TH44767B - Methods, finishing and systems for precision cleaning of components with two types of solvents. - Google Patents

Abstract

DC60 Dual solvent cleaning system for cleaning up Accuracy without VOC solvent-based cleaning systems Two types of cleaning functions are provided. And wash components with precision Two modes using non-VOC solvents, that is, the cleaning effect of the system is performed. Cleaning with VOC solvent according to the pre-existing arts, while the sequence after That non-VOC solvents can be recovered and recycled. Two solvent-based cleaning systems for cleaning up Accuracy without VOC solvent-based cleaning systems Two types of cleaning functions are provided. And wash components with precision Two modes using non-VOC solvents, that is, the cleaning effect of the system is performed. Cleaning with VOC solvent according to the pre-existing arts, while the sequence after That non-VOC solvents can be recovered and recycled.

Claims (1)

Disclaimer (all) which will not appear on the announcement page: EDIT 06/03/2015 1. A cleaning system with two solvents for removing contaminants from Precision components that include: cleaning parts with a cleaning tank including first-class solvents There is the boiling point of the first solvent. Where precision components are immersed into the processing tank. Cleanliness and will be removed by the residual content of the first solvent. The rinsing section has a rinsing tank that includes the second solvent. The second solvent is selected so that there is a boiling of the second solvent. Where the boiling point of the solvent Type one is higher than the boiling point of the second solvent. The second solvent that dissolves that amount The remainder of the precision component is the precision component that is immersed into the tank. For rinsing to form solvent mixtures of first and second solvent, the rinsing tank also includes coils for condensation over second solvent. Solvent recovery section with recovery tank for retention of mixers Solvent of the first solvent and the second solvent retained The recovery tank is separated. Out of the bin for emptying by the overflow dam The recovery tank also includes a heat source. The fluid recovery loop is connected between the rinse tank and the recovery tank, the recovery cycle that includes the circulation pump. Cooling source Flow filter Circulation and a number of valves and a regulator schematically to control the recirculation loop in do mode. Cleanliness of operation and actuation of circulation pumps and valves to guide the mixer The melt passes through the circulating filter and is structured to control the recirculation cycle in Mode for restoring operation and activating circulation pumps and valves to guide the Mix the solvent through the cooling source. Where sources for heating and pump power are provided from the generated circulation. Second-type solvent vapors are divided over the rinsing and return tanks. Condition during the cleaning mode of operation until the distillation of the solvent is pure The second type on the coil is condensed and will flow to the rinsing tank until the solvent level is reached. The second type is raised until it is layered over the overflow dam and flows into the tank. For restoring Where the concentration of the first solvent in the recovery tank is constantly increasing. Time, which causes the boiling point of the solvent mixture to continue to increase until the boiling point of the mixture The boiling point of the second solvent is at least about 10 ° C and where the circulation pump circulates the low-solvent mixture in the recovery tank. Throughout the cooling source during the recovery mode of operation until the mixer is The aforementioned solvent is separated so as to form the first solvent and the first solvent type. Second, each of which can be characterized by visual acuity for eliminating the Two types of solvent cleaning systems of claim 1 where the solvent recovery section consists of a separate disposal tank for Recover By the overflowing dam in restoring The first type of solvent that overflows the flood barrier in the return. 3. Two solvent cleaning systems of claim 1 where at least one type of solvent and one second solvent consist of a solvent. Non-VOC solvent 4. Cleaning system with two types of solvent of claim 1 where solvent type one contains soy solvent 5. A cleaning system with two types of solvent Hold the first right where the solvent of the first type contains the degraded solvent of the living being. 6. A cleaning system with two solvent types of claim 1, where the price per The second type of solvent unit exceeds the price per unit of type I solvent 7. The two-type solvent cleaning system of claim 1 also includes a precision component transfer basket. From the tank for cleaning to 8. Cleaning system with two types of solvent, claim 1, where the cleaning tank will consist of at least one ultrasonic transducer for generating The gaps formed inside the first solvent. 9. A cleaning system with two solvent types of claim 1 where the rinsing tank contains at least one ultrasonic transducer for creating a gap. up Inside of the solvent mixture 1 0. Cleaning system with two solvent types of claim 1 where the cleaning section consists of a cleaning cycle with a cleaning pump, a cleaning filter. And a heater for cleaning Pump that does A cleaner that circulates type I solvent through a cleaned filter to remove particulate matter and a cleaning pump to heat the first solvent. 1 1. Cleaning system with second solvent. Claim type 1, where the reconditioning tank contains an eyepiece window to ensure that the solvent body The first type is removed from the recovery tank. -------------------------------------------------- -------------------------------------------------- ---- 1.Double solvent cleaning system for removing contaminants from Precision components that include: cleaning parts with a cleaning tank including first solvent. With the boiling point of the first solvent Where precision components are immersed into the processing tank. Cleanliness and will be removed by the residual content of the first solvent. The rinsing section has a rinsing tank that includes the second solvent. The second solvent is selected so that there is a boiling of the second solvent. Where the boiling point of the solvent Type one is higher than the boiling point of the second solvent. Second solvent that dissolves the remaining amount of Precision components are precision components that are immersed into the rinsing tank. To form a solvent mixture of first and second solvent, the rinsing tank also includes a condensing coil over the second solvent. Solvent recovery section with recovery tank for mixing retention Solvent of the first and second solvent. Recovery tank It is separated from the emptying tank by the overflow dam. The recovery tank also includes a heat source. The fluid recovery loop is connected between the rinse tank and the recovery tank, the recovery cycle that includes the circulation pump. Cooling source Circulation filter And a number of valves and controls that have been outlined to control the recovery cycle in cleaning mode. Of working and activating circulation pumps and valves to guide the solvent mixture Throughout the filter circulates and is outlined to control the recirculation cycle in the mode. For restoring operation and activating circulation pumps and valves to guide the mixture. The solvent passes through the cooling source. Where sources for heating and pump power are provided from the circulation that create the scope. Second-type solvent vapors that are allocated over the tank for rinsing and for recovery during Cleaning mode of operation until the second solvent distillation solution on the coil That condenses and flows to the rinsing tank until the level of the second solvent rises. Until it is layered over the overflow dam and flows into the recovery tank. Where the concentration of the first solvent in the recovery tank is constantly increasing. This causes the boiling point of the solvent mixture to continue to increase until the boiling point of the mixture. The solvent will be at least 10 ° C at least the boiling point of the second solvent, and where the circulation pump circulates the low-solvent mixture in the recovery tank throughout. Cooling source during operation mode until the solvent is mixed. They are separated to form the first solvent and the second solvent. Each of which is characterized by looking, using the eyes for the removal of the first solvent. 2. Cleaning system with two solvents of claim 1, where the part for Solvent recovery consists of a disposal tank that is separated from the recovery tank. By the overflowing dam in restoring The first type of solvent that overflows, the overflow dam in the It recovers and flows to the disposal tank. 3. Two solvent cleaning systems of claim 1 where the solvent Type one and at least one type II solvent consist of a non-VOC solvent. 4. Two solvent cleaning systems of claim 1, where the solvent The first type contains soy solvent 5. Two types of solvent cleaning system of claim 1 where the solvent The first type consists of the deteriorating solvent of the living being. 6. A cleaning system with two solvent types of claim 1, where the unit price. Of the second type of solvent from much more than the unit price of type I solvent 7. Two types of solvent cleaning system of claim 1 also consists of Baskets for transferring precision components from the cleaning tank to the rinsing tank 8. Solvent-based cleaning system of claim 1, where the tank for The cleaner will consist of at least one ultrasonic transducer for generating The gaps formed inside the first solvent. 9. Two solvent cleaning systems of claim 1, where the rinsing tank. It contains at least one ultrasonic transducer for creating a gap within. Solvent mixtures 1 0. Two types of solvent cleaning systems of claim 1 where the parts for The cleaner consists of a circulation cycle for cleaning with a cleaning pump. Cleaning filters and cleaning heaters Cleaning pump circulating The first solvent passes through a cleaned filter to remove particulate matter and the pump Cleanliness for heating solvent type 1 1. Two solvent cleaning systems of claim 1, where the tank for The restoration will consist of an eyepiece window to ensure the first type of solvent. Will be removed from the recovery tank