SU954775A1 - Cooling battery - Google Patents

Description

(54) COOLING BATTERY

one

The isolation relates to refrigeration, in particular to heat exchangers used as evaporators, and can be used in refrigeration installations.

A battery is known for having a manifold and a coil heat exchanger connected thereto with cooling fins JL.

A disadvantage of the known heat exchanger is the lack of efficiency, since it has a large length of welds, as well as a large ammonia-intensity and intensity of metal.

The purpose of the invention is to increase the efficiency of the cooling battery.

The goal is achieved by the fact that the heat exchanger is filled with a sectioned one, each section of which consists of two coils located in the same plane, turned relative to each other on, and between the ribs are mounted the attachments in the form of

zigzag ribbons in contact with the coils of the rib are provided with limiters.

FIG. 1 depicts sowing batteries, general view; in fig. 2 — node 11 in FIG. one; in fig. 3 - section with mixed collectors;

The cooling battery contains collectors 1 and 2 and a serpentine heat exchanger connected to them, made

to sectioned, each section of which consists of two coils 3 and 4 located in the same plane, turned relative to each other by 18 ° C, and the direct part of the coil

15 is folded to the side and guided to the corresponding collision mount. Collectors can be made offset from the axis of symmetry.

On coils 3 and 4 put on the plate

20 5 serving as supports for cooling fins 6, between which spacers 7 are installed in the form of zigzag tapes in contact with coils 3 and 4. Spacers 7 are blotted out of thin low-carbon steel tape, and cooling fins 6 of thin tape steel in which oblong windows are filled for insertion of the coils 3 and 4. The cooling fins 6 are provided with restraints 8 for holding the spacers 7 from lateral displacement and are fastened with cones 9 in which holes are made, allowing them to be interconnected. The cooling battery is hot-dip galvanized, after which the required thermal contacts form. Zinc forms sags, meniscus on ridges of consoles 7, in contact with coils 3 and 4. The cooling battery works as follows. Liquid ammonia supplied to the collector 1 enters the coil 3 and 4, boils in them under the action of the heat load supplied to the cooling fins 6 and the spacer 7. The ammonia vapors enter the collector 2, from where they are sent to the system.

Claims (2)

The invention makes it possible to reduce the metal content and ammonia capacity of a cooling battery. Formula 1. Cooling battery containing collectors and a coil heat exchanger connected to them with cooling fins, different from that, in order to increase efficiency 180, and between the ribs installed spacers in the form of zigzag tapes in contact with the coils. 2. The battery according to claim 1 is different in that the ribs are provided with limiters. Sources of information taken into account in the examination 1. Copyright svdedetstvo USSR № 545841, cl. F 25 B 39/02, 1975.