SU1028974A1 - Refrigerating plant - Google Patents

Abstract

A REFRIGERANT INSTALLATION, containing successively installed compressor, condenser, regulating and expansion devices, an evaporator and a bypass line located on the compressor suction line, the regulating device being in the form of a W 8 G-. ml ;;. ;; ГзОГЕ ;; d corps with accommodated (in it a spring-loaded working body and the limiter of its movement, so that with the aim to simplify the design, the working body is made A three-disk KOBOFO spool separating the housing into four cavities, the first of which is connected to the condenser outlet and the expansion device input from the limiter side, the second is closed, the third and fourth are connected to the suction line before the evaporator, and the bypass line is connected to the compressor output and the third input P deers. o); 13

Description

The invention relates to refrigeration engineering and relates to the regulation of the performance of compression refrigeration units. A known refrigeration unit comprising a compressor installed in series, a condenser, a regulating and expansion device located on the compressor suction line, an evaporator and a bypass line, will adopt a regulating device in the form of a housing with a biased working body inside it and a movement limiter f1 installation control device is integral with the expansion device, which leads to the complexity of the design of both; control accuracy and, moreover, does not ensure the unification of refrigeration units. The purpose of the invention is to simplify the design. The goal is achieved by the fact that in a refrigeration unit containing a series-installed compressor, a condenser, a regulator and an expansion device located on the compressor suction line, an evaporator and a bypass line, the regulating device being made in the form of a housing with a spring-loaded working body in it and its restrictor moving, the working body is made in the form of a three-disk spool dividing the body into four cavities, the first of which is from the side of the joint En with the output of the condenser and the input of the expansion device, the second is closed. Third the fourths are connected to the suction line in front of the evaporator, and the bypass line is connected to the output of the compressor and the input to the third cavity. The drawing shows a diagram xo. lodilnoy installation with a general view of the regulating device. The refrigeration unit contains a compressor 1, a condenser 2, a regulating device and an expansion device 3, as well as (evaporator 5 located on the suction line k of compressor 1 and a bypass line 6, regulating device filled in the form of a housing 7 with spring-loaded working OP7 + .2 gann and displacement stop 8. The working member is made in the form of a three-disk spool 9 with disks 10, 11 and 12, dividing the body 7 into four cavities 13-16, the first cavity 13 from the side of the limiter 8 is connected to the outlet cond The spider 2 and the Zu expansion expansion unit cavity are closed, the third cavity 15 and the fourth cavity 16 are connected to the suction line A before the evaporator 5, and the backup line 6 is connected to the output of the compressor 1 and the third cavity entrance 15. A throttling washer is installed in the regulator housing 7 17- The condenser is located on the discharge line 18 of the compressor 1, the spool 9 in the regulating device is spring-loaded spring 19. The refrigeration unit operates as follows. In idle state, the pressure in the cavities 13 and 16 of the housing 7 is equal, and the spring 19 presses the spool 9 to the stopper 8. Thus, the spool 9 is in such a position that the bypass line 6 through the cavity 15 and the throttling washer 17 is connected to the k line suction, which makes it easier to start the compressor 1 due to the additional refrigerant bypass, except for its usual stroke through the expansion device 3. After starting the compressor 1, the pressure increases in the discharge line 18 and cavity 13, which leads to a gradual mixing eniyu spool 9 in the direction towards the cavity 16 and the bypass line 6 Overcoating disk 11. When this is accomplished vUhod chiller operating mode in nominal capacity range, i.e. control when the refrigerant passes from the discharge line 18 to the suction line 4 through the expansion device 3. When the heat load on the evaporator 5 is lower than the nominal one, the capacity of the refrigeration unit first decreases due to refrigerant throttling by the device 3, and then when the pressure in the suction line A decreases during throttling and , respectively, in the cavity 16 - due to the connection of the 6 bypassing line 6 VQ2897 4

a cavity that is throttled by a pu-chiller by means of a bayparibu 17 with a suction line. Etorovani.

The process x6dit when the disc is displaced 11 is so. Such an implementation of the refrigerating conditioner 9 in the direction to the cavity 16 of the installation simplifies its design in

as a result of pressure reduction in the simple manufacture of the waste last with an increase in throttling of the controller casing and three-discs by the device 3. The moment of opening spool of the same diameter 6 bypass into the cavity and its constructive airtightness is picked up constructively due to ty, without increasing the Costs,

stiffness of the spring 19 and the width of the disc to provide regulation of the production1 .1. Thus, it is the chiller’s performance that does not detract from its performance. items.

Claims (1)

A REFRIGERATING INSTALLATION, comprising a compressor, a condenser, a regulating and expansion device in series, an evaporator and a bypass line located on the compressor suction line, and the regulating device is made in the form of a housing with a spring-loaded working body and a limiter for its movement, located on it I am with the fact that, with. In order to simplify the design, the working body is made in the form of a three-disk spool dividing the housing into four cavities, the first of which is connected to the output of the condenser and the input of the expansion device, the second is closed, the third and fourth are connected to the suction line in front of the evaporator, and the bypass line connected to the output of the compressor and the input of the third cavity.