RU1825940C - Refrigerating plant - Google Patents

Abstract

Usage: refrigeration equipment, namely refrigeration units with several refrigeration compression machines with air-cooled condensers. SUMMARY OF THE INVENTION; a refrigeration unit comprising at least two autonomous chillers with air-cooled condensers 2 arranged in a single unit with fans 3 according to the number of condensers 2, moreover, part 6 or 7 of the unit, blown by each fan 3, consisting of parts of each condenser 2, and parts 6 and 7 of the block can be equal to each other. At maximum load, both chillers and both fans 3 work. It is also possible for each of the machines to operate both with the full surface of the condenser 2. when both fans 3 are working, and with the half surface of the condenser 2, when one fan 3.1 s is running .p, f-ly, 3 ill. 3:00 a.m. o &

Description

The invention relates to refrigeration equipment, more specifically to refrigeration units with several self-contained refrigeration compression machines with air-cooled condensers.

An object of the invention is to increase the control steps.

Figure 1 shows a diagram of a refrigeration unit; figure 2 - node I in figure 1; in Fig. 3, an arrangement of 3 capacitors with 3 fans.

The refrigeration unit contains two autonomous refrigerating machines, each of which consists of a compressor 1, a condenser 2 with a fan 3, a throttle valve 4, an evaporator 5, which are installed sequentially in a closed circuit.

Capacitors 2 are arranged in a single unit with fans 3 according to the number of capacitors. The parts of block 6 and 7, blown by each of the fans 3, consist of two equal parts of each of the capacitors 2. Moreover, the arrangement of the fans 3 can be in one Russian (Fig. 1), or in two Russian (Fig. 2). In the case of assembling 3 capacitors with 3 fans in a single unit (Fig. 3), parts of the unit blown by each of the fans consist of 1/3 of each of the three capacitors.

Consider the operation of the installation for the case of 2 capacitors with 2 fans. At maximum load, both chillers and both fans operate, thus ensuring maximum heat removal from both capacitors.

In addition, for each of the machines a mode of operation is possible both with the full surface of the condenser (both fans work) and with the half surface of the condenser (one fan works), and, accordingly, reduced cooling capacity. For example, one of the machines operates, the condenser 2 of which is blown by only one fan 3, i.e. only half of the heat-exchanging surface of the condenser of a running machine is in the blowing zone. Thus, in comparison with the prototype, when for the same number of fans the cooling capacity of each machine can be maximum or zero.

The proposed solution makes it possible to obtain at least one intermediate control stage due to the operation of each machine with a half-surface of the capacitor. Accordingly, in the presence of 3 or more capacitors with 3 or more fans, the number of control steps increases.

Claims (2)

1. Refrigeration unit containing at least two autonomous chillers with air-cooled condensers arranged in a single a unit with fans in terms of the number of capacitors, characterized in that, in order to increase the number of control steps, a part of the unit blown by each fan consists of parts of each capacitor. 2. Installation according to claim 1, characterized in that the parts of the block are equal to each other.