Abstract: A system for the controlled addition of detergent formulations and the like to a carbon dioxide cleaning apparatus comprises: (a) a high pressure wash vessel; (b) an auxiliary vessel; (c) a drain line connecting the auxiliary vessel to the wash vessel; (d) optionally but preferably, a separate vent line connecting the auxiliary vessel to the wash vessel; (e) a detergent reservoir; and (f) a detergent supply line connecting the detergent reservoir to the auxiliary vessel. An advantage of this apparatus is that, because the detergent formulation can be pumped into the auxiliary vessel in a predetermined aliquot or amount, which predetermined aliquot or amount can then be transferred into the wash vessel where it combines with the liquid carbon dioxide cleaning solution, the detergent formulation can be added to the cleaning solution in a more controlled or accurate manner.

Abstract: A wash tank adapted for use with a carbon dioxide cleaning medium has a body member having a front opening formed therein, the body member having side walls and a back wall opposite the front opening. The side walls terminate in a front body member edge portion that defines the front opening. The edge portion serves in the sealing mechanism, as discussed below. A substantially cylindrical basket is disposed within the body member for rotation about a generally horizontal axis. The basket has a front opening formed therein, and has a side wall and a back wall opposite the front opening. The basket side wall terminates in a front basket edge portion defining the basket front opening. The said basket edge portion is spaced forward from the body member edge portion when the basket is positioned in the body member, serving to prevent loose garments or materials placed within the basket from becoming caught in the seal and interfering with seal integrity.

Abstract: A system and method are provided for separating water from a solvent during dry cleaning. Included is an inlet capable of receiving a mixture of dry cleaning fluid and water from a basket of a dry cleaning apparatus. The dry cleaning fluid includes a siloxane composition. Also provided is a flow controller for urging a flow of the mixture received from the outlet. Coupled to the flow controller is a coalescent media that receives the mixture urged by the flow controller. A chamber is coupled to the coalescent media for receiving the mixture from the coalescent media to separate the water and the dry cleaning fluid. Also coupled to the chamber is an outlet to remove the dry cleaning fluid from the chamber in the absence of the water.

Abstract: Method and system of rejuvenating pressurized fluid solvents used for cleaning a substrate in a pressurized vessel. A primary flow of the pressurized fluid solvent is continuously cycled from the pressurized vessel through a series of filters to remove insoluble and soluble contaminants, and then returned to the pressurized vessel. A secondary flow of the pressurized fluid solvent, preferably equivalent to less than about 40% of the primary flow, is directed either continuously or intermittently during the cleaning operation to an evaporator to evaporate the pressurized fluid solvent of the secondary flow into a vapor and to separate contaminants therefrom. The vapor from the evaporator is then either liquified by a compressor or condenser to create rejuvenated pressurized fluid solvent and redirected to the pressurized vessel for further use, or vented to atmosphere and replaced by new pressurized fluid solvent from a supply tank.

Abstract: A method for cleaning or sterilizing objects in a liquid fluid cleaning system comprising a high-pressure storing/working vessel, a cleaning chamber, and a low-pressure supply vessel, the method comprising the steps of loading the cleaning chamber with objects to be cleaned or sterilized; supplying cleaning fluid to the cleaning chamber from the low-pressure supply vessel by means of pressure difference; supplying cleaning fluid to the cleaning chamber from the high-pressure storing/working vessel; cleaning the objects in the cleaning chamber with the cleaning fluid; transferring cleaning fluid from the cleaning chamber to the high-pressure storing/working vessel; and unloading the cleaned objects from the cleaning chamber.

Abstract: A system and method are provided for dry cleaning articles utilizing a siloxane solvent. The system includes a cleaning basket for receiving articles therein and a one or more tanks for containing a siloxane solvent. Coupled between the tank and the cleaning basket is a pump for immersing the articles in the cleaning basket with the siloxane solvent. Also included is a still for distilling the dirty siloxane solvent to recover the pure siloxane solvent. A condenser is coupled to the cleaning basket and/or the still for recovering condensed vapors. For decanting any water in the siloxane solvent received from the condenser, a separator is coupled to the condenser. A fan is coupled to the cleaning basket for circulating air past the condenser, then the heater coils and into the cleaning basket for drying and cooling the articles.

Abstract: A dry-cleaning apparatus using liquid carbon dioxide (CO.sub.2) as the cleaning fluid has a liquid level detector for providing a continuous reading of the liquid CO.sub.2 level in a storage tank. The liquid level detector includes a first resistance temperature detector disposed in the gas above the liquid, a second resistance temperature detector immersed in the liquid, and a third resistance temperature detector with an elongated sensing section disposed in part in the gas above the liquid and in part in the liquid. Each of the three resistance temperature detectors are heated by a constant current. Voltage signals indicating the respective resistance values of the resistance temperature detectors are measured and processed by a controller to continuously determine and monitor the liquid level in the storage tank.

Abstract: A wash tank adapted for use with a carbon dioxide cleaning medium has a body member having a front opening formed therein, the body member having side walls and a back wall opposite the front opening. The side walls terminate in a front body member edge portion that defines the front opening. The edge portion serves in the sealing mechanism, as discussed below. A substantially cylindrical basket is disposed within the body member for rotation about a generally horizontal axis. The basket has a front opening formed therein, and has a side wall and a back wall opposite the front opening. The basket side wall terminates in a front basket edge portion defining the basket front opening. The said basket edge portion is spaced forward from the body member edge portion when the basket is positioned in the body member, serving to prevent loose garments or materials placed within the basket from becoming caught in the seal and interfering with seal integrity.

Abstract: An apparatus and method for controlling the use of carbon dioxide in drying cleaning clothes, garments and other fabrics is disclosed and claimed. The components of the invention include a distillation vessel, a compressor, a warm-up vessel, a cleaning chamber, a condenser, and a carbon dioxide storage tank. A programmable logic controller is utilized to control the apparatus. Several modes of use are disclosed. One mode, the reclaim mode, enables the efficient operation of the apparatus. As the name implies the reclaim mode recovers most of the carbon dioxide gas remaining in the cleaning chamber is removed therefrom.

Abstract: The present invention relates to a method of and an apparatus for treating of textile substrates with a supercritical fluid. The textile substrates are formed as spools of yarn or rolled webs, and the supercritical fluid flows over and/or through them substantially perpendicular to their spool or winding axis. At that, the treatment temperature assumes different values during the treatment period. It is provided that during the treatment period, the treatment temperature values are set by at least two functions of the treatment time, and that the supercritical fluid is conditioned differently at the time the following function takes effect.

Abstract: A pressure vessel for receiving and storing pressurized fluid in a pressurized dense phase liquid dry cleaning apparatus is provided. The dry cleaning apparatus generally includes a cleaning vessel within which garments or the like are cleaned and a solvent recovery device which takes the contaminated cleaning fluid from the cleaning vessel and separates out the contaminants. The pressure vessel comprises a plurality of interconnected hollow structures and as such is substantially self-supporting and occupies less space within dry cleaning apparatus. The pressure vessel can also serve as the support structure for the other components of the dry cleaning system to provide a further cost and space savings.

Abstract: A system and method for cleaning an article with cleaning fluid comprising a liquified gas, preferably carbon dioxide, maintained at a pressure elevated above atmospheric pressure in the wash chamber of a pressure vessel. A basket holding the article is rotated in the wash chamber by a drive shaft passing through a wall of the pressure vessel, and a seal mechanism for this passage prevents escape of the cleaning fluid. The seal mechanism includes a first seal component adjacent to the wash chamber and a second seal component outboard of the first seal component to provide a sealant chamber in which a pressurized sealant fluid is provided such that a pressure differential across the first seal component is substantially less than the pressure differential between the wash chamber and atmospheric pressure The sealant fluid may be a gaseous component or a liquid component of the cleaning fluid. Fluid and control systems are provided for automating washing, rinsing and sealing operations.

Abstract: An improved dry cleaning machine and process which eliminates solvent emissions while simultaneously providing cost and quality benefits. The solvent filtration apparatus and process currently used in typical dry cleaning operations is eliminated and the solvent is instead separated based on the anticipated extent of contamination wherein the less clean solvent is cleaned via a distillation unit.

Abstract: Method and system of rejuvenating pressurized fluid solvents used for cleaning a substrate in a pressurized vessel. A primary flow of the pressurized fluid solvent is continuously cycled from the pressurized vessel through a series of filters to remove insoluble and soluble contaminants, and then returned to the pressurized vessel. A secondary flow of the pressurized fluid solvent, preferably equivalent to less than about 40% of the primary flow, is directed either continuously or intermittently during the cleaning operation to an evaporator to evaporate the pressurized fluid solvent of the secondary flow into a vapor and to separate contaminants therefrom. The vapor from the evaporator is then either liquified by a compressor or condenser to create rejuvenated pressurized fluid solvent and redirected to the pressurized vessel for further use, or vented to atmosphere and replaced by new pressurized fluid solvent from a supply tank.

Abstract: A method and system for removing a lubricant from an absorbent material. The method comprises placing the lubricant-contaminated material in a dry cleaner and centrifuging the material to remove and subsequently recover a first quantity of lubricant, dry cleaning the material, separating and recovering a second quantity of lubricant from the dry cleaning fluid, and recycling the dry cleaning fluid. The present invention maximizes the recovery of lubricant and effectively recycles the dry cleaning fluid, which in turn minimizes both the cost and environmental impact of cleaning absorbent materials.

Abstract: A carbon dioxide dry cleaning system features a pair of liquid carbon dioxide storage tanks in communication with a compressor. A sealed cleaning chamber contains the objects being dry cleaned. By selectively pressurizing the storage tanks with the compressor, liquid carbon dioxide is made to flow to the cleaning chamber through cleaning nozzles so as to provide agitation of the objects being dry cleaned. Liquid carbon dioxide displaced from the cleaning chamber returns to the storage tanks. A still is disposed within one of the storage tanks and receives soiled liquid carbon dioxide as it is returned from the chamber. The pressure in the storage tank causes the soiled liquid carbon dioxide in the still to boil off. The gas is communicated to a third tank.

Abstract: A drum type drying/washing machine performs drying without the flow of cooling water during a predetermined period of time or a period of time determined in accordance with an amount of clothes. After the passage of the period of time, the machine starts the flow of the cooling water so as to perform drying with cooling-dehumidication. The drum type drying/washing machine, at the initial stage of the drying operation, also performs not only the heating of clothing, but also the rotating of a drum at a high speed to dehydrate the clothing. A drum type drying/washing machine rotates a drum at an almost a maximum rotational rate at which, in a low speed rotation, materials to be processed can roll over in the drum; or at a rotational rate above which, in the low speed rotation, the materials to be processed as a whole stick to the inner peripheral wall of the drum. Further, the drum is accelerated to a high speed rotation only when an output from an unbalance detecting device is a predetermined level or less.

Abstract: A method of replenishing liquid carbon dioxide solvent in a liquid carbon dioxide dry cleaning system or other dense phase carbon dioxide cleaning system. The method uses dry-ice or solid carbon dioxide, as a replenishing stock, thus reducing transportation, storage and handling costs. The method disposes solid carbon dioxide blocks in a cleaning chamber after a cleaning cycle. Liquid carbon dioxide solvent is boiled and is used to melt the solid carbon dioxide blocks. Liquid carbon dioxide solvent produced by melting the solid carbon dioxide blocks is pumped from the cleaning chamber into a storage tank to replenish the liquid carbon dioxide solvent.

Abstract: A machine for washing and degreasing with solvents or for drying textile products or the like, including a container that accommodates a drum that can be rotated about its own axis. The container is closed by a door on one of its sides, which is directed towards an axial end of the drum, and a circuit is provided for conveying a stream of drying air, the circuit having a delivery duct leading into the container at the region of the door. The machine comprises a chamber for directing the stream of drying air, in the region where it enters the container, along a direction that is substantially parallel to the axis of the drum.

Abstract: An improved liquid carbon dioxide dry cleaning system containing an improved dry cleaning fluid. The dry cleaning fluid contains an antistatic agent for dissipating static charge on members or garments generated by friction during cleaning thereof. The concentration of the antistatic agent is typically less than 1 percent. Static charge present on the members or garments that are cleaned is transferred through the dry cleaning fluid to ground. This transfer of charge minimizes static charge buildup on the members or garments and suspended soil redeposition onto the members or garments. An odorizing agent or fragrance, and/or a deodorizing agent may be added to the cleaning fluid.

Abstract: A system and method for reducing the volume of the liquid hazardous waste stream generated as a byproduct of the dry cleaning process combines an air atomization apparatus, and a temperature controlled water injection apparatus. The air atomization apparatus disposes of separator water by misting. The temperature controlled injection apparatus uses dry cleaning separator water to create and boil an azeotropic mixture in the still of the dry cleaning machine itself. Consequently, the storage and disposal of separator water is eliminated and almost no solvent is left in the residue of the still before disposal.

Abstract: A clothes washing machine is provided with a tank (2) for the recovery of liquids and a transfer conduit (3) which, by way of a first pump (4) disposed in the conduit, connects the lower portion of the tub (1) to the tank. The lower volume of the tank is connected by way of a suitable conduit (6) and a second pump (7) to a nozzle (8) that discharges into the hydraulic circuit (9) that feeds containers (10) for substances for the washing operation. The machine has one or more of the following properties. The feed pump (7) for the hydraulic distributor (9) and the feed pump (12) for the condenser (11) are replaced by a single pump (17) and by a two-way directional control valve (18) which alternatively feeds respective conduits that feed into the hydraulic distributor and into the condenser. The discharge pump (20) and the transfer pump (4) are replaced by a single pump followed by a further directional control valve (21) which alternatively feeds the transfer conduit or the discharge.

Abstract: The invention relates to an apparatus for cleaning textiles by means of FCHC-free solvents on a benzine basis, comprising a cleaning machine, distillation section, recovery section and drier, and is characterized by a means for injecting protective gas into the drier.

Abstract: A cleaning system which includes a tank that contains a cleaning fluid. The cleaning fluid is typically in either a liquid, vapor or two-phase state, and is capable of removing grease and other foreign material from an object such as a circuit board. The tank has a heating jacket that provides heat to the cleaning fluid to raise the fluid to the vaporized state. A still is coupled to the tank by a vacuum pump. The pump circulates both liquid and vaporized cleaning fluid through the still which removes the foreign material from the fluid. The system has a pressure control system which controls the pressure of the cleaning fluid within the tank. The vacuum pump and pressure control system insure that the cleaning fluid is maintained in a desired state. The vacuum pump typically reduces the pressure of the cleaning fluid below the operating level of a conventional cleaning tank. The reduction in operating pressure provides a corresponding decrease in the saturation temperature of the cleaning fluid.

Abstract: A halohydrocarbon solvent recovery process. The process in one embodiment includes heating a gross mixture including solvent, fatty-acid impurities and water in a bath to vaporize at least a portion of the solvent and the impurities. A portion of the vapor is then condensed in a reflux condenser to form a condensate mixture. After drying and impurity absorption, a solvent product of at least 99% purity may be recovered. In one embodiment, the gross mixture is obtained from steam stripping dry-cleaner filter cartridges.

Abstract: To permit the use of combustible and potentially explosive solvents used in dry-cleaning operations, based on hydrocarbon compounds, the dry-cleaning machine is formed with an explosion-resistant housing (8) surrounding a perforated, rotatable drum (1) into which the goods are introduced. After carrying out the normal dry-cleaning procedure, and draining of dry-cleaning solvent, a vacuum pump generates an under-pressure, in the order of below 500 mbar, and preferably about 230 mbar, while heating the mixture to effect drying. A cooling coil, located at a lower portion of the machine, provides for condensation of solvent out of the solvent-air mixture and, after the major portion of the solvent has been evaporated, the heat exchanger is switched over to cooling for final condensation of any remanent solvent. The vacuum continues to be maintained, so that the boiling point of solvent, due to the under-pressure, is lowered by at least 40.degree. C., and preferably 50.degree. C.

Abstract: A dry cleaning clothes machine includes a washing barrel having an inlet, an outlet and a door to sealingly close the barrel. A preheating condensation chamber of distilled solvent is coupled to a first cooling circuit for the distilled vapors of the solvent arriving from a second container tank. A cooling chamber for the solvent comprises a section of a second circuit. The solvent is delivered from a third tank to the cooling chamber. An outlet of the second circuit is connected to a separation chamber and an outlet of the separation chamber is connected to the first and third tanks. The cooling chamber further includes the section of a third through circuit inside of which a refrigerating liquid flows.

Abstract: A tub cover which is mounted on an upper opening of a tub of a washing machine, includes a case shoulder and an inner cover having a condenser with the inner cover hinged with the case shoulder. The condenser comprises a steam inflow opening for enabling the upward passing steam from the tub, a water container member having a plurality of heat-exchanger plates, for heat-exchanging with steam entering therein, and a steam outflow opening for passing outward steam heat-exchanged in the container water member. The heat-exchanger plate comprises a plurality of orifices provided in a plurality of convex portions, and a water container formed between the convex portions.

Abstract: To permit the use of combustible and potentially explosive solvents used in dry-cleaning operations, based on hydrocarbon compounds, the dry-cleaning machine is formed with an explosion-resistant housing (8) surrounding a perforated, rotatable drum (1) into which the goods are introduced. After carrying out the normal dry-cleaning procedure, and draining of dry-cleaning solvent, a vacuum pump generates an under-pressure, in the order of below 500 mbar, and preferably about 230 mbar, while heating the mixture, to effect drying. A cooling coil, located at a lower portion of the machine, provides for condensation of solvent out of the solvent-air mixture, and, after the major portion of the solvent has been evaporated, the heat exchanger is switched over to cooling for final condensation of any remanent solvent. The vacuum continues to be maintained, so that the boiling point of solvent, due to the under-pressure, is lowered by at least 40.degree. C., and preferably 50.degree. C.

Abstract: A dry cleaning system particularly suited for employing supercritical CO.sub.2 as the cleaning fluid consisting of a sealable cleaning vessel containing a rotatable drum adapted for holding soiled substrate, a cleaning fluid storage vessel, and a gas vaporizer vessel for recycling used cleaning fluid is provided. The drum is magnetically coupled to a motor so that it an be rotated during the cleaning process. The system is adapted for automation which permits increased energy efficiency as the heating and cooling effect associated with CO.sub.2 gas condensation and expansion can be channeled to heat and cool various parts of the system.

Abstract: A compact solvent reprocessing system for use in a limited physical area. Solvents to be reprocessed is contacted by deionized water in a water wash column and delivered to a distillation column where waste solvent is separated from materials that boil at a higher temperature than the waste solvent. Distilled solvent is delivered to a drying column and final filters for removal of any other foreign materials. The modular solvent reprocessing system to reclaim/recycle high purity solvents on-site at a manufacturing facility. A system includes a pumpless pressurized tank solvent transfer units, storage tanks, liquid-liquid extraction column, distillation columns, submicron filtration units, and water and acid adsorption columns arranged as necessary to produce ultra-high purity solvents from waste solvent streams. The systems are packaged in modular assemblies with secondary containment to meet U.S. EPA requirements.

Abstract: Distillation chamber for extracting solvent from sludge, in particular for dry-cleaning machines, having a bottom shaped like a half-cylinder with a horizontal axis. The bottom is provided, in a downward position, at one end, with an outlet for extracting dried sludge. A shaft is axially and rotatably mounted in the chamber and spatula-like sectors, suitable for stirring the sludge and for pushing it toward the outlet upon the rotation of the shaft, are fixed to the shaft itself.

Abstract: The present invention is directed to a technique which comprises the steps of stopping the rotation of a treating drum in a deodorizing step, introducing the outside air into a treating tank through an upper opening provided in the upper portion of the treating tank or the upper portion of a recovery air duct, simultaneously exhausting a solvent gas from the treating tank through a lower opening provided in the lower portion of the treating tank or a button trap portion so slowly as not to agitate the solvent gas in the treating tank by an exhaust means connected to a solvent recovery device in the condition that the treating drum is stopped, in order to replace the solvent gas in the treating tank with the outside air, and reusing the solvent gas through the solvent recovery device once or several times. In addition, the present invention is further directed to an improvement of the above-mentioned technique.

Abstract: Apparatus and method are described for atomizing water containing an amount of solvent so that the solvent may be safely dispersed into the atmosphere. The apparatus and method are particularly useful for atomizing condensate water resulting from processes such as dry cleaning operations where relatively small amounts of solvent are present in the water.

Abstract: Apparatus is provided for carrying out a varnish impregnation method wherein a sheet-like base material is sequentially passed through a low-viscosity liquid storage region storing a low-viscosity liquid such as a solvent, a thermal syphon region, and a varnish storage region storing a varnish, the thermal syphon region being positioned between the low-viscosity liquid storage region and varnish storage region and communicating with both regions at air tight seals closed by liquid surfaces, and heating the base material in the thermal syphon region to vaporize the low-viscosity liquid impregnated in the base material. When the base material passes through the low-viscosity liquid, air contained in the base material is replaced with the low-viscosity liquid and discharged outside the apparatus. The low-viscosity liquid impregnated in the material is vaporized in the thermal syphon region.

Abstract: The present invention is directed to a technique which comprises the steps of stopping the rotation of a treating drum in a deodorizing step, introducing the outside air into a treating tank through an upper opening provided in the upper portion of the treating tank or the upper portion of a recovery air duct, simultaneously exhausting a solvent gas from the treating tank through a lower opening provided in the lower portion of the treating tank or a button trap portion so slowly as not to agitate the solvent gas in the treating tank by an exhaust means connected to a solvent recovery device in the condition that the treating drum is stopped, in order to replace the solvent gas in the treating tank with the outside air, and reusing the solvent gas through the solvent recovery device once or several times. In addition, the present invention is further directed to an improvement of the above-mentioned technique.

Abstract: A device for solvent recovery in an ultrasonic cleaning machine is based on utilization of the negative pressure originating from the liquification of the solvent vapor itself in a heat exchanger and the negative pressure from an ejector. Thus, the solvent vapor in a vapor zone is led out of a distillation vessel, cooled outside of the vessel, liquidfied, once again returned to a solvent vessel and, at the same time, the liquification of the solvent vapor which is incompletely liquified from this cooling and liquification process is accelerated even more in the negative pressure section of the ejector. Accordingly, the amount of water mixed into the recovered solvent is extremely reduced so that satisfactory cleaning in the ultrasonic cleaner can be ensured.

Abstract: A dry cleaning solvent recovery and filtering system includes a dry cleaning solvent tank containing solvent for use in a dry cleaning machine. A filtration path from the tank includes a centrifugal separator for removing coarse debris and a filter element for removing fine debris from the solvent fluid. The filter element includes a perforated metal cylinder, having an open mouth, with a Teflon.RTM. coated screen forming the interior debris collection surface. A rinsing spray nozzle situated at the mouth of the filter element directs a fluid spray under pressure against the collection surface in the same direction that debris contaminated solvent fluid flows therethrough. The pressure of the fluid spray is sufficient to dislodge fine debris adhered to the collection surface without forcing the debris into the perforations of the filter element.

Abstract: There are disclosed a dry cleaning method and apparatus using organic solvents in which two types of solvents melted to each other, one of which is a solvent (for example, perchloroethylene or 1.1.1 trichloroethane) having large washing power and the other of which is a solvent (for example, fleon R113 or terpene) having high safety for clothes can be simultaneously possessed and mixed to a predetermined mixture ratio in the range in which the respective characteristics of both the solvents do not interfere with each other by a fractionating device of the solvents, whereby almost all materials for clothes can be cleaned.With the structure, a single dry cleaner can clean almost all material for clothes and can increase the generality greatly as compared with the prior art cleaner.

Abstract: Apparatus is provided for carrying out a varnish impregnation method wherein a sheet-like base material is sequentially passed through a low-viscosity liquid storage region storing a low-viscosity liquid such as a solvent, a thermal syphon region, and a varnish storage region storing a varnish, the thermal syphon region being positioned between the low-viscosity liquid storage region and varnish storage region and communicating with both regions at air tight seals closed by liquid surfaces, and heating the base material in the thermal syphon region to vaporize the low-viscosity liquid impregnated in the base material. When the base material passes through the low-viscosity liquid, air contained in the base material is replaced with the low-viscosity liquid and discharged outside the apparatus. The low-viscosity liquid impregnated in the material is vaporized in the thermal syphon region.

Abstract: A system for clarifying liquids, having particular utility in dry cleaning operations. The system includes a filter apparatus which includes a plurality of axially spaced filter elements each having a high pressure side through which unclarified liquid is directed and upon which solids in the unclarified liquid accumulate and a low pressure side in communication with a liquid outlet of the filter apparatus. A liquid agitating impeller is disposed between respective adjacent pairs of the filter elements for defining a predetermined spacing between the filter elements and for creating liquid turbulence and agitation between the filter elements in response to rotation of a common shaft upon which the filter elements and impellers are mounted for effecting substantially complete removal of accumulated solids on the high pressure sides of the filter elements without movement between the impellers and filter elements.

Abstract: In a dry cleaning machine of type that includes, a cleaning chamber adapted for receiving an amount of articles to be washed and dried; means for supplying chemical solvents within of said chamber in order to carry out washing and draining stages of the articles; and, means to produce a flow of hot air within said chamber for drying the articles, a system and method for the additional recovering of solvents is provided. The system including, extract means connected to said chamber for extracting additional solvent from said chamber once the drying stage has been carried out. Condenser means to condense the solvent that has been extracted from said chamber, connected to the extract means to condense the solvent that has been recovered. And, conduit means connected between the condenser means and the means that supplying the chemical solvents for conduit the recovered solvent newly towards the means that supply the solvent.

Abstract: An improved dry cleaning machine is disclosed, which comprises a rotating drum, at least one storage tank for a cleaning solvent used in the drum, a pump for circulating the solvent from the tank to the drum through a feed line including a lint collector, a solvent filtration unit including at least one filter through which the solvent may be passed downstream the lint collector, a solvent decoloration unit including a bed of activated carbon through which the solvent may also be passed whenever necessary, and a solvent distillation unit comprising a still, a condenser and a separator. The improvement consists of a regeneration unit incorporated into the machine and comprising a regeneration chamber in which the carbon used in the decoloration unit may be introduced, preheated and reactivated with live steam, whenever desired.

Abstract: An apparatus for recovery of a solvent gas involved in the drying of goods treated with an organic solvent with the aid of an air stream in a dry-cleaning machine. In this machine the goods are dried by an air flow circulating in a closed circulation loop which is heated before contact with the goods and after contact is again cooled for condensation of solvent vapor. In a second stage of the recovery, the socalled reduction stage, the goods are cooled by shutting off the heat. For recovery of the residual solvent vapor still remaining in the air after cooling the air stream is subsequently fed through an adsorption unit. During the cooling only a portion of the cooled air is supplied for adsorption and after that is fed back in the air circulation loop circulating over the goods. This has been accomplished by providing a circulation branch having an adsorption unit substantially parallel to a portion of the circulation loop and an additional blower.

Abstract: The machine of the invention comprises the following components interconnected through air conduits; a cage drum rotatably mounted in a housing, an air cleaner for intercepting mechanical impurities, an air cooler, an air heater with a steam heating element, an adsorber with respective inlet and outlet connections for steam admission and discharging a mixture of steam and adsorbed solvent. The machine comprises also a system of directional valves for changing the direction of air flow therethrough and a means for cooling and separating a mixture of condensates of steam and solvent, which is connected, through a device for condensate separation and discharge, to the outlet of the steam heating element of the air heater.The inlet of steam heating element is connected to an outlet connection for discharging a mixture of steam and desorbed solvent vapors from the absorber.

Abstract: A method for the cleaning of clothes comprising subjecting said clothes to a dry cleaning treatment with an organic solvent, subjecting said clothes to a washing treatment with water, and subjecting said clothes to a drying treatment, and an apparatus for the method.

Abstract: The apparatus recovers solvent vapor and is used in a process for drying goods. A closed system of pipes guides an air flow through a heat exchanger comprising a condenser and an air heater. The system of pipes has a blower for providing a circulation forming this air flow and a switching means for the air flow comprising a plurality of valves and at least one pipe segment by which an adsorber is connectable in series in the circulation with a processing container. The adsorber is connectable by the blower or directly in the circulation with an outlet of the processing container. Advantageously at least one other pipe segment bypassing the heat exchanger with the switching means is provided so that the circulation only runs through the processing container, the blower and the adsorber without running through the heat exchanger. Furthermore at least one additional pipe segment and at least one additional switching means are provided bypassing the processing container.

Abstract: The dry cleaning apparatus includes a heat and cold generating unit for heating a heating liquid such as diathermic oil and cooling a cooling liquid such as antifreeze. A heating liquid circuit operates during a dry cleaning solvent regeneration phase to evaporate the solvent following clothes cleaning. A cooling liquid circuit operates during this phase to condense the solvent following evaporation. During a subsequent cleaning phase the heating liquid circuit heats the air circulating through a barrel including the clothes being cleaned. Simultaneously, the cooling liquid circuit cools a heat exchanger provided in a duct for the circulating air so as to condense solvent from the heated circulating air and return it to the barrel. The heating liquid circuit is actually split with a heating resistor provided in one subcircuit.

Abstract: A process for recuperation of organic solvents in dry-cleaning machines comprising circulation of air first through a cleaning drum of a machine containing textile articles treated with an organic solvent and squeezed, a filter, an air cooler and a heater, and then through a cleaning drum with the articles, filter, air cooler and an absorber. The circulated air recovers the solvent from the articles which solvent is first condensed in the air cooler and then adsorbed in the adsorber. Simultaneously with circulation of air through the cleaning drum, filter, air cooler and heater effected first is desorption of the solvent adsorbed in the previous process cycle of the dry-cleaning machine operation from the adsorbent by means of steam which together with vapors of the desorbed solvent is condensed in the heater, followed by the removal, from the adsorber to the heater, of the remaining steam and its condensate due to the pressure drop in the adsorber-heater system by means of compressed air.

Abstract: The present invention relates to a dry cleaning apparatus in which a main portion of a dry cleaner comprises tanks for exclusively receiving at least two kinds of solvents which are soluble in each other, one treating tank and a fractionating device for recovering the two or more kinds of solvents by batch distillation, exclusive filters for the respective solvents comprising, a common filter or a multi-filter device composed of both the filters, and the two or more kinds of solvents are used independently so that washing is carried out.