UA7111U - Automous crane conditioner - Google Patents

Abstract

The autonomous crane conditioner has evaporator, compressor, control valve installed in the circulation circuit of the cooling agent of the vapor-compression machine, temperature sensors and cold accumulator. The evaporator of the refrigerator machine is placed inside the cold accumulator with cold-accumulating liquid connected to the media being cooled through air-cooler arranged as a heat pipe (thermo-siphon), condenser section of this one is placed in the cold accumulator, and the evaporation section û in the channel of the medium being cooled.

Description

Description of the invention

The useful model refers to mechanical engineering, mainly to air conditioning and ventilation 2 technology and can be used as an autonomous crane air conditioner operating in conditions of increased ambient (air) temperature, for example, in hot shops of metallurgical, chemical and other industries.

The purpose of the useful model is to increase the reliability and energy efficiency of the air conditioner in conditions of high ambient temperatures. 70 A well-known autonomous air conditioner according to the author's certificate of the USSR Mo1366803, published in the official bulletin of the USSR Mo2 dated 15.01.88, MPK4 R24E5/00, which contains the ventilation chambers of the evaporator and the condenser of the refrigerating chamber and the circulation circuit of the refrigerant connected to them, and the chamber of the evaporator connected by inlet pipes to the serviced room and the atmosphere, by an outlet pipe - to the room, and the condenser chamber is connected by inlet and outlet pipes to the room, equipped with a 12-turn heat exchanger made of heat pipes with an evaporative section that periodically covers the inlet pipe of the chamber capacitor, a capacitor section having a hermetic casing filled with a fusible accumulative substance. The condenser chamber has an additional inlet pipe connected to the room, which is periodically covered by an evaporative area or a hermetic casing. The rotary heat exchanger is equipped with a drive, and the circulation circuit is equipped with a pressure sensor installed in front of the condenser and connected to the drive.

Common essential features are that the air conditioner contains an evaporator, a compressor, a condenser located in a circulation circuit, and a heat exchanger in the form of a heat pipe with an accumulative substance.

The factors that prevent the expected technical result from being obtained when using a known air conditioner in conditions of elevated ambient air temperature are: - increased complexity of the design, since the rotary heat exchanger must be equipped with both a drive mechanism and a complex control system with a set of sensors, in addition there is no possibility to place a cold accumulator with a sufficient reserve of cold on the rotary heat pipes; - the need to operate the refrigerating machine in a continuous refrigerating cycle regardless of the temperature change of the air surrounding the condenser, which in conditions of increased ambient temperature (77) leads to faster wear of the working units of the refrigerating machine and a decrease in the reliability of its operation; "- - increase, after a short time , the temperature of condensation of refrigerant vapors in the condenser and, as a result, a decrease in cooling capacity and an increase in the power consumed by the compressor, i.e. a decrease in the energy efficiency of the air conditioner, when operating in conditions of high ambient air temperature. 3o Taking into account the progress and current use of new technologies in the field heat transfer, the need to create more advanced equipment for air conditioning cabins of truck crane drivers working in conditions of high ambient air temperatures, and based on strict requirements for labor protection "of workers at enterprises with hot conditions in of manufacture, air conditioner according to the author's certificate of the USSR 8

Мо1339357, which was published in the official bulletin of the USSR Мо35 for 1987, as the closest in terms of 70 sets of features, was chosen as an analogue of the declared solution for an autonomous crane air conditioner. c The well-known crane air conditioner according to the author's certificate of the USSR Mo1339357 contains an evaporator, a compressor,

From" the condenser of the vapor-compression refrigerating machine and the heat accumulator are sequentially located in the circulation circuit of the refrigerant, which has a regulating valve at the evaporator inlet, while the condenser is made in the form of two sections connected in parallel to the circulation circuit, each of which is located in the channel of the cooling medium, and the evaporator in the supply channel of the cooled air supplied to the 7 cabin of the crane. The heat accumulator is made in the form of a heat exchanger located in a tank with a heat-accumulating substance. One of the sections of the condenser is made adjustable and equipped with a bypass channel, the heat exchanger of the heat accumulator is installed in the latter and is connected to the circuit - circulation of the refrigerant with the help of additional regulating valves, and at the inlet of the cooling medium - RO, in front of the adjustable section of the condenser, a temperature sensor is installed, connected with additional regulating valves.

Factors that prevent the expected technical result from being obtained when using a known air conditioner in conditions of increased ambient air temperature are: - the need for the refrigerating machine to operate in a continuous refrigerating cycle regardless of the change

SS o5 of the temperature of the air surrounding the condenser, which in conditions of increased ambient temperature leads to faster wear of the working units of the refrigerating machine and a decrease in the reliability of its operation; - an increase in the condensation temperature of refrigerant vapors in the condenser and as a result - a decrease in cooling capacity and an increase in the energy consumed by the compressor, i.e. a decrease in the energy efficiency of the air conditioner in conditions of increased ambient temperature. Because the basis of the proposed useful model is the task of eliminating the mentioned shortcomings of the known air conditioner and creating a crane air conditioner that is durable, reliable and economical when operating in conditions of increased ambient (air) temperature.

The problem is solved due to the fact that the proposed design of the crane air conditioner contains an evaporator, a compressor, a condenser of a vapor-compression refrigerating machine, which are sequentially located in the circulation circuit of the refrigerant, which has a regulating valve at the evaporator inlet, while the refrigerating machine evaporator is located in the middle of the tank with a cold-accumulating substance, connected to the cooled medium through an air cooler made in the form of a heat pipe (thermosyphon), the evaporative section of which is located in the channel of the cooled medium, and the condenser section is located in the tank with cold storage

by substance The cold accumulator is made in the form of a thermally insulated tank filled with a cold-accumulating liquid substance, and the temperature sensor of the cold-accumulating substance is connected to the compressor of the refrigerating machine and the fan supplying the cooled medium to the crane cabin. The temperature sensor installed at the entrance of the cooling medium to the condenser is connected to the compressor of the refrigerating machine, which is blocked with the condenser fan. 70 Common essential features are that the tap air conditioner contains an evaporator, a compressor, a condenser, a control valve located in the circulation circuit of the refrigerant of the vapor compression machine, temperature sensors and a cold accumulator.

Significant distinguishing features are that the proposed air conditioner contains a cold accumulator, made in the form of a thermally insulated tank filled with a cold-accumulating substance, in the middle of the tank /5 there is an evaporator of a refrigerating machine and a condenser section of an air cooler of the cooled medium, made in the form of a heat pipe (thermosyphon). The evaporative section of the air cooler is located in the supply channel of the cooled medium (air) to the crane cabin. The cold accumulator is made in the form of a thermally insulated tank filled with a cold-accumulating liquid substance, and the temperature sensor of the cold-accumulating substance is connected to the compressor of the refrigerating machine and the fan of the supply of the cooled medium to the crane cabin. The temperature sensor installed at the entrance of the cooling medium to the condenser is connected to the compressor of the refrigerating machine, which is blocked with the condenser fan.

The essential signs in all cases are that the evaporator of the refrigerating machine is located in the middle of the cold accumulator with a cold-accumulating substance connected to the cooled medium through this air cooler, which is made in the form of a heat pipe (thermosyphon), the condenser section of which is located in the cold accumulator, and evaporative section - in the channel of the cooled medium.

Significant signs in some cases are that the cold accumulator is made in the form of a thermally insulated tank filled with a cold-accumulating liquid substance, and the temperature sensor of the cold-accumulating substance is connected to the compressor of the refrigerating machine and the fan supplying the cooled medium to the crane cabin. The temperature sensor installed at the entrance of the cooling medium to the condenser is connected to the compressor of the refrigerating machine, which is blocked with the condenser fan. -

Thus, due to the fact that the transfer of heat from the cooled medium to the cold-accumulating substance takes place in the evaporative section of the air cooler due to the evaporation of the working substance of the heat pipe and its subsequent condensation in the condenser section located in the middle of the cold accumulator, where the temperature of the cold-accumulating substance is , is supported by a periodically operating refrigerating machine, which is lower relative to the temperature of the cooled medium. And the transfer of heat from the cold-accumulating substance to the refrigerant of the circulation circuit of the refrigerating machine is carried out by means of heat transfer through the surface of the evaporator of the refrigerating machine, located in the cold storage tank. The temperature of the cold-accumulating substance in the cold accumulator is maintained at the level of the vapor temperature of the refrigerant in the evaporator of the refrigerating machine during the last refrigerating cycle. It is possible to operate the refrigerating circuit of the air conditioner only at optimal temperature conditions with nominal refrigerating capacity and energy efficiency, and in conditions of increased temperature, on cooled;" environment, the cold from the cold accumulator is consumed, and the refrigerating machine turns off according to sensor signals and saves its motor resource.

The essence of the useful model is explained by the drawing, which shows the schematic diagram of the autonomous -I crane air conditioner.

The air conditioner contains an evaporator 71, a compressor 2, a condenser C, a valve 4, which are sequentially located in the circulation circuit 5 of the refrigerant of the refrigerating machine. The evaporator 1 of the refrigerating machine is located in the middle of the cold accumulator, which is made in the form of a thermally insulated tank 6, filled with a cold-accumulating substance 7. The air cooler 8 of the air conditioner is made in the form of a heat pipe (thermosyphon), the evaporative section 9 of which is located in the channel 10 of the supply of the cooled medium (air) into the cabin after the air cleaning filter 11 from dust, and the condenser section 12 - in the middle of the tank 6.

The cleaning filter 11, the evaporative section 9 of the air cooler 8 and the fan 13 are sequentially located in the channel 10 of the supply of the cooled medium - recirculation air (RP) or its mixture with external

Air gun (ZP), to provide heat-moist treatment (cooling and drying) and air supply to the cabin of the crane driver.

The fan 14 of the condenser C has a blocking connection with the compressor 2 of the refrigerating machine, a temperature sensor 15 is installed at the inlet of the cooling medium to the condenser C, and in the middle of the tank 6, which accumulates cold, there is a temperature sensor of the cold-accumulating substance 16. The temperature sensor 15 has a functional connection connection with compressor 2, and sensor 16 - with compressor 2 and fan 13.

The air conditioner works like this.

During the operation of the condenser C in conditions of ambient air temperature not exceeding the limit value, for example, 602C, compressor 2 through the circulation circuit 5 injects refrigerant vapor into the condenser 3, in which the heat of condensation is transferred to the flow of the cooling medium (in this case, the ambient air), which b5 is blown through the condenser C by the fan 14. The temperature of the cooling medium is monitored by the temperature sensor 15, installed at the entrance of the ambient air to the condenser C and connected to the compressor 2 of the refrigerating machine.

After the condenser C, the liquid refrigerant through the circulation circuit 5 through the control valve 4 enters the evaporator 1, located in the middle of the tank b, filled with the refrigerant 7. In the evaporator 1, the refrigerant boils, taking the heat of boiling (evaporation) from the refrigerant 7, the temperature of which drops to refrigerant vapor temperature in evaporator 1. Refrigerant vapors are taken from evaporator 1 by compressor 2 and fed to condenser C through circulation circuit 5, then the refrigeration cycle of the vapor compression refrigerator is repeated.

When the lower temperature level (for example - 02) is reached by the refrigerant according to the signal 7/0 of the temperature sensor 16 installed in the middle of the tank 6, the compressor 2 and the fan 14 of the condenser C, which is blocked with it, turn off, and the fan 13 of the supply of cooled air to the crane cabin enters the work

Cooling of RP or a mixture of RP and ZP is carried out in the evaporative section 9 of the air cooler 8, made in the form of a heat pipe. The evaporative section 9 is located after the cleaning filter 11 in the channel 10 for supplying cooled air to the crane cabin (not shown), and the condenser section 12 of the air cooler 8 7/5 is located in the tank b with the refrigerant 7. In the evaporative section 9 of the air cooler 8, the working substance (alcohol , water, refrigerant, etc.) of the heat pipe boils, taking the heat of vaporization from the cooled medium (air), and its vapors (through the internal channels of the pipes) enter the condenser section 12 and condense there, giving the heat of condensation to the refrigerant 7, the temperature which increases. When the temperature of the cold-accumulating substance 7 reaches the specified upper value,

For example, at 59C above the lower set value of the temperature of the cold-accumulating substance, the compressor 2 of the refrigerating machine and the fan 14 of the condenser 3 come into operation according to the signal of the sensor 16 of the temperature of the cold-accumulating substance. The refrigerating cycle of the refrigerating machine is again carried out according to the above principle, as a result of which the temperature of the cold-accumulating substance decreases .

Cooled air after heat-moist treatment (cooling and drying) in the evaporative section 9 of the air cooler 8 is supplied by the fan 13 through channel 10 to the cabin of the crane operator. The fan 13 can be switched on independent of the compressor 2, or it can be switched on by the signal of the temperature sensor 16 (no) of the cold-accumulating substance 7 when the latter reaches the lower set temperature value (for example, 02), and its operation (switching on and off) must be regulated from the air temperature sensor , located in the driver's cab (not shown in the drawing). --

In the zone of ambient air temperatures that do not exceed the most permissible values (for example, "6б0еС) the air conditioner works automatically (according to the signal of the sensor 16) according to the above-mentioned refrigerating cycle. At the same time, the refrigerating capacity of the compressor 2 should be calculated for the simultaneous operation of the air cooler 8 and the evaporator 1, working to cool down to the specified lower temperature limit m of the refrigerating substance 7, and be 1.5-:2.00x, where Cx is the refrigerating capacity of the air conditioner, kW

When the temperature of the surrounding condenser rises above 609 according to the corresponding signal of the sensor 15, the compressor 2 of the refrigerating machine is turned off and the fan 14 of the condenser 3 is blocked with it. calculation of the selection of the heat of vaporization of the working substance of the heat pipe from the cooled medium (air) 73 and its subsequent transfer to the condenser section 12 of the air cooler 8, in which the heat of condensation of this working substance is transferred to the cold-accumulating substance 7, which is filled with tank 6. The movement of the working substance of the air cooler 8 from of the evaporative section 9 to the condenser section 12 "" will occur until the temperature of the cold-accumulating substance 7 reaches the temperature of the cooled medium (air) at the entrance to the evaporative section 9 of the air cooler 8. During this period, only the fan 13, which supplies through the channel, is in operation 10 air cooled in the evaporative section 9 of the air cooler 8 to the crane cabin. The operation of the fan 13 in the "on-off" modes is regulated by the air temperature sensor (not shown), located in the crane cabin, and does not depend on the operating modes of the refrigerating machine.

The cooling capacity of the cold accumulator should be 50-10095 of the hourly cooling capacity of the air conditioner and, when the refrigerating machine is not working, it should completely provide cooling in the air cooler for 70 8 of the air supplied to the cabin of the crane through channel 10 by fan 13, during the entire time the crane is in conditions of increased ambient temperature.

When the ambient temperature decreases (in this case, less than 602), the compressor 2 and the fan 14 of the condenser C of the refrigerating machine start working according to the corresponding signal of the temperature sensor 15. The refrigerant begins to circulate along the circulation circuit 5 of the refrigerating machine, making

With the refrigeration cycle according to the above principle. The cooling of the refrigerant 7 located in the tank 6 occurs due to the transfer of the heat of vapor from the refrigerant to the refrigerant of the refrigerating machine through the heat transfer surface of the evaporator 1. When the refrigerant 7 reaches the vapor temperature of the refrigerant according to the signal from the sensor 16, the compressor 2 and the fan 14 of the condenser Z are turned off and they start working again according to the signal of the temperature sensor 16 60 when the temperature of the cold-accumulating substance rises to a value that does not exceed the boiling temperature of the refrigerant in the evaporator 1 by more than 59, that is, to the value Х0 5 С, where 0 is the temperature of the vaporization of the refrigerant in the evaporator 1 of the refrigerating machine .

The technical result is expressed in the fact that the use of the proposed useful model allows you to significantly increase the reliability and efficiency of the crane air conditioner by automatically turning off the refrigerating machine when the crane enters the zone of high temperature of the surrounding air and ensuring the cooling of the air supplied to the crane cabin during this period due to pre-accumulated cold in the cold accumulator of the air conditioner.

The principle of operation of the heat pipe (thermosyphon) was tested by the authors during the manufacture of air heaters for ships in the Arctic navigation area. ----

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Claims (2)

The formula of the invention "- 1. An autonomous tap air conditioner containing an evaporator, a compressor, a condenser, a control valve, which are located in the circulation circuit of the refrigerant of the vapor compression machine, temperature sensors and a cold accumulator, which is distinguished by the fact that the evaporator of the refrigerating machine is located inside the cold accumulator with a cold storage substance, connected to the cooled medium through an air cooler made in the form of a heat pipe (thermosyphon), the condenser section of which is located in the cold accumulator, and the evaporative section - in the channel of the cooled medium. " 2. Air conditioner according to claim 1, which differs in that the cold accumulator is made in the form of a thermally insulated Z tank filled with a cold-accumulating liquid substance, and the temperature sensor of the cold-accumulating substance 40 is connected to the compressor of the refrigerating machine and the fan supplying the cooled medium to the cabin of the crane. 3. The conditioner according to claim 1, which is characterized by the fact that the temperature sensor installed at the entrance of the cooling medium to the condenser is connected to the compressor of the refrigerating machine, which is blocked with the condenser fan. 45 - I Official Bulletin "Industrial Property". Book 1 "Inventions, useful models, topographies of integrated -3z microcircuits", 2005, M 6, 15.06.2005. State Department of Intellectual Property of the Ministry of Education and Science of Ukraine. - more 50 Со 60 b5