cylindrical body (21) And the threaded portion 31 is engaged with the outer cylindrical body 40 and the upper cylindrical body 40 is engaged with the coupling pin 20A inside the cylindrical outer cylindrical portion 24, The air inlet 52 at the center of the air induction guide assisting member 50 is inserted into the air inlet pipe 30 at the lower center of the air inlet pipe 30, Wherein the micro-dust measurement monitoring system has a micro-particle size measurement system. delete The air conditioner according to claim 1, wherein a sleeve (50A) is provided in the guide hole (81) of the air induction guide assisting member (50), a temperature and humidity sensor (90) is attached to a packing (50B) So as to be installed in an upright position. The air induction exhaust ventilating apparatus according to claim 1, further comprising an air induction discharge cutoff connection (100A) between the lower central recessed portion (54) of the air induction guide assisting member (50) 60) is installed on the surface of the fine dust particles. The air conditioner according to claim 1, wherein the heating coil (70) wound on the outer circumferential surface of the air inlet pipe (30) is fitted and fixed in the guide hole (81) of the heating coil guide bracket (80) And the insulating tape (30A) is placed between the outer peripheral surface of the heating coil (70) and the inner surface of the heating coil (70).

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