DE8424553U1 - Condenser for refrigerants - Google Patents

Description

KS-84/014 - 3 - 08/17/1984

Bt / wl

Llcentia

Patent-Verwaltungs-GmbH
Frankfurt / Main

Condenser for refrigerants

The innovation relates to a condenser according to the preamble of Claim 1.

In a known condenser of this type (DE-GM 18 45 436) is on the Inside the outer wall of the device housing of a freezer is a coil arranged to conduct heated refrigerant. The housing forms a circuit board on which the pipeline is wound in several turns is relocated. These turns are all at the same axial distance from one another. This results in a relatively uniform pattern in the board Temperature distribution, in particular subcooling of the liquefied refrigerant, as is particularly desirable at the outlet on the fluid side is, does not allow to a sufficient extent.

The innovation is based on the task at one according to the generic term of claim 1 trained condenser to take measures by means of zones with manufacturing technology that is easy to implement different liquefying function can be achieved.

The solution to this problem takes place according to the invention by the characterizing Features of claim 1.

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KS-34/014 - 4 - 08/17/1984

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In an embodiment of a condenser according to the innovation, by the choice of the distance between the individual turns a zone that is sufficiently thermally decoupled from one another can be created by am upstream end of the pipeline a zone for reducing gas overheating, the usual liquefaction of the refrigerant and finally in In a, in turn, separated third zone, subcooling of the liquefied refrigerant is formed with more closely bundled pipe windings. The turns thus combined to form individual turn groups can then each be at their bending point if the turns are guided in a meandering manner be deflected with the same radius, so that the bending of the pipeline can be carried out with a simple tool in production.

The pipeline is preferably in three next to each other or one above the other arranged lying groups of turns, of which the middle has the largest number of turns, in order to achieve optimal condensation of the liquid to be liquefied To achieve refrigerant.

The innovation is shown below with reference to the drawing of an exemplary embodiment a condenser explained in more detail.

On a board 1 made of a material that conducts heat well, in particular aluminum, a pipe 2 is applied in a thermally conductive manner. The pipe 2 is used to guide refrigerant within a refrigerant circuit in a cooling device. On the circuit board 1, the pipeline 2 is individually meandering curved turns 3 guided with parallel winding branches. Several turns 3 are closed in the area of an edge zone of the board 1 a group of windings 4 combined with the same distances between the branches of the windings, while a further group of windings 5 in the middle Section of the board 1 and a third group of turns 6 is arranged in the opposite edge region of the board 1. Even within the Winding groups 5 and 6 show the branches of the individual windings 3

KS-84/014 - 5 - 08/17/1984

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equal to each other, axial distance. Against it is between each other adjacent outer turns of the turn groups a greater distance is provided than between the turns within the turn groups 4, 5, 6. The free area created by this between the windings fertilize 3 of the individual winding groups 4, 5, 6 causes a thermal Decoupling of the individual winding groups from one another. At the flow inlet end 7 of the pipeline 2, the first winding group 4 connects, which is a first zone for reducing the gas overheating of the directly from a compressor supplied refrigerant is used. The thermally only loosely connected to the first group of windings 4 Coupled second group of turns, which has a higher number of turns, acts as a normal liquefaction zone of the still gaseous entering Refrigerant, while the following, again thermally only loosely coupled third winding group 6 as a subcooling zone for the in The refrigerant flowing in in the liquefied state has an effect. For stronger decoupling is the unpipe distance between the condensing coil group 5 and the subcooling winding group 6 selected to be greater than the distance between the upper ones, which are used to reduce the gas overheating Winding group 4 and the condensing winding group below

5. The subcooling of the refrigerant in the winding group 6 further increased by the fact that it is arranged in the lower edge area when the board 1 is arranged vertically and directly with the unpreheated room air is acted upon by convection currents.

Due to the arrangement of the individual turns 3 with the same, mutual Distance within the winding groups 4, 5, 6 can prevent the pipe from bending 2 are carried out in the area of the turning arc 8 with the same tools, so that the production without any special expenditure on work equipment can be carried out. In this case, the bend in the pipeline 2 at the transition from the last branch of the windings of one group of windings to the first The winding branch of the following winding group must be provided with the same radius over a bending angle of 90 °. The interposed, running perpendicular to the winding branches of the individual windings 3 The connecting piece 9 is preferably close to an edge of the board 1 running parallel thereto.

Claims (10)

I I · · · «· ff« t! •• IS · ■ ■ · ·· KS-84/014 - 1 - 17.08.1984 Bt / wl L i c e η t i a Patent-Verwaltungs-GmbH Frankfurt / Main protection claims 1. Condenser for refrigerants, especially for the refrigerant circuit of a cooling item, with one on a thermally conductive board in several Turns broken; : hten pipeline, characterized in that the pipeline (2) is arranged in turns with different spacing. 2. Condenser according to claim 1, characterized in that the turns (3) are divided into groups of turns (4, 5, 6), between the adjacent outer turns of which a greater distance is provided than between the turns (3) within the turn groups (4, 5, 6). 3. Condenser according to claim 1 or 2, characterized in that the Pipeline (2) on a flat plate (1) in meandering turns (3) is arranged. 4. Condenser according to Claim 1 or one of the following, characterized in that that the pipeline (2) is arranged in three adjacent groups of turns (4, 5, 6), of which the middle one has the largest number of turns having. 5. Condenser according to claim 2 or one of the following, characterized in that that the distance between the individual winding groups (4, 5, 6) is different. I. KS-84/014 »^ J J Il ·· ·· · 08/17/1984 » - 2 - Bt / wl S. 6. condenser according to claim 5, characterized in that the winding ¥ groups (4, 5, 6) are arranged one below the other when the board (1) is vertical. - »■ net and that the distance between the upper ones is smaller than between the lower coil groups (4,5, 5,6). 1; 7. Condenser according to claim 1 or one of the following, daourch marked ■, shows that the pipe (2) of the upper group of turns (4) immediately is connected to a pressure outlet of a compressor. 8. Condenser according to claim 1 or one of the following, characterized in that that the connecting line (9) between adjacent groups of turns (4, 5 or 5, 6) runs perpendicular to the longitudinal axis of the turns (3). 9. Condenser according to claim 1 or one of the following, characterized in that that the turning arcs (8) of the turns (3) have the same bending radius. 10. Condenser according to claim 1 or one of the following, characterized in that that the winding branches of the windings (3) within the winding groups (4, 5, 6) are equally spaced.