KR20210034043A - Inspection method and inspection device - Google Patents

Abstract

After the dehydration/drying process, it provides an inspection technology capable of detecting excess moisture before molding. It is a method for inspecting a crumb polymer, comprising continuously supplying a crumb polymer that has been polymerized and dehydrated, and detecting a crumb containing excess moisture in the crumb polymer.

Description

Inspection method and inspection device

The present invention is a technique for inspecting the presence or absence of moisture in a crumb polymer that is fed and conveyed.

As an example of the process for producing a crumb polymer, a process for producing synthetic rubber such as butadiene rubber will be briefly described.

A raw material butadiene solution is prepared, a catalyst is added, and polymerization is performed to obtain a polymer solution (polymerization step). The obtained polymer solution is subjected to steam treatment, and the crumb slurry-like polymer is recovered (solvent removal step). The polymer containing moisture is dehydrated by an extruder, dried by hot air or the like, to form a dry crumb (dehydration/drying process). The crumb polymer is compressed and molded (molding process). In addition, in general, particles having a particle diameter of about 3 to 10 mm produced in the production process of synthetic rubber are referred to as crumbs.

The present invention relates to a molding process. The molding process will be described in more detail.

Crumed or powdery semi-finished products are press-formed products having a rectangular parallelepiped shape with a press molding machine (usually called a baler, hereinafter referred to as a baler) (usually called a bale, hereinafter referred to as a bale) Is press-formed.

At that time, the crumb polymer is automatically weighed and adjusted to the specified weight range. It is molded into a bale of a specified weight range, the weight is checked, and the rubber bale is covered with a thin film bag such as a polyethylene film or a polystyrene film, and a plurality of them are housed in a container for storage such as a container, and shipped to the user.

Further, on the user side, the bale is melted or melted, vulcanized, and processed.

As described above, since moisture is always used in the manufacturing process of the synthetic rubber, moisture is removed in the dehydration/drying process. However, in reality, moisture that has not been completely removed in the dehydration/drying process remains. In the veil containing excess moisture, there is a fear that a problem in appearance occurs or a problem occurs on the user's side.

On the other hand, in the conventional general molding process, the bale containing excess moisture is detected by a visual inspection of the appearance by a monitor before carrying out the bale after molding. However, the monitor cannot detect excess moisture inside the bale. Also, the burden on the watchdog is also great.

In Patent Document 1, by using an infrared-transmitting transparent plate having a smooth surface and irradiating the sample rubber with infrared rays through the transparent plate while pressing the rubber, the moisture content of the sample rubber can be measured in a short time and with high accuracy. A technique has been proposed.

Japanese Patent Publication No. 2004-020192

According to the technique related to Patent Document 1, by measuring the moisture content of the sample rubber and confirming that it is less than or equal to a predetermined value, it can be estimated that the veil used as a product also does not contain excess moisture.

However, as a result of examining the mechanism by which excess moisture remains, the inventors of the present invention have found that it is difficult to predict whether the excess moisture remains due to low regularity. It is thought that it is difficult to conclude that even excess moisture is not contained.

The present invention has been made in view of the above problems, and an object of the present invention is to provide an inspection technique capable of detecting excess moisture before molding after a dehydration/drying process.

The present invention for solving the above problems is a test method for continuously supplying a crumb polymer that has been polymerized and dehydrated, and detecting a crumb containing excess moisture in the crumb polymer.

By detecting the crumb containing excess moisture on the crumb before bale forming, it is possible to detect the excess moisture contained in the bale, which has not been previously detected.

In the above invention, preferably, the temperature of the crumb polymer is measured, and the crumb containing excess moisture is detected based on the temperature difference.

In the above invention, preferably, the temperature at each point of the crumb polymer continuously supplied is measured, the average temperature of the plurality of point points is determined, and the crumb corresponding to the point at a temperature lower than the average temperature is detected.

In the above invention, preferably, a crumb corresponding to a point having a temperature difference of 9.5° C. or higher with the average temperature is detected.

Thereby, it is possible to detect the low-temperature portion due to the effect of vaporization of excess moisture or the effect of hardly increasing the temperature.

In the above invention, preferably, the average temperature of the polymer when the dehydration-dried crumb polymer is supplied is 40 to 70°C.

Thereby, the above influence due to excess moisture is liable to manifest.

In the above invention, preferably, the crumb containing excess moisture is a lump.

Crumbs that contain excess moisture are prone to clumps. In addition, if it is a block, it is easy to detect an influence that is difficult to increase in vaporization or temperature.

In the above invention, preferably, the crumb containing excess moisture has a moisture content of 1% by mass or more.

The present invention to solve the above problem is a supply means for continuously supplying a crumb polymer that has been polymerized and dehydrated, a temperature measuring means for measuring the temperature of the crumb polymer supplied from the supply means, and the temperature measuring means. It is an inspection apparatus including a determination means for calculating a temperature difference from the average temperature by using and detecting a crumb containing excess moisture based on the temperature difference.

In the above invention, preferably, the excess moisture inspection means is a thermograph camera.

The present invention can detect excess moisture after the dehydration/drying process and before molding.

1 is a system configuration diagram according to an embodiment of the present invention.
2 is a verification test result that is the basis of the basic concept of the present invention.
3 is a detection example according to an embodiment of the present invention.

∼ System configuration ∼

1 is a system configuration diagram according to an embodiment of the present invention.

The system includes continuous supply means, excess moisture inspection means, bale-equivalent weight measuring means, bale forming means, carrying out means, and control means, and performs a series of operations.

The continuous supply means is, for example, a vibrating feeder 1. The vibrating feeder 1 continuously supplies the crumb-shaped polymer 2 that has undergone a dehydration/drying process 8 after polymerization to the system.

The excess moisture inspection means is, for example, a thermograph camera 3. The thermograph camera 3 is provided on the vibrating feeder 1, and detects excess moisture by detecting an unknown temperature increase due to insufficient drying crumb (to be described later in detail).

The bale-equivalent weight measuring means is, for example, a weighing device 6 having a hopper. The hopper is provided between the continuous feeding means and the bale forming means. The hopper has an upper hopper and a lower hopper. The operation of the upper hopper and the lower hopper is controlled, and the weight of the crumb polymer corresponding to the bale is measured by measuring the weight of the crumb polymer accumulated in the hopper by the weighing device 6.

The bale forming means is, for example, a pressure forming machine (baler) 7. The crumb-like polymer weighed by the bale-equivalent weight measuring means is supplied and pressed to form a bale.

The conveying means is a conveyor 14, for example. A weight measuring device 15 is provided in the middle of the conveyor 14.

The control device 30 inputs excess moisture inspection information from the excess moisture inspection means 3 and the bale weight information from the weight measurement device 15, and performs classification control. That is, no excess moisture is detected, the bale of the weight of the normal range is taken out as a regular product (12) to the next process (packaging process) (9), and the excess moisture is detected, or/and a bale of a weight outside the normal range. Is removed as an out-of-standard product 13 and sent to another process 10 (reprocessing).

Excess moisture is not a substantial defect, and can be reused as a material by reprocessing the crumb polymer containing excess moisture.

∼ Basic concept of this application ∼

The present invention focuses on the temperature difference caused by excess moisture. 2 is a verification test result that serves as the basis for the basic concept of the present invention. The vertical axis in Fig. 2 is the moisture content (mass%) of the crumb, and the horizontal axis is the value obtained from [(WP surface temperature)-(average temperature of the crumb)]. Here, the WP surface temperature is the measurement temperature of a part assumed to contain excess moisture in the crumb, and the crumb average temperature is the average temperature of a plurality of side points.

After polymerization, the average temperature of the crumb polymer continuously supplied to the molding process through the dehydration/drying process is 40 to 70°C. In more detail, in the verification test performed in winter, the average temperature of the crumb polymer was 48.8°C, whereas in the verification test performed in the summer, the average temperature of the crumb polymer was 60.7°C.

In addition, the average outdoor temperature in winter at the verification test site is around 6°C, and the average outdoor temperature in summer is about 26°C. The average temperature of the crumb polymer after the dehydration/drying process is affected by the outside temperature.

In both summer and winter, the temperature of the crumb polymer was scattered from -20°C to +15°C around the average value. The moisture content of the crumb polymer at this time was investigated.

The following can be seen from the results of FIG. 2. In the crumb where the WP surface temperature is near the crumb average temperature or higher than the crumb average temperature, the moisture content was extremely low. On the other hand, in the crumb where the WP surface temperature was lower than the average temperature, the moisture content was high. In particular, when the temperature difference between the WP surface temperature and the average crumb temperature was 9.5°C or higher, the moisture content of the crumb was very high.

In addition, crumbs containing excess moisture tended to become lumps. The portion containing excess moisture in the lump was defined as a wet point (WP). While the crumb after the dehydration/drying process is relatively hot, it is estimated that in the crumb containing excess moisture, it is difficult to take the heat of the crumb when the moisture is evaporated, or to increase the temperature as excess moisture is added.

The same trend was observed in both summer and winter seasons. In one example in the test, in the winter season, the crumb surface temperature is 48.8°C and WP 35.4°C (the difference in temperature between the crumb surface temperature and WP is 13.4°C), and in the summer, the crumb surface temperature is 60.7°C and WP 47.4°C (the difference between the crumb surface temperature and WP is 13.3 ℃).

From this result, it was judged that the temperature of the crumb polymer was measured to detect the crumb containing excess moisture. In particular, by paying attention to the temperature difference, it was judged that the wet point could be reliably detected without depending on the outside temperature. In particular, the wet point of a crumb containing 1% by mass or more of excess moisture can be detected.

∼ Detection of crumb (wet point) containing excess moisture ∼

The wet point is detected based on the temperature difference. More specifically, the wet point can be detected by obtaining the average temperature of a plurality of point points of the crumb, and setting the point portion having a temperature lower than the average temperature as the wet point.

The wet point can be detected with higher precision by setting the point portion having a difference from the average temperature of 9.5°C or higher as the wet point.

The average temperature of the crumb can be determined, for example, by the following method.

3 is an example of temperature measurement. The temperature measuring means is a thermograph camera. It is possible to capture 30 frames/second. The thermograph camera 3 can use CPA-L25B manufactured by Chino, for example.

The crumb is photographed and imaged with a thermograph camera, and the temperature in pixel units of the image range (shown dotted line) corresponding to a predetermined range (for example, 600 mm×500 mm) in each image is measured. The average temperature of the crumb can be obtained from the measured temperature of each pixel.

When determining the average temperature, the side point is preferably 100 to 100,000, more preferably 1,000 to 100,000, and particularly preferably 10,000 to 100,000. Wet point can be detected with high precision.

Further, a wet point is detected by extracting a pixel having a low temperature below a predetermined value (eg, 9.5°C) from the average temperature.

∼ Estimation of the mechanism of generating excess moisture ∼

By going through the dehydration/drying process, it is a premise that crumbs with excess moisture are not generated. Nevertheless, in practice crumbs with excess moisture occur. The mechanism was considered.

In the dehydration/drying process, moisture is discharged to the outside. At that time, the small pieces stick to the inner wall surface of the discharge part. Small pieces absorb some of the moisture that is discharged to the outside.

There is a fear that small pieces containing moisture may be peeled off due to some trigger and mixed into the crumb supplied to the next step (molding step).

Therefore, it is very difficult to predict the occurrence of crumbs with excess moisture.

∼ About the crumb lump ∼

As a characteristic of the crumb, it is presumed that the crumb has a stickiness and is easy to stick to each other, and it is easy to form a crumb. It is presumed that a wet point occurs due to the incorporation of crumb lumps containing excess moisture.

On the other hand, when excess moisture is aggregated and present, the effect of vaporization or the like is likely to be present and it is easy to detect a low temperature portion (see Fig. 3).

Therefore, although this application is suitable for the detection of a wet point, it is not limited to a crumb lump, and is applicable also to a crumb.

In addition, a typical crumb particle diameter is 3 to 10 mm. In this application, a particle diameter of 20 mm or more is referred to as a crumb mass.

∼ effect ∼

By the above, it is possible to detect excess moisture after the dehydration/drying process and before bale forming. As a result, excess moisture inside the bale can also be detected.

In addition, since excess moisture can be detected before bale molding, there is a possibility that the crumb-shaped polymer containing excess moisture can be removed, for example, in the fall orbit on the baler.

However, the crumb polymer has adhesiveness, and as a result, the particles tend to stick to each other, and the particle size becomes uneven, making it difficult to predict the behavior. In the case of removing the crumb polymer containing excess moisture in the fall orbit on the baler, a complicated mechanism is required. On the other hand, if the bale containing excess moisture is removed after the bale molding, it can be removed easily and reliably.

In the above, configurations and processes other than the thermograph camera and simple control are unnecessary. Excess moisture can be detected simply and reliably without adding a new configuration or a new process to the existing manufacturing process. There is no impact on the quality of the product.

In addition, by paying attention to the temperature difference, it is possible to detect reliably without depending on the outside temperature.

-Crum-like polymer of the subject-

The crumb polymer of the veil is a vulcanizable rubber, such as natural rubber (NR), isoprene rubber (IR), styrene butadiene rubber (SBR), butadiene rubber (BR), chloroprene rubber (CR), and butyl rubber. (IIR), nitrile rubber (NBR), ethylene propylene rubber (EPM, EPDM), chlorosulfonated polyethylene rubber (CSM), acrylic rubber (ACM), urethane rubber (U), silicone rubber (VMQ, PVMQ, FVMQ) , Fluorine rubber (FKM), polysulfide rubber (T), and the like. In particular, for the present invention, application to butadiene rubber (BR) is optimal. In the verification test, butadiene rubber was used.

∼ summary ∼

The average temperature of the crumb polymer continuously supplied to the molding process through the dehydration/drying process is 40 to 70°C. For example, in the verification test performed in winter, the average temperature was 48.8°C, whereas in the verification test performed in summer, the average temperature was 60.7°C. The moisture content of the crumb polymer at this time was investigated. In crumbs having a temperature around the average value or higher than the average, the moisture content is extremely low. On the other hand, when the temperature difference with the crumb lower than average, especially the average temperature was 9.5 degreeC or more, the moisture content was remarkably high. As an example, when the temperature of a crumb containing excess moisture was measured, it was 35.4°C in winter (13.4°C in temperature difference) and 47.4°C in summer (13.3°C in temperature difference). From this result, by measuring the temperature of the crumb polymer and paying attention to the temperature difference, it is possible to reliably detect the crumb containing excess moisture without depending on the outside temperature.

1: vibrating feeder
2: rubber crumb
3: Thermograph camera
6: Weighing device with hopper
7: Baler (Pressure Molding Machine)
8: dehydration/drying process
9: packing process
10: reprocessing process
11: abnormality detection signal
12: regular article (product)
13: Out-of-standard products
14: conveyor
15: weighing device
30: control device

Claims (9)

The polymerized and dehydrated crumb polymer is continuously supplied,
Detecting crumbs containing excess moisture in the crumb polymer
Inspection method, characterized in that. The method of claim 1, wherein the temperature of the crumb polymer is measured,
Detecting crumbs containing excess moisture based on temperature differences
Inspection method, characterized in that. The method of claim 2, wherein the temperature at each point of the crumb-shaped polymer continuously supplied is measured,
Calculate the average temperature of a plurality of stations,
Detecting crumbs corresponding to measuring points at temperatures lower than the average temperature
Inspection method, characterized in that. The method of claim 3, wherein detecting a crumb corresponding to a point having a temperature difference of 9.5°C or more with the average temperature.
Inspection method, characterized in that. The method according to any one of claims 1 to 4, wherein the average temperature of the polymer when the dehydration-dried crumb polymer is supplied is 40 to 70°C.
Inspection method, characterized in that. The method according to any one of claims 1 to 5, wherein the crumb containing excess moisture is bulky.
Inspection method, characterized in that. The crumb according to any one of claims 1 to 6, wherein the crumb containing excess moisture has a moisture content of 1% by mass or more.
Inspection method, characterized in that. A supply means for continuously supplying the polymerized and dehydrated crumb-like polymer; and
Temperature measuring means for measuring the temperature of the crumb polymer supplied from the supply means,
Comprising a determination means for calculating a temperature difference from the average temperature using the temperature measuring means, and detecting a crumb containing excess moisture based on the temperature difference
Inspection device, characterized in that. The method of claim 8, wherein the temperature measuring means is a thermograph camera.
Inspection device, characterized in that.

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