KR20200012329A - Drying device comprising solvent spray device for overheat prevention and drying rate control - Google Patents

Abstract

The present invention relates to a drying apparatus including a solvent spray apparatus for preventing overheating and controlling a drying rate. Provided is the drying apparatus including a plurality of solvent spray nozzles disposed along each of the traveling direction and the width direction of an object to be dried.

Description

Drying device comprising solvent spray device for overheat prevention and drying rate control

The present invention relates to a drying apparatus, and more particularly, to a drying apparatus using a solvent spray apparatus for preventing overheating and controlling the drying rate.

In general, the electrode drying process is a structure in which a coated substrate is passed through a high temperature drying oven while traveling, and the electrode is supplied with heat by a heat source such as an internal hot air or an IR heater to evaporate the solvent.

At the beginning of the coating, the inside of the oven is preheated, which can lead to overdrying as the electrode begins to pass through the drying oven, and the rate of drying of the coating can also change during production due to process conditions or other environmental factors. In addition, a drying rate difference occurs in the substrate width direction during drying. In other words, the electrode center portion is dried later than both edges.

Electrode overheating or drying rate variations can affect electrode quality, so it is important to maintain a stable electrode coating and drying environment.

In order to prevent overheating of the electrode coating and to control the variation in drying speed, improvements such as optimization of conditions according to the real-time drying results are needed.

It is therefore an object of the present invention to provide a drying apparatus capable of preventing overheating and controlling the drying rate.

The present invention provides a drying apparatus including a plurality of solvent spray nozzles disposed along each of the advancing direction and the width direction of the drying object in order to achieve the above object.

In the present invention, the object to be dried may be an electrode.

In the present invention, the solvent spray nozzle can supply a solvent in the form of mist on the surface of the object to be dried, and can prevent overheating by lowering the temperature of the drying apparatus and the object to be dried by the evaporation heat of the supplied solvent.

Drying apparatus according to the invention the oven trunk; And a plurality of hot air nozzles installed in the trunk of the oven, wherein the solvent spray nozzles may be disposed between the hot air nozzles.

In the present invention, at least one solvent spray nozzle may be arranged in the inlet region of the oven trunk.

In the present invention, at least one solvent spray nozzle may be disposed in the center region in the width direction of the object to be dried, and at least one solvent spray nozzle may be disposed at both edge regions in the width direction of the object to be dried.

The drying apparatus according to the present invention further includes a solvent supply line for supplying a solvent to the solvent spray nozzle, wherein the solvent spray nozzle in the central region and the solvent spray nozzle in both edge regions can be connected with different solvent supply lines.

In the present invention, when the temperature of the drying apparatus and the object to be dried is high, the solvent can be sprayed through all the solvent spray nozzles when cooling is required, and the temperature of the edge region of the object to be dried is wider than that of the center region due to the variation in the drying speed during drying If high, only solvent spray nozzles in the edge region may be used.

In the present invention, the solvent spray nozzle may be configured as a microfluidic spray nozzle or a spray nozzle type, and the nozzle angle may be freely changed.

In the present invention, the solvent may be at least one selected from water and an organic solvent, may be a solvent that does not chemically react with the constituents of the object to be dried, and the temperature of the solvent may be 40 ° C. or less.

Drying apparatus according to the present invention is a temperature measuring unit for measuring at least one or more of the temperature of the drying apparatus and the temperature of the drying object surface; And it may further include a flow rate control unit for controlling the flow rate of the solvent supplied to the solvent spray nozzle.

In the present invention, after setting the reference temperature at a specific position, the measured temperature measured by the temperature measurement unit and the reference temperature, and then can be set to adjust the on / off and flow rate of the solvent spray nozzle through the flow control.

By providing a solvent spraying apparatus in the drying apparatus according to the present invention, it is possible to prevent overheating of the surface temperature of the object to be dried (electrode, etc.), to reduce the variation in drying speed, and to create a stable drying environment.

Specifically, when a solvent in the form of mist (Mist) is supplied to the surface of the object to be dried using a solvent spray device according to the present invention, the solvent evaporates from the surface of the object to be dried while passing through the oven, the temperature inside the oven by the heat of evaporation Can be lowered to prevent and stabilize the oven overheating.

In addition, in the present invention, in order to control the drying speed deviation, by separately designing the solvent supply line for the nozzle sprayed to the center (center) and the edge (side) of the drying object, the temperature of both ends of the drying object compared to the center It can be designed so that spraying is possible only at the edge of a drying object when it rises too much.

In addition, the present invention can design a system capable of automatic control so that the spraying device can be operated by predicting the temperature state of the drying object in real time through measurement of the surface temperature of the drying object and data interworking with the solvent spraying device.

1 is a view of the drying apparatus according to the present invention viewed from the side along a traveling direction.
FIG. 2 is a partially enlarged view of the solvent spray device in FIG. 1. FIG.
3 is a front view of a drying apparatus having a solvent spray nozzle disposed in a central region according to the present invention along a width direction.
Fig. 4 is a front view of the drying apparatus having the solvent spray nozzles disposed at both edge regions according to the present invention along the width direction.
Figure 5 is a view from below of a solvent spray nozzle and a solvent supply line arranged in the width direction in accordance with the present invention.
Figure 6 shows the interlocking of the surface temperature measurement and the solvent spraying device according to the present invention.
7 shows an automated control flow chart for one solvent feed line in accordance with the present invention.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail.

In a conventional general drying oven apparatus, the electrode is supplied with a heat amount by a heat source such as a hot air or an infrared heater in the oven to perform drying. In the initial stage of coating, the inside of the oven is sufficiently preheated, and if the electrode starts to pass through the drying oven, over-drying may occur. May occur. In addition, the drying speed difference in the width direction occurs when the electrode is dried, the electrode edge portion is dried faster than the center of the electrode to complete the temperature difference accordingly. Since these issues affect electrode yield and electrode quality, it is important to maintain a stable drying environment.

Accordingly, the present invention provides a drying oven apparatus including a solvent spray device for preventing overheating and controlling the width drying speed.

In the present invention, the object to be dried may be, for example, an electrode, but is not limited thereto, and any material or coating layer requiring a drying process may be applied during manufacturing. In the following, the description will be mainly focused on electrodes.

1 to 7, the drying apparatus according to the present invention may include an oven trunk, a hot air nozzle, a solvent spray nozzle (apparatus), a guide roll, a solvent supply line, a temperature measurement unit, a flow control unit, and the like.

The oven trunk may consist of an upper oven trunk and a lower oven trunk, as shown, and drying may proceed as the electrode passes between them.

The electrode may be supplied to the oven trunk in the form of a coating layer coated with the electrode slurry on the coating material, it may be supplied and transported with the coating material. One or a plurality of guide rolls may be placed in place for the transport of the electrodes.

The hot air nozzle serves to dry the electrode by supplying hot air to the electrode, and a plurality of hot air nozzles may be installed at predetermined intervals in each of the lower part of the upper oven trunk and the upper part of the lower oven trunk.

As shown in Figure 1, the drying apparatus according to the present invention is characterized in that a solvent spray device (nozzle) in addition to the hot air nozzle installed in the existing oven. The solvent spray nozzle is disposed not only in the advancing direction of the electrode, which is a drying object, but also in the width direction of the electrode. Like a hot air nozzle, a plurality of solvent spray nozzles may be installed at regular intervals in each of the lower part of the upper oven trunk and the upper part of the lower oven trunk. At this time, the solvent spray nozzle may be disposed between the hot air nozzle. In addition, the plurality of solvent spray nozzles may be arranged in alignment with the plurality of rows and columns.

The solvent spray nozzle may supply a solvent in the form of a mist to the surface of the electrode, which is a drying object, and prevent overheating by lowering the temperature of the drying apparatus and the electrode by the heat of evaporation of the supplied solvent. Specifically, when the solvent is sprayed on the surface of the electrode through the solvent spray nozzle, while the solvent is evaporated in the high temperature drying oven to prevent overheating in the oven through the heat of evaporation, and serves to lower the electrode temperature.

1 illustrates an example of a solvent spray apparatus installed in an oven inlet and an oven, and the position and quantity of the solvent spray nozzles can be freely adjusted according to the electrode drying environment. At least one solvent spray nozzle may be arranged in the inlet region of the oven trunk. The inlet region of the oven trunk can be interpreted to include both the outer region and the inner region of the oven trunk adjacent to the inlet with respect to the inlet. In particular, when a solvent spray nozzle is installed in the outer region of the oven trunk adjacent to the inlet just before the electrode enters, the problem of electrode overheating can be effectively prevented.

Figure 2 depicts a solvent sprayer located between the hot air nozzle boxes inside the oven. In addition, the solvent spray nozzle may be provided with one or a plurality of spray holes. When the solvent spray nozzle is provided with a plurality of spray holes, the spray area (area) is widened, and a cooling effect can be obtained in a short time.

3 and 4 illustrate the spraying apparatus in detail when viewed in the electrode width direction, and FIG. 3 shows the nozzle spraying apparatus in the center region, and FIG. 4 shows the nozzle spraying apparatus in the edge region. 5 is a bottom view from the bottom.

3 to 5, at least one solvent spray nozzle may be disposed in a central region in a width direction of an electrode as a drying target, and at least one solvent spray nozzle may be disposed at both edge regions in a width direction of a drying target. Can be. As shown in Figure 3, it is preferable that a plurality of nozzles are provided in the central region. The edge region may mean, but is not limited to, an area starting from one end of the oven trunk or one end of the electrode up to 30% of the total width based on the width of the oven trunk or the width of the electrode. The central region is an area excluding both edge regions and may occupy 40 to 60% of the overall width of the oven trunk or electrodes.

3 to 5, the solvent spray device is composed of a plurality of nozzles that can spray the solvent on the electrode, each nozzle is connected to the solvent supply line. As shown, a solvent supply line for supplying a solvent to the solvent spray nozzle may be arranged in parallel with the width direction, and a plurality of solvent supply lines may be arranged at regular intervals along the traveling direction. The solvent spray device may be used as a meaning including a solvent spray nozzle and a solvent supply line.

Referring to FIG. 5, the solvent spray nozzles in the central region and the solvent spray nozzles in both edge regions may be connected to different solvent supply lines. As such, when the nozzles sprayed in the electrode center region and the electrode edge region are connected with different solvent supply lines, the solvent can be sprayed through all the solvent spray nozzles when the oven and the electrode temperature are high and cooling is required, and during drying, When the temperature of the electrode edge region is higher than the center region due to the variation in the drying speed between the widths, only the solvent spray nozzle of the edge region may be used to lower the temperature of the overheated electrode edge region.

The solvent spray nozzle may be configured as a two-fluid nozzle or a spray nozzle type capable of fine spraying, and may be configured to freely change the nozzle angle according to the electrode width. In FIG. 3, the nozzle angle is 90 degrees with the electrode. In FIG. 4, the nozzle in the edge region is inclined, and the nozzle angle is approximately 30 degrees with the electrode. In addition, the number of nozzles connected to one spray device, the quantitative value can be variously adjusted by the drying conditions (substrate width, coating amount, etc.).

The solvent may include an overall organic solvent such as water, acetone, methanol, N-methyl pyrrolidone (NMP), ethanol, but a solvent that does not chemically react with the electrode slurry components is possible. At this time, the temperature of the solvent is not particularly limited, but an ordinary temperature range (within 35-40 ° C.) is appropriate.

In addition, it can be designed to automatically control the solvent spray system according to the dry state of the electrode in the oven in real time.

As shown in FIG. 6, the drying apparatus according to the present invention may include a temperature measuring part, a spray device operating part, a flow rate control part, and a solvent supply source. The temperature measuring unit may be configured, for example, with a thermometer or a temperature sensor, and one or more may be installed to measure at least one or more of an internal temperature of the drying apparatus and an electrode surface temperature. The flow rate control unit may be configured in the form of a control panel or a circuit board which can be operated externally, and may be linked with the temperature measurement unit to control the flow rate of the solvent supplied to the solvent spray nozzle. The spray device operating portion may be constituted by a valve or the like installed in the solvent supply line and / or the solvent spray nozzle, and may be automatically operated under the control of the flow rate controller. The solvent source may consist of a tank or the like and may be connected to the solvent supply line.

As shown in FIG. 6, after the temperature is measured at a specific position inside the oven to determine whether the temperature is overheated, the spray device may be designed to operate through the flow rate controller during the temperature overheating.

7 shows an automatic control flowchart for one flow supply line. First, after setting an appropriate electrode temperature (reference temperature) at a specific position, the electrode surface temperature is measured using a temperature measuring equipment. Thereafter, the solvent spraying device is set to be on / off by comparing the measured temperature with the reference temperature. Specifically, after comparing the measured temperature and the reference temperature in the flow control unit, it is possible to adjust the flow rate of the solvent on / off of the solvent spray nozzle.

Claims (12)

A drying apparatus comprising a plurality of solvent spray nozzles disposed along each of the advancing direction and the width direction of the drying object. The method of claim 1,
The drying apparatus is an electrode for drying. The method of claim 1,
The solvent spray nozzle supplies a mist-type solvent to the surface of the object to be dried, and a drying apparatus to prevent overheating by lowering the temperature of the drying apparatus and the object to be dried by the heat of evaporation of the supplied solvent. The method of claim 1,
Oven trunk; And a plurality of hot air nozzles installed in the oven trunk, wherein the solvent spray nozzles are disposed between the hot air nozzles. The method of claim 4, wherein
At least one solvent spray nozzle in the inlet region of the oven trunk. The method of claim 1,
At least one solvent spray nozzle is arrange | positioned at the center area | region in the width direction of a drying object, At least 1 solvent spray nozzle is arrange | positioned at both edge regions in the width direction of a drying object. The method of claim 6,
And a solvent supply line for supplying a solvent to the solvent spray nozzle, wherein the solvent spray nozzle in the central region and the solvent spray nozzle in both edge regions are connected with different solvent supply lines. The method of claim 7, wherein
The solvent is sprayed through all the solvent spray nozzles when cooling is required due to the high temperature of the drying device and the drying object as a whole. Drying apparatus using only the solvent spray nozzle of the. The method of claim 1,
A solvent spray nozzle is composed of a two-fluid nozzle or a spray nozzle type capable of fine spraying, and the drying apparatus can change the nozzle angle freely. The method of claim 1,
A solvent is at least one selected from water and an organic solvent, a solvent that does not react chemically with the constituents of the object to be dried, and a temperature of the solvent is 40 ° C. or less. The method of claim 1,
A temperature measuring unit for measuring at least one or more of a drying apparatus internal temperature and a drying object surface temperature; And
And a flow rate control unit for controlling the flow rate of the solvent supplied to the solvent spray nozzle. The method of claim 1,
And setting the reference temperature at a specific position, comparing the measured temperature measured by the temperature measurement unit with the reference temperature, and then adjusting the on / off and flow rate of the solvent spray nozzle through the flow control unit.

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