CN110513856B

CN110513856B - Air conditioner condensate water recycling system

Info

Publication number: CN110513856B
Application number: CN201910902828.9A
Authority: CN
Inventors: 陈宏寿; 胡佳媛; 何信龙
Original assignee: HUIZHOU ECONOMICS AND POLYTECHNIC COLLEGE
Current assignee: HUIZHOU ECONOMICS AND POLYTECHNIC COLLEGE
Priority date: 2019-09-24
Filing date: 2019-09-24
Publication date: 2024-04-09
Anticipated expiration: 2039-09-24
Also published as: CN110513856A

Abstract

The invention discloses an air conditioner condensate water recycling system, which comprises an air conditioner indoor unit, a condensate water recycling pipeline, a refrigerating device, a water storage tank and a closestool, wherein the air conditioner indoor unit is connected with the refrigerating device through a pipeline; a water receiving disc is arranged below an evaporator of the air conditioner inner unit, a condensed water recovery pipeline is connected between the water receiving disc and a refrigerating device, the refrigerating device is connected with a water storage tank pipe, and the water storage tank is connected with a toilet pipe; an air inlet of the air conditioner inner unit is provided with an air purifying mechanism, and a condensed water recovery pipeline is a heat insulation pipe; the internal space of the water storage tank is of a hemispherical or semi-elliptic cavity structure with a large upper part and a small lower part, and a self-cleaning mechanism is arranged in the water storage tank; the self-cleaning mechanism comprises a groove, a water inlet pipe and a water outlet pipe, wherein the groove is spirally arranged on the inner wall of the water storage tank from top to bottom, the water inlet pipe and the water outlet pipe are arc-shaped pipelines, the water inlet pipe is connected with the upper starting end of the spiral groove, and the water outlet pipe is connected with the lower terminal of the spiral groove. The invention is used for recycling the air conditioner condensate water.

Description

Air conditioner condensate water recycling system

Technical Field

The invention relates to the technical field of household energy conservation, in particular to an air conditioner condensate water recycling system.

Background

The air conditioner is standard household equipment in hot summer, the air conditioner can generate condensed water in the use process in summer, 3L condensed water can be generated by one 2P air conditioner in one hour, 3 air conditioners are used in one household, each air conditioner is started for 6 hours every day, 54L condensed water can be generated by the air conditioner in the household in one day, and the condensed water amount in the whole summer is quite considerable. And the temperature of the condensed water is 15-20 ℃ and is relatively low. The condensed water of the air conditioner in the common household is directly discharged and is not utilized, so that the waste of water resources and cold sources is caused.

Disclosure of Invention

The invention aims at solving the technical problem of overcoming the defects in the background technology and provides an air conditioner condensate water recycling system.

In order to solve the technical problems, the technical scheme of the invention is as follows: an air conditioner condensate water recycling system comprises an air conditioner indoor unit, a condensate water recycling pipeline, a refrigerating device, a water storage tank and a closestool; a water receiving disc is arranged below an evaporator of the air conditioner indoor unit, the condensed water recovery pipeline is connected between the water receiving disc and a refrigerating device, the refrigerating device is connected with a water storage tank pipe, and the water storage tank is connected with a toilet pipe; an air inlet of the air conditioner indoor unit is provided with an air purifying mechanism, and the condensed water recovery pipeline is a heat insulation pipe; the internal space of the water storage tank is of a hemispherical or semi-elliptic cavity structure with a large upper part and a small lower part, and a self-cleaning mechanism is arranged in the water storage tank; the self-cleaning mechanism comprises a groove, a water inlet pipe and a water outlet pipe, wherein the groove is spirally arranged on the inner wall of the water storage tank from top to bottom, the water inlet pipe and the water outlet pipe are arc-shaped pipelines, the water inlet pipe is connected to the upper initial end of the spiral groove, and the water outlet pipe is connected to the lower terminal of the spiral groove.

Further, the air purifying mechanism comprises a filter screen, a water tank and two connecting rollers, and one connecting roller at the lower side is arranged in the water tank; the filter screens are fixedly connected together end to end and are wound on two connecting rollers; the water tank is communicated with the water receiving disc, and condensed water in the water receiving disc can flow into the water tank.

Further, an ultrasonic generator is further arranged on the water tank.

Further, the air purifying mechanism is a dustproof ventilation net arranged at the air inlet of the air conditioner.

Further, the refrigerating device comprises a water accumulation tank and a first refrigerating tank, wherein the water accumulation tank is used for accumulating condensed water, and water is supplied to the first refrigerating tank after the water accumulation tank is full; the first refrigerator is cooled by condensed water.

Further, the first refrigerator comprises a box body, a water wheel, a water curtain rod and a box door; the water wheels are rotatably arranged in the box body, and a plurality of storage lattices are uniformly distributed on the outer sides of the water wheels; the water curtain rod is communicated with the water accumulation tank, the water curtain rod is arranged in the tank body and at a position above the water wheel, and a water curtain formed by flowing water of the water curtain rod can drive the water wheel to rotate; the box door is arranged above the box body.

Further, the water accumulation tank comprises a water tank and a water outlet control mechanism, a water inlet is formed in the upper portion of the water tank, and a water outlet is formed in the bottom of the water tank; the water outlet control mechanism comprises a water plug, a sleeve, a connecting rod and a floating ball, wherein the water plug is movably arranged on the water outlet, the sleeve is fixed on the water plug, one end of the connecting rod is telescopically and movably arranged in the sleeve, and the other end of the connecting rod is connected with the floating ball; a limiting block is arranged on the connecting rod and limits the movable range of the connecting rod in the sleeve; the longitudinal section of the water plug is of an inverted trapezoid structure.

Further, the inner wall of the water outlet is provided with an annular soft rubber ring, and the outer wall of the water plug can be abutted with the annular soft rubber ring.

Further, the refrigeration device comprises a second refrigeration box comprising a box shell, a water passing mechanism, a fan and a side door; the box shell comprises a storage chamber and a backflow air duct, the storage chamber and the backflow air duct are connected to form a closed air duct loop, and the fan drives air in the box shell to flow in the air duct loop; the water passing mechanism is arranged at the joint of the storage chamber and the backflow air duct, and the side opening door is arranged at one side of the storage chamber far away from the water passing mechanism.

Further, the water passing mechanism is a honeycomb type water curtain or a heat-conducting water pipe which is arranged in an S shape.

The beneficial effects achieved by the invention mainly comprise the following points:

a. the air conditioner condensate water recycling system is provided with a refrigerating device, and can utilize condensate water generated by an air conditioner to ice and refrigerate food; and a water storage tank is arranged to store the condensed water and then flush the closestool, so that the full utilization of the condensed water of the air conditioner is realized, and water resources and energy sources are saved.

b. The internal space of the water storage tank is of a hemispherical or semi-elliptic cavity structure with a large upper part and a small lower part, a spiral groove is formed in the inner wall of the water storage tank from top to bottom, the water inlet pipe and the water outlet pipe are arc-shaped pipelines, the water inlet pipe is connected to the upper initial end of the spiral groove, and the water outlet pipe is connected to the lower terminal end of the spiral groove. When the water storage tank is in operation, condensed water can flow in from the water inlet pipe and flow out from the water outlet pipe, an arc-shaped water flow is formed through an arc-shaped pipeline in the inflow process of the water inlet pipe, and the water flow is enabled to wash the inner wall of the water storage tank in the process of flowing through the water storage tank under the guiding action of the spiral groove and the arc-shaped water outlet pipe, so that the water storage tank can be self-cleaned, special cleaning is not needed, and the water storage tank is more convenient to use; the hemispherical or semi-elliptic cavity structure with large upper part and small lower part ensures that water flow easily flows along the inner wall in the water storage tank, thereby better automatically cleaning the water storage tank.

Drawings

FIG. 1 is a schematic diagram of a connection structure of each part of a hollow condensate recycling system according to an embodiment of the present invention;

FIG. 2 is a schematic perspective view of an air conditioner indoor unit of an air conditioner condensed water recycling system according to an embodiment of the present invention;

FIG. 3 is a schematic side view of an air purifying mechanism of an air conditioner condensate recycling system according to an embodiment of the present invention;

FIG. 4 is a schematic view of a longitudinal section of a water storage tank of a hollow condensate recycling system according to an embodiment of the present invention;

FIG. 5 is a schematic perspective view of a first refrigerator of a refrigeration apparatus with a hollow condensate recycling system according to an embodiment of the present invention;

FIG. 6 is a schematic diagram showing a longitudinal cross-sectional structure of a water accumulation tank of a hollow condensate recycling system according to an embodiment of the present invention;

fig. 7 is a schematic perspective view of a second refrigerator of the refrigerating apparatus of the air-conditioning condensate recycling system according to the second embodiment of the present invention.

The drawings are for illustrative purposes only and are not to be construed as limiting the present patent; for the purpose of better illustrating the embodiments, certain elements of the drawings may be omitted, enlarged or reduced and do not represent the actual product dimensions; it will be appreciated by those skilled in the art that certain well-known structures in the drawings and descriptions thereof may be omitted; the same or similar reference numerals correspond to the same or similar components; the terms describing the positional relationship in the drawings are merely illustrative and should not be construed as limiting the present patent.

Detailed Description

The present invention will be described in further detail below with reference to the drawings and examples for the understanding of those skilled in the art.

Example 1

Referring to fig. 1 to 6, an air conditioner condensate recycling system can utilize low temperature of air conditioner condensate to perform beverage freezing, and can further utilize the air conditioner condensate to flush a toilet. The air conditioner condensate water recycling system comprises an air conditioner indoor unit 1, a condensate water recycling pipeline 2, a refrigerating device 3, a water storage tank 4 and a closestool 5, wherein the air conditioner indoor unit 1 comprises a cabinet machine, a hanging machine, a central air conditioner and the like of a household air conditioner, the condensate water recycling pipeline 2 collects condensate water of each air conditioner indoor unit 1 through a plurality of branch pipes and supplies the condensate water to the refrigerating device 3, the refrigerating device 3 utilizes the low-temperature property of the condensate water to refrigerate beverage, the condensate water after being utilized by the refrigerating device 3 is discharged to the water storage tank 4 for storage, and the closestool can be flushed.

Referring to fig. 1, a water receiving tray 11 is disposed below the evaporator 13 of the air conditioner 1, and is used for receiving and collecting condensed water generated on the surface of the evaporator 13, and the water receiving tray 11 is preferably made of a heat insulation material with excellent heat insulation, such as a plastic material, so that the condensed water is kept warm at the beginning of collecting the condensed water, and the condensed water is ensured to be in a low-temperature state, so that the condensed water is convenient for subsequent use. The water receiving disc 11 is provided with a water outlet 19, each branch pipe of the condensed water recovery pipeline 2 is connected with the water outlet 19 of each air conditioner indoor unit 1, the tail end of a trunk pipe of the condensed water recovery pipeline 2 is connected with the refrigerating device 3, and the collected condensed water is conveyed to the refrigerating device 3 for connection; the condensed water recovery pipeline 2 is a heat insulation pipe, and the heat insulation pipe can adopt a hot melt pipe, a vacuum water pipe and the like when the condensed water is conveyed from the water receiving disc 11 to the refrigerating device 3. The refrigerating device 3 is connected with the water storage tank 4 through a pipe, and condensed water is conveyed to the water storage tank 4, and a conventional water conveying pipe is adopted. The water storage tank 4 is connected with the closestool 5 through a pipe, a double-control switch can be adopted at the joint of the water pipe and the closestool 5, two water inlets of the double-control switch are respectively connected with a water outlet pipeline of the water storage tank 4 and a tap water pipeline, and a water outlet of the double-control switch is connected with the closestool water tank, so that the water of the closestool can be switched between tap water and recovered condensed water through the double-control switch. The air inlet of the air conditioner 1 is provided with an air purifying mechanism 12, such as a filter screen, and the air entering the air conditioner is clean through the air purifying mechanism 12, so that the generated condensed water is ensured to be clean.

The air conditioner condensate water recycling system is provided with a refrigerating device 3, and the condensate water generated by the air conditioner is utilized to cool and refrigerate food; and the water storage tank 4 is arranged to store the condensed water and then flush the toilet, thereby realizing the full utilization of the condensed water of the air conditioner and saving water resources and energy sources.

Referring to fig. 4, the internal space of the water tank 4 is a hemispherical or semi-ellipsoidal cavity structure with a large top and a small bottom, and may be a hemispherical or semi-ellipsoidal cavity, and fig. 4 shows a semi-ellipsoidal structure. The water storage tank 4 is internally provided with a self-cleaning mechanism which comprises a groove 41, a water inlet pipe 42 and a water outlet pipe 43. The grooves 41 are spirally arranged on the inner wall of the water storage tank 4 from top to bottom, and the adjacent grooves 41 are preferably arranged to be smooth transition surfaces, such as transition of cambered surfaces, transition of curved surfaces and the like, so that dead corners of the grooves are prevented from being hidden and inconvenient to clean. The water inlet pipe 42 and the water outlet pipe 43 are arc-shaped pipelines, a water inlet 44 of the water inlet pipe 42 is connected to the upper initial end of the spiral groove 41, and is connected with the initial end of the spiral groove 41 to form a smooth connection structure; the water outlet 45 of the water outlet pipe 43 is connected to the lower end of the spiral groove 41, and is connected to the end of the spiral groove 41 to form a smooth connection structure. Therefore, condensed water can flow in from the water inlet pipe 42 and flow out from the water outlet pipe 43, and an arc-shaped water flow is formed through an arc-shaped pipeline in the flowing process of the condensed water from the water inlet pipe 42, and then the inner wall of the water storage tank 4 is flushed by the water flow in the flowing process of the condensed water through the water storage tank 4 under the guiding action of the spiral groove 41 and the arc-shaped water outlet pipe 43, so that the water storage tank 4 can be self-cleaned, special cleaning is not needed, and the use is more convenient; the hemispherical or semi-elliptic cavity structure with large upper part and small lower part ensures that water flow easily flows along the inner wall in the water storage tank 4, thereby better automatically cleaning the water storage tank. The water tank with the self-cleaning structure can realize self-cleaning, and particularly has better self-cleaning effect when the empty tank is filled with water or completely discharged, so that the water tank can be better self-cleaned (special cleaning, no water storage during cleaning) in a mode of adding water immediately.

Referring to fig. 2 and 3, for an air conditioner (e.g., a cabinet air conditioner) having an air inlet below an evaporator, the air purifying mechanism 12 may have the following structure: the air cleaning mechanism 12 includes a filter screen 121, a water tank 123, and two connecting rollers 122. One of the two connecting rollers 122 is used as a driving roller, is connected with a motor and other rotation driving structures, and is driven to rotate by the rotation driving structures; the other connecting roller 122 serves as a driven roller. One connecting roller 122 at the lower side of the two connecting rollers 122 is arranged in a water tank 123, and the filter screens 121 are fixedly connected together in a head-to-tail mode and are wound on the two connecting rollers 122, so that the filter screens 121 can be driven to rotate through the two connecting rollers 122, different parts of the filter screens 121 can be sequentially transferred into the water tank 123 for cleaning, and water is contained in the water tank 123 for cleaning in a water washing mode; the part of the filter screen 121 in the middle of the two connecting rollers 122 is opposite to the air inlet 17 of the air conditioner indoor unit 1, and air entering the air conditioner indoor unit 1 is filtered by the filter screen 121, then is sent to one side of the evaporator 13 through the air supply pipe 16 and the fan 15, is cooled by the evaporator 13, and then is blown out of cold air through the air outlet 14 at the other side. The filter 121 may be an existing filter.

Referring to fig. 2, the water tank 123 is communicated with the water receiving disc 11, and condensed water in the water receiving disc 11 can flow into the water tank 123, and specifically, the water pipe 18 can be arranged to communicate the water receiving disc 11 with the water tank 123, so that condensed water generated by the operation of the air conditioner can be used for cleaning the filter screen 121, the condensed water generated by the operation of the air conditioner can be further fully utilized, and the energy conservation and the resource conservation of household equipment are improved. The air cleaning mechanism 12 may be configured to be periodically opened to periodically clean the filter screen 121, thereby ensuring the cleanliness of the cool air blown out from the air conditioner and the cleanliness of the condensate water generated. In addition, a water outlet which can be opened and closed can be arranged on the water tank 123, and dirty water after cleaning can be removed and cleaned through the water outlet.

Referring to fig. 3, as a further preferred solution, the bottom of the water tank 123 is preferably provided with an ultrasonic generator 124, so that the ultrasonic generator 124 can be started when the filter screen 121 is cleaned, and the filter screen 121 is cleaned by ultrasonic cleaning, so that the filter screen is cleaned more thoroughly, the air filtering effect of the filter screen 121 is better ensured, and the purity of the air entering the air conditioner 1 is ensured.

If the air inlet of the air conditioner indoor unit is arranged above the evaporator, the air purifying mechanism 12 is inconvenient to directly utilize, and the condensed water automatically flows into the water tank 123, a water pump can be arranged to pump the condensed water in the water receiving disc 11 into the water tank 123 above, and then the filter screen 121 is cleaned in the above manner. If the air conditioner is a central air conditioner or an on-hook air conditioner with higher position, the air purifying mechanism 12 is inconvenient to treat the dirty water after cleaning, a special filter screen can be adopted to better filter the air, and the air purifying mechanism 12 can adopt a dustproof ventilation screen arranged at the air inlet of the air conditioner indoor unit 1, so that the air entering the air conditioner indoor unit can be better cleaned; the dustproof ventilation net can adopt the existing dustproof ventilation net structure.

Referring to fig. 5 and 6, the refrigerating apparatus 3 includes a water accumulation tank 31 and a first refrigerating tank 32, the water accumulation tank 31 is used for accumulating condensed water, and the water accumulation tank 31 is full to supply water to the first refrigerating tank 32, so that the first refrigerating tank 32 cannot work due to too little water; the first refrigerator 32 is cooled by condensed water.

Referring to fig. 5 and 6, the first refrigerator 32 may have the following specific structure: the first refrigerator 32 includes a box 321, a water wheel 322, a curtain bar 323, and a box door 324. The box 321 is a heat preservation box structure, and a heat preservation layer can be arranged between the structural layers at the inner side and the outer side, so that the objects in the box 321 are preserved. The water wheels 322 are rotatably arranged in the box 321 and can be connected to the inner wall of the box 321 through rotation of the rotating shaft, the water wheels 322 can freely rotate in the box 321, and a driving structure is not required. A plurality of storage cells 3221 are uniformly distributed on the outer side of the water wheel 322, the number of the storage cells 3221 can be set according to the requirement, four storage cells 3221 are arranged in the embodiment, and each storage cell 3221 can store bottled drinks such as beverages; preferably, the storage grid 3221 is provided with an elastic bayonet, so that the bottled structure can be clamped into the storage grid 3221 and is not easy to fall off, and can be easily completed when being put into or taken out. The water curtain rod 323 can adopt a water pipe, a plurality of water outlets 3231 are formed in the length direction of the water pipe, the water outlets 3231 are linearly arranged at one side close to the water wheel 322, one end of the water pipe is closed, the other end of the water pipe is communicated with the water inlet 325, and therefore water in the water accumulation tank 31 can flow out from the water outlets 3231 to form a water curtain. The water curtain rod 323 is arranged in the box 321 and at a position above the side of the water wheel 322, and the water curtain formed by flowing water of the water curtain rod 323 can drive the water wheel 322 to rotate. A plurality of bottles of beverage can be placed on the water wheel 322 of the first refrigerator 32, air-conditioning condensed water can be placed into the box 321 through the water inlet 325 to submerge the water wheel 322, and the beverage is refrigerated through the air-conditioning condensed water soaking; the water curtain generated by the water curtain rod 323 drives the water wheel 322 to rotate so as to stir the condensed water in the box 321, so that the temperature of the condensed water is more uniform, and the beverage in each storage grid 3221 can be fully refrigerated. The beverage may be put into the case 321 or taken out from the case 321 through a door 324 provided above the case 321.

Referring to fig. 5, the tank 321 is provided with a water outlet, so that water in the tank can be discharged, and a siphon pipe 326 is preferably arranged at the water outlet, so that water in the tank can be discharged in a siphon manner during water discharge, and the water in the tank can be completely replaced, so that the water temperature of the replaced condensed water is lower, and the refrigeration of beverages is facilitated.

Referring to fig. 5 and 6, the water tank 31 may have the following specific structure: the water accumulation tank 31 comprises a water tank 311 and a water outlet control mechanism 312, and the water outlet control mechanism 312 controls the water in the water accumulation tank 31 to be discharged to the first refrigerator 32 after the water accumulation tank is full. The upper part of the water tank 311 is provided with a water inlet 3111, and the bottom of the water tank 311 is provided with a water outlet 3112 which is connected with a condensed water collecting pipeline 2. The water outlet control mechanism 312 includes a water plug 3121, a sleeve 3122, a connecting rod 3123, and a float 3124, wherein the water plug 3121 is movably disposed on the water outlet 3112, and can be connected in the water outlet 3112 by a rope or a rod (can still move on the water outlet 3112, can open or close the water outlet 3112), so as to avoid the water plug 3121 being away from the water outlet 3112 and unable to cooperate with the water outlet 3112. The sleeve 3122 is fixed on the water plug 3121, one end of the connecting rod 3123 is telescopically arranged in the sleeve 3122, and the other end is connected with the floating ball 3124; the link 3123 is provided with a limiting block 3125, and the limiting block 3125 is limited in the inner cavity of the sleeve 3122 and can only move in the sleeve 3122 but cannot leave the sleeve 3122, so that the limiting block limits the movable range of the link 3123 in the sleeve 3122. The working principle of the water tank 31 is thus as follows: when no water exists in the water tank 311, the water plug 3121 is pressed on the water outlet 3112 under the action of the gravity of the sleeve 3122, the connecting rod 3123, the floating ball 3124 and the water plug, so that the water outlet 3112 is closed, and water cannot flow out of the water outlet 3112; in the process of gradually flowing in the condensed water from the water inlet 3111, the floating ball cannot be floated when the water level does not reach the floating ball, or a movable space is still reserved between the sleeve 3122 and the connecting rod 3123, and at the moment, the water plug 3121 still seals the water outlet 3112; when the water level rises to float the floating ball and the limiting block 3125 reaches the upper end of the sleeve 3122, the floating ball floats to bring the water plug 3121 up so that the water outlet 3112 is opened, and the water of the water tank 311 can flow into the first refrigerator 32; the water plug 3121 is configured in a structure with an inverted trapezoid longitudinal section, when water flows out from the water outlet 3112, a certain upward acting force is applied to the water plug 3121, and the movable connection of the sleeve 3122 and the connecting rod 3123 makes the downward pressure borne by the water plug 3121 smaller (the connecting rod 3123 and the floating ball 3124 still float on the water surface through buoyancy and do not apply gravity to the water plug 3121), so that the water outlet 3112 is continuously opened until the water of the water accumulation tank 311 flows out completely, and at the moment, the water plug 3121 falls down to seal the water outlet 3112.

Referring to fig. 6, as a further preferred embodiment, an annular soft rubber ring 3113 is preferably disposed on the inner wall of the water outlet 3112, a silica gel ring may be used, and the outer wall of the water plug 3121 may abut against the annular soft rubber ring 3113. So that the outer wall of the water plug 3121 can be fully abutted with the soft annular soft rubber ring 3113 to better seal the water outlet; meanwhile, when water flows out of the water accumulation tank 311, the soft annular soft rubber ring 3113 is enlarged, so that the water outlet is enlarged, and the water outlet is easier; also, the water plug 3121 and the water outlet 3112 can maintain a sufficient distance during the water flowing process, and the water can be discharged more easily.

The working procedure of the refrigerating device 3 of the present embodiment is as follows: condensed water generated by each air conditioner is slowly accumulated in the water accumulation tank 31, and when the water is full, the water outlet is opened, and the accumulated condensed water is completely discharged to the first refrigerating tank 32; after the water in the first refrigerating box 32 reaches a certain water level, the last condensed water in the box 321 is discharged in a siphoning mode, then the water accumulation box 31 continues to drain to the box 321 until the water in the water accumulation box 31 is discharged, and the box 321 reaches a set water level, so that the beverage in the water accumulation box can be further refrigerated by the newly replaced low-temperature condensed water in the box 321; the water discharged from the tank 321 flows into the water storage tank 4 and can be used for flushing the toilet.

Example two

Referring to fig. 7, the overall structure of the air conditioner condensate recycling system in this embodiment is the same as that in the first embodiment, except that the refrigerating apparatus 3 is configured, and in this embodiment, the second refrigerating container 33 includes a container shell 331, a water passing mechanism 332, a fan 333, and a side door 334; the case 331 is an insulating case, and in particular, reference may be made to the first embodiment. The case 331 includes a storage chamber 3311 and a return air duct 3312, wherein the storage chamber 3311 and the return air duct 3312 are connected to form a closed air duct loop, in this embodiment, the storage chamber 3311 is arranged at the upper part of the case 331, the return air duct 3312 is arranged at the lower part of the case 331, and the storage chamber 3311 and the return air duct 3312 are communicated at both sides to form a closed air duct loop; the fan 333 is provided at a junction between the storage compartment 3311 and one side of the return air duct 3312, and drives air in the case 331 to flow in the air duct circuit. The water passing mechanism 332 is disposed at the junction between the storage chamber 3311 and the return air duct 3312 (at the side close to the storage chamber 3311), and the side opening 334 is disposed at the side of the storage chamber 3311 far from the water passing mechanism 332, so that the side opening 334 can be opened to place beverage in the storage chamber 3311 or take out beverage from the storage chamber 3311.

The working process of the refrigerating device of the embodiment is as follows: the low-temperature air-conditioning condensed water flows in from the water inlet 335, flows through the water passing mechanism 332 and finally flows out from the water outlet 336, the fan 333 enables the air of the box shell 331 to circularly flow along the air path a in the closed air channel loop, the air is refrigerated when flowing through the surface of the water passing mechanism 332, and the refrigerated air is blown onto the beverage in the storage chamber 3311 to refrigerate the beverage. The case 331 of this embodiment adopts sealed mode for the air internal circulation in the case 331 avoids the cold air in the case 331 to flow out, thereby can be better utilize the cold air in the case 331, promote the cold-stored effect.

As a further preferred embodiment, the water passing mechanism 332 preferably employs a honeycomb-type water curtain or an S-shaped heat-conducting water pipe, and a mounting position is provided between the storage chamber 3311 and the return air duct 3312 for mounting the water passing mechanism 332. When the S-shaped heat conducting water pipes are adopted, the thinner water pipes, such as capillary tubes, are preferably adopted, so that a small amount of condensed water generated by the air conditioner can continuously flow in the heat conducting water pipes, and the heat conducting water pipes can be metal pipes with better heat conduction.

It is to be understood that the above examples of the present invention are provided by way of illustration only and not by way of limitation of the embodiments of the present invention. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. Any modification, equivalent replacement, improvement, etc. which come within the spirit and principles of the invention are desired to be protected by the following claims.

Claims

1. An air conditioner condensate water recycle system which is characterized in that: comprises an air conditioner indoor unit (1), a condensed water recovery pipeline (2), a refrigerating device (3), a water storage tank (4) and a closestool (5); a water receiving disc (11) is arranged below an evaporator of the air conditioner indoor unit (1), the condensed water recovery pipeline (2) is connected between the water receiving disc (11) and the refrigerating device (3), the refrigerating device (3) is connected with a water storage tank (4) through a pipe, and the water storage tank (4) is connected with a closestool (5) through a pipe; an air inlet of the air conditioner indoor unit (1) is provided with an air purifying mechanism (12), and the condensed water recovery pipeline (2) is a heat insulation pipe;

the internal space of the water storage tank (4) is of a hemispherical or semi-elliptic cavity structure with a large upper part and a small lower part, and a self-cleaning mechanism is arranged in the water storage tank (4); the self-cleaning mechanism comprises a groove (41), a water inlet pipe (42) and a water outlet pipe (43), wherein the groove (41) is spirally arranged on the inner wall of the water storage tank (4) from top to bottom, the water inlet pipe (42) and the water outlet pipe (43) are arc-shaped pipelines, the water inlet pipe (42) is connected to the upper initial end of the spiral groove (41), and the water outlet pipe (43) is connected to the lower terminal end of the spiral groove (41);

the refrigerating device (3) comprises a water accumulation tank (31) and a first refrigerating tank (32), wherein the water accumulation tank (31) is used for accumulating condensed water, and the water accumulation tank (31) is full of water to supply water for the first refrigerating tank (32); the first refrigerator (32) is refrigerated by condensed water;

the first refrigerator (32) comprises a box body (321), a water wheel (322), a water curtain rod (323) and a box door (324); an insulation layer is arranged between the structural layers at the inner side and the outer side of the box body (321), the water wheel (322) is rotatably arranged in the box body (321), a plurality of storage grids (3221) are uniformly distributed at the outer side of the water wheel (322), and the storage grids (3221) are elastic bayonets; the water curtain rod (323) is communicated with the water accumulation tank (31), the water curtain rod (323) is arranged in the tank body (321) and at a position above the water wheel (322), and a water curtain formed by flowing water of the water curtain rod (323) can drive the water wheel (322) to rotate; the box door (324) is arranged above the box body (321);

the water accumulation tank (31) comprises a water tank (311) and a water outlet control mechanism (312), a water inlet (3111) is formed in the upper portion of the water tank (311), and a water outlet (3112) is formed in the bottom of the water tank (311); the water outlet control mechanism (312) comprises a water plug (3121), a sleeve (3122), a connecting rod (3123) and a floating ball (3124), wherein the water plug (3121) is movably arranged on the water outlet (3112), the sleeve (3122) is fixed on the water plug (3121), one end of the connecting rod (3123) is telescopically arranged in the sleeve (3122), and the other end is connected with the floating ball (3124); a limiting block (3125) is arranged on the connecting rod (3123), and the limiting block limits the moving range of the connecting rod (3123) in the sleeve (3122); the longitudinal section of the water plug (3121) is of an inverted trapezoid structure;

the refrigerating device (3) comprises a second refrigerating box (33), a box shell (331), a water passing mechanism (332), a fan (333) and a side door (334); the box shell (331) comprises a storage chamber (3311) and a return air duct (3312), the storage chamber (3311) and the return air duct (3312) are connected into a closed air duct loop, and the fan (333) drives air in the box shell (331) to flow in the air duct loop; the water passing mechanism (332) is arranged at the joint of the storage chamber (3311) and the backflow air duct (3312), and the side opening door (334) is arranged at one side of the storage chamber (3311) far away from the water passing mechanism (332).

2. The air conditioner condensate water recycling system of claim 1, wherein: the air purification mechanism (12) comprises a filter screen (121), a water tank (123) and two connecting rollers (122), and one connecting roller (122) at the lower side is arranged in the water tank (123); the filter screens (121) are fixedly connected together end to end and are wound on two connecting rollers (122); the water tank (123) is communicated with the water receiving disc (11), and condensed water in the water receiving disc (11) can flow into the water tank (123).

3. The air conditioner condensate water recycling system of claim 2, wherein: an ultrasonic generator (124) is also arranged on the water tank (123).

4. The air conditioner condensate water recycling system of claim 1, wherein: the air purifying mechanism (12) is a dustproof ventilation net arranged at the air inlet of the air conditioner indoor unit (1).

5. The air conditioner condensate water recycling system of claim 1, wherein: the inner wall of the water outlet (3112) is provided with an annular soft rubber ring (3113), and the outer wall of the water plug (3121) can be abutted with the annular soft rubber ring (3113).

6. The air conditioner condensate water recycling system of claim 1, wherein: the water passing mechanism (332) is a honeycomb type water curtain or a heat-conducting water pipe which is arranged in an S shape.