KR102141976B1 - A Industrial Guage - Google Patents

Abstract

The present invention relates to an industrial measuring instrument equipped with a fine dust measurement function, a temperature and humidity sensor 161 for sensing the temperature and humidity and outputting it to the control unit 191, The temperature and humidity sensor 161, a temperature display unit 171 and a humidity display unit 172 for displaying the measured temperature and humidity are provided with a display unit 170, respectively, the output range for displaying the temperature and the output range for displaying the humidity A setting input unit 180 for setting and inputting, and a control unit 191 for outputting a temperature and humidity value input from the temperature and humidity sensor 161 to the display unit 170 based on an output range set by the setting input unit 180. And, based on the control of the control unit 191, an industrial instrument comprising a communication unit 192 for remotely transmitting the temperature and humidity measured by the temperature and humidity sensor 161, the concentration of fine dust in the air (㎍ / m ³ ) is measured and output to the control unit 191, the fine dust sensor 162 and the display unit 170, the fine dust sensor 162 measured by the concentration of the fine dust of the control unit 191 The fine dust display unit 175 for displaying on the basis of control is further included, and accordingly, there is an advantage in that fine dust can be measured in the measuring instrument itself.

Description

Industrial measuring instrument with fine dust measurement function{A Industrial Guage}

The present invention relates to an industrial measuring instrument, in particular, it is possible to measure fine dust, and also by measuring the concentration of fine dust based on the dew point temperature, it is suitable to be able to measure the concentration of fine dust without errors. It relates to an industrial instrument equipped with a measurement function.

In general, industrial instruments are known that measure and display various types of data, such as temperature, humidity, pressure, etc. in an industrial site or inform a remote administrator.

The environment in which such an industrial measuring instrument is used is mainly an industrial site, so it is a reality that a lot of fine dust is generated.

In order to measure fine dust in a conventional industrial site, a separate fine dust measuring instrument had to be purchased, and a separate network construction cost was additionally required to manage it remotely.

In addition, the technology for measuring the concentration of fine dust is not adopted in the conventional industrial measuring instrument, so there is a limit to the utilization of the product.

Document 1: Registered Patent Publication No. 10-1309634 (Publication date: 2013.09.17) Document 2: Registered Utility Model Publication No. 20-0237795 (Notice: 2001.10.26)

The present invention was created to solve the problems of the prior art as described above, the purpose of an industrial measuring instrument equipped with a fine dust measurement function according to the present invention,

First, it is possible to immediately measure the fine dust generated in the industrial site, and the concentration of fine dust is displayed directly on the instrument itself so that operators and managers can immediately check the concentration of fine dust in the industrial site. In accordance with this, it is possible to respond immediately (stop operation, ventilator operation, etc.),

Second, it is possible to block the occurrence of fine dust measurement errors that may be caused by moisture in the air (moisture contained in fog, cloudy days, rain, etc.),

Third, the moisture is removed by the heater, but the driving control of the heater is based on the dew point temperature, so that only the actual occurrence of moisture can be removed, thereby ensuring the practical efficiency of moisture removal.

Fourth, instead of always operating a heater that operates to remove moisture, it operates based on the current dew point temperature and the reference dew point temperature, thereby reducing power loss and solving the problem of shortening product life. And

Fifth, when the current dew point temperature is higher than the reference dew point temperature, the fine dust concentration value output from the fine dust sensor is not displayed, so that there is no error fine dust concentration, so as not to provide incorrect information to the user or administrator.

Sixth, the air measurement efficiency of the fine dust sensor can be increased by forcibly inhaling and discharging the outside air with the fine dust sensor.

Seventh, to protect the fine dust sensor provided inside the sensor housing at a temperature below the freezing point, so that the operation of the product can be performed smoothly,

Eighth, it is possible to check the concentration of the fine dust according to the size of the fine dust particles,

Ninth, it is possible to perform air purification by filtering and discharging fine dust from the air filled with fine dust discharged by the measuring instrument, thereby increasing the marketability by diversifying the use of industrial measuring instruments,

Tenth, it is possible to easily and conveniently install an industrial instrument by allowing the instrument to be detachably installed on an adherend using a mounting bracket.

The eleventh, the mounting bracket can be fixed to the mounting groove in any direction, so that the installation direction of the instrument can be conveniently set, and the installation workability and use of the instrument can be facilitated.

Twelfth, the instrument can be removed and attached at any time so that it can be easily and conveniently removed and attached to the working environment.

The thirteenth, the mounting bracket is configured to be in close contact with the inner circumferential surface of the fitting groove, so that there is no clearance and flow, so that it can be firmly mounted,

Fourteenth, by adopting the guide surface, the mounting bracket is fitted to the fitting groove by riding the guide surface, so that the fitting of the mounting bracket to the fitting groove can be made more reliable and convenient.

Fifteenth, it is possible to conveniently and easily mount PCB (Printed Circuit Board) for sensor mounting for mounting of fine dust sensor,

Fifteenth, by providing a sensor housing for mounting the sensor, and connecting it to the main body by means of a connector, it provides an industrial instrument equipped with a fine dust measurement function that is suitable for installation in a variety of installation environments. Having

Industrial instrument equipped with a fine dust measurement function of the present invention for achieving the above object is a temperature and humidity sensor for sensing the temperature and humidity and outputting it to the control unit, The temperature and humidity measured by the temperature and humidity sensor, a temperature display unit and a humidity display unit are provided, respectively, a setting input unit for setting and inputting an output range in which the temperature is displayed and an output range in which the humidity is displayed, and the setting input unit. An industrial unit comprising a control unit that outputs a temperature and humidity value input from the temperature and humidity sensor to the display unit based on a set input output range, and a communication unit that remotely transmits the temperature and humidity measured by the temperature and humidity sensor based on the control of the control unit. In the measuring instrument, a fine dust sensor for measuring the concentration of fine dust in the air and outputting it to the control unit, and a fine dust provided on the display unit and displaying the concentration of fine dust measured by the fine dust sensor based on control of the control unit Characterized in that the dust display is further included.

Industrial measuring instrument equipped with a fine dust measurement function of the present invention having the above configuration has the following effects.

First, there is an effect that the measurement of the fine dust generated in the industrial site can be performed directly on the instrument itself, and the concentration of fine dust can be displayed directly on the instrument itself, so that workers and managers can immediately check it. It has the effect of being able to respond immediately depending on the concentration of.

Second, there is an effect that can block the occurrence of fine dust measurement errors that can be caused by moisture in the air.

Third, the moisture is removed by the heater, but the driving control of the heater is based on the dew point temperature, so that only the case in which moisture actually occurs can be removed, and as a result, there is an effect of ensuring the practical efficiency of moisture removal.

Fourth, it is possible to reduce power loss and solve the problem of shortening product life by operating the heater operating to remove moisture not always at all times, but based on the current dew point temperature and the reference dew point temperature. There is.

Fifth, when the current dew point temperature is higher than the reference dew point temperature, the fine dust concentration value output from the fine dust sensor is not displayed, so there is no effect of providing incorrect information to the user or administrator because the fine dust concentration with errors is not displayed. .

Sixth, there is an effect that the air measurement efficiency of the fine dust sensor can be increased by forcibly inhaling and discharging external air with the fine dust sensor.

Seventh, there is an effect that the operation of the product can be performed smoothly by protecting the fine dust sensor provided inside the sensor housing at a temperature below the freezing point.

Eighth, there is an effect that can confirm the concentration of the fine dust according to the size of the particles of fine dust.

Ninth, it is possible to perform air purification by filtering and discharging fine dust from the air filled with fine dust emitted by the measuring instrument, and as a result, there is an effect of increasing commerciality by diversifying the use of the industrial measuring instrument.

Tenth, it is possible to easily and conveniently install an industrial instrument by allowing the instrument to be detachably installed on an adherend using a mounting bracket.

Eleventh, the mounting bracket can be fixed to the mounting groove in any direction, and as a result, it is possible to conveniently set the installation direction of the measuring instrument, and also has the effect of convenient installation workability and easy use of the measuring instrument.

Twelfth, by removing and attaching the instrument at any time, it has the effect of easily and conveniently removing and attaching the instrument according to the working environment.

Thirteenth, the mounting bracket is configured to be in close contact with the inner circumferential surface of the fitting groove, so that there is no clearance and flow, and as a result, it can be firmly mounted.

Fourteenth, by adopting the guide surface, the mounting bracket is fitted to the fitting groove by riding the guide surface, thereby making the mounting bracket's fitting groove into the fitting groove more reliable and convenient.

Fifteenth, it is possible to conveniently and easily mount the mounting PCB of the sensor for mounting the fine dust sensor.

Sixteenth, by adopting a sensor housing for mounting the sensor, and this is connected to the main body by a connecting pipe, there is an effect that can be installed to suit various installation environments.

1 is a perspective view of an industrial instrument equipped with a fine dust measurement function according to an embodiment of the present invention.
Figure 2 is a front view of the state of use of the industrial instrument equipped with a fine dust measurement function according to an embodiment of the present invention installed on the adherend (W).
FIG. 3 is a cross-sectional view of a sensor housing SH and a separate configuration diagram of a temperature and humidity sensor 161 in an industrial instrument equipped with a fine dust measurement function according to an embodiment of the present invention.
4 is a plan view of a sensor housing SH in a state in which a sensor mounting PCB P2 is mounted in an industrial instrument equipped with a fine dust measurement function according to an embodiment of the present invention.
FIG. 5 is a rear view of the sensor housing SH in which the sensor mounting PCB P2 is mounted in an industrial instrument equipped with a fine dust measurement function according to an embodiment of the present invention.
6 is an industrial instrument equipped with a fine dust measurement function according to an embodiment of the present invention, the end 151a of the horizontal plate portion 151 of the mounting bracket 150 on the inner circumferential surface 142a of the fitting groove 142 ) Is a state diagram showing the use of the main parts expressing the state in close contact.
7 is a functional block configuration diagram of an industrial instrument equipped with a fine dust measurement function according to an embodiment of the present invention.
8 is a detailed main configuration diagram of the setting input unit 180 in FIG. 7.
9 is a configuration diagram of main parts of an industrial instrument equipped with a fine dust measurement function according to another embodiment of the present invention.

Next will be described in detail with reference to the accompanying drawings, preferred embodiments of the present invention, an industrial instrument equipped with a fine dust measurement function.

An industrial instrument equipped with a fine dust measurement function according to an embodiment of the present invention is an industrial instrument for measuring temperature or humidity at an industrial site, which means temperature and humidity (relative humidity) and is the same for the entire specification. ) To detect and output the temperature and humidity sensor 161 to the control unit 191, and the temperature and humidity display unit 171 and the humidity display unit to display the temperature and humidity measured by the temperature and humidity sensor 161 based on the control of the control unit 191 The setting input unit 180 for setting and inputting the display unit 170 provided with the 172 and the output range for displaying the temperature and the output range for displaying the humidity are input from the setting input unit 180, respectively. The control unit 191 outputs the temperature and humidity values input from the temperature and humidity sensor 161 to the display unit 170 based on the output range, and the temperature and humidity sensor 161 is measured based on the control of the control unit 191. In an industrial instrument comprising a communication unit (192) that transmits temperature and humidity remotely, an industrial instrument is used to measure fine dust in the surrounding air (strictly measure the concentration (µg/m ³ ) of fine dust) The fine dust sensor 162 output to the control unit 191, and provided on the display unit 170, the fine dust sensor 162 measured by the concentration of the fine dust (㎍ / m ³ ) the control unit 191 It characterized in that it is configured to further include a fine dust display unit 175 for displaying on the basis of the control.

According to this, the fine dust generated in the industrial field can be measured directly in the instrument itself, and it has the advantage that the operator and the manager can immediately check it by displaying it directly in the instrument itself. There is an advantage that can respond.

In an industrial instrument equipped with a fine dust measurement function according to an embodiment of the present invention, the present temperature and current humidity measured by the temperature and humidity sensor 161 is received based on the control of the control unit 191, and the received Based on the control of the dew point detection unit 193 and the control unit 191 for calculating and detecting the current dew point temperature Dp corresponding to the current temperature and humidity, the current dew point temperature Dp detected by the dew point detection unit 193 is determined. A dew point display unit 173 to be displayed, a heater 164 to provide heat to the air flowing into the fine dust sensor 162 to remove moisture in the air, and the setting input unit 180, the The dew point temperature setting unit 181 for setting a reference dew point temperature Dc that is a control variable for operating the heater 164 is further included, and the control unit 191 includes the dew point temperature setting unit 181. ) Compares the set reference input dew point temperature (Dc) with the current dew point temperature (Dp) detected by the dew point detection unit (193), and when the current dew point temperature (Dp) is greater than or equal to the reference dew point temperature (Dc) by the comparison. A heater driving control signal for driving the heater 164 is output, and the heater 164 operates by a heater driving control signal of the control unit 191 to heat the air flowing into the fine dust sensor 162. It is characterized by removing moisture in the air.

Then, the controller 191 stops driving the heater 164 when the current dew point temperature Dp is smaller than the reference dew point temperature Dc by comparing the reference dew point temperature Dc and the current dew point temperature Dp. It characterized in that the control.

For example, when the instrument is installed outdoors, if there is moisture (fog, cloudy day, rain, etc.) in the air, such moisture can also be sensed as particles, so it is measured depending on the presence or absence of moisture (fog, cloudy day, rain, etc.) In order to reduce the error, a heater 164 is mechanically provided to reduce the error, and the generation of the error is blocked by removing moisture by driving the heater 164.

Therefore, the present invention controls the driving of the heater 164 based on the dew point temperature, so the concept itself is different from the driving of the general heater.

In addition, the heater 164 is not always operated, but is operated based on the current dew point temperature and the reference dew point temperature, thereby reducing power loss and solving a problem of shortening the product life.

In an industrial instrument equipped with a fine dust measurement function according to an embodiment of the present invention, the control unit 191 outputs from the fine dust sensor 162 when the current dew point temperature Dp is greater than or equal to the reference dew point temperature Dc. The fine dust concentration value is controlled so that the display on the fine first display unit 174 stops, and when the current dew point temperature Dp falls below the reference dew point temperature Dc, the fine dust output from the fine dust sensor 162 It is characterized in that the concentration value is controlled so that it is displayed on the display unit 174 first.

Therefore, there is no indication of erroneous fine dust concentration, so that incorrect information is not provided to the user or administrator.

In an industrial instrument equipped with a fine dust measurement function according to an embodiment of the present invention, among the fine dust measured by the fine dust sensor 162, the size of particles of fine dust desired to be displayed on the fine dust display unit 174 The fine dust particle size selector 182 for selecting is configured to be further included, and the control unit 191 displays only the concentration of fine dust corresponding to the particle size selected by the fine dust particle size selector 182. The fine dust display unit 174 is characterized by displaying only the concentration of fine dust corresponding to the particle size selected by the fine dust particle size selection unit 182 based on the control of the control unit 191. .

According to this, there is an advantage that the concentration of the fine dust can be confirmed according to the size of the particles of the fine dust.

In an industrial instrument equipped with a fine dust measurement function according to an embodiment of the present invention, the fine dust display unit 174 does not display the concentration of the fine dust measured by the fine dust sensor 162 as an instantaneous value ( The accumulation time setting unit 184 for setting the integration time for displaying by accumulation) is further included, and the control unit 191 is configured to fine dust for a time set by the integration time setting unit 184. The concentration is controlled to be accumulated and displayed, and the fine dust display unit 174 integrates and displays the fine dust concentration for a time set by the integration time setting unit 184 based on the control of the control unit 191. It is characterized by.

According to this, it is possible to display the instantaneous value of fine dust, as well as to display the accumulated amount for a set time (eg, 1 hour, 30 minutes, etc.) according to the user's selection.

In an industrial instrument having a fine dust measurement function according to an embodiment of the present invention, the main body 110 is provided with the display unit 170, the setting input unit 180 and the communication unit 192, and the temperature and humidity sensor 161 ) And the sensor housing (SH: 130,140) for providing the fine dust sensor 162, and the upper side is fixed to the body 110 and the lower side is fixed to the sensor housing SH, so that the body 110 and the sensor housing ( SH), and a connector (120) having a through hole formed therein along the longitudinal direction so that a cable (not shown) for connecting the sensors (161,162) and the main PCB provided on the body 110 can pass through ) Is further included, and the sensor housing SH includes a body 130 having a hollow portion S1 and provided with sensors 161 and 162, and a cover 140 for opening and closing the body 130. It is configured to include, the body 130 is composed of a circular [disk-shaped] bottom portion 131 and the side portion 132 formed upward from the bottom portion 131, the bottom portion 131 is fixed to the sensor A ball 131a is formed, and a sensor mounting PCB P2 is mounted on the bottom portion 131 to be in close contact with the outer circumferential surface of the side portion 132, and the temperature and humidity sensor 161 is the sensor fixing hole 131a It is fixed to the mounting on the lower surface of the sensor mounting PCB (P2), the fine dust sensor 162 is mounted on the upper surface of the sensor mounting PCB (P2), the side portion 132, the fine dust sensor 162 It is characterized in that an air inflow hole (Hi) through which external air, which is the object to be measured, flows in, and an air outflow hole (Ho) through which the air inside the hollow portion after the fine dust sensor 162 is measured flow out, are formed. Is done.

Since it can be detachably installed on the adherend W using the mounting bracket 150 as described above, there is an advantage that can be easily and conveniently installed in an industrial instrument.

In addition, since the mounting bracket 150 can be fixed to the fitting groove 142 formed along the outer circumferential surface, it is convenient to set the direction of the main body 110 when the measuring instrument is installed, so installation workability is easy and convenient It has the advantage of losing.

And, since the instrument can be removed and attached at any time, there is an advantage that the instrument can be easily and conveniently removed and attached according to the working environment.

In addition, it is provided with a sensor housing (SH) for mounting the sensor as described above, by connecting it to the main body 110 by the connection tube 120 has the advantage that can be installed to fit a variety of installation environments. For example, if the sensing target is below and the administrator needs to check from above, the connector 120 can be configured to be long to form, so that it can be configured to suit the installation environment, thereby enabling reliable measurement.

In addition, the connector C2 for connecting the cable is provided in the sensor mounting PCB P2.

In an industrial instrument having a fine dust measurement function according to an embodiment of the present invention, it is provided in communication with the air outlet hole (Ho), the air pump (210) for forcibly sucking air inside the hollow portion (S1) ), the discharge pipe 220 connected to the air pump 210 to discharge the air forcedly sucked by the air pump 210 to the outside, and the pollution provided in the discharge pipe 220 and discharged to the discharge pipe 220 It is characterized in that it is configured to further include a purification filter 230 for purifying the air.

According to this, it is possible to perform an air purification function by filtering out fine dust from the air full of fine dust discharged from the measuring instrument, thus increasing the productability by diversifying the use of the industrial measuring instrument.

In an industrial instrument equipped with a fine dust measurement function according to an embodiment of the present invention, the inside of the body 130 is provided on the rear side of the fine dust sensor 162, and through the air inlet hole Hi It is characterized in that it is configured to further include a blower fan 163 for forcibly inhaling air and forcibly discharging it into the air outlet hole (Ho).

According to the configuration of the blower fan 163, the fine dust sensor 162 forcibly sucks in and discharges external air, thereby increasing the air measurement efficiency of the fine dust sensor 162.

In the industrial measuring instrument having a fine dust measurement function according to an embodiment of the present invention, the heater 164 is provided between the external air inlet hole (Hi) and the fine dust sensor 162, the fine dust sensor It characterized in that it removes moisture from the air flowing into (162).

In an industrial measuring instrument equipped with a fine dust measurement function according to an embodiment of the present invention, the sensor mounting PCB (P2) is fitted to the side portion 132 and mounted on the bottom portion 131 to be provided. .

According to the configuration as described above, the mounting of the sensor mounting PCB (P2) for mounting the fine dust sensor 162 can be robust, and there is an advantage that the installation workability is convenient.

In an industrial instrument equipped with a fine dust measurement function according to an embodiment of the present invention, apart from a heater operating mode (hereinafter referred to as a first heater operating mode) for operating the heater 164 according to the dew point temperature, outside air When is less than the reference temperature (Tc) (for example, 0 degrees C, which is the freezing point), the heater operation temperature input unit 183 for inputting the reference temperature Tc is further included to operate the heater 164, and the control unit is configured. 191 compares the reference temperature Tc input from the heater operation temperature input unit 183 with the current temperature Tp input from the temperature and humidity sensor 161, and the current temperature Tp is the reference by the comparison. When the temperature is below Tc, a drive control signal is output to drive the heater 164, and the heater 164 is operated based on a drive control signal output from the control unit 191 to form an interior of the sensor housing SH. It is characterized by providing furnace heat (called a second heater operation mode).

As described above, the fine dust sensor 162 provided inside the sensor housing SH is protected at a temperature below the freezing point so that the operation of the product is performed smoothly.

In an industrial instrument having a fine dust measurement function according to an embodiment of the present invention, one side is detachably provided on the sensor housing SH, and the other side is detachably provided on an adherend W on which the instrument is installed. The mounting bracket 150 is further included, and the outer circumferential surface of the cover 140 is fitted with a fitting groove 142 along the outer circumferential surface in a radially inward direction, and installed on the adherend W. It characterized in that the mounting bracket 150 is fitted to the fitting groove 142 to detachably install the sensor housing (SH) and the instrument to the adherend (W).

And, on the outer circumferential surface of the cover 140, a fitting groove 142 is recessed in a radially inward direction in the shape of a rim along the outer circumferential surface, and the mounting bracket 150 installed on the attachment W is the fitting groove ( 142) is characterized in that the sensor housing (SH) and the measuring device is detachably installed on the object (W).

Since it can be detachably installed on the adherend W using the mounting bracket 150 as described above, there is an advantage that can be easily and conveniently installed in an industrial instrument.

In addition, since the mounting bracket 150 can be fixed to the fitting groove 142 formed along the outer circumferential surface, it is convenient to set the direction of the main body 110 when the measuring instrument is installed, so installation workability is easy and convenient It has the advantage of losing.

And, since the instrument can be removed and attached at any time, there is an advantage that the instrument can be easily and conveniently removed and attached according to the working environment.

In addition, it is provided with a sensor housing (SH) for mounting the sensor as described above, by connecting it to the main body 110 by the connection tube 120 has the advantage that can be installed to fit a variety of installation environments. For example, if the sensing target is below and the administrator needs to check from above, the connector 120 can be configured to be long to form, so that it can be configured to suit the installation environment, thereby enabling reliable measurement.

In an industrial instrument equipped with a fine dust measurement function according to an embodiment of the present invention, the mounting bracket 150 is a plate-shaped horizontal plate portion 151 and a plate-shaped horizontal plate portion 151 in a vertical direction Consists of a bent vertical bent portion 152, the end portion 151a of the horizontal plate portion 151 is fastened to the fitting groove 142, the vertical bent portion 152 is the adherend (W) It is characterized in that it is installed detachably by a bolt (drawing number unarmed).

The mounting bracket 150 has an advantage of making the mounting operation easier by the shape of the'a' shape.

In an industrial instrument having a fine dust measurement function according to an embodiment of the present invention, the body 130 is formed in a cylindrical shape, the outer circumferential surface of the cover 140 is formed in a circular curved surface, and the horizontal plate It is characterized in that the end portion 151a of the portion 151 is in close contact with the inner circumferential surface 142a of the fitting groove 142 and is formed with a C-shape so as to conform to the inner circumferential surface (see FIG. 6).

According to this, there is an advantage that is tightly mounted by being in close contact with the inner circumferential surface of the fitting groove 142, and no play and flow are generated.

In an industrial instrument having a fine dust measurement function according to an embodiment of the present invention, the cover 140 has a through hole 140a through which a cable (not shown) passes, and the cover 140 A guide surface 141a is formed to be inclined upward from the circumferential surface of the inside, and a flat surface 141b is formed to be flat inward from the guide surface 141a, and is spaced upward from the flat surface 141b. The loop 143 of the is formed, it characterized in that the fitting groove 142 is formed by the space between the flat surface (141b) and the loop 143.

According to the shape of the guide surface 141a as described above, since the mounting bracket 150 is fixed by being fitted to the fitting groove 142 on the guide surface 141a, the installation workability of the mounting bracket 150 becomes more convenient.

In the industrial measuring instrument having a fine dust measurement function according to an embodiment of the present invention, the loop 143 has a plurality of screw holes 144 are formed at equal intervals, the screw hole 144 and screw fastening By doing so, it is characterized in that it is further configured to include a tightening screw (144a) for tightening the mounting bracket 150 firmly.

The following describes the operation of the industrial measuring instrument equipped with a fine dust measurement function according to an embodiment of the present invention having the above configuration.

The mounting bracket 150 is installed on the adherend W.

Then, if the fitting groove 142 is fitted to the horizontal plate portion 151 of the mounting bracket 150, a measuring instrument is installed.

At this time, the fitting groove 142 is formed along the outer circumferential surface, and thus can be fastened in any direction, so that an operator (administrator) can conveniently turn and check.

That is, once the fitting groove 142 is fitted to the mounting bracket 150, the instrument is turned to stop in a desired direction. After that, for a more reliable fixing, the tightening screw 144a may be used to tighten.

As described above, preferred embodiments according to the present invention have been described, and it is common knowledge in the art that the present invention can be implemented in other specific forms without changing its technical spirit or essential features in addition to the above-described embodiments. It is self-evident to those who have it. Therefore, the above-described embodiment should be understood as illustrative rather than restrictive.

The scope of the present invention is indicated by the following claims rather than the above detailed description, and it should be interpreted that all changes or modifications derived from the meaning and scope of the claims and equivalent concepts thereof are included in the scope of the present invention.

W: adherend
110: main body 120: connector
SH: Sensor housing P2: Sensor mounting PCB
130: body S1: the hollow portion of the body
131: bottom 131a: sensor fixing hole
132: side Hi: air inlet
Ho: Air outlet
140: cover 140a: through hole
141a: guide surface 141b: flat surface
142: shim homete 142a: shim homete inner surface
143: loop 144: thread
144a: pressure screw
150: mounting bracket 151: horizontal plate portion
152: vertical bent portion 151a: end
161: temperature and humidity sensor 162: fine dust sensor
163: blower fan 164: heater
165: pump
170: display unit 171: temperature display unit
172: humidity display unit 173: dew point display unit
174: fine first display unit 175: particle size display unit
180: setting input
181: dew point temperature setting unit 182: fine dust particle size selection unit
183: heater operation temperature input unit 184: integration time setting unit
191: control unit 192: communication unit
193: dew point detection unit
Dp: Current dew point temperature Dc: Reference dew point temperature
Tc: Reference temperature Tp: Current temperature

Claims (4)

A temperature and humidity sensor 161 for sensing the temperature and humidity and outputting it to the control unit 191, The temperature and humidity sensor 161, a temperature display unit 171 and a humidity display unit 172 for displaying the measured temperature and humidity are provided with a display unit 170, respectively, the output range for displaying the temperature and the output range for displaying the humidity A setting input unit 180 for setting and inputting, and a control unit 191 for outputting a temperature and humidity value input from the temperature and humidity sensor 161 to the display unit 170 based on an output range set by the setting input unit 180. And, on the basis of the control of the control unit 191, an industrial instrument comprising a communication unit 192 for remotely transmitting the temperature and humidity measured by the temperature and humidity sensor 161,
A fine dust sensor 162 that measures the concentration (µg/m ³ ) of fine dust in the air and outputs it to the control unit 191,
The fine dust display unit 175 is provided on the display unit 170 and displays the concentration (µg/m ³ ) of the fine dust measured by the fine dust sensor 162 based on the control of the control unit 191,
Based on the control of the control unit 191, the dew point detector 193 for receiving the current temperature and the current humidity measured by the temperature and humidity sensor 161, and calculates and detects the current dew point temperature (Dp) corresponding to the received current temperature and humidity )Wow,
Based on the control of the control unit 191, the dew point display unit 173 for displaying the current dew point temperature (Dp) detected by the dew point detection unit 193,
A heater 164 for providing heat to the air entering the fine dust sensor 162 to remove moisture in the air,
It is provided in the setting input unit 180, is configured to further include a dew point temperature setting unit 181 for setting a reference dew point temperature (Dc) that is a control variable for operating the heater 164,
The control unit 191 compares the reference dew point temperature Dc set and input from the dew point temperature setting unit 181 with the current dew point temperature Dp detected by the dew point detection unit 193, and the current value is When the dew point temperature Dp is greater than or equal to the reference dew point temperature Dc, a heater driving control signal for driving the heater 164 is output,
The heater 164 operates by a heater driving control signal of the control unit 191 to heat the air flowing into the fine dust sensor 162 to remove moisture in the air,
The control unit 191 may stop driving the heater 164 when the current dew point temperature Dp is smaller than the reference dew point temperature Dc by comparing the reference dew point temperature Dc and the current dew point temperature Dp. Control,
When the current dew point temperature Dp is greater than or equal to the reference dew point temperature Dc, the control unit 191 controls the concentration of the fine dust output from the fine dust sensor 162 to stop the display on the fine first display unit 174. And, when the current dew point temperature (Dp) falls below the reference dew point temperature (Dc), the fine dust concentration value output from the fine dust sensor 162 is controlled to be displayed on the fine first display unit 174,
Among the fine dust measured by the fine dust sensor 162, a fine dust particle size selector 182 for selecting the size of the fine dust particles to be displayed on the fine dust display unit 174 is further included,
The control unit 191 controls to display only the concentration of the fine dust corresponding to the particle size selected by the fine particle size selection unit 182,
The fine dust display unit 174 displays only the concentration of fine dust corresponding to the particle size selected by the fine dust particle size selection unit 182 based on the control of the control unit 191,
The integration time setting unit 184 further includes an integration time setting unit for setting the integration time for the fine dust display unit 174 to display the concentration of the fine dust measured by the fine dust sensor 162 without being displayed as an instantaneous value. Composed,
The control unit 191 controls to accumulate and display the fine dust concentration for a time set by the integration time setting unit 184,
The fine dust display unit 174 accumulates and displays the fine dust concentration for a time set by the integration time setting unit 184 based on the control of the control unit 191,
The main body 110 is provided with the display unit 170, the setting input unit 180 and the communication unit 192,
A sensor housing (SH: 130,140) for providing the temperature and humidity sensor 161 and the fine dust sensor 162,
The upper side is fixed to the main body 110 and the lower side is fixed to the sensor housing SH to connect the main body 110 and the sensor housing SH, and the main PCBs provided in the sensors 161,162 and the main body 110 are connected. It is configured by further including a connector 120 having a through hole therein along the longitudinal direction so that the cable for connection can pass therethrough,
The sensor housing SH includes a body 130 in which the hollow portion S1 is formed and equipped with sensors 161 and 162, and a cover 140 for opening and closing the body 130,
The body 130 is composed of a circular bottom portion 131 and a side portion 132 formed upward from the bottom portion 131,
A sensor fixing hole 131a is formed in the bottom portion 131, and a sensor mounting PCB P2 is mounted on the bottom portion 131 to be in close contact with the outer peripheral surface of the side portion 132,
The temperature and humidity sensor 161 is fixed to the sensor fixing hole (131a) and mounted on the lower surface of the sensor mounting PCB (P2),
The fine dust sensor 162 is mounted on the upper surface of the sensor mounting PCB (P2),
The side portion 132 has an air inlet hole (Hi) through which the outside air, which is the object to be measured by the fine dust sensor (162), and the air inside the hollow portion after the fine dust sensor (162) is measured flow out. The air outlet hole (Ho) is formed,
It is provided in the interior of the body 130 from the rear side of the fine dust sensor 162, the blowing fan for forcibly sucking the outside air through the air inlet hole (Hi) to forcibly discharge it to the air outlet hole (Ho) (163) is further configured to include,
The heater 164 is provided between the external air inlet hole (Hi) and the fine dust sensor 162 to remove moisture from the air flowing into the fine dust sensor 162,
The sensor mounting PCB (P2) is fitted to the side portion 132 and mounted on the bottom portion 131 to be provided,
One side is provided detachably to the sensor housing (SH), the other side is configured to further include a mounting bracket 150 that is detachably provided to the attachment (W) on which the instrument is installed,
On the outer circumferential surface of the cover 140, a fitting groove 142 is recessed in a radially inward direction in a rim shape along the outer circumferential surface,
The mounting bracket 150 installed on the adherend W is fitted to the fitting groove 142 so that the sensor housing SH and the measuring instrument are detachably installed on the adherend W,
On the outer circumferential surface of the cover 140, a fitting groove 142 is recessed in a radially inward direction in a te shape along the outer circumferential surface,
The mounting bracket 150 installed on the adherend W is fitted to the fitting groove 142, so that the sensor housing SH and the measuring instrument are detachably installed on the adherend W, thereby measuring fine dust. Industrial instrument equipped.
The method according to claim 1,
It is provided in communication with the air outlet hole (Ho), and the air pump 210 for forcibly sucking air inside the hollow portion (S1),
The discharge pipe 220 which is connected to the air pump 210 and discharges the air forcedly sucked by the air pump 210 to the outside,
Industrial instrument equipped with a fine dust measurement function, characterized in that further comprises a purification filter 230 that is provided in the discharge pipe 220 and purifies the contaminated air discharged to the discharge pipe (220).
The method according to claim 1,
The mounting bracket 150 is composed of a plate-shaped horizontal plate portion 151 and a plate-shaped vertical bending portion 152 that is plate-shaped and bent in the vertical direction from the horizontal plate portion 151,
The end portion 151a of the horizontal plate portion 151 is fastened to the fitting groove 142, and the vertical bending portion 152 is detachably installed by bolts to the adherend W. Industrial measuring instrument with fine dust measurement function.
The method according to claim 3,
The cover 140 is formed with a through hole (140a) for the cable to pass,
A guide surface 141a is formed to be inclined upwardly from the circumferential surface of the cover 140,
A flat surface 141b is formed to be flat inward from the guide surface 141a,
A disk-shaped loop 143 is formed by being spaced upward from the flat surface 141b.
Industrial instrument having a fine dust measurement function, characterized in that the fitting groove 142 is formed by the space between the flat surface (141b) and the roof (143).

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