KR101102986B1 - In-line oxygen analysis - Google Patents

Abstract

The present invention relates to an in-line oxygen concentration meter and method for moving in a reflow oven (Reflow Soldering Machine) in the SMT production line to measure the oxygen concentration inside.

The present invention moves the oxygen sensor on the conveyor of the reflow oven, and after measuring the oxygen concentration distributed inside the oven, the measured data value is stored in the memory and discharged from the oven by reading the data stored in the memory oxygen It is made by comparing the analysis of the concentrations, and it becomes possible to accurately measure the internal oxygen concentration of the reflow oven.

Oxygen Concentration, Measurement, Inline, Reflow Oven

Description

In-line oxygen analyzer and method

The present invention relates to an in-line oxygen concentration meter and method for moving in a reflow oven (Reflow Soldering Machine) in the SMT production line to measure the oxygen concentration inside.

The reflow oven of the SMT production line has a length of 4-5m, and the inside of the reflow oven is used for moving and soldering the PCB mounted with components, and the oxygen concentration measurement of the inside of the reflow oven is very important. Was.

Oxygen concentration measurement for the existing reflow oven is to measure the oxygen concentration by installing a suction pipe for sucking the internal air in a certain location of the oven and then sucking the internal air through the suction pipe to contact the oxygen sensor.

In this method, since the inside air is sucked through the suction pipe of about 2-4m, the oxygen concentration of the place that is mixed with the air inside the suction pipe or the foreign matter in the oven is also sucked together and accurately measured is not precisely performed.

Measuring the oxygen concentration by the suction of the internal suction air of the oven by using the suction tube as described above can not sensitively react to the measurement of the oxygen concentration in the oven which changes instantaneously due to the length of the suction tube, and also provides various types of filters in the suction tube. The best oxygen concentration value can be obtained by installing the to remove debris from the oven.

In addition, the method can only measure the oxygen concentration in the place where the suction pipe is installed, but it is not possible to measure the oxygen concentration of each oven for the entire oven, and the problem of shortening the lifespan is made even when it is unnecessary due to continuous use. have.

In order to solve the problem of measuring the oxygen concentration at a specific place inside the reflow oven, the present invention can measure the oxygen concentration anywhere in the reflow oven, and foreign matters are mixed or mixed with external air. In order to eliminate the problem, the present invention is to move the oxygen concentration meter riding the conveyor through the reflow oven to measure the oxygen concentration at regular intervals to obtain the measurement data from the oxygen concentration meter exiting the reflow oven It is.

The present invention moves the oxygen sensor on the conveyor of the reflow oven, and after measuring the oxygen concentration distributed inside the oven, the measured data value is stored in the memory and discharged from the oven to read the data stored in the memory oxygen concentration It is made by comparing the analysis of, so that the measurement of the internal oxygen concentration of the reflow oven can be performed accurately.

The present invention includes an oxygen sensor for measuring the oxygen concentration in the oven, and has a case for protecting the oxygen sensor from heat, the inside of the case is connected to a data cable and a memory for storing the measured value of the oxygen sensor It is provided with a battery for supplying power internally, and the inside of the case is provided with a controller to control the operation of the specified oxygen sensor and memory when input the measurement conditions with the operation switch to be stored after completing the oxygen concentration measurement do.

The present invention can measure the oxygen concentration of the oven while moving on the conveyor in the reflow oven can be measured at the closest distance to reduce the measurement error, the case where the measurement of the mixture of air or foreign matter mixed This eliminates the need for accurate measurements.

And the present invention can measure the oxygen concentration anywhere in the reflow oven, if necessary, it can escape the limitation that can measure only the position in which the suction pipe is installed as before, the present invention is used only when necessary, continuous It does not have to be used for a long time, which can prolong the life.

The present invention is to measure the oxygen concentration at a specific point of the reflow oven in the SMT production line, and to measure the oxygen concentration at a selected point inside the oven while passing the oxygen concentration meter on the conveyor in the reflow oven.

Oxygen concentration meter of the present invention to pass through the reflow oven in a conveyor belt while being put in a case to protect the internal device at a high temperature, but after measuring the oxygen concentration at regular intervals and stored it in a memory The memory is taken out of the case and the oxygen concentration reading is read.

Oxygen concentration measuring method of the present invention is to set the measurement interval by operating the operation switch, preheat the oxygen sensor to make the measurement, press the start switch and put into the reflow oven, time interrupt while passing through the reflow oven By measuring the oxygen concentration and temperature according to the measurement interval by the memory, and by passing through the reflow oven, stops the measurement and reads the measured value stored in the memory. The measurement is made while passing through the reflow oven.

In the present invention, the oxygen concentration meter 100 is installed in the case 10 having a high-temperature case 10 in order to protect the internal measuring device and circuit elements from high temperature when passing through the reflow oven. By doing so to ensure accurate operation even without damage to the circuit element at a high temperature, the case 10 is opened and closed.

The case 10 is provided with an oxygen sensor 20 for measuring oxygen concentration, and a memory for storing data measured by the oxygen sensor 20 is built in while the external input of the oxygen sensor 20 A memory unit 30 includes a controller for storing measured values and controlling a storage interval and a battery for supplying internal power, and the memory unit 30 includes an output port 31 for drawing out data stored in the memory. And a switch for operating the controller.

The oxygen sensor 20 is provided with a preheating device for preheating.

The controller embedded in the memory unit 30 of the present invention checks the operating state of the oxygen sensor 20 and the low voltage state of the battery and the internal temperature to check whether the light is operable.

In the present invention, before the oxygen concentration meter 100 is put into the reflow oven, the case 10 is opened and the power switch installed in the memory unit 30 inserted therein is turned on to operate the memory unit 30 normally. To be done.

Here, after the power is turned on, the controller of the memory unit 30 measures the last measured information stored in the memory, reads the currently set measurement storage interval and position, reads the last calibration value, and determines whether the battery is low voltage. After that, the normal operation state is expressed by the light, and the internal temperature is measured to express whether it is the normal operation state by the light, so that the preparation for measurement is made.

The storage interval is set to 0.3, 0.6, 1.2, 2.4 seconds, etc. according to the setting, and the set value can be stored by using the storage function of about five times.

This setting interval can be set by the user using a computer connected by using the output port 31 of the memory unit 30, the setting of the above-described setting interval is a place to measure the oxygen concentration of the reflow oven, the ripple When moving on a conveyor moving in a low oven, it should be set up so that the oxygen measurement of the desired place is made.

When the preparation for the initial operation of the memory unit 30 as described above is to wait a time of about 7 minutes to be preheated for the normal operation of the oxygen sensor 20.

Here, although not shown, a preheating device for preheating the oxygen sensor 20 is integrally installed in the oxygen sensor 20 for accurate measurement of the oxygen sensor 20.

When the preheating of the oxygen sensor 20 is completed, the oxygen concentration is measured by pressing the start switch, and then the oxygen concentration measuring instrument 100 is placed on the conveyor of the reflow oven so that the oxygen concentration measuring instrument 100 is reflow oven. The oxygen concentration is measured while passing through.

Here, when the start button of the oxygen concentration meter 100 is pressed, the measurement storage interval is set to a time interrupt, the time interrupt is activated to measure the oxygen concentration at one interrupt, and the internal temperature is measured at the next interrupt. The measurement data over time are sorted to take the median value for storage.

In addition, the oxygen concentration measurement unit 100 determines the position at which oxygen or temperature is to be measured so that the oxygen concentration measurement is performed at a predetermined point inside the oven when the oxygen concentration meter 100 passes through the reflow oven.

Since the oxygen sensor 20 for measuring the oxygen concentration in the present invention is commonly used, the method of measuring the oxygen concentration and the processing of the measured value are also generalized, and the present invention directly converts the oxygen sensor 20 into a reflow oven. It is fed in to move the conveyor belt so that continuous oxygen concentration measurements can be made at specific points inside the oven.

To this end, the present invention allows the case 10 having the oxygen sensor 20 and the memory unit 30 to pass through the reflow oven, but using the controller built in the memory unit 30 to measure the interval and measurement of the oxygen concentration. By setting a point, the oxygen concentration at a specific point in the reflow oven is measured and stored in memory.

At this time, when setting several measuring points, the measurement of one place is completed after the measurement of one place is completed, so the oxygen concentration can be measured at various points according to the selection of the measuring point.

That is, in the case of the fixed type of measuring the oxygen concentration using the existing suction pipe, only the oxygen concentration measurement at the place where the suction pipe is installed is possible, and the oxygen concentration measurement at the place where the suction pipe is not installed is possible, but in the present invention, the measurement site is selected. In this case, the measurement area is not limited and a desired place can be selected and measured.

Since the oxygen concentration measuring instrument 100 of the present invention moves through the conveyor inside the reflow oven, when the measurement is made by taking a time interrupt at a desired time using a time interrupt, the measurement is performed by selecting a desired place. This can be done.

That is, as the oxygen concentration measurement time 100 is selected as the oxygen concentration measurement time is selected, the oxygen concentration measurement 100 takes time interruption at the measurement time while moving on the conveyor belt, and thus the oxygen concentration measurement is performed. do.

When the oxygen concentration is measured according to the selection of the measurement time as described above, the measured data is stored in the memory of the memory unit 30, and the oxygen concentration meter 100 passes through the reflow oven. Do it until you do it.

Since the oxygen concentration measuring instrument 100 has to withstand the high heat of the reflow oven, the oxygen concentration meter 100 is passed through the reflow oven after being placed in the case 10 which can block the high heat.

When the oxygen concentration measuring instrument 100 passes through the reflow oven, the stop switch of the oxygen concentration measuring instrument 100 is operated to end the measurement, and the output port 31 installed in the memory unit 30 of the case 10 is provided. By reading the data stored in the memory using the, and reading the data from the computer to turn off the power of the memory unit 30 to reduce the power consumption.

The data stored in the memory of the memory unit 30 is read by a computer and the data analysis is performed to complete the internal oxygen concentration measurement of the reflow oven.

The memory unit 30 is stored in the case 10 again, and the oxygen concentration meter 100 may be put into the reflow oven whenever the oxygen concentration is required to be measured.

In the present invention, the oxygen concentration meter 100 measures and stores the oxygen concentration at a selected point of the reflow oven while moving on a conveyor belt moving in the reflow oven, and then reads out the stored data when exiting the reflow oven. By processing, it is possible to measure the desired point inside the reflow oven to collect a variety of information, and also to measure the oxygen concentration at the nearest point, reducing contaminants, and precise oxygen concentration measurement. can do.

1 is a plan view of the oxygen concentration meter of the present invention

Figure 2 is a plan view showing the interior of the oxygen concentration meter of the present invention

Figure 3 is a memory unit photograph of the oxygen concentration meter of the present invention

4 is an enlarged view of a portion of the present oxygen concentration system

5 is a system flow diagram of the present invention.

[Description of Symbols for Main Parts of Drawing]

10 case 20 oxygen sensor

30: memory unit 100: oxygen concentration meter

Claims (3)

delete It is provided with an oxygen sensor 20 for measuring the oxygen concentration, The memory for storing the measured value of the oxygen sensor 20 is built-in, the controller for storing the measured value of the oxygen sensor 20 in the memory according to the measurement time and the measurement time of the oxygen sensor 20 is built-in, A memory unit 30 having a built-in battery for supplying power and charging, In the in-line oxygen concentration measuring instrument having the oxygen sensor 20 and the memory unit 30 is provided with a case 10 to withstand high heat, An oxygen concentration measuring device 100 having an oxygen sensor 20 and a memory unit 30 built in the case 10 is placed on a conveyor belt of a reflow oven, and passes through a reflow oven to measure oxygen concentration therein. Inline oxygen concentration meter, characterized in that. Selecting and setting an oxygen concentration measurement time and time using an oxygen sensor; Preheating the oxygen sensor for a certain time, Placing it on the conveyor belt of the reflow oven and starting the oxygen concentration measurement; Passing the reflow oven at a set time and measuring the internal oxygen concentration of the reflow oven to store the measured value in memory; When passing through the reflow oven, the oxygen concentration measurement method, characterized in that the oxygen concentration measurement data stored in the memory is read by a computer to perform a process of analyzing and processing is performed.

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