KR100644988B1 - Method of recycling a used cleaning solvent in plating process and Apparatus for recycling a used cpleaning solvent in plating process - Google Patents

Abstract

The waste cleaning solvent regeneration device for the plating process includes a heat exchange unit and a first blower unit for sucking hot air and passing the sucked air through the heat exchange unit to generate hot air, thereby allowing the hot air to pass therethrough. A drying unit for drying the plated and washed plating material, a waste solvent regeneration unit for regenerating waste washing solvent, a suction of hot waste air passing through the drying unit and blowing the hot waste air to the waste solvent regeneration unit And a second blowing unit, a washing unit receiving the regeneration solvent discharged from the waste solvent regeneration unit to clean the plating material, and a circulation unit for introducing the waste washing solvent discharged from the washing unit back into the waste solvent regeneration device. The waste cleaning solvent regeneration device for the plating process can be used to regenerate the waste cleaning solvent using waste heat in the drying process of the plating process, thereby greatly improving the economics of the plating process.

Description

Method of recycling a used cleaning solvent in plating process and Apparatus for recycling a used cpleaning solvent in plating process}

1 is a plan view conceptually showing a waste solvent regeneration apparatus for a plating process according to an embodiment of the present invention.

The present invention relates to a waste solvent regeneration method and a waste solvent regeneration device. More particularly, the present invention relates to a method for regenerating waste solvent using hot waste air discharged after drying of a plating material during a plating process, and a waste solvent regeneration device for a plating process using the same.

In general, the main components of the solvent used in the cleaning process during the plating process consist of methyl alcohol and water. A fractional distillation method is used as a method for regenerating the waste solvent used in the washing step. Fractional distillation is a method of separating each component using the difference in boiling point of each component in the mixed solution. Heating of the solvent above the boiling point is essential for separation of the solvent for regeneration. Conventionally used methods for heating such waste solvents include a steam boiler method and an electric heater method.

The steam boiler method uses steam boilers and heat exchangers as heat sources and reuses condensate. In addition, the electric heater method is the most widely used method of distilling using an electric heater. Other methods include distillation using electric and vacuum pumps.

The existing schemes have the following problems.

First, since the conventional distillation apparatus adopts the electric heating method, the operating cost increases due to the increased energy consumption.

Second, it is difficult to continuously recycle and recirculate waste solvents by linking the devices.

Third, when heating with steam, it is necessary to consider the corrosion, so the installation cost is high in the pipe network configuration.

As a result, existing methods for regeneration of the waste solvent for the plating process are dependent on a separate heat source, and continuous circulation regeneration was difficult.

The present invention has been made in view of the problems of the prior art, by using the waste heat after the drying process in the plating process, the energy efficiency is high and the continuous circulation regeneration is possible to reduce the cost and environmental pollution prevention by eliminating the waste solvent discharged to the outside Provided is a continuous circulation regeneration method of a waste washing solvent for a plating process to have an effect.

In addition, there is provided a waste cleaning solvent regeneration device for a plating process operated using the continuous circulation regeneration method.

The continuous circulation regeneration method of the waste washing solvent for the plating process according to an aspect of the present invention includes a drying step, a collecting step, a waste solvent regeneration step, a washing step, and a circulation step.

The drying step is a step of drying the plating by generating hot air to pass through the plated and cleaned plating. The collecting step is a step of collecting air by blowing or the like without drying the plating and discharged hot waste air discharged to the outside. The waste solvent regeneration step may be performed by recovering the waste solvent by blowing the collected high temperature waste air into the space for the fractionation to regenerate the collected air by separating the cleaning solvent from the waste solvent by a fractional distillation method. to be. The circulating step is a step of washing the plated plating using the regenerated cleaning solvent. The circulating step is a step of moving the waste solvent back to the apparatus for regenerating the waste solvent so that the waste solvent after the washing step is subjected to the waste solvent regeneration step again.

  Waste solvent regeneration device for a plating process according to an aspect of the present invention is a heat exchange unit for exchanging heat supplied to the other fluid, the first blowing unit, drying unit, waste solvent regeneration unit for regenerating waste solvent, 2 blowing unit, cleaning unit and circulation unit.

The first blower unit sucks outside air and blows the sucked air through the heat exchanger so as to generate hot air. The drying unit passes the hot air to dry the plating material after the plating and washing process in the plating process. The second blowing unit sucks and collects high temperature waste air passing through the drying unit, and blows the collected high temperature waste air to the waste solvent regeneration unit. The waste solvent regeneration unit regenerates the waste solvent by fractional distillation using the blown waste air. The cleaning unit receives the regeneration solvent discharged from the waste solvent regeneration unit and cleans the plated material after the plating process. The circulation unit transfers the waste washing solvent which has been completed in the washing process back to the waste solvent regeneration unit in a circulating manner so that the waste washing solvent can be regenerated.

Hereinafter, with reference to the accompanying drawings, it will be described in detail an embodiment of the present invention.

The waste solvent regeneration device according to the present invention includes a heat exchanger 8, a first blowing unit 10, a drying unit 19, a second blowing unit 21, a waste solvent regenerating unit 24, and a washing unit 33. ) And a solvent circulation pump 34 as a circulation unit. The partial structure of the waste solvent regeneration apparatus of the present invention for generating a heat source supplied to the heat exchange section 8 will now be described.

The heat source is supplied by introducing hot water heated in the boiler 5 into the heat exchanger 8. The water is stored in the raw water storage tank (1) and then moved to the boiler inlet pipe (4) by the boiler feed pump (3) through the water supply pipe (2) is introduced into the boiler (5). The boiler feed pump 3 provides power for moving the water in the raw water reservoir 1 to the inside of the boiler 5. An electric solenoid valve 6 is arranged between the heat exchanger 8 and the boiler 5. The electric solenoid valve 6 serves to supply and shut off steam to the heat exchanger 8. The heated steam water is introduced into the heat exchanger (8) through the heat exchanger inlet pipe (7).

The heat exchanger 8 is a steam system, and heat exchange between the hot steam and the outside air is performed inside the heat exchanger 8.

The first blower unit 10 blows external air sucked by the air suction pipe 9 to the heat exchanger 8. The outside air passing through the heat exchanger 8 is heated to become hot air.

The steam introduced into the heat exchanger 8 is condensed after the heat exchange is completed and flows into the condensate storage tank 13 through the condensate outlet pipe 12. The condensate circulation pump 15 is provided with the power to supply the condensate discharged from the condensate reservoir 13 through the condensate pump connection pipe 14 and move it back to the raw water reservoir 1 through the condensate discharge pipe 16. do.

The drying unit 19 receives the hot air heated by the heat exchanger 8 through the air outlet pipe 17 and uses the hot air to dry the plating material in which the plating and cleaning processes are completed in the plating process. do. A temperature transmitter 18 is attached to the drying unit 19. The temperature transmitter 18 measures the temperature inside the drying unit 19 to open the electric solenoid valve 6 when the temperature drops, and to transmit a signal to block the electric solenoid valve 6 when the temperature rises. It is a measuring instrument.

The high temperature waste air drying the plating material in the drying unit 19 is introduced into the second blowing unit 21 through the blower suction pipe 20 without being discharged to the outside. The movement of the air is performed by the blowing action of the first blowing unit 10.

The second blower unit 10 supplies hot waste air introduced through the blower suction pipe 20 to the waste solvent regeneration unit 24 through the distillation apparatus suction pipe 23. The waste solvent regeneration unit 24 is a kind of fractional distillation apparatus that separates the effective cleaning liquid using the boiling point difference. The fractional distillation requires heating the internal waste cleaning solvent and this heat source is provided from the hot waste air.

The damper 22 is disposed on the distillation apparatus suction pipe 23. The damper 22 adjusts the flow rate of the hot waste air passing through the second blowing unit 21. The temperature in the waste solvent regeneration unit 24 may be adjusted by adjusting the flow rate.

In this embodiment, the solvent component to be regenerated in the waste solvent regeneration unit 24 is methyl alcohol. The methyl alcohol is vaporized in the waste solvent regeneration unit 24 and discharged in a gaseous state. The gaseous regeneration solvent is liquefied and moved inside the condenser 26. The waste solvent regeneration unit 24 includes a temperature transmitter 25 to control the temperature from the outside. It also includes a drain valve 41. The waste solvent regeneration unit 24 includes a regeneration device level sensor 40 to adjust the level of the waste solvent therein from the outside.

The regeneration solvent passed through the condenser 26 is converted into a liquid solvent and transferred to the primary solvent reservoir 27. The primary solvent reservoir 27 stores the regenerated washing solvent first in the reservoir. The primary solvent reservoir 27 includes a primary reservoir level sensor 42 to adjust the water level from the outside.

The regeneration solvent stored in the primary solvent reservoir 27 is moved by the solvent suction pump 28.

The secondary solvent reservoir 29 secondaryly stores the regenerated solvent that has been moved from the primary solvent reservoir 27 by the solvent suction pump 28. The secondary solvent reservoir 27 includes a secondary reservoir level sensor 43 to adjust the level of the solvent from the outside.

The regeneration solvent stored in the secondary solvent storage tank 29 is moved along the cleaning discharge pipe 32 by the cleaning pump 31 and introduced into the cleaning part 33. The introduced regeneration solvent is used to clean the plating after the plating process.

After the cleaning process is completed, the plating material is not immediately discharged, and then flows back into the waste solvent regeneration unit 24 along the circulation discharge pipe 36 by the solvent circulation pump 35. The introduced waste solvent again proceeds along the path described above. This enables continuous circulation regeneration of the waste solvent.

The continuous circulation regeneration device of the plating material according to the present invention is installed and used in the cleaning and drying process in the plating process.

The waste solvent regeneration device includes a control panel 50 for controlling various operating conditions. Through the control panel 50, the operator can easily operate various water level control, flow rate control, temperature control and the like from the outside.

For example, when the temperature inside the drying unit 19 is set to 80 ° C. in the control panel 50, when the temperature exceeds 80 ° C., the electric solenoid valve 6 is closed by the temperature transmitter 18. Therefore, the temperature transmitter 18, the control panel 50, and the electric solenoid valve 6 attached to the drying unit 19 may be interlocked with each other and automatically operated according to a driver's setting value.

In addition, when the internal temperature of the waste solvent regeneration unit 24 is set to 68 ° C. in the control panel 50, when the temperature transmitter 25 senses a temperature and the temperature is lower than a set value, the second blowing unit ( 21) and the damper 22 to allow hot air to flow into the waste solvent regeneration unit 24. On the contrary, when the temperature transmitter senses the temperature and the temperature is higher than the set value, the second blower unit 21 and the damper 22 are blocked.

In addition, when the various water level sensors 40, 42, and 43 detect the upper limit level, the solvent suction pumps 28, 31, and 34 corresponding thereto are operated.

As the regeneration solvent used in the waste solvent regeneration device of the present invention, methyl alcohol is preferable. As a cleaning solvent, the reason for using methyl alcohol is that it mixes well with water due to the nature of methyl alcohol, so it is easy to remove water from the surface of the product and easily evaporate from water in the dryer, so that the surface dryness and the dryness of the plating material Because is high.

By using the waste solvent regeneration device and the regeneration method of the present invention, the waste heat in the plating step can be efficiently used for the purpose of regeneration of the waste washing solvent.

According to the method and apparatus for regenerating the waste washing solvent for the plating process according to the present invention, since the waste heat after the drying process is used, a separate heat source according to the recycling of the waste washing solvent is not required, which is very economical.

In addition, since the recycling of the waste cleaning solvent is a continuous circulation type, there is no waste solvent discharged, thereby preventing environmental pollution and greatly reducing raw materials.

In addition, since the heat source used is high temperature air after the drying process, the pipe network can be simplified and the corrosion resistance is excellent.

Claims (7)

In the plating process, A drying step of drying the plating by passing external air through a steam-type heat exchanger to generate and blow hot air to pass through the plated and cleaned plating; A collecting step of collecting the passed high temperature air; A waste solvent regeneration step of recovering the solvent for washing the plating material from the waste solvent by blowing the collected high temperature air and fractionally distilling the waste solvent for washing the plating material using the blown hot air as a heat source; A washing step of washing the plated plating material using the regenerated plating material cleaning solvent; And And a circulation step of circulating the waste solvent after the washing step so as to go through the waste solvent regeneration step. delete The method of claim 1, wherein the waste solvent regenerating step comprises condensing and liquefying a solvent for fractionation distilled gas. A heat exchanger including a steam device; A blower unit configured to suck outside air and blow air through the sucked air to the heat exchanger including a steam device to generate hot air; A drying unit for drying the plated and washed plated material by passing the hot air; A waste solvent regeneration unit for regenerating waste washing solvent; A second blowing unit for sucking hot waste air passing through the drying unit and blowing the hot waste air to the waste solvent regeneration unit; A washing unit receiving the regeneration solvent discharged from the waste solvent regeneration unit to clean the plating material; And And a circulation unit for introducing the waste washing solvent discharged from the washing unit back into the waste solvent recycling apparatus. delete The waste washing solvent regeneration device of claim 4, wherein the waste solvent regeneration device further comprises a condenser for condensing the solvent in the form of gas discharged from the waste solvent regeneration unit. 5. The plating process according to claim 4, wherein the waste solvent regeneration device further includes a flow rate adjusting unit for controlling a flow rate of the hot waste air blown from the second blowing unit to supply the waste solvent regeneration unit. Waste cleaning solvent regeneration device.

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