CN214469286U - Energy-saving recycling device for purifying condensed water of air conditioner air supply cabinet - Google Patents

Abstract

The utility model discloses a condensed water energy-saving recycling device for a purifying air conditioner air supply machine case, which relates to the technical field of purifying air conditioners and comprises an air-cooled cooling tower, a water-cooled water chiller and a purifying air conditioner air supply machine case, wherein the air-cooled cooling tower is connected with a water inlet of a condenser through a circulating cooling water inlet pipe, a water outlet of the condenser is connected with a water distributor through a circulating cooling water return pipe, a water outlet of an evaporator is connected with a water inlet of a surface cooler through an air conditioner refrigerant water inlet pipe, and a water outlet of the surface cooler is connected with a water inlet of the evaporator through an air conditioner refrigerant water return pipe; the cooling section of the air supply cabinet of the purifying air conditioner is also internally provided with a condensed water collecting mechanism which is connected with a refrigerant water return pipe of the air conditioner, and the water outlet of the surface cooler is also connected with the water inlet of the condenser through a refrigerant water drain pipe of the air conditioner. The utility model discloses can with cold volume degressive the mode reutilization surface cooler comdenstion water cold volume that utilizes, also can finally regard the comdenstion water as the cooling water moisturizing of air-cooled cooling tower and recycle.

Description

Energy-saving recycling device for purifying condensed water of air conditioner air supply cabinet

Technical Field

The utility model relates to a purify air conditioner technical field, especially relate to a purify energy-conserving device of recycling of air conditioner air supply machine case comdenstion water.

Background

At pharmacy and cosmetics manufacturing field or involve the field of purifying air conditioning system, the air conditioning purification system realization will all be used to environmental guarantee such as humiture, ventilation, the taking a breath of workshop and toilet, and the temperature of purifying the workshop must be controlled at 18 ℃ -26 ℃ in the GMP requirement, and this just makes and gets into indoor new trend and must send into after cooling or thermal treatment rear temperature meets the demands, the utility model discloses air conditioning system uses when being particularly suitable for high temperature environment cooling.

When the temperature is high in summer and the temperature in a clean room is higher than 26 ℃, a purification air-conditioning system needs to start a refrigeration mode to maintain the required temperature, air-conditioning refrigerant water exchanges heat with incoming high-temperature air through a surface cooler of an air-conditioning air supply cabinet to finish refrigeration, the water used for the air-conditioning refrigerant water is common tap water, the temperature is generally controlled to be 7-12 ℃, the relatively high-temperature refrigerant water after heat exchange is cooled through a refrigerant medium of a water-cooled water chilling unit and then is conveyed to an air-conditioning surface cooler again for heat exchange, and the circulation cooling and the air supply heat exchange are carried out to ensure the required temperature of the incoming indoor air; the cooling of the refrigerant medium of the water-cooled chiller is completed by common cooling water, the water used by the common refrigerant water is also common tap water, specifically, the cooling water cooled by the air-cooled cooling tower cools the refrigerant medium of the chiller for heat exchange, the relatively high-temperature cooling water after heat exchange is recycled to the cooling tower for cooling by the air cooling mode, the refrigerant medium of the chiller is continuously cooled by the reciprocating circulation, and the cooling water is generally controlled below 32 ℃.

In some southern regions, the time for starting a refrigeration cooling mode of a purification air-conditioning system is as long as half a year or more, and the humidity of the air which needs to be cooled is relatively high, so that in normal air heat exchange and cooling, more condensed water is generated on a surface air cooler of an air-conditioning blower case, the condensed water is finally collected in an air-conditioning water tray and then is discharged out of the room discontinuously, and the temperature of the condensed water is usually about 10 ℃; because the normal operation and refrigeration of the air conditioning system are an uninterrupted process, the air-cooled cooling tower related to the system is also in an uninterrupted working state, and moreover, the cooling tower cools the cooling water of the air conditioner by means of air flow to take away heat in the water, so that a large amount of water is evaporated along with the cooling water, and therefore the cooling tower needs frequent and intermittent water supplement to meet the water demand, and therefore, the row and supplement form very large energy consumption; therefore, in view of the characteristics of the air conditioning system, a large part of water quantity and the cold quantity in the condensed water are wasted while the condensed water is discharged, and in the biological product industry, each unit is provided with an independent air conditioning blower case, so that dozens or even hundreds of blower cases are common in each enterprise, if the blower cases are superposed for water discharge calculation, the energy waste is very large, and most of the enterprises, particularly cosmetics or biological product enterprises, rarely reasonably recycle the cold quantity and the water quantity resources of the air conditioning condensed water discharged outside the room at present.

Therefore, it is desirable to provide a new energy-saving recycling device for purifying the condensed water in the case of the air conditioner blower to solve the above-mentioned problems in the prior art.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a purify energy-conserving device of recycling of air conditioner air-supplying machine case comdenstion water to solve the problem that above-mentioned prior art exists, can degressive the mode reutilization surface cooler comdenstion water cold volume that utilizes with cold volume, also can finally regard as the cooling water moisturizing recycle of air-cooled cooling tower with the comdenstion water.

In order to achieve the above object, the utility model provides a following scheme:

the utility model provides a condensed water energy-saving recycling device for a purifying air-conditioning air supply machine case, which comprises an air-cooled cooling tower, a water-cooled water chiller and a purifying air-conditioning air supply machine case, wherein a water distributor is arranged in the air-cooled cooling tower, a condenser and an evaporator are arranged in the water-cooled water chiller, one end of the purifying air-conditioning air supply machine case is provided with an air inlet, the other end is provided with an air outlet, and a surface air cooler is arranged in a cooling section of the purifying air-conditioning air supply machine case; the air-cooled cooling tower is connected with a condenser water inlet of the condenser through a circulating cooling water inlet pipe, a condenser water outlet of the condenser is connected with the water distributor through a circulating cooling water return pipe, an evaporator water outlet of the evaporator is connected with a surface cooler water inlet of the surface cooler through an air conditioner refrigerant water inlet pipe, and a surface cooler water outlet of the surface cooler is connected with an evaporator water inlet of the evaporator through an air conditioner refrigerant water return pipe;

the cooling section of the air supply cabinet of the air conditioner is also provided with a condensed water collecting mechanism, the condensed water collecting mechanism is connected with a refrigerant water return pipe of the air conditioner, and a water outlet of the surface cooler is connected with a water inlet of the condenser through a refrigerant water drain pipe of the air conditioner.

Preferably, the cooling system further comprises an automatic control system, and the automatic control system is connected with the air-cooled cooling tower and the water-cooled water chilling unit.

Preferably, the condensed water collecting mechanism comprises a water baffle, a water collecting disc and a liquid collecting tank, the water baffle is positioned on one side of the surface air cooler close to the air outlet, the water collecting disc is positioned below the water baffle, the water collecting disc is connected with the liquid collecting tank through a water outlet pipe, and the liquid collecting tank is connected with the water outlet pipe through a quick-opening clamp; the liquid collecting tank is connected with the air conditioner refrigerant water return pipe through a liquid collecting tank water outlet pipe; the liquid collection tank is provided with an exhaust hole.

Preferably, a first electromagnetic valve is installed on the water outlet pipe of the liquid collection tank, a liquid level meter is installed on the liquid collection tank, and the first electromagnetic valve and the liquid level meter are connected with the automatic control system.

Preferably, the liquid collection tank is further provided with an extension condensed water interface which is connected with a plurality of water outlet pipes of the purification air-conditioning air supply machine case through quick-opening clamps, and the extension condensed water interface is plugged through a quick-opening blind plate when not used.

Preferably, the material of collection fluid reservoir is stainless steel, the outside of collection fluid reservoir is provided with the heat preservation.

Preferably, a refrigerant water pump is installed on the air conditioner refrigerant water return pipe, a water outlet pipe of the liquid collection tank is directly connected to a water inlet of the refrigerant water pump, the pipeline length of the water outlet pipe of the liquid collection tank is less than or equal to half of the pipeline length from a water outlet of the surface air cooler to the refrigerant water pump, and the refrigerant water pump is connected with the automatic control system.

Preferably, a second electromagnetic valve is installed on the air conditioner refrigerant water drainage pipe and connected with the automatic control system.

Preferably, a cooling water pump is installed on the circulating cooling water inlet pipe, the air conditioner refrigerant water drain pipe is directly connected to a water inlet of the cooling water pump, and the cooling water pump is connected with the automatic control system.

Preferably, a third electromagnetic valve is arranged on the air-cooled cooling tower and used for supplementing circulating cooling water, and the third electromagnetic valve is connected with the automatic control system.

The utility model discloses for prior art gain following technological effect:

the utility model collects the condensed water in the liquid collecting tank from the surface cooler of the air conditioner air supply cabinet, and the condensed water enters the air conditioner refrigerant water return pipe from the water outlet pipe of the liquid collecting tank to the refrigerant water pump so as to achieve the waste energy utilization of the cold energy of the condensed water, thereby saving the energy consumption; the relatively high-temperature refrigerant water discharged by the refrigerant water discharge pipe of the surface cooler can be directly used as cooling water of the water-cooled chiller unit through the cooling water pump, so that the relatively high-temperature refrigerant water is used as relatively low-temperature cooling water, the refrigerant water cooling capacity is fully utilized in a cooling capacity decreasing mode, and the relatively high-temperature refrigerant water is also used as water supplement of the cooling tower, and the energy consumption is saved; the energy-saving recycling system for purifying the condensed water of the air conditioner air supply machine case can connect a plurality of condensed water drain pipes of the surface air cooler of the air conditioner air supply machine case to a set of water collecting tank in a centralized way so as to save the installation cost; when the water collecting tank is full of liquid level, the second electromagnetic valve is opened, condensed water enters the refrigerant water pipeline through the refrigerant water pump, relatively high-temperature refrigerant water enters the cooling water pipeline through the drainage pipeline and enters the cooling water pump, and the closed refrigerant water circulation pipeline can always work in a full liquid state because the outlet water of the condensed water is controlled by the second electromagnetic valve; the liquid collection tank is made of stainless steel materials, and the connection mode is quick-opening clamp connection, so that the liquid collection tank is wear-resistant, corrosion-resistant and good in thermal expansion performance, and the flexibility of later maintenance is improved; the utility model discloses the device adopts automatic control system to realize process control, and the operation is more accurate, and cold volume can more rationally the efficient utilize.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural view of the energy-saving recycling device for purifying condensed water in an air conditioner blower case of the present invention;

wherein: 01: automatic control system, 02: air conditioner refrigerant water inlet pipe, 03: surface cooler water inlet, 04: surface air cooler, 05: water guard, 06: purifying air conditioner air blower case, 07: water outlet pipe, 08: water-collecting tray, 09: surface cooler delivery port, 10: air conditioner refrigerant water drain pipe, 11: level gauge, 12: extended condensate interface, 13: exhaust hole, 14: liquid collection tank, 15: liquid collection tank outlet pipe, 16: first electromagnetic valve, 17: refrigerant water pump, 18: air conditioner refrigerant water return pipe, 19: second electromagnetic valve, 20: cooling water pump, 21: water-cooled chiller, 22: condenser water inlet, 23: evaporator water inlet, 24: evaporator water outlet, 25: condenser water outlet, 26: circulating cooling water return pipe, 27: water distributor, 28: third electromagnetic valve, 29: air-cooled cooling tower, 30: recirculated cooling water inlet pipe, 31: air inlet, 32: blower, 33: and (7) air outlet.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The utility model aims at providing a purify energy-conserving device of recycling of air conditioner air-supplying machine case comdenstion water to solve the problem that above-mentioned prior art exists, can degressive the mode reutilization surface cooler comdenstion water cold volume that utilizes with cold volume, also can finally regard as the cooling water moisturizing recycle of air-cooled cooling tower with the comdenstion water.

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description.

As shown in fig. 1: the embodiment provides an energy-saving recycling device for purifying condensed water of an air conditioner blower case, which mainly comprises an air-cooled cooling tower 29, a water-cooled water chilling unit 21 and a purifying air conditioner blower case 06.

In this embodiment, the air-cooled cooling tower 29 is used for cooling the relatively high-temperature cooling water in the circulating cooling water return pipe 26 after heat exchange by the condenser of the water-cooled chiller unit 21, the air-cooled cooling tower 29 is connected with the circulating cooling water inlet pipe 30, the circulating cooling water inlet pipe 30 is connected to the condenser water inlet 22 of the water-cooled chiller unit 21 and is used for conveying the circulating cooling water to the condenser of the water-cooled chiller unit 21, the condenser water outlet 25 is connected with the circulating cooling water return pipe 26, and the circulating cooling water return pipe 26 is connected to the air-cooled cooling tower water distributor 27 and is used for conveying the relatively high-temperature cooling water after heat exchange into the air-cooled cooling tower 29 for cooling.

Since the air-cooled cooling tower 29 takes away a part of the water during the operation, which causes the amount of cooling water in the reservoir to decrease, the third solenoid valve 28 is provided to supplement the circulating cooling water, and the cooling water pump 20 is installed on the circulating cooling water inlet pipe 30 to provide power for the transmission of the circulating cooling water.

In this embodiment, the water outlet 24 of the evaporator of the water-cooled chiller unit 21 is connected to the air-conditioning coolant water inlet pipe 02, and the air-conditioning coolant water inlet pipe 02 is connected to the surface cooler water inlet 03 of the surface cooler 04 in the cooling section of the purified air-conditioning blower case 06 for delivering the air-conditioning coolant water to the surface cooler 04 for exchanging heat with the hot air entering the purified air-conditioning blower case 06 to cool the air entering the room. The surface cooler water outlet 09 is connected with an air conditioner refrigerant water return pipe 18, and the air conditioner refrigerant water return pipe 18 is connected with an evaporator water inlet 23 of the water-cooled chiller unit 21 and used for sending the heated refrigerant water into an evaporator for cooling.

In this embodiment, the cooling section of the purified air-conditioning blower case 06 is provided with the surface air cooler 04 for cooling the air entering the purified air-conditioning blower case 06, and the cooling section is further provided with a condensed water collecting mechanism, which includes a water baffle 05, a water collecting tray 08 and a liquid collecting tank 14.

Specifically, breakwater 05 installs in the cooling section to be located the one side that surface cooler 04 is close to air outlet 33, be used for with the moisture of air cooling back condensation with air separation, then flow into ponding dish 08, ponding dish 08 is connected with collection fluid reservoir 14 through outlet pipe 07, and collection fluid reservoir 14 material is the stainless steel, the dustcoat heat preservation, wherein the material of heat preservation selects from prior art according to specific work needs. 14 upper portions of liquid collection tank installation level gauge 11 can realize real time monitoring and collect the interior condensate water liquid level of liquid collection tank 14, and exhaust hole 13 can guarantee that the ordinary pressure of liquid collection tank 14 is balanced, and liquid collection tank 14 adopts the quick-open clamp with water accumulation dish 08's outlet pipe 07 connected mode, can realize nimble dismantlement during later maintenance, and many purification air conditioner air supply machine case 06 can be connected to extension comdenstion water interface 12 on the liquid collection tank 14, and the structure is the quick-open clamp, and the shutoff of the quick-open blind plate of time spent usually not.

In this embodiment, fluid collection tank 14 is connected in air conditioner refrigerant water pump 17's import through fluid collection tank outlet pipe 15, install first solenoid valve 16 on fluid collection tank outlet pipe 15, fluid collection tank 14 and fluid collection tank outlet pipe 15's connected mode adopts the quick-open clamp, can realize nimble dismantlement during later maintenance, the automatic switching of first solenoid valve 16 can control the transport of condensate water to air conditioner refrigerant water return pipe 18 in the fluid collection tank 14, first solenoid valve 16 is for normally opening and with level gauge 11 interlocking control, close when fluid level is less than appointed low liquid level in the fluid collection tank 14, refrigerant water pump 17 of installation provides power for the transmission of air conditioner refrigerant water on the air conditioner refrigerant water return pipe 18.

In this embodiment, the length of the pipeline from the water outlet pipe 15 of the liquid collecting tank to the refrigerant water pump 17 needs to be less than or equal to half of the length of the pipeline from the water outlet 09 of the surface air cooler to the refrigerant water pump 17, so as to ensure that the refrigerant water pump 17 can preferentially pump the condensed water in the liquid collecting tank 14 into the air conditioner refrigerant water return pipe 18 after the liquid level in the liquid collecting tank 14 reaches a set value, and since the temperature of the condensed water collected by the water collecting disc 08 is about 10 ℃, which is very close to the required temperature of the air conditioner refrigerant water of 7 ℃ -12 ℃, the condensed water is preferentially utilized as the refrigerant water, so that the energy consumption can be greatly reduced.

In this embodiment, the surface cooler water outlet 09 is further connected to an air conditioner refrigerant water outlet pipe 10, the air conditioner refrigerant water outlet pipe 10 is connected to a circulating cooling water inlet pipe 30, and is configured to convey the relatively high-temperature refrigerant water flowing out of the air conditioner surface cooler into the circulating cooling water inlet pipe 30, and a pipe connection point of the air conditioner refrigerant water outlet pipe 10 and the circulating cooling water inlet pipe 30 is located at a water inlet of the cooling water pump 20. The air-conditioning refrigerant water drain pipe 10 is provided with a second electromagnetic valve 19, the second electromagnetic valve 19 can be automatically opened and closed to control the transmission of refrigerant water in the air-conditioning refrigerant water drain pipe 10 to the circulating cooling water inlet pipe 30 and indirectly control the condensed water to enter the refrigerant water pump 17, because the temperature of the air-conditioning refrigerant water after heat exchange by the surface cooler 04 and the water outlet temperature of the water outlet 09 of the surface cooler is about 15 ℃, the refrigerant water meets the requirement that the temperature of the circulating cooling water is below 32 ℃, so the refrigerant water can be directly used as the circulating cooling water, meanwhile, the water replenishing device can also be used for replenishing water for the air-cooled cooling tower 29, when the water reservoir of the air-cooled cooling tower 29 is in a low liquid level state for alarming, when the liquid collecting tank 14 is full, the second electromagnetic valve 19 is preferably opened to supplement the refrigerant water in the air conditioner refrigerant water drain pipe 10, and when the water supplement amount is insufficient, the third electromagnetic valve 28 is opened to supplement the cooling water, so that the cooling water supplement amount of the air cooling type cooling tower 29 can be saved.

In this embodiment, the automatic control system 01 can realize a combined control of the entire system, and the third electromagnetic valve 28, the air-cooled cooling tower 29, the cooling water pump 20, the water-cooled chiller unit 21, the second electromagnetic valve 19, the refrigerant water pump 17, the first electromagnetic valve 16, and the liquid level meter 11 are all electrically connected to the automatic control system 01; the automatic control system 01 can be selected according to the working requirement, such as selecting a PLC controller, or using a computer to control.

The refrigeration operation mode of the energy-saving and recycling device for purifying the condensed water of the air conditioner blower case is as follows:

starting the cooling water pump 20, starting the air-cooled cooling tower 29 to make the cooling water circularly feed the cooling medium of the water-cooled chiller unit 21 for cooling, and making the air-cooled cooling tower 29 continuously feed the circulating cooling water for cooling to below 32 ℃, and automatically starting the third electromagnetic valve 28 for water supplement if the cooling water is evaporated to cause insufficient water; starting a refrigerant water pump 17, starting a water-cooled water chilling unit 21, continuously cooling circulating refrigerant water to 7-12 ℃ by the water-cooled water chilling unit 21, and continuously cooling air entering the purified air-conditioning air supply case 06 by the refrigerant water through a surface cooler 04; starting the blower 32 to make the air enter the purified air-conditioning blower case 06 from the air inlet 31 to exchange heat with the surface air cooler 04 continuously to maintain the normal required temperature in the clean room; after heat exchange, the hot air is cooled and the moisture in the air is condensed, the air enters the clean room from the air outlet 33 through the air pipe after being blocked and separated by the water baffle 05, and the condensed water flows into the water collecting tray 08 after being separated and then enters the water collecting tank 14 through the water outlet pipe 07.

The recycling operation mode of the condensed water is as follows: the first electromagnetic valve 16 is in a normally open state, the second electromagnetic valve 19 and the third electromagnetic valve 28 are in a normally closed state, when the liquid level meter 11 detects the full liquid level of the liquid collecting tank 14, the second electromagnetic valve 19 is opened, so that condensed water at the temperature of about 10 ℃ is sucked into the air conditioner refrigerant water return pipe 18 through the refrigerant water pump 17, so that the cold energy of the condensed water is utilized for the first time, and meanwhile, the refrigerant water with relatively high temperature and about 15 ℃ flowing out from the surface air cooler outlet 09 is sucked into the circulating cooling water inlet pipe 30 by the cooling water pump 20 through the air conditioner refrigerant water discharge pipe 10, so that the refrigerant water with gradually decreased cold quantity can be utilized as relatively low-temperature cooling water, when the liquid level of the condensed water is full, the second electromagnetic valve 19 is automatically and preferentially opened to utilize the cold quantity and the water quantity of the condensed water, when the water supplement is insufficient, the third electromagnetic valve 28 is automatically opened to supplement the water, and when the liquid collection tank 14 is lower than the low liquid level, the first electromagnetic valve 16 is automatically closed.

The principle and the implementation mode of the present invention are explained by applying specific examples in the present specification, and the above descriptions of the examples are only used to help understanding the method and the core idea of the present invention; meanwhile, for the general technical personnel in the field, according to the idea of the present invention, there are changes in the concrete implementation and the application scope. In summary, the content of the present specification should not be construed as a limitation of the present invention.

Claims (10)

1. An energy-saving recycling device for condensed water of a purified air-conditioning air supply machine case comprises an air-cooled cooling tower, a water-cooled water chiller and a purified air-conditioning air supply machine case, wherein a water distributor is arranged in the air-cooled cooling tower, a condenser and an evaporator are arranged in the water-cooled water chiller, one end of the purified air-conditioning air supply machine case is provided with an air inlet, the other end of the purified air-conditioning air supply machine case is provided with an air outlet, and a surface air cooler is arranged in a cooling section of the purified air-conditioning air supply machine case; the air-cooled cooling tower is connected with a condenser water inlet of the condenser through a circulating cooling water inlet pipe, a condenser water outlet of the condenser is connected with the water distributor through a circulating cooling water return pipe, an evaporator water outlet of the evaporator is connected with a surface cooler water inlet of the surface cooler through an air conditioner refrigerant water inlet pipe, and a surface cooler water outlet of the surface cooler is connected with an evaporator water inlet of the evaporator through an air conditioner refrigerant water return pipe;

the method is characterized in that: the cooling section of the air supply cabinet of the air conditioner is also provided with a condensed water collecting mechanism, the condensed water collecting mechanism is connected with a refrigerant water return pipe of the air conditioner, and a water outlet of the surface cooler is connected with a water inlet of the condenser through a refrigerant water drain pipe of the air conditioner.

2. The energy-saving recycling device for purifying condensed water of an air conditioner blower case as claimed in claim 1, is characterized in that: the automatic control system is connected with the air-cooled cooling tower and the water-cooled water chilling unit.

3. The energy-saving recycling device for purifying condensed water of an air conditioner blower case as claimed in claim 2, characterized in that: the condensed water collecting mechanism comprises a water baffle, a water collecting disc and a liquid collecting tank, the water baffle is positioned on one side of the surface cooler close to the air outlet, the water collecting disc is positioned below the water baffle, the water collecting disc is connected with the liquid collecting tank through a water outlet pipe, and the liquid collecting tank is connected with the water outlet pipe through a quick-opening clamp; the liquid collecting tank is connected with the air conditioner refrigerant water return pipe through a liquid collecting tank water outlet pipe; the liquid collection tank is provided with an exhaust hole.

4. The energy-saving recycling device for purifying condensed water of an air conditioner blower case as claimed in claim 3, characterized in that: the automatic control system is characterized in that a first electromagnetic valve is installed on a water outlet pipe of the liquid collecting tank, a liquid level meter is installed on the liquid collecting tank, and the first electromagnetic valve and the liquid level meter are connected with the automatic control system.

5. The energy-saving recycling device for purifying condensed water of an air conditioner blower case as claimed in claim 3, characterized in that: the liquid collection tank is also provided with an extension condensed water interface which is connected with a plurality of water outlet pipes of the air supply cabinet of the purification air conditioner through a quick-opening clamp, and the extension condensed water interface is plugged through a quick-opening blind plate when not used.

6. The energy-saving recycling device for purifying condensed water of an air conditioner blower case as claimed in claim 3, characterized in that: the material of collection fluid reservoir is the stainless steel, the outside of collection fluid reservoir is provided with the heat preservation.

7. The energy-saving recycling device for purifying condensed water of an air conditioner blower case as claimed in claim 3, characterized in that: the air conditioner refrigerant water return pipe is provided with a refrigerant water pump, a water outlet pipe of the liquid collecting tank is directly connected to a water inlet of the refrigerant water pump, the pipeline length of the water outlet pipe of the liquid collecting tank is less than or equal to half of the pipeline length from a water outlet of the surface cooler to the refrigerant water pump, and the refrigerant water pump is connected with the automatic control system.

8. The energy-saving recycling device for purifying condensed water of an air conditioner blower case as claimed in claim 2, characterized in that: and a second electromagnetic valve is installed on the air conditioner refrigerant water drainage pipe and connected with the automatic control system.

9. The energy-saving recycling device for purifying condensed water of an air conditioner blower case as claimed in claim 2, characterized in that: and a cooling water pump is installed on the circulating cooling water inlet pipe, the air conditioner refrigerant water drain pipe is directly connected to a water inlet of the cooling water pump, and the cooling water pump is connected with the automatic control system.

10. The energy-saving recycling device for purifying condensed water of an air conditioner blower case as claimed in claim 2, characterized in that: and a third electromagnetic valve is arranged on the air-cooled cooling tower and used for supplementing circulating cooling water, and the third electromagnetic valve is connected with the automatic control system.

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