US2008264096A1PendingUtilityA1
Refrigerator and Freezer Unit
Est. expiryDec 28, 2024(expired)· nominal 20-yr term from priority
F25D 23/061F25D 23/066F25D 2400/04F25B 2339/023F25D 11/02F25D 11/00F25D 23/06
30
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Claims
Abstract
A refrigerator and freezer unit has a throughgoing inner container, which forms a freezer compartment trough and a chilled goods trough which are integrally connected to one another in a flexurally rigid manner without any joining line or kinking edge, and an evaporator ( 9 ) seated on the freezer compartment trough ( 6 ). A wound box evaporator which surrounds the freezer compartment trough peripherally on four sides is provided as the evaporator.
Claims
exact text as granted — not AI-modified1 . A refrigerator and freezer unit comprising a throughgoing inner container ( 5 ), which forms a freezer compartment trough ( 6 ) and a chilled goods trough ( 7 ) which are integrally connected to one another in a flexurally rigid manner without a joining line or kinking edge, as well as an evaporator ( 9 ) seated on the freezer compartment trough ( 6 ), wherein a wound box evaporator which surrounds the freezer compartment trough ( 6 ) peripherally on four sides is provided as the evaporator ( 9 ).
2 . A refrigerator and freezer unit in accordance with claim 1 , wherein the evaporator ( 9 ) is arranged seated firmly in a shape-matched manner on the freezer compartment trough ( 6 ).
3 . A refrigerator and freezer unit in accordance with claim 1 , wherein the evaporator ( 9 ) is bonded to the freezer compartment trough ( 6 ), is in particular connected to the freezer compartment trough ( 6 ) by a two-sided adhesive tape or a two-sided adhesive film.
4 . A refrigerator and freezer unit in accordance with claim 1 , wherein plates, in particular metal plates, are arranged between the freezer compartment trough ( 6 ) and the evaporator ( 9 ) and the evaporator windings ( 10 ) are arranged on them.
5 . A refrigerator and freezer unit in accordance with claim 1 , wherein a gap ( 8 ) whose thickness is only slightly larger than the thickness of the evaporator windings ( 10 ) is provided between the freezer compartment trough ( 6 ) and the chilled goods trough ( 7 ).
6 . A refrigerator and freezer unit in accordance with claim 1 , wherein the opening cross-section of the freezer compartment trough ( 6 ) is offset backwardly to the rear of the appliance with respect to the chilling compartment trough ( 7 ).
7 . A refrigerator and freezer unit in accordance with claim 1 , wherein it is configured as a one-door appliance.
8 . A refrigerator and freezer unit in accordance with claim 2 , wherein the evaporator ( 9 ) is bonded to the freezer compartment trough ( 6 ), is in particular connected to the freezer compartment trough ( 6 ) by a two-sided adhesive tape or a two-sided adhesive film.
9 . A refrigerator and freezer unit in accordance with claim 2 , wherein plates, in particular metal plates, are arranged between the freezer compartment trough ( 6 ) and the evaporator ( 9 ) and the evaporator windings ( 10 ) are arranged on them.
10 . A refrigerator and freezer unit in accordance with claim 3 , wherein plates, in particular metal plates, are arranged between the freezer compartment trough ( 6 ) and the evaporator ( 9 ) and the evaporator windings ( 10 ) are arranged on them.
11 . A refrigerator and freezer unit in accordance with claim 8 , wherein plates, in particular metal plates, are arranged between the freezer compartment trough ( 6 ) and the evaporator ( 9 ) and the evaporator windings ( 10 ) are arranged on them.
12 . A refrigerator and freezer unit in accordance with claim 2 , wherein a gap ( 8 ) whose thickness is only slightly larger than the thickness of the evaporator windings ( 10 ) is provided between the freezer compartment trough ( 6 ) and the chilled goods trough ( 7 ).
13 . A refrigerator and freezer unit in accordance with claim 3 , wherein a gap ( 8 ) whose thickness is only slightly larger than the thickness of the evaporator windings ( 10 ) is provided between the freezer compartment trough ( 6 ) and the chilled goods trough ( 7 ).
14 . A refrigerator and freezer unit in accordance with claim 4 , wherein a gap ( 8 ) whose thickness is only slightly larger than the thickness of the evaporator windings ( 10 ) is provided between the freezer compartment trough ( 6 ) and the chilled goods trough ( 7 ).
15 . A refrigerator and freezer unit in accordance with claim 8 , wherein a gap ( 8 ) whose thickness is only slightly larger than the thickness of the evaporator windings ( 10 ) is provided between the freezer compartment trough ( 6 ) and the chilled goods trough ( 7 ).
16 . A refrigerator and freezer unit in accordance with claim 9 , wherein a gap ( 8 ) whose thickness is only slightly larger than the thickness of the evaporator windings ( 10 ) is provided between the freezer compartment trough ( 6 ) and the chilled goods trough ( 7 ).
17 . A refrigerator and freezer unit in accordance with claim 10 , wherein a gap ( 8 ) whose thickness is only slightly larger than the thickness of the evaporator windings ( 10 ) is provided between the freezer compartment trough ( 6 ) and the chilled goods trough ( 7 ).
18 . A refrigerator and freezer unit in accordance with claim 11 wherein a gap ( 8 ) whose thickness is only slightly larger than the thickness of the evaporator windings ( 10 ) is provided between the freezer compartment trough ( 6 ) and the chilled goods trough ( 7 ).
19 . A refrigerator and freezer unit in accordance with claim 2 , wherein the opening cross-section of the freezer compartment trough ( 6 ) is offset backwardly to the rear of the appliance with respect to the chilling compartment trough ( 7 ).
20 . A refrigerator and freezer unit in accordance with claim 3 , wherein the opening cross-section of the freezer compartment trough ( 6 ) is offset backwardly to the rear of the appliance with respect to the chilling compartment trough ( 7 ).Cited by (0)
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