RU2002110293A - METHOD FOR PRODUCING POLYOLS FOR SOFT BLOCK FOAM FOAMS - Google Patents

Claims (9)

1. Polyether polyols obtained by open-chain polymerization of ethylene oxide and at least one alkylene oxide with at least 3 carbon atoms in the molecule in the presence of H-functional initiators, characterized in that ethylene oxide or a mixture of ethylene oxide and at least one is attached to the initiator alkylene oxide with at least 3 carbon atoms in a molecule with an ethylene oxide content of at least 98 wt.%, calculated as a mixture, in an amount of maximum 40 wt.%, calculated on the weight of the polyether polyol, and then attached to at least one alkylene oxide with at least 3 carbon atoms in the molecule or a mixture of ethylene oxide and at least one alkylene oxide with at least 3 carbon atoms in the molecule containing at most 20 wt.% ethylene oxide, calculated on the mixture, moreover, as a catalyst at least one metal cyanide-based compound is used. 2. Polyether polyols according to claim 1, characterized in that the alkylene oxides with 3 carbon atoms in the molecule are propylene oxide, butylene oxide, isobutylene oxide or any mixture of at least two of these alkylene oxides. 3. Polyether polyols according to claim 1, characterized in that propylene oxide serves as alkylene oxide with 3 carbon atoms in the molecule. 4. Polyether polyols according to claim 1, characterized in that ethylene oxide is attached at the end of the chain. 5. Polyether polyols according to claim 4, characterized in that at the end of the chain a maximum of 15 wt.% Ethylene oxide is attached, based on the weight of the polyether polyol. 6. A method of producing polyether polyols by opening a polymerization chain of ethylene oxide and at least one alkylene oxide with at least 3 carbon atoms in a molecule in the presence of H-functional initiators, characterized in that ethylene oxide or a mixture of ethylene oxide and at least one alkylene oxide is attached to the initiator with at least 3 carbon atoms in the molecule with an ethylene oxide content of at least 98 wt.%, calculated on the mixture, in the amount of each maximum 40 wt.%, calculated on the weight of the polyester ol and then attach at least one alkylene oxide with at least 3 carbon atoms in the molecule or a mixture of ethylene oxide and at least one alkylene oxide with at least 3 carbon atoms in the molecule containing at most 20 wt.% ethylene oxide, in terms of a mixture, wherein at least one metal cyanide-based compound is used as a catalyst. 7. The method according to claim 6, characterized in that as a catalyst for ethylene oxide or a mixture of ethylene oxide and at least one alkylene oxide with at least 3 carbon atoms in a molecule with an ethylene oxide content of at least 98 wt.%, In terms of the mixture at least one alkaline compound is used to attach to the initiator and as a catalyst for attaching at least one alkylene oxide with at least 3 carbon atoms in a molecule or mixture of ethylene oxide and at least one alkylene oxide with necks least 3 carbon atoms in the molecule with a content of at most 20 wt.% ethylene, based on the mixture, is used at least one compound based on metal cyanides. 8. The method of producing polyether polyols according to claim 4, characterized in that as a catalyst for attaching ethylene oxide or a mixture of ethylene oxide and at least one alkylene oxide with at least 3 carbon atoms in a molecule with an ethylene oxide content of at least 98 wt.%, in terms of the mixture, at least one alkaline compound is used to the initiator and as a catalyst for attaching at least one alkylene oxide with at least 3 carbon atoms in the molecule or mixture of ethylene oxide and at least one alkylene oxide with at least 3 carbon atoms in a molecule with a maximum content of 20 wt.% ethylene oxide, in terms of the mixture, at least one metal cyanide-based compound is used and at least one alkaline compound is used as a catalyst for attaching ethylene oxide to the end of the chain . 9. Polyurethanes obtained by the interaction of polyisocyanates with compounds having at least two capable of reacting with isocyanate groups of a hydrogen atom, characterized in that polyether polyols according to paragraphs are used as compounds with at least two capable of reacting with isocyanate groups of hydrogen atoms. 1-5.