DE3929666A1 - Recovering foam insulation materials - by compressing foam under tight vacuum, drawing off, cooling, liquefying and collecting fluoro:chloro:hydrocarbon(s) and removing cake - Google Patents

Abstract

Foam materials contg. fluorochlorhydrocarbons (and partic. the thermal insulation used in refrigerators etc.) are recovered by filling a chamber with the foam, sealing it and pumping all its air out, introducing a pressure ram into the chamber whilst drawing off the fluorchlorhydrocarbon at the same time, and finally ventilating and opening the chamber and removing the compressed cake of foam material. ADVANTAGE - The method allows no fluorochlorohydrocarbon emission to enter the atmosphere. The materials recovered from the process require the minimum treatment.

Description

The invention relates to a method for reprocessing treatment of chlorofluorocarbons (CFCs) Foams, especially as insulation material for refrigeration units used foams, and a device for performing procedure.

Mate containing chlorofluorocarbon (CFC) Materials are in particular foams, namely foams made of polyurethane. The closed vesicles of the Foam contain chlorofluorocarbons, which mechanical damage to the foam will. The impact of released chlorofluorocarbons substances on the ozone layer of the earth are known.

Foams of the type described above are used as insulation material for household refrigerators, refrigerators, insulators Wall cladding and also used in the automotive sector. The equipped devices are relatively short-lived, so that ent speaking foam waste regularly in considerable quantities arises.

It has already been suggested out of old devices separate foams for recycling in order to  to recover the polyurethane. However, this will increase amounts of chlorofluorocarbons into the atmosphere re released. When reprocessing such foam fe, which is used as an insulating material in refrigerators and refrigeration units Ver found, the restitution also occurs Disadvantage hindrance to that in addition to that in the vesicles enclosed CFCs in open pore areas between the Bubbles contain large amounts of water, because when cooling furniture and refrigerators during operation due to under different indoor and outdoor temperatures is promoted, this condensation from the as Insulating foam serving as a practical Sponge soaked up to saturation.

The invention has for its object a method for the reprocessing of CFC-containing foams to sit in which there is no emission of CFCs to the atmosphere re occurs, the post-treatment of the substances obtained requires the least possible effort.

This object is achieved in that the Foam is filled into a chamber that the chamber ver closed and pumped out of air that in the chamber Chamber filling crushing ram retracted and the same CFC entering the chamber at an early stage the chamber is suctioned off and that the chamber is then be aired, opened and the press cake removed from foam becomes.

The method according to the invention is particularly advantageous  further developed in that accumulated after ventilation t water is drained from the chamber.

The extracted CFC can easily be collected and one Disposal.

The inventive method has the advantage that the Foams in the individual products such as water, fluorochlorine hydrocarbon and polyurethane in the form of a press cake can be disassembled in one operation. Into the chamber next is the raw material, the polyurethane foam, which is in its blowing contains CFCs and is partially saturated with moisture is entered. Once the chamber is closed, it will pumped empty. A press then moves into the empty chamber stamp, the pressure on the polyurethane foam the individual NEN bubbles crushed, so that CFC is released. This in the chamber vacuum has the advantage that CFCs released from the bubbles practically from a vacuum the bubbles are sucked out and further the bursting the bubbles are also favored by the vacuum.

The CFC can be extracted as a gas from the chamber and a how be processed. At the same time, the Squeeze through the ram that from the foam too Water is expressed. This water collects on the floor the chamber.

In particular, the process can be such that in the open chamber first a predetermined amount of Ab case foam is entered. The chamber then becomes herme closed table and pumped empty. One to the vacuum pump  leading line is sealed, for example by means of a shut-off device, and then the ram moves into the Chamber. At the same time, one line becomes a second Pump opened. This second pump sucks that into the Va CFCs entering the vacuum chamber. Once the foam material in the chamber to its lowest possible volume the CFC can be extracted from the chamber be canceled.

After the extraction of the CFC is finished and the corresponding appropriate discharge line again through a suitable shut-off device the chamber can then be ventilated the. This makes it possible to open the chamber again and to remove the foam press cake before he refilling is made. Immediately after the aeration The chamber can also accumulate at the bottom of the chamber draining water. The three basic materials, CFCs, Water and plastic are therefore in one work won and can be reused the.

The released and extracted CFCs do not require much space special processing. It can be inexpensive in usual be liquefied and immediately put into suitable containers filled and reused, without any emission.

CFCs evaporate at 23.8 ° Celsius under normal pressure. In the Chamber is a vacuum, which is the boiling point of CFCs lowered. It is true that the boiling point of water  reduced by the vacuum, but water boils at one much higher temperature, which is why a clean separation CFC and water in a method according to the invention is possible.

A device for performing the method draws characterized in that a chamber is arranged in a housing is that with actuatable shut-off devices provided connections a vacuum line, a discharge line for CFCs and a drain Laßleitung for water has that the chamber as a press pot is formed, in which a ram can be inserted and that the housing can be closed with an actuatable cover.

The chamber in which the foam is crushed to CFCs and releasing water is due to the arrangement in a ge housing, which has an actuatable cover, completely encapsulated, whereby the vacuum can be created in the chamber To avoid CFC emissions. The chamber can be any Shaping, round or angular, have the press ram is adjusted accordingly. The housing can also match de shape.

In the walls of the chamber are in the lower area Housing leading passages arranged. These passages allow ben that CFC escaping from the foam through the through let the walls get into the housing and from there can be sucked. Furthermore released what flow out of the chamber and be disposed of accordingly. For this purpose, the housing base has water outlets.

The walls of the housing have openings  on, connections of the vacuum line and the discharge line for CFCs are arranged at respectively assigned breakthroughs. The drain line is connected to the water outlets. The Drain line can also lead into a corresponding collecting chamber from which the water can then be drained. In the Va vacuum line, the discharge line and in the drain line is each because an actuatable shut-off device is used. Shut-off devices can be, for example, valves with the corresponding An drive elements are equipped for actuation.

To improve vacuum maintenance in the housing and in the Chamber is the opening edge of the housing in contact with the system corresponding to the area corresponding to the lid the sealing elements. For example appropriate rubber seals that provide sufficient sealing, when the lid is pressed against the opening edge of the housing.

The lid has a sealed bushing guide for the the piston rod of the press ram penetrating the cover. The ram can therefore be operated from the outside. With be special advantage is that the piston rod little least has a driver for the lid. This measure has the advantage that the cover by actuating the piston rod can be moved, so that no special separate Actuator for the lid is required. The press The stamp can be withdrawn to the extent that the Cover of the driver located on the piston rod is raised. The chamber in the housing is raised accessible lid and can be filled with foam  the. As soon as the piston rod moves back to the press To press pel into the chamber, that of the driver also lays down the worn lid on the opening edge of the housing. The Feed of the press ram can then be interrupted, so that the chamber and housing are subjected to a vacuum can run. Once the vacuum is created in the chamber the pressing process can begin with the ram.

An embodiment of the device from which knows tere inventive features are shown in the drawing posed.

The drawing shows a schematic side view of the device in section. A chamber 1 with chamber walls 2 is designed as a press pot which is open at the top. The chamber 1 is surrounded by a housing with housing walls 3 and housing base 4 . The housing base 4 also forms the base of the chamber 1 . The free opening edge 5 of the housing has a rubber seal, here only schematically indicated sealing elements 6 . 7 with a lid is designated with which the housing can be hermetically sealed. The lid has a central bushing guide 8 , in which the piston rod 9 of a pressable stem 10 which is displaceable into the chamber 1 is held. The piston rod has a driver 11 which is designed as a radial shoulder. A spiral spring 13 is arranged between the driver 11 and the upper support edge 12 of the bush guide 8 . If the piston rod 9 is withdrawn upwards, the ram 10 being lifted out of the chamber, the spring 13 relaxes until the ram 10 strikes the underside of the cover 7 . With further lifting movement of the piston rod, the cover 7 is then lifted off the opening edge 5 of the housing. The chamber is now freely accessible to fill in foam. As soon as the Kol rod is moved back against the chamber, the cover 7 rests on the opening edge 5 of the housing. If the piston rod moves forward, the spiral spring 13 is compressed, as a result of which the cover is pressed against the opening edge 6 of the housing. The press ram 10 has then reached the position shown here, at which it begins to enter the chamber 1 . In this position of the press ram, its feed movement can first be interrupted. The hous sewand 3 is provided with openings 14 to which a vacuum line 13 is connected. The vacuum line can be sealed with a shut-off device 16 and leads to a vacuum pump 17 . When the shut-off device 16 is open, the vacuum pump 17 can place the housing and thus also the chamber 1 under vacuum. As soon as the vacuum is created in the chamber 1 , the press ram 10 can move into the chamber and compress the foam material contained therein. CFC is released from the bubbles of the foam and, if necessary, squeezed out water containing the foam. The walls 2 of the chamber have passages 18 for CFCs designed as holes in the lower region, and water outlets 19 . The What serauslässe 19 open into a located below the bottom 4 of collection chamber 20 is connected to a drain conduit 21, so that the plenum 20 acts as a drain line 19 connected to the water outlets. An actuatable shut-off device 22 is inserted into the drain line 21 . CFC released under the pressure exerted on the foam by means of the press ram 10 flows in gaseous form through the passages 18 into the housing. The CFC can then be suctioned off while the shut-off element 16 of the vacuum line 15 is sealed. For this purpose, the wall 3 of the housing has further openings 23 to which a discharge line 24 is connected. In the discharge line, an actuatable shut-off element 25 is also inserted. With the shut-off element 25 open and the shut-off elements 16 and 21 closed , the pump 26 can extract CFCs from chamber 1 or the housing. This extracted CFC is cooled and liquefied in a condenser 27 which is only indicated here. The liquid CFC gets into a collecting container 28 and can be filled from there into bottles 29 , as indicated schematically here. The squeezing of the foam in a vacuum chamber has the advantage that CFCs can be extracted without air admixtures, which is why the recovery of CFCs is particularly easy.

As soon as the plunger is completely retracted and the CFC is completely sucked out of the chamber and from the housing, which can be checked via a manometer 30 indicated schematically here, the shut-off device 25 is closed. Appropriate ventilation, for example by simply opening the shut-off element 16 of the vacuum system, allows the housing and thus also the chamber to be ventilated again. As soon as the ventilation is complete, the shut-off device 22 can be opened in order to drain the water from the water collection chamber 20 . Then the ram 10 is withdrawn, the housing is opened and the press cake can be removed from the chamber. After refilling the chamber, the process runs as described above.

Claims (12)

1. A process for the reprocessing of chlorofluorocarbons (CFCs) containing foams, in particular foams used as insulating material in refrigeration cabinets, characterized in that the foam is filled into a chamber ( 1 ), that the chamber is closed and pumped air-free, that into the chamber mer a chamber filling crushing press ram ( 10 ) is driven and at the same time CFC entering the chamber is sucked out of the chamber and that the chamber is then ventilated, opened and the press cake is removed from foam. 2. The method according to claim 1, characterized in that after the aeration accumulated water from the chamber ( 1 ) is discharged. 3. The method according to claim 1 and 2, characterized net that the extracted CFCs collected and disposal to be led. 4. A device for performing the method according to claims 1 to 3, characterized in that a chamber ( 1 ) is arranged in a housing which with actuatable from locking members ( 16, 22, 25 ) provided connections of a vacuum line ( 15 ) one Discharge line ( 24 ) for CFCs and a drain line ( 21 ) for water that the chamber ( 1 ) is designed as a press pot, into which a press ram ( 10 ) can be inserted, and that the housing with an actuatable cover ( 7 ) is lockable. 5. The device according to claim 4, characterized in that walls ( 2 ) of the chamber ( 1 ) in the lower region in the Ge housing leading passages ( 18, 19 ). 6. Apparatus according to claim 4 and 5, characterized in that the housing base ( 4 ) has water outlets ( 19 ). 7. Device according to one of claims 4 to 6, characterized in that walls ( 3 ) of the housing have openings ( 14, 23 ), connections of the vacuum line ( 15 ) and the discharge line ( 24 ) for CFCs arranged at respectively assigned openings are. 8. The device according to claim 6, characterized in that the drain line ( 21 ) is connected to the water outlets ( 19 ). 9. Device according to one of claims 7 and 8, characterized in that in the vacuum line ( 15 ), the Abführlei device ( 24 ) and in the drain line ( 21 ) each have an actuatable shut-off element ( 16, 22, 25 ). 10. Device according to one of claims 4 to 9, characterized in that the opening edge ( 5 ) of the housing in the area corresponding to the contact area of the cover ( 7 ) is equipped with sealing elements ( 6 ). 11. Device according to one of claims 4 to 10, characterized in that the cover ( 7 ) has a sealed bushing guide ( 8 ) for the cover ( 7 ) penetrating piston rod ( 9 ) of the press ram ( 10 ). 12. The apparatus according to claim 11, characterized in that the piston rod ( 9 ) has at least one driver ( 11 ) for the cover ( 7 ).