RU2080526C1 - Turbocompressor air refrigerating plant - Google Patents

Abstract

FIELD: refrigerating engineering ; turbocompressor refrigerating plants for cooling or freezing various products used in stationary conditions in on board ships. SUBSTANCE: refrigerating plant contains at least one air refrigerating machine which includes the following components mounted on common frame: compressor 1 with drive 2, turbo-expander 3, regenerators 4 and 5 interconnected by means of two regulating devices 6 and 7 and connected with outlet of compressor 1 and inlet of turbo-expander 3 whose outlet is connected with inlet of space 8 being cooled; plant is also provided with control panel 9 and additional regulating devices. Outlet of turbo-expander 3 in connected with inlet of each space 8 being cooled and inlet of standby air refrigerating machine by means of direct heat-insulated main 10 with the aid of regulating devices 11, 12, 13 and recirculating devices 15 and 16 fitted in each branch of this main. Outlets of rooms 8 being cooled are interconnected by means of reverse heat-insulated main 17 with the aid of regulating devices 18,19 and 20; they are connected with second regulating device 7 of air refrigerating machine and outlet of standby refrigerating machine; direct heat-insulated main 10 at inlet of recirculating devices 15 and 16 is connected with reverse heat-insulated main 17 by means of regulating devices 22 and 23; outlets of recirculating devices 15 and 16 are interconnected by means of adjusting devices 24 and 25 and first regulating device 6 of air refrigerating machine and outlet discharging air to atmosphere. Each regulating device mounted at inlet and outlet of direct and reverse mains 10 and 17 of each room 8 being cooled is electrically connected with respective temperature sensors 26,27,28 and 29 fitted for example in reverse main 17; regulating devices and temperature sensors are connected control panel 9. Recirculating device of air refrigerating turbocompressor refrigerating plant is made in form of ejector. Recirculating device of other version is made in form of fan. Regulating devices of air turbocompressor refrigerating plant are made in form of adjustable dampers. EFFECT: enhanced efficiency. 4 cl, 1 dwg ed

Description

 The invention relates to the field of refrigeration equipment, in particular, to turbocompressor units and can be used for cooling or freezing various products, both in stationary conditions and on vehicles, for example, on ships.

 Known steam two-stage refrigeration machine with a coil intermediate vessel and partial intermediate cooling, containing an evaporator, a compressor of the first stage, an intermediate heat exchanger, an intermediate vessel, a second stage compressor, a condenser and a throttle valve. In these machines, ammonia is most often used (Sakun I.A. Refrigerators, -L: Publishing House Engineering, 1985, p. 74, Fig. 4.16).

 The disadvantages of this system are: the possibility of vapors of the working substance in the premises in case of violation of the tightness of the system; a large amount of the working substance necessary for filling the system, the complexity of the process, as well as the high consumption of pipes and fittings.

 Partially indicated drawbacks were eliminated in the well-known air refrigeration machine containing a compressor, a cooler, an expansion vessel, air channels, a refrigerated room (S. Chervyakov and others. Basics of refrigeration. Moscow: Vysshaya Shkola, 1988, p. 32, fig. . 2).

 The disadvantages of the air chiller considered are: low specific refrigerating capacity, cumbersomeness and undesirability of moisture deposition in the form of a snow coat in the expansion cylinder.

 An air-refrigerating machine is also known, comprising a compressor with a drive assembled on the same frame, a turboexpander, regenerators connected in parallel and connected by two control devices to the compressor outlet and the inlet of the turboexpander, the outlet of the turbine expander is connected to the input to the refrigerated room; and control panel (Refrigerators / Ed. by I.A.Sakun, Leningrad: Mechanical Engineering, p. 366, Fig. 84 (- prototype).

 The disadvantages of this air-cooling machine is the high temperature difference on the cooling line, which reduces its technological capabilities or increases its dimensions to obtain a given cooling capacity; as well as this machine does not provide cooling of several rooms with different temperatures.

 The technical challenge is to expand technological capabilities.

 The technical result of the problem to be achieved is achieved by the fact that in an air-refrigerating machine, including a compressor with a drive mounted on one frame, a turboexpander, regenerators connected by two control devices, a compressor outlet and an inlet of a turboexpander, the outlet of the turbine expander is connected to the input to the cooled room; and the control panel is proposed to equip it with additional control devices, while the output of the turboexpander is directly thermally insulated with the help of magsral through the control devices and a recirculation device installed in each of its branches and connected to the inlet of each room to be cooled and to the inlet of the reserve air-cooling machine; connect the conclusions of the refrigerated rooms with the return heat-insulated line by means of control devices to each other, by the second control device of the air-cooler, connect the direct heat-insulated line at the inlet of the recirculation device to the return heat-insulated line by means of the control device, connect the outputs of the recirculation devices by means of control devices and the first control device air-cooler and air outlet at Mososphere, each control device installed at the input and output of the direct and return lines from each refrigerated room is electrically connected to the corresponding temperature sensors installed, for example, on the return line, and the control devices and temperature sensors are connected to the control panel.

 In an air-cooled turbocharger installation, the recirculation device can be made in the form of an ejection device or fan, and the control device in the form of adjustable dampers.

 The drawing shows an air-cooling turbocharger installation, a general structural diagram.

 The air-refrigeration unit contains at least one air-refrigeration machine, including a compressor 1 with a drive 2 mounted on a single frame, a turboexpander 3, regenerators 4, 5 connected by two control devices 6, 7 to each other, the compressor output 1 and the input turbo-expander 3, the output of the turbo-expander 3 is connected to the input into the refrigerated room 8; and remote control 9. The output of the turboexpander 3 with a direct heat-insulated line 10 and control devices (RU) 11, 12, 13, 14 and a recirculation device 15, 16 installed in each of its branches is connected to the input of each refrigerated room 8 and the input of the backup air-cooling machine. The findings of the refrigerated rooms 8 with a return heat-insulated pipe 17, control devices 18, 19, 20 are connected to the second control device 7, and the control device 21 with the output of the backup air-cooling machine. The direct heat-insulated line 10 at the inlet of the recirculation device 15, 16 is connected to the return heat-insulated line 17 by the control devices 22, 23. The outputs of the recirculation devices 15, 16 are connected by the control devices 24, 25 to each other, the first control device 6 of the air-cooling machine and the air outlet the atmosphere.

 Each control device installed at the input and output by the direct and return line 10, 17 from each refrigerated room 8 is electrically connected to the corresponding temperature sensors 26, 27, 28, 29 (DT) installed, for example, on the return line 17. Control devices and temperature sensors are connected to the remote control 9. An ejection device is used as a recirculation device, a fan can also be used, and an adjustable damper is used as a control device.

 Air-cooling turbocharger installation works as follows.

 The air enters the compressor 1, controlled by the actuator 2, directly from the atmosphere, is compressed and, having passed the first control device 6, the regenerator 4, in which it is cooled and through the second control device 7, the air enters the expander 3, where it expands and is even more cooled in a straight line heat-insulated line 10 through the regulating device 11, 12, 13, recirculation device 15, 16 enters the refrigerated room 8. From the refrigerated room 8 under pressure through the regulating device 18, 19, 20 enters the second air cooler 7, regenerator 6 and further to the atmosphere or to gas consumers. Upon reaching the set air temperature in the premises, its further maintenance is carried out by regulating the temperature of the air supplied to the room. This is done automatically by means of a recirculation device 15, 16 and control devices 22, 23, the degree of opening of which is determined by temperature sensors 27, 29 of the corresponding range of maintaining the room temperature. If necessary, air exchange restrictions in the case of transporting fruits and vegetables, the supply of fresh air from the refrigeration machine is reduced by covering the control devices 12, 13, 18, 19 and opening the control devices 22, 23 and recirculation devices 15, 16. The control devices 22, 23 are controlled temperature sensors 26, 28, set to a temperature corresponding to the storage temperature of vegetables and fruits, directly from the control panel 9.

 The use of the proposed air-cooling turbocompressor installation will allow for relatively small dimensions to obtain the desired cooling capacity in the required temperature range for a variety of products, and it also provides the ability to service several rooms with different temperatures.

Claims (4)

 1. Air-cooling turbocharger installation, comprising at least one air-cooling machine, including a compressor with a drive mounted on a single frame, a turboexpander, regenerators connected by two control devices, a compressor outlet and an inlet of a turboexpander, the outlet of the turbine expander is connected to the input to a refrigerated room, and a control panel, characterized in that it is equipped with additional control devices, while the output of the turboexpander direct thermally insulated master by means of regulating devices and a recirculation device installed in each of its branches, it is connected to the input of each room to be cooled and to the entrance of the reserve air-cooling machine, the conclusions of the rooms to be cooled by the return heat-insulated line by means of control devices are interconnected, the second regulation device of the air-cooling machine and the output of the reserve air refrigeration machine, direct heat-insulated line at the inlet of the recirculation device is connected to the return heat insulated line through the control device, the outputs of the recirculation devices are interconnected by means of control devices and the first control device of the air-cooling machine and the air outlet to the atmosphere, each control device installed at the input and output of the direct and return lines from each refrigerated room is electrically connected to the corresponding temperature sensors mounted, for example, on the return line, and control devices and yes temperature snips are connected to a control panel.  2. Installation according to claim 1, characterized in that the recirculation device is made in the form of an ejection device.  3. Installation according to claim 1, characterized in that the recirculation device is made in the form of a fan.  4. Installation according to claim 1, characterized in that the control device is made in the form of adjustable dampers.