KR20230055803A - System for solder purifier multi-control and monitoring - Google Patents

Abstract

The present invention relates to a solder purifier multi-control and monitoring system, capable of controlling operation of a fume extractor in response to the temperature of a soldering iron, controlling the operation of the fume extractor in response to operation of a soldering robot that automatically solders at a set position, and analyzing and monitoring indoor air quality through multiple sensors. The solder purifier multi-control and monitoring system includes a harmful gas sensor part, a fume extractor, a manual soldering part, an automatic soldering part, and a control part.

Description

Solder Purifier Multi Control and Monitoring System {SYSTEM FOR SOLDER PURIFIER MULTI-CONTROL AND MONITORING}

The present invention relates to a multi control and monitoring system for a soldering purifier, which controls the operation of a fume extractor in response to the temperature of an iron and responds to the operation of a soldering robot that automatically solders to a set position. The present invention relates to a multi control and monitoring system for a soldering purifier capable of controlling the operation of a solder purifier and analyzing and monitoring indoor air quality through a plurality of sensors.

Conventionally, when soldering is performed using an iron, a fume extractor is manually operated to purify or discharge iron smoke, which is a harmful gas. In addition, there is a problem in that noxious gas is generated even when soldering is performed using an automatic PCB soldering robot, and indoor air quality is deteriorated.

Korean Patent Publication No. 10-2019-0125240

The present invention was derived to solve the above-mentioned problems, and controls the operation of a fume extractor in response to the temperature of the iron and responds to the operation of a soldering robot that automatically solders to a set position. A soldering purifier multi control and monitoring system capable of controlling operation and analyzing and monitoring indoor air quality through a plurality of sensors.

According to one aspect of the present invention, in a multi-control and monitoring system for a soldering purifier connected to a plurality of sensors and a fume extractor through a network, a harmful gas sensor unit including a plurality of sensors for detecting harmful gases, the harmful gas sensor A fume extractor that inhales, purifies, and discharges the harmful gas detected through, a manual soldering part for soldering, an automatic soldering part that automatically solders to a set position, and the fume extractor, the manual A soldering unit and a control unit controlling an operation of the automatic soldering unit, wherein the manual soldering unit includes a replaceable filter unit and a soldering unit configured at an end of the manual soldering unit and performing a soldering function, measuring the temperature of the iron unit, , Transmits the temperature measurement value of the iron part to the control unit, and the control unit transmits the fume extractor operation signal to the fume extractor when the received temperature measurement value of the iron part is greater than or equal to a first temperature measurement value, The fume extractor may receive the operation signal received from the control unit, perform the noxious gas filtering operation, and purify and discharge the noxious gas.

In one embodiment, the automatic soldering unit may be characterized in that it operates by receiving position setting information and operation signals from the control unit.

In one embodiment, when the operation of the automatic soldering unit is in an ON state, the fume extractor operates in an ON state to purify and discharge the harmful gas, and the operation of the automatic soldering unit is off (OFF) state, the fume extractor may be characterized in that it is in an OFF state.

In one embodiment, the noxious gas sensor unit may be characterized in that after measuring the concentration of the noxious gas, it transmits the noxious gas measurement value to the control unit.

In one embodiment, the harmful gas is a gas containing at least one of lead smoke, fine dust, sulfur oxides (SOx), nitrogen oxides (NOx), oxides (Oxidant), hydrocarbons, fluorine compounds, carbon monoxide, carbon dioxide, and ammonia. , The noxious gas sensor unit may be characterized in that it detects the noxious gas.

In one embodiment, the control unit may be connected to a user terminal through a network, and the user terminal may transmit control signals of the automatic soldering unit and the fume extractor to the control unit.

In one embodiment, the soldering purifier multi control and monitoring system further includes a monitoring unit outputting the noxious gas measurement value, and the control unit transfers the noxious gas measurement value received from the noxious gas sensor unit to the monitoring unit. And, the monitoring unit may be characterized in that it outputs the noxious gas measurement value transmitted from the control unit through a display.

In one embodiment, the control unit may be characterized in that it comprises an analyzer for analyzing the noxious gas measurement value received from the noxious gas sensor unit.

In one embodiment, the analyzer determines the state of indoor air quality, and the determination of the state of indoor air quality determines the state of indoor air quality as a first state when the measured value of the noxious gas is greater than or equal to a first set value, and When the harmful gas measurement value is greater than or equal to the second set value and less than the first set value, the state of the indoor air quality is determined as the second state, and when the measured value of harmful gas is less than the second set value, the state of the indoor air quality is determined as the third state. It can be characterized by judging by the state.

In one embodiment, the control unit is connected to a plurality of air purifiers through a network, and when the control unit determines that the indoor air quality is in a first state, it transmits a first operation signal to the plurality of air purifiers, and the control unit When the state of indoor air quality is determined to be the second state, a second operation signal is transmitted to the plurality of air purifiers, and when the controller determines the state of indoor air quality to be the third state, a third operation is performed to the plurality of air purifiers. It may be characterized by transmitting a signal.

According to the present invention, it is possible to manage indoor air quality in soldering factories and laboratories by purifying and discharging harmful gases generated during soldering through a fume extractor.

In addition, after measuring the temperature of the iron, the fume extractor is operated in response to the measured temperature value, so that the case where the fume extractor is not operated by mistake does not occur, and harmful gas generation can be minimized.

In addition, by measuring, analyzing, and monitoring indoor air quality through a plurality of sensors, it is possible to manage and control indoor air quality through an air purifier.

1 is a diagram illustrating a solder purifier multi control and monitoring system 100 according to an embodiment of the present invention.
2 is a diagram illustrating a fume extractor 120 according to an embodiment of the present invention.
3 is a diagram illustrating a manual soldering unit 130 according to an embodiment of the present invention.
4 is a diagram illustrating an automatic soldering unit 140 according to an embodiment of the present invention.

Hereinafter, a preferred embodiment is presented to aid understanding of the present invention. However, the following examples are only provided to more easily understand the present invention, and the content of the present invention is not limited by the examples.

Hereinafter, with reference to FIGS. 1 to 4 , the present invention and a solder purifier multi control and monitoring system according to various embodiments of the present invention will be described in detail.

1 is a diagram illustrating a solder purifier multi control and monitoring system 100 according to an embodiment of the present invention.

Referring to FIG. 1, the soldering purifier multi control and monitoring system 100 includes a harmful gas sensor unit 110, a fume extractor 120, a manual soldering unit 130, an automatic soldering unit 140, and a control unit 150. , It can be configured to include an air purifier 160 and a user terminal 170.

In one embodiment, the fume extractor 120 may include a suction part 121 and a filter part 122 that suck harmful gas. Here, the harmful gas is a gas containing at least one of lead smoke, fine dust, sulfur oxides (SOx), nitrogen oxides (NOx), oxides (oxides), hydrocarbons, fluorine compounds, carbon monoxide, carbon dioxide, and ammonia. Referring to FIG. 2 to describe the suction unit 121 and the filter unit 122, FIG. 2 is a view illustrating the fume extractor 120 according to an embodiment of the present invention. The suction part 121 for sucking harmful gas may be separated from and connected to the body of the fume extractor 120, and the filter part 122 is configured to be replaceable. The replaceable filter unit 122 can be connected to the inside of the main body of the fume extractor 120 through a connecting ring inside the housing, and can be replaced through separation by dismantling the connecting ring. In addition, the filter unit 122 is composed of a medium filter, a HEPA filter, an antibacterial pre-filter, an activated carbon filter, a poster filter, and a pre-filter, a medium filter, and a 7-ply composite filter, including a total of 3 layers of filter protection mesh between each filter. It can be. Here, the medium filter can remove 0.4 μm fine dust, and the 7-layer composite filter can remove 99.97% of 0.3 μm fine dust.

In one embodiment, the manual soldering unit 130 raises the temperature to melt lead, measures the temperature of the soldering iron unit 131 and the soldering iron unit 131, and then converts the measured temperature value to the control unit 150. ) It may include a first temperature controller 132 that transmits to. Referring to FIG. 3 to describe the manual soldering unit 130, FIG. 3 is a diagram illustrating the manual soldering unit 130 according to an embodiment of the present invention. When the manual soldering unit 130 operates, the temperature of the soldering iron unit 131 for soldering becomes about 200 to 450° C., and the first temperature controller 132 can control the temperature of the soldering unit 131, It may be measured whether the temperature of the pharynx 131 is similar to the controlled temperature. Also, the first temperature controller 132 may display the measured temperature of the iron part 131 through a display unit (not shown) of the manual soldering part 130 . In addition, if the difference between the temperature of the iron part 131 controlled by the first temperature controller 132 and the actual measured value is more than 20°C, the first temperature controller 132 stops the operation of the manual soldering unit 130. The operation of the manual soldering unit 130 may be blocked by detecting an abnormal operation.

In one embodiment, the automatic soldering unit 140 measures the temperature of the soldering iron unit 141 that performs the role of soldering by increasing the temperature and melting lead, and then sends the measured temperature value to the control unit 150. It may include a second temperature controller 142 and an automatic soldering controller (not shown) that receives an operation signal from the controller 150 and operates to perform a soldering function. Referring to FIG. 4 to describe the automatic soldering unit 140, FIG. 4 is a diagram illustrating the automatic soldering unit 140 according to an embodiment of the present invention. The automatic soldering unit 140 includes an automatic soldering iron unit 141 and a second temperature controller 142, and is configured in the form of a robot arm. By receiving an operation signal from the control unit 150, the temperature of the automatic soldering iron unit 141 is raised to 200 to 450° C., and soldering can be performed at a designated location.

Returning to FIG. 1 , the manual soldering unit 130 is configured at the end of the manual soldering unit and has a soldering iron unit 131 that performs a soldering function and a control unit that measures the temperature of the iron unit and transmits the measured temperature value to the control unit. 1 includes a temperature control unit 132, and the control unit 150 may transfer a fume extractor operation signal to the fume extractor 120 when the temperature measurement value of the iron part is greater than or equal to the first temperature measurement value. In addition, the fume extractor 120 may receive an operation signal received from the control unit 150 and perform a harmful gas filtering operation to purify and discharge harmful gases. Here, the first temperature measurement value is a temperature necessary for soldering and may be set to about 200° C., and may be arbitrarily set through the controller.

The automatic soldering unit 140 may receive soldering position information and an operation signal from the control unit 150 and raise the temperature of the automatic soldering iron unit 141 to perform soldering at the received position.

When the operation of the automatic soldering unit 140 is in an ON state, the fume extractor 120 senses the ON operation of the automatic soldering unit 140 and the fume extractor 120 operates ON to prevent harm. When the gas is purified and discharged, and the operation of the automatic soldering unit 140 is in an OFF state, the off operation of the automatic soldering unit 140 is detected so that the fume extractor 120 can be turned OFF. there is.

The noxious gas sensor unit 120 may measure the concentration of the noxious gas and transmit the noxious gas measurement value to the control unit 150 .

The control unit 150 is connected to the user terminal through a network, and the user terminal 170 may transfer control signals of the automatic soldering unit 140 and the fume extractor 120 to the control unit 150 . Here, an operation signal may be transmitted to the control unit 150 through the application of the user terminal to control the operation of the automatic soldering unit and the fume extractor, control the on/off operation, and control the temperature of the automatic soldering unit 141 and the operating strength of the fume extractor.

The solder purifier multi control and monitoring system 100 according to the present invention further includes a monitoring unit (not shown) outputting a harmful gas measurement value, and the control unit 150 measures the harmful gas transmitted from the harmful gas sensor unit 110. The value is transmitted to a monitoring unit (not shown), and the monitoring unit (not shown) may output the harmful gas measurement value received from the control unit 150 through a display. In addition, the control unit 150 may include an analyzer (not shown) that analyzes the measured value of harmful gas transmitted from the harmful gas sensor unit.

When the measurement value received from the harmful gas sensor unit 110 is equal to or greater than the first set value, the analyzer (not shown) determines the indoor air quality as the first state, and measures the measurement received from the harmful gas sensor unit 110. When the value is greater than or equal to the second set value and less than the first set value, the state of indoor air quality is determined as the second state, and when the measured value received from the noxious gas sensor unit 110 is less than the second set value, the indoor air quality The state may be determined as the third state.

Here, the first to third set values are based on the Indoor Air Quality Control Act of the Ministry of Environment, the first set value is 81 μg/m ³ of fine dust and 36 μg/m ³ of ultrafine dust, and the first state means “bad” state do. The second set value is 31 μg/m ³ of fine dust and 16 μg/m ³ of ultrafine dust, and the second state means a “normal” state. The third set value is 0μg/m ³ of fine dust and 0μg/m ³ of ultrafine dust, and the third state means a “good” state. In addition, the first to third set values may be arbitrarily set through the control unit 150 .

The controller 150 is connected to the plurality of air purifiers 160 through a network, and when the controller 150 determines that the state of indoor air quality is the first state, the controller 150 supplies the plurality of air purifiers 160 with a first state. When the operation signal is transmitted and the control unit 150 determines that the indoor air quality state is the second state, the second operation signal is transmitted to the plurality of air purifiers 160, and the control unit 150 determines the indoor air quality state. When the state 3 is determined, a third operation signal may be transmitted to the plurality of air purifiers 160 .

Here, the first to third operation signals refer to operation signals according to the operation intensity of the air purifier 160, the first operation signal is the strongest operation signal, the second operation signal is the middle operation stage, and the third operation signal is Indicates a weak action phase.

Although the above has been described with reference to preferred embodiments of the present invention, those skilled in the art can variously modify and change the present invention without departing from the spirit and scope of the present invention described in the claims below. You will understand that you can.

100: Solder purifier multi control and monitoring system
110: harmful gas sensor unit
120: Fume extractor
130: manual soldering part
140: automatic soldering unit
150: control unit
160: air purifier
170: user terminal

Claims (10)

In the solder purifier multi control and monitoring system connected to a plurality of sensors and a fume extractor and a network,
A harmful gas sensor unit including a plurality of sensors for detecting harmful gases;
a fume extractor for inhaling, purifying, and discharging the noxious gas detected through the noxious gas sensor;
Manual soldering unit for soldering;
An automatic soldering unit that automatically solders to a set position; and
A control unit controlling operations of the fume extractor, the manual soldering unit, and the automatic soldering unit;
The manual soldering part,
a soldering iron unit configured at an end of the manual soldering unit and performing a soldering function; And a first temperature controller for measuring the temperature of the iron and transmitting the measured temperature value to the controller;
The control unit,
transmitting the fume extractor operation signal to the fume extractor when the received measured temperature of the pharynx is equal to or greater than the first measured temperature;
The fume extractor,
Characterized in that the operation signal received from the control unit is transmitted, and the noxious gas filtering operation is performed to purify and discharge.
Solder purifier multi control and monitoring system.
According to claim 1,
The automatic soldering part,
Characterized in that it operates by receiving soldering position setting information and operation signals from the control unit,
Solder purifier multi control and monitoring system.
According to claim 1,
The fume extractor,
When the operation of the automatic soldering unit is in an on state, the on operation of the automatic soldering unit is detected and the fume extractor is turned on to purify and discharge the harmful gas;
Characterized in that, when the operation of the automatic soldering unit is in an off state, the fume extractor turns off by detecting the off operation of the automatic soldering unit.
Solder purifier multi control and monitoring system.
According to claim 1,
The harmful gas sensor unit,
Characterized in that after measuring the concentration of the harmful gas, the measured value of the harmful gas is transmitted to the control unit,
Solder purifier multi control and monitoring system.
According to claim 1,
The harmful gas is
Characterized in that the gas contains at least one of lead smoke, fine dust, sulfur oxides (SOx), nitrogen oxides (NOx), oxides, hydrocarbons, fluorine compounds, carbon monoxide, carbon dioxide and ammonia,
Solder purifier multi control and monitoring system.
According to claim 1,
The control unit,
It is connected to the user terminal and the network,
The user terminal,
Characterized in that the control signal of the automatic soldering unit and the fume extractor is transmitted to the control unit.
Solder purifier multi control and monitoring system.
According to claim 4,
The solder purifier multi control and monitoring system,
It further includes; a monitoring unit for outputting the harmful gas measurement value,
The control unit,
The noxious gas measurement value received from the noxious gas sensor unit is transmitted to the monitoring unit,
The monitoring unit,
Characterized in that the noxious gas measurement value transmitted from the control unit is output through a display,
Solder purifier multi control and monitoring system.
According to claim 4,
The control unit,
Characterized in that it comprises a; analysis unit for analyzing the noxious gas measurement value transmitted from the noxious gas sensor unit,
Solder purifier multi control and monitoring system.
According to claim 8,
The analysis unit,
Assess indoor air quality,
Determining the state of the indoor air quality,
When the harmful gas measurement value is greater than or equal to a first set value, the state of the indoor air quality is determined as a first state;
When the noxious gas measurement value is greater than or equal to a second set value and less than a first set value, the state of the indoor air quality is determined as a second state,
Characterized in that when the harmful gas measurement value is less than the second set value, the state of the indoor air quality is determined as the third state,
Solder purifier multi control and monitoring system.
According to claim 7,
The control unit,
It is connected to a plurality of air purifiers and networks,
When the control unit determines that the state of the indoor air quality is a first state, it transmits a first operation signal to the plurality of air purifiers;
When the controller determines that the indoor air quality is in the second state, a second operation signal is transmitted to the plurality of air purifiers;
Characterized in that, when the control unit determines that the state of the indoor air quality is in the third state, it transmits a third operation signal to the plurality of air purifiers.
Solder purifier multi control and monitoring system.

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