DE19621054A1 - Insulated housing - Google Patents

Description

The invention relates to a heat-insulating housing for at least two heat exchanger, such as a condenser and an evaporator refrigeration device, the sen housing walls comprise spaced-apart envelope walls, which enclose a space in which the air pressure compared to the reverse exercise pressure is reduced.

It is known in the field of refrigeration equipment for thermal insulation on its housing in addition to the usual foamed thermal insulation to use vacuum insulation technology. Here are the housings walls formed from mutually spaced envelope walls, which one with Filler filled and then evacuated space gas impermeable conclude. With this technique one is careful, the number of to the envelope walls the machining operations to be performed, e.g. B. in the form of bushings for To keep pipes or brackets or the like as low as possible to the Probability of possible leaks significantly reducing the thermal insulation minimize. Nevertheless, it is currently unavoidable in refrigeration equipment, on its two Cladding wall brackets for fastening the evaporator board on the one hand and the Ver on the other hand, to provide a liquid arrangement.

The invention is based, for heat insulating walls according to the task propose the preamble of claim 1 measures on the basis of which the  Disadvantages of the prior art are avoided and at the same time the utility of a refrigerator is increased.

This object is achieved according to the invention in that at least one of the envelopes walls with a duct or pipe arrangement used to guide refrigerant is provided, the course and capacity of one of the heat exchanger corresponds.

The solution according to the invention results for the refrigerator of the refrigerator through the direct application of the sewer or pipe arrangement a room saving structure, which is reflected in an increase in its storage capacity. In addition, by applying the solution according to the invention to the outer envelope wall of the housing walls the space required to set up the refrigerator reduced. In addition, the application of the channel or Pipe arrangement in heat-conducting contact with good heat-conducting mate rial manufactured cladding walls due to the heat transfer from the sewer or Rohrlei arrangement on the respective cladding a significant increase in heat exchange area which increases the efficiency of the refrigerator significantly. The Heat transfer from the duct or pipe arrangement to the envelope wall are also amplified by the fact that the channel or pipe arrangement good heat-conducting material, such as metal.

A heat-insulating housing is particularly expedient if, according to egg ner preferred embodiment of the object of the invention is provided, that the channel or pipe arrangement on both of the opposite the envelope walls of a housing wall are applied.

Particularly favorable on the device-specific data, such as storage capacity and open space requirement, the application of the solution according to the invention has an effect if according to a further advantageous embodiment of the subject of the invention is seen that the channel or pipe arrangement with respect to the surface of the each envelope is set back.

According to a next preferred embodiment of the subject of the Er Invention is provided that the sewer or pipe arrangement is a line wall manure, the contour of which is at least partly through the wall surface of the Envelope is formed.  

Such a solution results in one as an evaporator for the intake manifold connection trained heat exchanger the possibility of this within the through the envelope walls enclosed, to provide evacuated space, so that a through guide of the intake manifold connection, penetrating both envelope walls There is no breakage and thus a possible thermal insulation effect of the housing wall reducing thermal bridge is prevented. It also results from this Solution features for made of a good heat-conducting material, such as metal manufactured cladding walls a particularly favorable heat transfer of the in the channel or pipeline of circulating refrigerant on the wall. Beyond that based on these features of the solution, particularly on the production technology simple way with prefabricated modular construction provided with heat exchange surfaces units in the form of individual housing walls as well as in the form of complete Manufacture refrigeration device housings.

According to a further preferred embodiment of the subject of the invention provided that the channel or pipe arrangement with the predominant part the contour of their line wall in a on the evenly formed envelope wall refrigerant-tight fixed circuit board is molded.

As a result, duct or pipe runs are simple in terms of production technology different refrigerant capacity can be produced, which with the for below Different uses provided heat-insulating housings or housings Sewing walls are combinable, creating a considerable variety of one under results in different refrigeration devices.

According to an alternative embodiment of the subject of the invention, before be seen that the channel or pipe arrangement with a predominant Part of the contour of their line wall in at least one of the opposite Envelope walls molded into a housing wall and largely flat flat formed circuit board is covered in a refrigerant-tight manner.

This results in a particularly space-saving construction for a housing wall or a heat-insulating housing, which, while maintaining the per se on the A not inconsiderable enlargement in the field of refrigeration equipment ßung their cold room can achieve. It also results in good thermal conductivity Made of material, a particularly heat-favorable transition of the in the Duct or pipe arrangement of circulating refrigerant on the wall.  

The Pla tine or the wall contour section of the sewer or pipe system arrangement if, according to a next advantageous embodiment of the counter state of the invention is provided that the indentation in the board or the envelope wall behind to form the wall contour section of the sewer or pipeline is generated without cuts.

The indentation in the circuit board or the cladding wall is particularly favorable for large ones Generate quantities, such as those found in the field of refrigeration appliances gene if according to a last preferred embodiment of the subject of the Er is provided that the indentation in the board or the envelope wall non-cutting shape is generated.

The invention is in the following description based on two in the accompanying th drawing illustrated simplified embodiments.

Show it:

Fig. 1 in a first embodiment, schematically, a housing of a household refrigerator with heat exchangers arranged on its rear wall, the refrigerant channels of which are predominantly molded in their cross-section into a board fixed on the surface of the rear wall of the housing, in a sectional view from the side and

Fig. 2 in a second embodiment, a housing similar to that shown in Fig. 2, a household refrigerator, but with heat exchangers, the refrigerant channels of which are predominantly molded into the rear wall of the housing, in a sectional view from the side.

In Fig. 1 a for use in a household refrigeration not described, such as a refrigerator or freezer suitable heat-insulating housing 10 is shown, the housing walls 11 aufwei a space 12 sen. This is with a heat insulating material 13 , such as. B. glass fiber material, open-cell foams based on polyurethane, polyisocyanurate, polystyrene or other open-cell organic polymer foams, aerogels or other inorganic po rous materials and has a lowered compared to the outside atmosphere of the thermally insulating housing 10 , between the values 0.001 mbar and 100 mbar moving air pressure. The space 12 is delimited by an inner cladding serving as inner cladding wall 14 and a spaced outer cladding wall 15 , which are vacuum-tightly connected to each other at their free ends and which are made of stainless steel sheet metal plates or corrosion-protected steel sheet metal plates, which correspond to the dimensions of the Housing 11 are angled. Of these, the housing wall 11 serving as the rear wall has a heat exchanger 16 and 17 on the corresponding sections of the envelope walls 14 and 15 , on the outside thereof facing away from the intermediate space 12 . Of these, the heat exchanger designated 16 serves as a condenser, while the heat exchanger 17 is designed as an evaporator. Both heat exchangers 16 and 17 are formed by the wall surface facing away from the intermediate space 12 of the cladding walls 14 and 15 in the region of the rear wall and a plastic-deformable plate 18 or 19 made of stainless steel or corrosion-protected steel sheet, which is fixed there by welding in a cool-tight manner. In the boards 18 and 19 , the course egg ner for guiding refrigerant channel assembly 20 and 21 is formed without cutting, of which the introduced into the board 18 refrigerant channel arrangement 20 to form the heat exchanger 16 and the board 19 introduced Käl Temittel channel arrangement 21 is used to form the heat exchanger 17 . The refrigerant channel arrangement 20 and 21 of the two heat exchangers 16 and 17 has a channel segment-like cross-section, the cross-sectional area of which is largely determined by the molding in the plates 18 and 19 , the chord of the segment of the circle being represented by the corresponding section of the Wall surface of the envelope walls 14 and 15 is generated.

Compared to the rear wall of the heat-insulating housing 10 provided with the heat exchangers 16 and 17 , a heat-insulating door 22 is attached to the edge of its opening. Like the housing 10, this has an intermediate space 24 enclosed by an enveloping wall 23 , which is filled with a heat insulating material 25 which is also used in the intermediate space 12 of the housing 10 and which is evacuated to an air pressure prevailing in the intermediate space 12 after the filling process. In the closed state, the door 22 rests on a bellows-like magnetic seal 26 arranged around its edge around the edge of the access opening to the housing 10 and, together with its housing walls 11, encloses a cooling space 26 arranged in the housing 10 .

Referring to FIG. 2, an alternative embodiment is shown of a suitable for use on a household refrigeration appliances heat-insulating housing 30, in which identical running to the heat insulating casing 10 parts with the same reference numerals are ge features. Like the heat-insulating housing 10, the heat-insulating housing 30 has housing walls 31 which are integrally connected to one another and which are equipped with an intermediate space 32 enclosed by lateral surfaces which are explained in more detail below. This is filled with a heat insulating material 33 and its air pressure is visibly reduced to values as mentioned in the description of the first embodiment. As the intermediate space 32 surrounding man tel surfaces serve in the present case an inner shell wall 34 and an outer spaced outer shell 35 , which are formed from an approximately the pressure difference between the space's rule 32 and its external atmosphere in accordance with diffusion-tight, board-like material, which corresponds to the Dimensions solutions of the housing walls 31 is shaped. Of these, the housing wall 31 serving as the rear wall of the housing 30 is provided with the associated section of the envelope walls 34 and 35 , each with a chipless molded channel 36 and 37 , both of which extend with their channel bed into the intermediate space 32 and which are arranged in a meandering manner over the surface of the rear wall. The channels 36 and 37 are formed on their side facing away from the intermediate space 32 and are each closed off by a circuit board 38 or 39 fixed on the envelope wall 34 or 35 in a refrigerant-tight manner, whereby a heat exchanger 40 or 41 is formed, the one for guiding of refrigerant channel or pipe arrangement is generated by the channel 36 or 37 . Of the heat exchangers 40 and 41 , the cooling chamber 26 facing heat exchanger 40 serves as an evaporator and the ge opposite this heat exchanger 41 as a condenser.

Deviating from the two embodiments, it is also conceivable to build the heat-insulating housing 10 or 30 from individual heat-insulating panels, of which the panel serving as the rear wall is provided with heat exchangers 16 and 17 or heat exchangers 40 and 41 . Furthermore, it would also be possible to use the panel equipped with the heat exchangers according to the invention as a one-piece rear wall module in refrigeration appliances, the heat insulation of which is otherwise based on expanded polyurethane foams.

Claims (8)

1. Heat-insulating housing for at least two heat exchangers, such as a condenser and an evaporator refrigeration device, the housing walls of which comprise spaced-apart enveloping walls which enclose a space in which the air pressure is reduced in relation to the ambient pressure, characterized in that at least one of the cladding walls ( 14 , 15 ; 34 , 35 ) is provided with a duct or pipe arrangement ( 20 , 21 ; 36 , 37 ) which serves to guide refrigerant, the course and capacity of one of the heat exchangers ( 16 , 17 ; 40 , 41 ). 2. Heat-insulating housing according to claim 1, characterized in that the channel or pipe arrangement ( 20 , 21 ; 36 , 37 ) is applied to both of the opposing envelope walls ( 14 , 15 ; 34 , 35 ) of a housing wall ( 11 ). 3. Heat-insulating housing according to claim 1 or 2, characterized in that the channel or pipe arrangement ( 20 , 21 ; 36 , 37 ) bezüg Lich the surface of the respective envelope wall ( 14 , 15 ; 34 , 35 ) is arranged set back. 4. Heat-insulating housing according to one of claims 1 to 3, characterized in that the channel or pipe arrangement ( 20 , 21 ; 36 , 37 ) has a line wall, the contour of which at least in part through the wall surface of the envelope wall ( 14 , 15 ; 34 , 35 ) is formed. 5. Heat-insulating housing according to one of claims 1 to 4, characterized in that the channel or pipe arrangement ( 20 , 21 ) with egg nem predominant part of the contour of its line wall in a on the flat-shaped envelope wall ( 14 , 15 ) refrigerant-tightly fixed circuit board ( 18 , 19 ) is molded. 6. Heat-insulating housing according to one of claims 1 to 4, characterized in that the channel or pipe arrangement ( 36 , 37 ) to egg nem predominant part of the contour of its line wall in at least one of the opposing envelope walls ( 34 , 35 ) of a housing wall ( 11 ) is molded in and is covered by a circuit board ( 38 , 39 ) which is fixed there and largely flat. 7. Heat-insulating housing according to one of claims 5 or 6, characterized in that the molding of the formation of the Wandkontu renababschnitt the channel or pipe ( 20 , 21 ; 36 , 37 ) in the circuit board ( 18 , 19 ; 38 , 39 ) or the envelope wall ( 14 , 15 ; 34 , 35 ) is produced without an undercut. 8. Heat-insulating housing according to one of claims 5 to 7, characterized in that the indentation to form the channel or Rohrlei line arrangement ( 20 , 21 ; 36 , 37 ) in the circuit board ( 18 , 19 ; 38 , 39 ) or the envelope wall ( 14 , 15 ; 34 , 35 ) is produced by non-cutting shaping.