DE2404012A1 - HEAT TRANSFER FOR COLD CHILLS IN REFRIGERATORS AND FREEZERS - Google Patents

Description

Heat exchangers for refrigeration units in refrigerators and freezers The invention relates to heat exchangers for refrigeration units that work according to the compression refrigeration principle, of refrigerators and freezers, preferably equipped with foamed-in evaporators.

It is known for refrigeration units for refrigerators and freezers for Purpose of heat exchange between the line in the suction and the capillary flowing medium to solder them together in parallel.

It is also known to achieve a better heat exchange as a result achieve that the capillary serving to throttle the liquid refrigerant partially runs within the suction line stirring refrigerant vapor. The capillary into the larger suction pipe at two points that are further apart on or

executed. As a result, there are also two welding or

Solder points on the high in terms of cleanliness and tightness Requirements are made.

To control a spread that is favorable in terms of control technology the mean evaporation temperatures of a freezer and a normal refrigerator compartment for Two-temperature refrigerators with a non-azeotropic dual-substance refrigerant as a working medium has already become known, a heat exchanger between freezer compartment and normal refrigerator compartment evaporator to be arranged, which cools the refrigerant mixture on the pressure side in countercurrent and heats up on the suction side. About the design of the heat exchanger however, nothing has yet been announced.

The listed state of technology is particularly liable for the disadvantage to the fact that with the outside aul the suction line soldered capillary very large amounts of Blowing agent and solder are required. In addition, the very long solder seam causes a increased expenditure of evaluation time.

Another disadvantage is that the heat exchange conditions are insufficient are.

This is a requirement when guiding the capillary within the suction line two solder joints a disadvantage. In pipe systems, refrigeration of technical systems is due the high demands on the tightness of the refrigeration system are always aimed at Reduce the number of soldering points to a minimum. There is also a replacement the capillary in refrigerators and freezers with foamed-in evaporators cumbersome or completely excluded.

he purpose of the invention is to achieve optimal heat transfer ratios to be realized with the least technological effort.

The object of the invention is to increase the specific refrigeration capacity serving heat transfer between the liquid emerging from the condenser and to reach the cold suction vapors without additional components.

According to the invention this is achieved in that a heat exchanger formed in a manner known per se by guiding the capillary in the suction line by placing the inlet or outlet of the capillary on the suction line opposite one another takes place at one and the same point and one curved around 1800 is approximately parallel extending portion of the capillary protrudes into this. This input should and execution at the joint of the connection line between the evaporator and Compressor succeed; because there is usually a soldering point here for technological reasons necessary is. The pipe ends of the suction line that meet at the base are provided with slot-like recesses that serve to accommodate the capillary u £ id alese after joining together on the circumference.

The joint is therefore designed as a sleeve connection.

It is also advantageous to use the capillary tube in and out to be arranged within the thermal insulation material. It should be noted that they are on one for assembly and repair purposes easily accessible place is located. In the case of an arrangement within the thermal insulation material, it is appropriate to ensure accessibility for assembly and repair purposes thanks to a removable molded piece made of thermal insulation material to ensure.

To achieve the most intensive heat transfer possible between the liquid refrigerant and the suction vapors, it is necessary that curved approximately parallel sections of the capillary from the entry and exit points starting as far as possible in the connecting line between the evaporator and Compressor protrude.

allow.

The advantages of the invention consist in a simplification of manufacture and reducing the cost of refrigerators and freezers. This will go through once the reduction to a single soldering point compared to the usual two soldering points and because of the greater safety when soldering itself because of the socket-type Reached the basement on stepping bathroom security.

Since soldering points generally always represent certain uncertainties, The reduction in their number also brings an improvement in quality themselves.

Another advantage is the simplified accessibility of the Capillary tube entry and exit for repair purposes.

After removing the iormstücxes from thermal insulation material one Any repairs that may become necessary are carried out and then this molding to be reinstated.

If necessary, the capillary can through this constructive solution can be removed easily.

Last but not least, the improved intensive heat transfer has an effect between the liquid refrigerant and the suction vapors by means of the inventive Heat exchanger favorably on the control of the temperature conditions in Lühl- and refrigerators off.

The invention is to be described in more detail below using an exemplary embodiment explained.

The accompanying drawings show: Figo 1: the Sin and execution the capillary into the suction line at the sleeve-like junction between Compressor and evaporator Fig. 2: a Schnisb the detail X of Fig. 1 The suction line shown in FIG. 1 consists of the subsection coming from the evaporator 1 and section 2 leading to the compressor. Into section 1 of the suction line protrudes a part that is bent by 180 ° and running approximately parallel to one another the capillary 3 to achieve an intense heat transfer between the liquid the refrigerant and the suction vapors in as far as possible. The outside of the suction line located portions of the capillary 3 are once over the filter dryer 4 with connected to the condenser and, on the other hand, to the injection point 5 on the evaporator.

In Fig. 2 is the structural design of the joint between the compressor and evaporator to be recognized. The sleeve-like widened end of the section 2 and the end of section 1 of the suction line have slot-like at its end semicircular recesses 6, which after joining the Include the circumference of the capillary 3.

In addition to the implementation of the usual for all refrigerators and freezers Recuperative heat exchange between the liquid refrigerant and the suction vapors This principle can also be used for two-temperature refrigerators with two Evaporators and a further heat exchanger arranged between them.

Claims (6)

Claims 1. Heat exchangers for refrigeration units in refrigerators and freezers that are preferably equipped with integrated evaporators and based on the compression refrigeration principle work, characterized in that the heat exchanger in known catfish is formed by guiding a capillary in the suction line, the input or Execution of the capillary in the suction line opposite one and the same Place takes place. 2. Heat exchanger according to claim 1, characterized in that the Kapillarrohrein- and -ausführung in a socket twist, both pipe ends Have slot-like recesses that the capillary tube after joining encompass on the circumference. 3. Märme transmitter according to claim 1 and 2, characterized in that that the capillary tube in and execution within the thermal insulation material a place that is easily accessible for assembly and repair purposes. 4. Heat exchanger according to claim 1 and 3, characterized in that that an accessibility for assembly and repair purposes through a removable Xlormstuck from thermal insulation material is guaranteed. 5. Heat exchanger according to claim 1 and 2, characterized in that that a required joint in the connecting line between the evaporator and compressor is used at the same time for the capillary tube entry and exit. 6.'heat exchanger according to claim 1, 2 and 5, characterized in that that a section of the sapillary bent around 1800 into the connecting line as far as possible protrudes between the evaporator and the compressor.