CN220750376U - Air conditioner comdenstion water evaporation heat sink - Google Patents

Abstract

The air conditioner condensate water evaporation cooling device comprises a main frame, wherein finished water curtain paper is installed in the main frame, and the edge of the finished water curtain paper is fixedly connected to the main frame; the top of the main frame is provided with a cover body which is connected in an opening and closing way, and a condensate water diversion component is arranged between the upper end part of the finished product water curtain paper and the cover body; the water inlet end of the condensed water diversion component passes through the cover body to be communicated with the condensed water pipe, and the water outlet end of the condensed water diversion component is abutted against the finished product water curtain paper; the main frame is arranged on the air inlet side of the air conditioner external unit. The utility model can effectively cool the air conditioner external unit by utilizing the evaporation of the condensate water of the air conditioner, and has the advantages of energy conservation, environmental protection, maintenance free, easy replacement and low cost.

Description

Air conditioner comdenstion water evaporation heat sink

Technical Field

The utility model relates to an air conditioner condensate water recovery cooling device, in particular to an air conditioner condensate water evaporation cooling device, and belongs to the technical field of air conditioners.

Background

According to the working principle of an air conditioner, the temperature of indoor air is reduced, so that water vapor in the indoor air is liquefied under the action of cold air to form condensed water, and then the condensed water is discharged from a condensed water pipe of the air conditioner.

The air conditioner refrigerating process can generate a large amount of indoor unit condensed water, the condensed water temperature of the indoor unit of the air conditioner is generally 11-13 ℃ and is far lower than the outdoor temperature, but the condensed water of the indoor unit of the air conditioner is usually discharged at will without recycling, so that energy waste is caused.

Currently, in the prior art of cooling by using condensate water in an air conditioner, for example, a condensate water recovery cooling device (CN 208042477U) of a central air conditioner is known, which is generally unable to be applied on a large scale due to the following drawbacks:

1) Atomized condensed water is directly sprayed on the air conditioner radiating fins, so that corrosion can be caused to air conditioner parts for a long time, and the service life of an air conditioner external unit is reduced; 2) Meanwhile, due to the use of the atomizer or the water sprayer, products such as the water collecting box and the like are required to be cleaned and maintained regularly, so that the use of ordinary families is inconvenient; 3) The water curtain is arranged in the air conditioner, and the service life of the water curtain paper (about 8 years) is far shorter than the service life of one air conditioner (about more than 10 years), so that higher disassembling and maintaining cost can be caused.

Disclosure of Invention

In order to overcome the defects in the prior art, the utility model provides the air conditioner condensate water evaporation cooling device which can effectively cool an air conditioner external unit by utilizing the evaporation of the air conditioner condensate water, and has the advantages of energy conservation, environmental protection, maintenance free, easy replacement and low cost.

The technical scheme adopted for solving the technical problems is as follows:

the air conditioner condensate water evaporation cooling device comprises a main frame, wherein finished water curtain paper is installed in the main frame, and the edge of the finished water curtain paper is fixedly connected to the main frame; the top of the main frame is provided with a cover body which is connected in an opening and closing way, and a condensate water diversion component is arranged between the upper end part of the finished product water curtain paper and the cover body; the water inlet end of the condensed water diversion component passes through the cover body to be communicated with the condensed water pipe, and the water outlet end of the condensed water diversion component is abutted against the finished product water curtain paper; the main frame is arranged on the air inlet side of the air conditioner external unit.

Optionally, the main frame includes a rectangular frame with an open top, the cover body detachably covers the open top, and a water injection port fixedly connected with the condensate pipe is arranged on the cover body; the bayonet for fixing the edge of the finished water curtain paper is formed in the inward side of the rectangular frame, a water outlet is formed in the bayonet at one side of the bottom of the rectangular frame, and a water blocking plug is arranged in the water outlet.

Optionally, the water injection port is a part with an aperture smaller than the maximum outer diameter of the corrugated condensation water pipe, and is clamped with the minimum outer diameter of the corrugated condensation water pipe; and a wire binding hole for assisting in fixing the condensate pipe is also formed in the cover body near the water injection port.

Optionally, the condensate water guiding component comprises a balance condensate water collecting tank arranged on the finished product water curtain paper, the balance condensate water collecting tank comprises a linear tank body and a notch arranged at the upper end part of the tank body, one end of the notch, which is opposite to the water filling port, is provided with an elastic water inlet pipe, one end of the elastic water inlet pipe is clamped in the notch and is communicated with the tank body, and the other end of the elastic water inlet pipe passes through the water filling port and is positioned above the water filling port;

the two ends of the groove body in the length direction are symmetrically provided with a first L-shaped clamping plate and a second L-shaped clamping plate, the first L-shaped clamping plate is clamped at one edge I on the width of the groove opening and is fixedly connected through a fastening assembly, the second L-shaped clamping plate is clamped at the other edge II on the width of the groove opening and is connected through a leveling assembly, and the leveling assembly is used for adjusting the height of the groove body at one side;

the balance type condensed water collecting tank is connected with the finished product water curtain paper through a water absorption guide piece, one end of the water absorption guide piece is fixed in the tank body, and the other end of the water absorption guide piece is fixedly contacted with the finished product water curtain paper; the side of the slot contacting the water absorbing baffle is lower in height than the opposite side that is not in contact.

Optionally, the leveling component comprises a first longitudinal screw hole formed in the second L-shaped clamping plate and an adjusting screw in the first longitudinal screw hole in a threaded connection manner, and the inner end of the adjusting screw is abutted against the end part of the edge II of the notch;

the fastening assembly comprises a transverse screw hole formed in the first L-shaped clamping plate and a fixing screw in the transverse screw hole in a threaded connection mode, and the inner end of the fixing screw abuts against the outer side wall of the notch.

Optionally, the leveling assembly further comprises an inverted U-shaped leveling block, the leveling block is arranged on the inner side of the second L-shaped clamping plate and is clamped with the edge II of the notch, a second longitudinal screw hole parallel to the first longitudinal screw hole is formed in the leveling block, and the end part of the adjusting screw is in threaded connection with the second longitudinal screw hole and then abuts against the end part of the edge II of the notch.

Optionally, the water absorbing guide piece comprises a hanging plate, a special-shaped arc plate and a flat plate which are sequentially connected along the width direction; the hanging plate is buckled on one edge III of the length of the notch and is tightly pressed by a guide piece fixing clamp clamped on the other edge IV of the length of the notch; the bottom of the flat plate is arranged on the surface of the finished water curtain paper and is fixed through a pressing block arranged at the top of the flat plate.

Optionally, the upper end and the lower end of the main frame are detachably and fixedly connected to a strip-shaped anti-collision piece outside one end of the radiating fin of the air conditioner external unit through an upper fixing clip and a base with a buckle respectively; or the main frame and the air conditioner external unit are installed together through an air guide cover, and the air guide cover is used for independently conducting the air conditioner condensate water evaporation cooling device and the air inlet end of the cooling fin of the air conditioner external unit.

Optionally, the air guide sleeve further comprises a guide sealing clamping plate fixedly connected with the air guide sleeve, wherein the guide sealing clamping plate is arranged on the same side of the main frame and is used for fully covering an air inlet end where the cooling fin of the air conditioner outdoor unit is located.

Optionally, the air guide sleeve comprises a first sleeve body for bearing the air conditioner external unit and a second sleeve body for bearing the air conditioner condensed water evaporation cooling device, wherein the second sleeve body is integrally arranged and connected with the first sleeve body up and down, or the second sleeve body is integrally arranged and connected with the first sleeve body left and right, or the first sleeve body is integrally arranged and connected with the second sleeve body front and back; the air conditioner external unit is installed with one side of the radiating fin towards the inner side of the first cover body and forms a first interval space, the air conditioner condensate water evaporation cooling device is installed with one side parallel to the finished water curtain paper towards the inner side of the second cover body and forms a second interval space, and the second interval space is communicated with the first interval space.

Compared with the prior art, the air conditioner condensate water evaporation cooling device provided by the utility model has the following technical advantages that at least the following technical advantages can be realized by virtue of the technical scheme:

the utility model relates to an air conditioner condensate water evaporation cooling device, which is characterized in that a main frame with finished product water curtain paper and a condensate water diversion component is arranged; firstly, utilizing a condensate water guide assembly to guide condensate water of an evaporator to finished water curtain paper; secondly, utilize the main frame to arrange the finished product cascade paper in the air inlet side of outer machine of air conditioner to make the finished product cascade paper evaporation heat absorption after soaking by the condensing fan in the outer machine of air conditioner, the low temperature air that will the comdenstion water evaporate produces simultaneously is led into the condenser of the outer machine of air conditioner and is carried out effective cooling, thereby has reduced the air conditioner energy consumption, because of need not to consume extra water resource, more energy-concerving and environment-protective. In addition, the air conditioner condensate water evaporation cooling device can be directly used in families or business places of an air conditioner external unit at the lower part of a condensate water outlet, so that the lifting operation of condensate water is omitted, a motor and power supply equipment are not required to be additionally arranged, the air conditioner condensate water evaporation cooling device can be maintenance-free for a long time, the service time is prolonged, and the cost is saved.

Drawings

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

Fig. 1 is a perspective view of an air conditioner condensate evaporative cooling device according to an embodiment of the present utility model at an angle.

Fig. 2 is a perspective view of an air conditioner condensate evaporative cooling device according to one embodiment of the present utility model at another angle.

Fig. 3 is a front view of an air conditioner condensed water evaporation cooling device according to an embodiment of the present utility model.

Fig. 4 is a top view of an air conditioner condensate evaporative cooling device according to one embodiment of the present utility model.

Fig. 5 is a bottom view of an air conditioner condensate evaporative cooling device according to one embodiment of the present utility model.

Fig. 6 is a perspective enlarged view of a main frame in an air conditioner condensed water evaporation cooling device according to an embodiment of the present utility model.

Fig. 7 is an enlarged perspective view of a condensate flow guide assembly in an air conditioner condensate evaporative cooling device in accordance with one embodiment of the present utility model.

Fig. 8 is a front view enlarged of a condensate water deflector assembly in an air conditioner condensate water evaporative cooling device according to one embodiment of the present utility model.

Fig. 9 is an enlarged top view of a condensate deflector assembly in an air conditioning condensate evaporative cooling apparatus in accordance with one embodiment of the present utility model.

Fig. 10 is a cross-sectional view of A-A in the drawing.

Fig. 11 is a perspective enlarged view of a balance type condensate water collecting tank in a condensate water diversion assembly in an air conditioner condensate water evaporation temperature lowering device according to an embodiment of the present utility model.

Fig. 12 is a front view enlarged of a condensate water deflector assembly in an air conditioner condensate water evaporative cooling device in accordance with another embodiment of the present utility model.

Fig. 13 is a perspective enlarged view of a leveling block in a condensate water deflector assembly in an air conditioner condensate water evaporative cooling apparatus in accordance with another embodiment of the present utility model.

Fig. 14 is a perspective view of an evaporative cooling device for condensed water of an air conditioner according to an embodiment of the present utility model in a first use state, in which the evaporative cooling device is directly assembled with an external unit of the air conditioner using an upper fixing clip and a base with a buckle.

Fig. 15 is a side view of fig. 14;

fig. 16 and 17 are enlarged views of the structure at B, C in fig. 15, respectively.

Fig. 18 is a perspective view of an evaporative cooling device for condensed water of an air conditioner according to an embodiment of the present utility model in a second state of use, in which the first type of air guide sleeve is assembled with an external unit of the air conditioner.

Fig. 19-20 are two perspective views of an evaporative cooling device for condensed water of an air conditioner according to an embodiment of the present utility model in a second use state, wherein the evaporative cooling device is assembled with an external unit of the air conditioner using a second air guide sleeve.

Fig. 21-22 are two perspective views of an evaporative cooling device for condensed water of an air conditioner according to an embodiment of the present utility model in a third use state, wherein the evaporative cooling device is assembled with an external unit of the air conditioner using a third air guide sleeve.

The meaning of the reference signs in the figures indicates:

10-an air conditioner condensate water evaporation cooling device; 11-a main frame; 111-rectangular frames; 1111-bayonet; 1111-1-a drain port; 1111-1-1-water blocking; 112-cover; 112-1-water filling port; 112-2-tying the wire holes; 112-3-avoidance holes; 113-upper fixing clip; 114-a base with a buckle; 115-an air guide sleeve; 1151-a first housing; 1152-a second housing; 116-a diversion sealing clamping plate; 12-finished water curtain paper; 13-a condensate water diversion assembly; 131-a balance type condensate water collecting tank; 1311-a tank; 1311-1-slots; 1312-a first L-shaped card; 1313-a second L-clamp; 1314-fastening assembly; 1314-1-transverse screw holes; 1314-2-set screw; 1315-leveling assembly; 1315-1-a first longitudinal screw hole; 1315-2-adjusting screw; 1315-3-leveling block; 1315-3-1-second longitudinal screw hole; 132-elastic inlet pipe; 133-a water-absorbing baffle; 1331-hanging plate; 1332-special-shaped arc plates; 1333-plate; 134-deflector fixing clip; 135-briquetting;

20-an air conditioner external unit; 21-a strip-shaped anti-collision member.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to fall within the scope of the utility model.

Fig. 1 to 5 show a schematic structural diagram of a preferred embodiment of the present utility model, in which an evaporative cooling device 10 for condensed water of an air conditioner includes a main frame 11, wherein a finished product water curtain paper 12 is installed in the main frame 11, and an edge of the finished product water curtain paper 12 is fixedly connected to the main frame 11; the top of the main frame 11 is provided with a cover 112 which is connected in an opening and closing way, and a condensate water diversion component 13 is arranged between the upper end part of the finished product water curtain paper 12 and the cover 112; the water inlet end of the condensed water diversion component 13 passes through the cover 112 to be communicated with a condensed water pipe, the water outlet end of the condensed water diversion component 13 is in butt joint with the finished product water curtain paper 12, and the finished product water curtain paper 12 refers to a water curtain paper product which is processed in the prior art and has a honeycomb structure; the main frame 11 is disposed on the air intake side of the air conditioner external 20.

The condensate water guide assembly 13 and the finished water curtain paper 12, which are arranged up and down, are simultaneously arranged on the air inlet side of the air conditioner external unit 20 based on the main frame 11. The condensed water is led into the finished water curtain paper 12 through the condensed water guide assembly 13 to butt joint a condensed water pipe of the air conditioner indoor unit, and then the condensed water is led to be exhausted through a fan of the air conditioner outdoor unit, so that the purpose of cooling nearby air is achieved through evaporation and heat absorption of the condensed water, and then low-temperature air is pumped into a condenser of the air conditioner outdoor unit, the cooling of cooling fins is facilitated more rapidly, the heat dissipation effect of the air conditioner outdoor unit 20 is optimized, and the energy consumption is reduced. In a high-rise residence where some air conditioning outdoor units 20 are located where only professionals can install and maintain the air conditioning, the number of attendance times of high-rise practitioners can be reduced by adopting the embodiment. In some high floors where the outdoor unit 20 is located at a safe position, an average person can set the outdoor unit 20 of the embodiment at a safe position at different positions of the air conditioner. Therefore, the whole application process of the embodiment is energy-saving, environment-friendly, maintenance-free, easy to replace and low in cost.

In a further alternative implementation manner of this embodiment, referring to fig. 6, the main frame 11 includes a rectangular frame 111 with an open top, the cover 112 is detachably covered at the open top, and a water filling port 112-1 fixedly connected with the condensate pipe is provided on the cover 112; the inner side of the rectangular frame 111 is provided with a bayonet 1111 for fixing the edge of the finished water curtain paper 12, a water outlet 1111-1 is provided in the bayonet 1111 at the bottom side of the rectangular frame 111, and a water blocking plug 1111-1-1 is provided in the water outlet 1111-1.

The drain 1111-1 is used to drain excessive water, and is closed by a water blocking plug 1111-1-1 when drainage is not required. The water stored in the lower part of the main frame 11 can also rise to a certain height of the finished water curtain paper 12 through capillary action, thereby participating in evaporative cooling, and the water waste caused by possible uneven condensate infiltration is necessary for the water storage space at the bottom. When the plurality of air-conditioning condensate evaporative cooling devices 10 are used in combination, the water outlet 1111-1 of the upper air-conditioning condensate evaporative cooling device 10 can be opened and aligned with the elastic water inlet pipe 132 of the lower air-conditioning condensate evaporative cooling device 10, so that water can flow into the lower air-conditioning condensate evaporative cooling device 10 when additional water resources are used; the drain outlet 1111-1 of the lower air conditioner condensate evaporation temperature reduction device 10 may also be connected with a water pump for water circulation, thereby reducing water waste.

In a further alternative implementation manner of the present embodiment, the water injection port 112-1 is a hole with a diameter smaller than the maximum outer diameter of the bellows-shaped condensate pipe, and the water injection port 112-1 is clamped with the minimum outer diameter of the bellows-shaped condensate pipe; the cover 112 near the water filling port 112-1 is also provided with a binding hole 112-2 for assisting in fixing the condensate pipe.

The water filling port 112-1 is designed in size, so that the water filling port 112-1 can be clamped at the minimum outer diameter position of the corrugated condensation water pipe, and the condensation water pipe is primarily fixed. An iron wire can be used to fix the corrugated condensate pipe on the binding hole 112-2, which plays a role in further limiting displacement.

In a further alternative implementation manner of this embodiment, the condensate guiding assembly 13 includes a balance condensate collecting tank 131 disposed on the finished water curtain paper 12, referring to fig. 11, the balance condensate collecting tank 131 includes a linear tank body 1311 and a notch 1311-1 disposed at an upper end of the tank body 1311, one end of the notch 1311-1 opposite to the water filling port 112-1 is provided with an elastic water inlet pipe 132, one end of the elastic water inlet pipe 132 is clamped in the notch 1311-1 and is communicated with the tank body 1311, and the other end of the elastic water inlet pipe 132 passes through the water filling port 112-1 and is located above the water filling port; the entire condensate guiding assembly 13 and the elastic water inlet tube 132 can be installed in the positions shown in fig. 18, 19, 20 and 22, wherein the cover 112 is shown in perspective.

Referring to fig. 7-9, two ends of the slot 1311 in the length direction are symmetrically provided with a first L-shaped clamping plate 1312 and a second L-shaped clamping plate 1313, the first L-shaped clamping plate 1312 is clamped at one edge i on the width of the slot 1311-1 and is fixedly connected through a fastening component 1314, the second L-shaped clamping plate 1313 is clamped at the other edge ii on the width of the slot 1311-1 and is connected through a leveling component 1315, and the leveling component 1315 is used for adjusting the height of the slot 1311 on one side. Referring to fig. 2, since the first L-shaped clamping plate 1312 and the second L-shaped clamping plate 1313 are provided on the slot 1311, the cover needs to be provided with the avoiding holes 112-3 to complete the closing.

The fixing assembly is used to fix the balance type condensate collecting tank 131 on the main frame 11 to prevent displacement from occurring due to long-term vibration. The leveling assembly 1315 can adjust the height of one side of the balanced condensate collection trough 131 so that it remains level to facilitate even wetting of the finished water curtain paper 12 by condensate.

Referring to fig. 10, the balance type condensed water collecting tank 131 is further connected with the finished product water curtain paper 12 through a water absorbing and guiding member 133, one end of the water absorbing and guiding member 133 is fixed in the tank body 1311, and the other end of the water absorbing and guiding member 133 is in fixed contact with the finished product water curtain paper 12; the side of the slot 1311-1 contacting the absorbent baffle 133 is lower in height than the opposite side that is not in contact.

The water absorbing and guiding member 133 may be made of a material that is easily soaked by water absorption such as absorbent cotton or water curtain paper, and the lower end of the water absorbing and guiding member 133 needs to be fixed to prevent displacement, and is required to be soaked more uniformly. The upper end of the water absorbing guide 133 is folded into the tank 1311 in a horizontal manner, preferably at a distance of 0.5 to 2 cm from the bottom of the tank 1311. The preferred distance here can also be adjusted according to the expected maintenance-free time and the local pollution conditions, since with time use, contaminants accumulate in the condensate sump, which eventually results in a failure of the uniform wetting effect of the water, while too great a distance delays the wetting time of the condensate and thus delays the cooling time.

In a further alternative implementation of the present embodiment, referring to fig. 8 and 11, the leveling assembly includes a first longitudinal screw hole 1315-1 formed in the second L-shaped clamping plate 1313 and an adjusting screw 1315-2 screwed into the first longitudinal screw hole 1315-1, and an inner end of the adjusting screw 1315-2 abuts against an edge ii end of the notch 1311-1;

the fastening assembly 1314 includes a transverse screw hole 1314-1 formed in the first L-shaped clamping plate 1312 and a set screw 1314-2 screwed into the transverse screw hole 1314-1, wherein an inner end of the set screw 1314-2 abuts against an outer sidewall of the notch 1311-1.

The length of the adjustment screw 1315-2 in the first longitudinal screw hole 1315-1 may be adjusted to adjust the height of one side of the entire balance type condensate collecting tank 131, thereby achieving the level of the balance type condensate collecting tank 131.

In a further alternative implementation manner of this embodiment, referring to fig. 12 and 13, the leveling assembly 1315 further includes an inverted U-shaped leveling block 1315-3, where the leveling block 1315-3 is disposed inside the second L-shaped clamping plate 1313 and is clamped with the edge ii of the notch 1311-1, the leveling block 1315-3 is provided with a second longitudinal screw hole 1315-3-1 parallel to the first longitudinal screw hole 1315-1, and an end of the adjusting screw 1315-2 is in threaded connection with the second longitudinal screw hole 1315-3-1 and then abuts against an end of the edge ii of the notch 1311-1.

The leveling block 1315-3 is added to prevent the main frame 11 from being caught between the adjusting screw 1315-2 and the edge ii when a relatively thin material is used, thereby improving applicability.

In a further alternative implementation manner of the present embodiment, referring to fig. 10, the water absorbing guide 133 includes a hanging plate 1331, a special-shaped arc plate 1332 and a flat plate 1333 that are sequentially connected in the width direction; the hanging plate 1331 is buckled on one edge III of the length of the notch 1311-1 and is pressed by a guide piece fixing clamp 134 clamped on the other edge IV of the length of the notch 1311-1; the bottom of the flat plate 1333 is disposed on the surface of the finished water curtain paper 12 and is fixed by the pressing block 135 disposed on the top of the flat plate 1333.

The guide fixing clip 134 is used to prevent the hanging plate 1331 at the upper end of the water absorbing guide 133 from falling off the balance type condensate collecting tank 131 due to gravity. As a further alternative, the balancing condensate collecting tank 131 may also be fastened by using other elastic and frictional members. The pressing block 135 can be made of metal, has a certain weight, but can not crush the finished water curtain paper 12, and can prevent the flat plate 1333 at the lower part of the water absorption guide piece 133 from being deformed due to the stress change effect during drying, thereby shifting and affecting the uniform infiltration effect.

In a further alternative implementation manner of this embodiment, the upper end and the lower end of the main frame 11 are detachably and fixedly connected to the strip-shaped anti-collision member 21 outside one end of the heat sink of the air conditioner external unit 20 through an upper fixing clip 113 and a base 114 with a buckle; or, the main frame 11 and the air conditioner external unit 20 are mounted together through an air guide cover 115, and the air guide cover 115 is used for independently conducting the air conditioner condensate evaporative cooling device 10 and the air inlet end of the cooling fin of the air conditioner external unit 20.

In particular, some existing air-conditioning cooling fins are provided with a strip-shaped anti-collision member 21, the strip-shaped anti-collision member 21 can be an anti-collision reinforcing rib, at this time, an air guide cover 115 is not used, referring to fig. 14-17, the main frame 11 is fixed on the strip-shaped anti-collision member 21 through an upper fixing card 113 and a base 114 with a buckle, and the installation mode can enable the whole air-conditioning condensate water evaporation cooling device 10 to be closer to the cooling fins of the air-conditioning external machine 20, so that the cooling efficiency can be further improved. For the air conditioner without the strip-shaped anti-collision piece 21, the air guide cover 115 is used for assembling the whole air conditioner condensed water evaporation cooling device 10 and the air conditioner external unit 20 together, and under the action of the air guide cover 115, low-temperature air can be intensively and fully utilized, so that the energy-saving effect is greatly improved, and the use cost is further reduced.

In order to evaporate condensate water faster, the cooling effect can also be increased by additional water supply. The best method is to increase the air humidity by using a humidifier indoors, so that not only can the temperature be reduced better, but also the indoor air humidity can be kept, and meanwhile, the flow of condensed water is increased.

In a further optional implementation manner of this embodiment, the air guide sleeve 115 further includes a guide sealing clamping plate 116 fixedly connected to the air guide sleeve, and the guide sealing clamping plate 116 is disposed on the same side of the main frame 11 and is used for fully covering the air inlet end where the cooling fin of the air conditioner outdoor unit 20 is located.

Referring to fig. 18, the diversion sealing clamping plate 116 is used for blocking a part of the air gap when being applied to different air conditioner external units 20, so that the air can be all the air conditioner condensed water evaporation cooling device 10 as much as possible.

In a further alternative implementation manner of this embodiment, the air guide sleeve 115 includes a first cover 1151 for carrying the air conditioner external unit 20 and a second cover 1152 for carrying the air conditioner condensate evaporative cooling device 10, the air conditioner external unit 20 is installed with a side of a cooling fin facing the inner side of the first cover 1151 and forms a first space, the air conditioner condensate evaporative cooling device 10 is installed with a side parallel to the finished water curtain paper 12 facing the inner side of the second cover 1152 and forms a second space, and the second space is communicated with the first space.

The air conditioner condensed water evaporation cooling device 10 allows the air cooled by the re-evaporation of condensed water to flow from the second space to the first space, and to intensively and efficiently enter the fin portions of the air conditioner outdoor unit 20.

Referring to fig. 21 and 22, the second cover 1152 is integrally connected to the first cover 1151 in a vertically aligned manner; or referring to fig. 19 and 20, the second cover 1152 is integrally connected to the first cover 1151 in a left-right arrangement; or referring to fig. 18, the first cover 1151 and the second cover 1152 are integrally connected in a tandem arrangement; the three different types of air guide hoods 115 are used for selecting different air conditioning positions under the condition that higher cooling efficiency is required, and the effect is that the energy saving efficiency can be higher.

The foregoing description is only a preferred embodiment of the present utility model, and is not intended to limit the utility model in any way, but any simple modification and equivalent variation of the above embodiment according to the technical spirit of the present utility model falls within the scope of the present utility model.

Claims (10)

1. The air conditioner condensate water evaporation cooling device is characterized by comprising a main frame, wherein finished product water curtain paper is arranged in the main frame, and the edge of the finished product water curtain paper is fixedly connected to the main frame; the top of the main frame is provided with a cover body which is connected in an opening and closing way, and a condensate water diversion component is arranged between the upper end part of the finished product water curtain paper and the cover body; the water inlet end of the condensed water diversion component passes through the cover body to be communicated with the condensed water pipe, and the water outlet end of the condensed water diversion component is abutted against the finished product water curtain paper; the main frame is arranged on the air inlet side of the air conditioner external unit.

2. The evaporative cooling device for air conditioner condensate water according to claim 1, wherein the main frame comprises a rectangular frame with an open top end, the cover body is detachably covered at the open top end, and a water injection port fixedly connected with the condensate water pipe is arranged on the cover body; the bayonet for fixing the edge of the finished water curtain paper is formed in the inward side of the rectangular frame, a water outlet is formed in the bayonet at one side of the bottom of the rectangular frame, and a water blocking plug is arranged in the water outlet.

3. The evaporative cooling device for air conditioner condensate water according to claim 2, wherein the water injection port is smaller in aperture than the maximum outer diameter of the corrugated condensate water pipe, and is clamped with the minimum outer diameter of the corrugated condensate water pipe; and a wire binding hole for assisting in fixing the condensate pipe is also formed in the cover body near the water injection port.

4. The evaporative cooling device for air conditioner condensed water according to claim 2, wherein the condensed water diversion component comprises a balance condensed water collecting tank arranged on the finished water curtain paper, the balance condensed water collecting tank comprises a linear tank body and a notch arranged at the upper end part of the tank body, one end of the notch, which is opposite to a water filling port, is provided with an elastic water inlet pipe, one end of the elastic water inlet pipe is clamped in the notch and is communicated with the tank body, and the other end of the elastic water inlet pipe passes through the water filling port and is positioned above the water filling port;

the two ends of the groove body in the length direction are symmetrically provided with a first L-shaped clamping plate and a second L-shaped clamping plate, the first L-shaped clamping plate is clamped at one edge I on the width of the groove opening and is fixedly connected through a fastening assembly, the second L-shaped clamping plate is clamped at the other edge II on the width of the groove opening and is connected through a leveling assembly, and the leveling assembly is used for adjusting the height of the groove body at one side;

the balance type condensed water collecting tank is connected with the finished product water curtain paper through a water absorption guide piece, one end of the water absorption guide piece is fixed in the tank body, and the other end of the water absorption guide piece is fixedly contacted with the finished product water curtain paper; the side of the slot contacting the water absorbing baffle is lower in height than the opposite side that is not in contact.

5. The evaporative cooling device for air conditioner condensate water according to claim 4, wherein the leveling assembly comprises a first longitudinal screw hole formed in the second L-shaped clamping plate and an adjusting screw in the first longitudinal screw hole in a threaded manner, and the inner end of the adjusting screw abuts against the end part of the edge II of the notch;

the fastening assembly comprises a transverse screw hole formed in the first L-shaped clamping plate and a fixing screw in the transverse screw hole in a threaded connection mode, and the inner end of the fixing screw abuts against the outer side wall of the notch.

6. The evaporative cooling device for air conditioner condensate water according to claim 5, wherein the leveling assembly further comprises an inverted U-shaped leveling block, the leveling block is arranged on the inner side of the second L-shaped clamping plate and is clamped with the edge II of the notch, a second longitudinal screw hole parallel to the first longitudinal screw hole is formed in the leveling block, and the end part of the adjusting screw is in threaded connection with the second longitudinal screw hole and then abuts against the end part of the edge II of the notch.

7. The evaporative cooling device for air conditioner condensate water according to claim 6, wherein the water absorbing and guiding piece comprises a hanging plate, a special-shaped arc plate and a flat plate which are sequentially connected along the width direction; the hanging plate is buckled on one edge III of the length of the notch and is tightly pressed by a guide piece fixing clamp clamped on the other edge IV of the length of the notch; the bottom of the flat plate is arranged on the surface of the finished water curtain paper and is fixed through a pressing block arranged at the top of the flat plate.

8. The evaporative cooling device for air conditioner condensate water according to any one of claims 1 to 7, wherein the upper and lower ends of the main frame are detachably and fixedly connected to a strip-shaped anti-collision member outside one end of the heat sink of the air conditioner outdoor unit through an upper fixing clip and a base with a buckle, respectively; or the main frame and the air conditioner external unit are installed together through an air guide cover, and the air guide cover is used for independently conducting the air conditioner condensate water evaporation cooling device and the air inlet end of the cooling fin of the air conditioner external unit.

9. The evaporative cooling device for air conditioner condensate water according to claim 8, wherein the air guide cover further comprises a guide sealing clamping plate fixedly connected with the air guide cover, and the guide sealing clamping plate is arranged on the same side of the main frame and is used for fully covering the air inlet end where the cooling fin of the air conditioner outdoor unit is located.

10. The evaporative cooling device for air conditioner condensate water according to claim 9, wherein the air guide cover comprises a first cover body for bearing the outdoor unit of the air conditioner and a second cover body for bearing the evaporative cooling device for air conditioner condensate water, the second cover body is integrally connected with the first cover body in an up-down arrangement manner, or the second cover body is integrally connected with the first cover body in a left-right arrangement manner, or the first cover body is integrally connected with the second cover body in a front-back arrangement manner; the air conditioner external unit is installed with one side of the radiating fin towards the inner side of the first cover body and forms a first interval space, the air conditioner condensate water evaporation cooling device is installed with one side parallel to the finished water curtain paper towards the inner side of the second cover body and forms a second interval space, and the second interval space is communicated with the first interval space.