CN116293985A - Air-cooled superhigh temperature air conditioning equipment - Google Patents

Abstract

The invention discloses air-cooled ultrahigh temperature air conditioning equipment, which comprises a refrigeration cycle system formed by a compressor, a condenser and an evaporator, wherein the condenser is provided with a condensing fan, and the air-cooled ultrahigh temperature air conditioning equipment further comprises a condensed water atomization system, the condensed water atomization system comprises a condensed water collecting and conveying device and a condensed water atomization flute pipe, the condensed water collecting and conveying device collects condensed water formed on the surface of the evaporator and conveys the condensed water to the condensed water atomization flute pipe, and the condensed water atomization flute pipe is arranged on the air inlet side of the condensing fan. The invention can reliably refrigerate at the temperature of 80 ℃ and the high-temperature air conditioning equipment can drain condensed water generated by refrigeration by self capacity.

Description

Air-cooled superhigh temperature air conditioning equipment

Technical Field

The invention relates to the field of air conditioning equipment, in particular to air-cooled ultrahigh temperature air conditioning equipment.

Background

At present, a large number of air-cooled high-temperature air conditioners matched with an electric control room in the metallurgical industry are used for cooling electric equipment, the air-cooled high-temperature air conditioners are generally used at a relatively high temperature outside environment, and the temperature of the environment where an outdoor unit of the air conditioner is located is between 40 ℃ and 80 ℃. The general air-cooled high-temperature air conditioner uses R134a refrigerant, the rated service external environment temperature of the air conditioner is 46 ℃, when the air conditioner is in a higher environment, the condensing capacity of the condenser of the air conditioner outdoor unit is reduced along with the increase of the external environment temperature, the condensing temperature of the air conditioner refrigerating system is increased along with the increase of the external environment temperature according to the air conditioner refrigerating principle, the refrigerating capacity of the air conditioner is reduced along with the increase of the condensing temperature of the air conditioner refrigerating system, the refrigerating capacity of the air conditioner is reduced to 75% of rated value or even lower, the exhaust temperature of the air conditioner refrigerating system is increased along with the increase of the condensing temperature of the air conditioner refrigerating system, and when the air conditioner is in a higher limit temperature external environment, the exhaust temperature of the air conditioner refrigerating system exceeds the limit set value 125 ℃ (the exhaust temperature protection value of the refrigerating system) of the exhaust temperature protection of the air conditioner, the air conditioner refrigerating system can self-protect to stop working, and the air conditioner (namely, the high-temperature air conditioner using the R134a refrigerant is generally used only in an air environment with the maximum temperature of not exceeding 65 ℃.

In order to enable the high-temperature air conditioner to be used in a higher-temperature (more than 65 ℃) environment, a common solution is to use R142b as a refrigerant of the air conditioner, because the R142b refrigerant belongs to the high-temperature refrigerant, the exhaust pressure of an air conditioner refrigerating system is relatively low under the high-temperature working condition, the exhaust temperature is relatively low, and the air conditioner taking the R142b refrigerating medium as the refrigerant can normally operate in the air environment with the temperature of not more than 80 ℃. The disadvantage of this solution is that the volume of the air conditioner is made larger and the input power required to be consumed is also greater when the output refrigeration capacity is the same for an air conditioner with R142b as the refrigerant and for an air conditioner with R134a as the refrigerant.

In addition, when the high-temperature air conditioning equipment performs refrigeration operation, the evaporator of the indoor unit can generate a large amount of condensed water, the air conditioning equipment is generally provided with a water tank for storing the condensed water because the factory building in the metallurgical industry does not allow the condensed water to be discharged at will, and after the condensed water in the water tank is fully stored, the condensed water is transported away, so that the air-cooled ultrahigh-temperature air conditioning equipment capable of working in the environment of 40-80 ℃ is urgently required to be developed, the reliable cooling of an electric control room in the metallurgical industry is ensured, and the condensed water generated during the refrigeration operation of the air conditioning equipment can be discharged by the self capacity of the air conditioning equipment.

Disclosure of Invention

The invention provides air-cooled ultrahigh temperature air conditioning equipment, which aims to solve the problems that an air-cooled air conditioner in the prior art is difficult to normally operate in a high-temperature environment and cannot drain condensed water automatically.

In order to achieve the above purpose, the technical scheme adopted by the invention is as follows:

the utility model provides an air-cooled superhigh temperature air conditioning equipment, includes the refrigeration cycle system who forms by compressor, condenser, evaporimeter, the condenser is furnished with the condensation fan, and the condenser sets up in the off-premises, the evaporimeter sets up in indoor, still includes condensate atomization system, condensate atomization system includes condensate collection transmission device, condensate atomization flute pipe, condensate collection transmission device collects the comdenstion water that the evaporimeter surface formed and transmits to condensate atomization flute pipe, condensate atomization flute pipe locates the air inlet side of condensation fan, and condensate atomization flute pipe has a plurality of shower nozzles that are used for discharging the comdenstion water.

Further, the condensed water collecting and conveying device comprises a water tank, a condensed water storage tank and a speed regulating water pump, wherein the water tank is used for receiving condensed water formed on the surface of the evaporator, the water tank is communicated with the condensed water storage tank, the inlet end of the speed regulating water pump is communicated with the condensed water storage tank, and the outlet end of the speed regulating water pump is communicated with the condensed water atomization flute pipe.

Further, a liquid level controller is arranged in the condensed water storage tank and is electrically connected with a controller of the air conditioner.

Further, the outdoor temperature sensing head and the indoor temperature sensing head are further included, the outdoor temperature sensing head collects outdoor environment temperature of the condenser, the indoor temperature sensing head collects indoor environment temperature of the condenser, and the outdoor temperature sensing head and the indoor temperature sensing head are respectively and electrically connected with a controller of the air conditioner.

Compared with the prior art, the invention has the advantages that:

by adding the condensate atomizing system, the invention can lead the common air-cooled high-temperature air conditioning equipment adopting R134a refrigerant to perform reliable refrigeration at the ambient temperature of 80 ℃ and lead the high-temperature air conditioning equipment to remove condensate water generated by refrigeration by self capacity.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Reference numerals in the drawings: the device comprises a compressor 1, an air conditioning pipeline 2, a condenser 3, a condensing fan 4, a condensing water atomization flute pipe 5, an outer machine shell 6, a thermal expansion valve 7, an evaporator 8, an air conditioning controller 9, an evaporating fan 10, an inner machine shell 11, a water tank 12, a water inlet tank pipe 13, a condensed water storage tank 14, a liquid level controller 15, a water outlet tank pipe 16, a speed regulating water pump 17, a water outlet pump pipe 18, an indoor temperature sensing head 19 and an outdoor temperature sensing head 20.

Detailed Description

The invention will be further described with reference to the drawings and examples.

As shown in fig. 1, the present embodiment discloses an air-cooled ultra-high temperature air conditioning apparatus including a refrigeration cycle system, a condensate atomization system. Wherein:

the refrigeration cycle system includes a compressor 1, a condenser 3, an evaporator 8, and a thermal expansion valve 7. The condenser 3 is a copper pipe sleeve fin type condenser, the condenser 3 is provided with a condensing fan 4, the condensing air and the condensing fan 4 are integrally arranged in an outer machine shell 6, and the outer machine shell 6 is arranged outdoors. The evaporator 8 is a copper pipe sleeve fin type evaporator, the evaporator 8 is provided with an evaporation fan 10, the evaporator 8, the evaporation fan 10 and the thermal expansion valve 7 are integrally arranged in an inner machine shell 11, and the inner machine shell 11 is arranged outdoors. The outlet end of the compressor 1 is connected with the inlet end of the condenser 3 through an air conditioning pipeline 2, the outlet end of the condenser 3 is connected with the inlet end of the thermal expansion valve 7 through a pipeline, the outlet end of the thermal expansion valve 7 is connected with the inlet end of the evaporator 8 through a pipeline, and the outlet end of the evaporator 8 is connected with the return port end of the compressor 1 through a pipeline, thereby forming a refrigeration cycle.

The low-temperature low-pressure refrigerant gas in the refrigeration cycle system is sucked and compressed into high-temperature high-pressure gas by the compressor 1, the high-temperature high-pressure liquid is cooled into high-pressure liquid in the condenser 3 (heat is taken away by wind sucked by the condensing fan 4), the high-temperature high-pressure liquid is throttled and depressurized by the thermal expansion valve 7 (throttling device) and flows into the indoor unit evaporator 8, the low-pressure liquid refrigerant evaporates and absorbs heat in the low-temperature low-pressure liquid refrigerant, the air outside the fins flowing through the evaporator 8 can be cooled, the evaporated refrigerant gas is sucked by the compressor 1 again, and the indoor air flowing outside the evaporator 8 is cooled repeatedly in this way. When the temperature of the surface of the evaporator 8 is lower than the dew point temperature of the air flowing over the surface thereof, water vapor in the air is condensed to generate condensed water on the surface of the evaporator 8.

The condensate atomization system comprises a condensate collection and transmission device consisting of a water tank 12, a condensate storage tank 14 and a speed-regulating water pump 17, and a condensate atomization flute pipe 5. The water tank 12 is disposed in the inner housing 11 and is received under the evaporator 8, and is used for collecting condensed water formed on the surface of the evaporator 8 and flowing downward. The condensed water storage tank 14 is arranged outside the inner machine shell 11, and the water tank 12 is communicated with the condensed water storage tank 14 through the water inlet tank pipe 13. The water inlet end of the speed-regulating water pump 17 is communicated with the condensed water storage tank 14 through a water outlet tank pipe. The condensed water atomization flute pipe 5 is arranged in the outer shell 6 and is positioned at the air inlet side of the condensing fan 4, the condensed water atomization flute pipe 5 is provided with a plurality of spray heads, the outlet end of the speed regulating water pump 17 is communicated with the condensed water atomization flute pipe 5 through the water outlet pump pipe 18, and therefore the collected condensed water is transmitted to the condensed water atomization flute pipe 5 and sprayed out through the spray heads of the condensed water atomization flute pipe 5.

When the air conditioning equipment is used for refrigerating, condensed water generated by the evaporator 8 of the indoor unit flows into the water tank 12 from the surface of the evaporator 8, flows into the condensed water storage tank 14 through the water inlet tank pipe 13, when the speed-regulating water pump 17 works, the condensed water in the condensed water storage tank 14 flows through the water outlet tank pipe 16, is sucked into the water pump by the speed-regulating water pump 17 and flows into the condensed water atomizing flute pipe 5 through the water outlet pump pipe 18, the condensed water atomizing flute 5 is arranged on the rear side (air inlet side) of the condenser 3 of the outdoor unit, the condensed water mist spray heads are uniformly arranged on the condensed water atomizing flute 5, condensed water flowing into the condensed water atomizing flute 5 is atomized into water mist particles when discharged from the water mist spray heads, at the moment, if the condensing fan 4 works, air at the rear side of the condenser 3 flows through the outer surface of the condenser 3 for heat exchange with the condensed water mist spray heads, when the water mist is sprayed out from the water mist spray heads of the condensed water atomizing flute 5 arranged at the rear side (air inlet side) of the condenser 3 of the outdoor unit, the condensed water mist is pumped along with the air of the condenser 3 of the condenser, the condensed water mist is pumped along with the condensed water mist pump 4, the condensed water mist is uniformly flows through the outer surface of the condenser 3 (copper pipe) of the copper pipe 3, the water mist spray heads are uniformly arranged on the condensed water mist spray heads, the condensed water mist spray heads are uniformly discharged from the water mist spray heads, the condensed water mist particles can be atomized by the condensed water mist particles, and the condensed water mist particles can be sprayed into the condensed water mist particles, and the condensed water by the condensed water pump. The condensed water generated by the refrigeration of the air conditioner refrigeration equipment can be self-discharged (even if a small part of water mist cannot be evaporated, the water mist particles can be dispersed into the air under the action of the wind force of the condensing fan, and concentrated liquid water cannot be generated).

In this embodiment, a liquid level controller 15 is provided in the condensate water storage tank 14, and an air conditioner controller 9 is integrated on the inner housing 11. The air conditioner controller 9 and the liquid level controller 15 form a control system of the air-cooled ultra-high temperature air conditioner without condensed water, the air conditioner controller 9 is electrically connected with two temperature sensing heads, one is an indoor temperature sensing head 19, the other is an outdoor temperature sensing head 20, the indoor temperature sensing head 19 is used for sensing indoor air inlet temperature, and the outdoor temperature sensing head 20 is used for sensing the environmental temperature of the outdoor unit.

When the indoor temperature sensing head 19 senses that the air inlet temperature of the indoor unit is lower than the set temperature 1 (21 ℃) of the air conditioning controller 9, the air conditioning controller 9 controls a refrigerating system of the air conditioning equipment to perform refrigeration, low-temperature low-pressure R134a gas in the refrigerating system is sucked and compressed into high-temperature high-pressure gas by the compressor 1, the high-pressure gas is cooled into high-pressure liquid (heat is taken away by the condensing fan 4) in the condenser 3, the high-pressure liquid is throttled and depressurized by the thermal expansion valve 7 (throttling device) and then flows into the evaporator 8 (copper pipe sleeve fin type) of the indoor unit, the low-pressure liquid refrigerant evaporates and absorbs heat (exchanges heat with air sucked by the evaporating fan 10) in the indoor unit, the air flowing through the outer side of the evaporator 8 (copper pipe sleeve fin type) can be cooled, the evaporated refrigerant gas is sucked by the compressor 1 again, and the hot air flowing outside the evaporator 8 (copper pipe sleeve fin type) is repeatedly circulated in this way and continuously cooled.

When the temperature of the surface of the evaporator 8 (copper tube-in-fin type) is lower than the dew point temperature of the air flowing through the surface thereof, water vapor in the air is condensed on the surface of the evaporator 8 (copper tube-in-fin type) to generate condensed water. When the outdoor temperature sensing head 20 senses that the ambient temperature of the outdoor unit is higher than the set temperature 2 (65 ℃) of the air conditioning controller 9, the air conditioning controller 9 controls the refrigerating system of the air conditioning equipment to work, the speed-regulating water pump 17 starts to work at the same time, under the action of the speed-regulating water pump 17, condensed water in the 15 condensed water storage tank flows through the water outlet tank pipe 16, is sucked to the water pump by the speed-regulating water pump 17 and flows into the condensed water atomization flute pipe 5 through the water outlet pump pipe 18, the condensed water atomization flute pipe 5 is arranged on the (rear side) air inlet side of the condenser 3 of the outdoor unit, the condensed water atomization flute pipe 5 is uniformly provided with water mist spray nozzles, when the condensed water flowing into the 5 condensed water atomization flute is discharged from the water mist spray nozzles, the water mist is sprayed out of the water mist spray nozzles of the condensed water atomization flute pipe 5 arranged on the (rear side) air inlet side of the condenser of the outdoor unit, the water mist can uniformly flow through the outer surface of the condenser 3 (copper pipe sleeve fin type) along with the air extracted by the condensing fan, so that the heat exchange capacity of the condenser 3 (copper pipe sleeve fin type) is greatly enhanced when the air conditioner refrigerates in an ultra-high temperature environment (the heat exchange between the water mist and the condenser is compared with the heat exchange between the air and the condenser, the heat exchange coefficient is higher), the condensation temperature of the air conditioner refrigerating system is reduced, the refrigerating capacity of the air conditioner refrigerating system is further improved, the exhaust temperature of the air conditioner refrigerating system is also reduced, the air conditioner can normally refrigerate in the ultra-high temperature environment of 65-80 ℃, the phenomenon of tripping is avoided, the temperature of the surface of the condenser 3 (copper pipe sleeve fin type) of the air conditioner can reach 90-110 ℃ in the ultra-high temperature environment, when the condensed water in the condensation water atomization flute is sprayed out from the water mist spray head, under the action of the wind force of the condensation fan 4, the water mist contacts with the surface of the condenser 3 (copper pipe sleeve fin type), the water mist can be evaporated into water vapor and is dissolved in the air in the environment where the outdoor unit is located, so that the condensed water generated by the refrigeration of the air conditioner refrigeration equipment is discharged by the air conditioner itself reliably (even if a small part of the water mist cannot be evaporated, the water mist particles can be emitted into the air under the action of the wind force of the condensation fan, and concentrated liquid water cannot be generated).

The higher the outdoor temperature sensing head 20 senses the high ambient temperature of the outdoor unit, the higher the rotating speed of the air conditioner controller 9 for controlling the speed regulating water pump 17 to work, the more water mist sprayed from the water mist spray heads of the condensation water atomization flute 5, the larger the heat exchange amount of the condenser 3 (copper pipe sleeve fin type), so that the air conditioner can normally refrigerate under the higher superhigh temperature environment.

The liquid level controller 15 is arranged in the condensed water storage tank 14 for protection. When the water level of the condensed water in the condensed water storage tank 14 is higher than the high water level scale, the liquid level controller 15 sends a signal to the air conditioner controller 9, so that the refrigerating system of the air conditioner stops working and alarms, the condensed water atomizing system of the air conditioner stops atomizing water and alarms, and the alarm can be eliminated by manual drainage after receiving the alarm signal; when the condensed water level in the condensed water storage tank 14 is lower than the bottom water level scale, the liquid level controller 15 sends a signal to the air conditioner controller 9, so that the condensed water atomization system of the air conditioner stops atomizing water and alarms, and the alarm can be eliminated by manually supplementing water after the alarm model is received. An emergency water inlet and a water outlet are arranged on the condensed water storage tank 14. The liquid level controller 15 can ensure that the air conditioning apparatus can operate stably and reliably.

The preferred embodiments of the present invention have been described in detail above with reference to the accompanying drawings, and the examples described herein are merely illustrative of the preferred embodiments of the present invention and are not intended to limit the spirit and scope of the present invention. The individual technical features described in the above-described embodiments may be combined in any suitable manner without contradiction, and such combination should also be regarded as the disclosure of the present disclosure as long as it does not deviate from the idea of the present invention. The various possible combinations of the invention are not described in detail in order to avoid unnecessary repetition.

The present invention is not limited to the specific details of the above embodiments, and various modifications and improvements made by those skilled in the art to the technical solution of the present invention should fall within the protection scope of the present invention without departing from the scope of the technical concept of the present invention, and the technical content of the present invention is fully described in the claims.

Claims (4)

1. The utility model provides an air-cooled superhigh temperature air conditioning equipment, includes the refrigeration cycle system who forms by compressor, condenser, evaporimeter, the condenser is furnished with the condensing fan, and the condenser sets up in the off-premises, the evaporimeter sets up in indoor, its characterized in that still includes condensate atomization system, condensate atomization system includes comdenstion water collection transmission device, comdenstion water atomization flute pipe, comdenstion water collection transmission device collects the comdenstion water that the evaporimeter surface formed and transmits to the comdenstion water atomization flute pipe, the air inlet side that condensing fan was located to the comdenstion water atomization flute pipe, and comdenstion water atomization flute pipe has a plurality of shower nozzles that are used for discharging the comdenstion water.

2. The air-cooled ultrahigh temperature air conditioning equipment according to claim 1, wherein the condensed water collecting and conveying device comprises a water tank, a condensed water storage tank and a speed regulating water pump, the water tank is used for receiving condensed water formed on the surface of the evaporator, the water tank is communicated with the condensed water storage tank, the inlet end of the speed regulating water pump is communicated with the inside of the condensed water storage tank, and the outlet end of the speed regulating water pump is communicated with the condensed water atomization flute pipe.

3. An air-cooled ultra-high temperature air conditioning apparatus according to claim 2, wherein a liquid level controller is provided in the condensed water storage tank, and the liquid level controller is electrically connected with a controller of the air conditioner.

4. The air-cooled ultra-high temperature air conditioning apparatus according to claim 1, further comprising an outdoor temperature sensing head and an indoor temperature sensing head, wherein the outdoor temperature sensing head collects outdoor ambient temperature of the condenser, the indoor temperature sensing head collects indoor ambient temperature of the condenser, and the outdoor temperature sensing head and the indoor temperature sensing head are respectively electrically connected with a controller of the air conditioner.

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