KR20190073927A - Hazardous substance inspection appratus - Google Patents

Abstract

A harmful substance inspection apparatus is disclosed. The harmful substance inspection apparatus according to an embodiment of the present invention comprises: a suction unit for sucking air; and a plurality of inspection kits for receiving the air sucked through a connection pipe connected to the suction unit and detecting types of harmful substances contained in the air. The suction unit comprises: an injection pump for sucking air and injecting the air into each inspection kit; and a control unit for controlling a flow rate of air injected into each inspection kit according to a human body breathing flow rate through the injection pump. The apparatus can detect various kinds of harmful substances through the plurality of inspection kits.

Description

{HAZARDOUS SUBSTANCE INSPECTION APPRATUS}

The present invention relates to a harmful substance inspection apparatus.

Workers working in steel mills may be exposed to harmful substances such as occupational diseases if they are exposed to harmful substances in the air.

Therefore, it is very important to understand the type and concentration of harmful substances in the air that workers breathe, evaluate the possibility of causing health hazards while working in the workplace, and determine whether it is necessary to improve the working environment.

The worker breathing air may contain harmful chemicals, dusts, metals, gases, etc. In addition, it is necessary to check and prevent the noise of 8 hours time weighted average of 85dB or more and the high temperature according to Chapter 6 of the Safety and Health Regulations.

In the past, hazardous substances were measured for each work item using a personal pump, and if necessary, the concentration of harmful substances in the work space was inspected. However, when various harmful substances are required to be measured, a plurality of equipments are required, and when the harmful substances exceeding the reference value are detected due to the network deficiency, it is impossible to immediately respond to external notification. In addition, it is difficult to quickly measure whether or not harmful substances are consumed by using a method of analyzing the collected samples by using an expensive apparatus for each item for a long period of time.

An embodiment of the present invention is to provide a device for inspecting a harmful substance, which can detect various kinds of harmful substances through a plurality of test kits in the air injected according to a human breathing flow rate.

According to an aspect of the present invention, there is provided an air conditioner comprising: a suction unit for sucking air; And a plurality of inspection kits for respectively receiving the inhaled air through the connection pipe connected to the suction unit and sensing the types of the harmful substances contained in the air, wherein the suction unit sucks the air, And a controller for controlling the suction amount of the infusion pump so that air is sucked in accordance with the human body respiratory flow rate.

The test kit is provided in the form of a module that can be separated and combined according to at least one of organic compounds, metals, acids, alkalies, dusts, and gaseous substances to be sensed and is set in accordance with the classification And a sensor unit for detecting a harmful substance.

The sensor unit may include a plurality of sensors arranged to detect each kind of harmful substances set according to the classification, a signal processor for processing signals sensed by the plurality of sensors, and a micro controller . ≪ / RTI >

A noise sensor for detecting noise, and a high-temperature sensor for detecting high temperature.

A display unit for displaying information on the harmful substances detected by the inspection kit on a screen; an alarm unit for generating a warning sound when the detected amount of the harmful substances exceeds a reference value; And a battery for power supply, wherein the communication unit can perform wireless communication with the external device using any one of an LTE network, Wi-Fi and ZigBee.

The apparatus for detecting harmful substances according to the embodiment of the present invention can detect various kinds of harmful substances through a plurality of test kits in the air injected according to the human body respiratory flow rate.

In addition, the inspection kit is provided in a module form, and it is possible to easily perform inspection of the harmful substances by replacing the inspection kit according to the kind of the harmful substance to be inspected.

When the amount of the harmful substance detected by the test kit exceeds the reference value, a warning sound can be generated or an external device can be notified immediately.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood by those skilled in the art from the description of the claims.

1 shows an apparatus for inspecting a toxic substance according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating a configuration of a sensor unit included in the toxicant inspection apparatus of FIG. 1. FIG.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. The embodiments described below are provided by way of example so that those skilled in the art will be able to fully understand the spirit of the present invention. The present invention is not limited to the embodiments described below, but may be embodied in other forms. In order to clearly explain the present invention, parts not related to the description are omitted from the drawings, and the width, length, thickness, etc. of the components may be exaggerated for convenience. Like reference numerals designate like elements throughout the specification.

Referring to FIG. 1, an apparatus for inspecting a noxious substance according to an embodiment of the present invention includes a suction unit 100 for sucking air, and a suction unit 100 for sucking air sucked from the suction unit 100 through a connection pipe P, And a plurality of test kits 201 to 204 for detecting the types of harmful substances contained in the test kits.

The apparatus for detecting a harmful substance includes a display unit 400 and an alarm unit 500 to be described later on the front cover 101 and the suction unit 100, A connector P, test kits 201 to 204, and a communication unit 600 and a battery 700 to be described later.

Such a toxic substance inspection device can be easily attached to a chest or a shoulder part of a worker, and it is possible to check the degree of exposure of various kinds of harmful substances of a worker in real time. At this time, harmful substances may include physical and chemical factors.

The suction unit 100 includes an injection pump 110 for injecting the air sucked into each of the test kits 201 to 204 and a controller for adjusting the suction amount of the injection pump 110 so that air is sucked according to the human body respiratory flow rate. (120).

The infusion pump 110 sucks air through a suction pipe 105 partially exposed to the outside and sucks air in accordance with a human body respiratory flow rate under the control of the control unit 120 so that the air is sucked through each connection pipe P Air sucked into each of the test kits 201 to 204 can be injected.

The connection pipe P may connect each of the test kits 201 to 204 and the injection pump 110 of the suction unit 100, for example, in the form of a rubber tube. The connection pipes P may be arranged to be connected to each other between the test kits 201 to 204 as well. Each of the test kits 201 to 204 may discharge the remaining amount of the air other than the air amount required for itself to another inspection kit or the outside according to the arrangement of the connection pipe P. [

In the embodiment of the present invention, the air is sucked in accordance with the human breathing flow rate, and the air is injected into each of the test kits 201 to 204, so that the concentration of harmful substances that can be added to the human being can be quantitatively analyzed in real time.

This is because, unlike the conventional method in which a specific amount of air is sucked into a specific substance and the concentration of the harmful substance is measured, the air sucked in accordance with the human breathing flow rate is analyzed in real time to immediately detect the degree of harmfulness to the human body .

The test kits 201 to 204 may be provided in the form of a module capable of being separated and combined according to at least one of organic compounds, metals, acids and alkalis, dusts, and gaseous substances to be sensed. In FIG. 1, for example, four inspection kits 201 to 204 are arranged, but in another example, the number of installation kits can be changed.

The test kits 201 to 204 are manufactured in a module form and can be easily replaced with other test kits depending on the type of the harmful substance to be sensed.

As shown in FIG. 2, each of the test kits 201 to 204 has a sensor unit 210 for detecting harmful substances set in the test kits 201 to 204 according to the above-described classification.

The sensor unit 210 includes a plurality of sensors 211 to 216 arranged to detect each kind of harmful substances set according to the above-described classification, a signal for processing a signal sensed by the plurality of sensors 211 to 216, A processor 220, and a microcontroller 230 for controlling the overall operation of the sensor unit 210.

Although FIG. 2 shows that six sensors 211 to 216 are provided in the sensor unit 210, the number of sensors can be changed according to the kind of the harmful substance to be sensed in the work environment. And may be different for each of the test kits 201 to 204.

For example, when the first test kit 201 is a module for detecting harmful organic compounds, the sensors included in the sensor unit 210 of the first test kit 201 may include a sensor . ≪ / RTI > Examples of the organic compound include glutaraldehyde, nitroglycerin, nitromethane, nitrobenzene, dinitrotoluene, dimethylaniline (N, N-dimethylaniline), dimethylamine And one or more of the 113 chemical agents defined by the Industrial Safety and Health Act such as dimethylamine, dimethylformamide, diethanolamine, and diethylene triamine. Sensors constituted in the sensor unit 210 of the first inspection kit 201 may be constituted by sensors for detecting one or more of these chemical factors by type. The sensor configuration may be different depending on the characteristics of the workplace, .

When the second inspection kit 202 is a module for detecting harmful metals, the sensors included in the sensor unit 210 of the second inspection kit 202 can detect the respective metals according to their types. Examples of the metal include copper, lead and its inorganic compounds, nickel, manganese, barium and the like, and at least one of 23 kinds of metals defined by Industrial Safety and Health Act. The sensors included in the sensor unit 210 of the second inspection kit 202 may be configured as sensors for detecting at least one of these metals by type. The sensor configuration may be different depending on the characteristics of the workplace, .

When the third test kit 203 is a module for detecting harmful acids and alkalis, the sensors included in the sensor unit 210 of the third test kit 203 detect the corresponding acid and alkali species, respectively . Examples of acids and alkalis include at least one of 17 acids and alkalis defined by the Industrial Safety and Health Act such as formic acid, hydrogen peroxide, acetic anhydride, hydrogen fluoride, hydrogen bromide, nitric acid and the like. The sensors included in the sensor unit 210 of the third inspection kit 203 may be composed of sensors for detecting at least one of the acid and alkaline flows by type. You can do it differently.

When the fourth inspection kit 204 is a module for detecting harmful dust, the sensors included in the sensor unit 210 of the fourth inspection kit 204 can detect the respective dusts by type. The dust may include one or more of seven kinds of dusts determined by the Industrial Safety and Health Act such as silicic acid, silicate, welding fume, and the like. The sensors included in the sensor unit 210 of the fourth inspection kit 204 may be configured as sensors for detecting one or more of these dusts by type. The sensor configuration may be different depending on the characteristics of the workplace, .

In addition, a test kit for detecting one or more of 15 kinds of gaseous substances defined by the Industrial Safety and Health Act such as carbon dioxide, carbon monoxide, etc. may be added or replaced with one of the above test kits 201 to 204.

As shown in FIG. 1, the apparatus for inspecting harmful substances according to an embodiment of the present invention may include a noise sensor 310 for sensing noise and a high-temperature sensor 320 for sensing high-temperature.

The apparatus for inspecting a harmful substance according to an embodiment of the present invention includes a display unit 400 for displaying information on harmful substances sensed by the inspection kits 201 to 204, that is, an exposure level and a harmful concentration, An alarm unit 500 for generating a warning sound when the amount of the harmful substances sensed by the inspection kits 201 to 204 exceeds a reference value and information about the harmful substances sensed by the inspection kits 201 to 204 A communication unit 600 for transmitting data to an external device, and a battery 700 for supplying power.

At this time, values measured by the noise sensor 310 and the high-temperature sensor 320 may be displayed through the display unit 400.

When the values measured by the noise sensor 310 and the high temperature sensor 320 exceed the reference value, a warning sound is generated through the alarm unit 500 or transmitted to an external device through the communication unit 600 have.

Specifically, when the noise of the accumulated noise of more than 85 dB is measured by the noise sensor 310, a warning sound may be output through the alarm unit 500. Likewise, when the high temperature sensor 320 senses that the high temperature according to the third set of Chapter 6 of the Safety and Health Regulation exceeds the reference value, it generates a warning sound through the alarm unit 500 or transmits a warning sound to the external device through the communication unit 600 Can be transmitted and notified.

The communication unit 600 may perform wireless communication with an external device such as an LTE (Long Term Evolution) network, Wi-Fi (wireless fidelity), or Zigbee.

The battery 700 supplies power to normally operate the components included in the hazardous substance testing apparatus. The battery 700 can be charged, and a charging terminal for charging the battery 700 may be provided.

As described above, according to the apparatus for inspecting a noxious substance according to the embodiment of the present invention, various kinds of harmful substances including physical factors and chemical factors are effectively detected through a plurality of test kits 201 to 204 in the air injected according to the human body respiratory flow rate .

In addition, each of the test kits 201 to 204 in which a plurality of sensors are arranged according to the organic chemical, metal, acid and alkali, dust, and gaseous substances according to the Industrial Safety and Health Act is provided, By arranging the sensors included in the kits 201 to 204 in accordance with the work environment, it is possible to effectively satisfy the conditions required by the industrial safety and health law.

The foregoing has shown and described specific embodiments. It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the appended claims.

100: Suction part 110: Infusion pump
120: Control section 201 to 204: Test kit
210: sensor unit 211 to 216: sensor
220: signal processor 230: microcontroller
310: noise sensor 320: high temperature sensor
400: Display unit 500: Alarm unit
600: communication unit 700: battery

Claims (5)

A suction portion for sucking air; And
And a plurality of inspection kits for respectively receiving the inhaled air through a connection pipe connected to the suction unit and detecting the kind of the harmful substances contained in the air,
The suction unit sucking the air and injecting the air into each of the test kits,
And a control unit for controlling the suction amount of the infusion pump so that air is sucked in accordance with the human body respiratory flow rate. The method according to claim 1,
The test kit is provided in the form of a module that can be separated and combined according to at least one of organic compounds, metals, acids, alkalies, dusts, and gaseous substances to be sensed and is set in accordance with the classification And a sensor unit for detecting a harmful substance. 3. The method of claim 2,
The sensor unit may include a plurality of sensors arranged to detect each kind of harmful substances set according to the classification,
A signal processor for processing signals sensed by the plurality of sensors,
And a microcontroller for controlling the overall operation of the sensor unit. The method according to claim 1,
A noise sensor for detecting noise,
And a high temperature sensor for detecting high temperature. The method according to claim 1,
A display unit for displaying information on the harmful substance detected by the inspection kit on a screen,
An alarm unit for generating a warning sound when the detected amount of the harmful substance exceeds a reference value,
A communication unit for transmitting information on the detected harmful substances to an external device;
Further comprising a battery for power supply,
Wherein the communication unit performs wireless communication using the LTE network, Wi-Fi, and ZigBee with the external device.

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