CN211177265U - Air conditioner condensate water atomization machine - Google Patents

Abstract

The utility model discloses an air conditioner condensate water atomizer, which comprises a casing, an execution component and an intelligent control part; a water collecting tank and an atomizing cavity are formed in the shell; the execution assembly comprises a water injection pump, an overflow water pump, an ultrasonic atomizer and a fan; the ultrasonic atomizer is provided with a high-power atomizing sheet set which adopts a complete immersion type; the intelligent control part comprises a controller, a high water level sensor, a low water level sensor, a water level float switch and an atomizer water level switch; the water injection pump is started to work under the condition that the water collecting tank reaches the lowest water level and the atomization cavity is lower than the highest water level; the ultrasonic atomizer starts to work under the condition that the atomizing cavity reaches the working water level, and the fan and the ultrasonic atomizer work synchronously; the overflow water pump is started to work under the condition that the water collecting tank reaches the highest water level. The present case realizes high-power atomization effect, finally really realizes utilizing the beneficial effect of the effective humidification room air of air conditioner comdenstion water.

Description

Air conditioner condensate water atomization machine

Technical Field

The utility model relates to an air conditioner comdenstion water treatment technical field specifically indicates an air conditioner comdenstion water atomizing machine.

Background

The basic working principle of the air conditioner is that the return air exchanges heat with the surface air cooler to reduce the temperature in a relatively closed space, and meanwhile, the water vapor in the air is condensed into liquid water to be discharged, namely, condensed water, which means that if the 1.5-mesh air conditioner runs for one hour, the water in the room is discharged to the outside by 1.5 kg. Moreover, the temperature of the air conditioner condensed water is lower than the indoor temperature, generally below 16 ℃, and the condensed water is directly discharged, so that the moisture of the indoor air is greatly reduced, the air humidity balance of the room environment is damaged, and the discomfort is brought to people. Furthermore, due to installation limitations of condensate pipes, in practice, the discharge distance and direction of condensate water are greatly limited, and direct discharge of air conditioner condensate water not only wastes resources, but also causes environmental problems.

The related equipment that does the atomizing treatment with air conditioner comdenstion water and utilize is disclosed among the prior art, however its design consideration all only takes current atomizing mechanism to use simply, lets in atomizing mechanism with the comdenstion water of collecting, and it overflows to turn into the water smoke by atomizing mechanism work with the comdenstion water. In practice, the existing condensed water related equipment is difficult to popularize and apply, on one hand, the reason is that the problems of unmatched generation of the condensed water and atomization and humidification exist, the existing atomization design only adopts low-power atomization, the atomization and humidification effects are not obvious, and most of the atomized condensed water is still discharged in time, so that the problems cannot be well solved. On the other hand, the existing condensed water related equipment and the air conditioner have the problem of installation mismatching, the inconvenient factor in installation is also a main reason which is not accepted by the public, and in order to adapt to the installation of the air conditioner, the direction and the position of the atomization output cannot well achieve the effect of humidifying the indoor space of the whole air conditioner.

Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and an apparatus and method for solving the above problems, which have resulted from the present invention.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an air conditioner comdenstion water atomizer realizes high-power atomization effect, finally really realizes utilizing the beneficial effect of the effective humidification room air of air conditioner comdenstion water.

In order to achieve the above purpose, the solution of the present invention is:

an air conditioner condensed water atomizer comprises a shell, an execution assembly and an intelligent control part; wherein,

a water collecting tank and an atomizing cavity are formed in the shell; the shell is provided with a water inlet communicated with the water collecting tank; a mist outlet cavity is formed above the atomizing cavity, and a mist outlet corresponding to the mist outlet cavity is formed in the side surface of the machine shell;

the execution assembly comprises a water injection pump, an overflow water pump, an ultrasonic atomizer and a fan; the water injection pump performs the operation of injecting water in the water collecting tank to the atomizing cavity, and the overflow water pump performs the operation of overflowing and discharging the water in the water collecting tank; the ultrasonic atomizer is arranged in the atomizing cavity and is provided with a high-power atomizing sheet set which adopts a complete immersion type; the fan is arranged above the mist outlet cavity and is arranged for blowing downwards;

the intelligent control part comprises a controller, and a high water level sensor, a low water level sensor, a water level float switch and an atomizer water level switch which are electrically connected with the controller; the high water level sensor and the low water level sensor respectively detect the highest water level and the lowest water level of the water collecting tank, and the water level float switch and the atomizer water level switch respectively detect the highest water level and the working water level of the atomizing cavity;

the controller controls the execution assembly to work, wherein the water injection pump starts to work under the condition that the water collection tank reaches the lowest water level and the atomization cavity is lower than the highest water level; the ultrasonic atomizer starts to work under the condition that the atomizing cavity reaches the working water level, and the fan and the ultrasonic atomizer work synchronously; the overflow water pump is started to work under the condition that the water collecting tank reaches the highest water level.

The atomizing chamber and the water catch bowl are arranged in an inner and outer surrounding mode, a left water collecting groove and a right water collecting groove which are communicated with each other are formed corresponding to the water collecting grooves, and a left water inlet and a right water inlet which are respectively communicated with the left water collecting groove and the right water collecting groove are arranged at the left end position and the right end position of the machine shell.

The shell is provided with a water outlet, and the water outlet is provided with a left water outlet and a right water outlet which are arranged on the left and the right; the executing component also comprises a left water valve and a right water valve which are electrically connected with the controller, and the left water valve and the right water valve are arranged on respective water discharging pipelines of the left water discharging port and the right water discharging port; the intelligent control part also comprises a drainage route selection switch electrically connected with the controller, and the drainage route selection switch controls one of the left water valve and the right water valve to be in a normally open state.

The drainage channel selection switch adopts a single-pole double-throw switch.

The execution assembly further comprises a drainage pump for completely draining the water in the atomization cavity, and the intelligent control part further comprises an emptying water switch electrically connected with the controller; the emptying water switch controls the water injection pump to pump water in the water collecting tank completely on the premise that the atomization cavity is lower than the highest water level, and simultaneously controls the drainage pump to start working.

The emptying water switch adopts a double-pole single-throw switch.

And a water collecting groove is communicated with the water inlet, a filtering mechanism is further arranged on a water path, and the mesh size of a filtering net component of the filtering mechanism is controlled between 0.5mm and 1.0 mm.

The ultrasonic atomizer is also provided with a splash-proof mechanism, the splash-proof mechanism is provided with water-retaining umbrella bodies which are in one-to-one correspondence with the atomizing sheets of the high-power atomizing sheet group, the water-retaining umbrella bodies are higher than the highest water level of the atomizing cavity, and the water-retaining umbrella bodies are provided with inverted cone-shaped drainage cavities.

The executive component also comprises a stepless speed regulator which is electrically connected between the controller and the ultrasonic atomizer so as to adjust the fog output of the ultrasonic atomizer.

The intelligent control part also comprises a remote control module electrically connected with the controller, and the remote control module is at least one of a WIFI switch module and an infrared remote control module.

The execution assembly further comprises an indicator light electrically connected with the controller, and the indicator light comprises a working indicator light and a drainage indicator light.

The fan adopts waterproof silence fan.

After the technical scheme is adopted, the utility model relates to an air conditioner comdenstion water atomizing machine lies in for prior art's beneficial effect: the atomizer is direct to be connected with air conditioner comdenstion water delivery pipe, and the water catch bowl storage is sent into earlier to the comdenstion water, and the water level sensing group through unique design and the nimble cooperation of water pump group automatically control holistic water level balance, on this basis of control water level balance, the water of storage in the water catch bowl passes through the water injection pump and pours into the atomizing chamber into, and the ultrasonic atomization ware in the atomizing chamber realizes high-power atomization effect (for example reach about 4000 ml/h) in satisfying the automatic operation of water level condition. The water mist generated by high-power atomization is contained in the mist outlet cavity, and is efficiently blown out of the mist outlet cavity by matching with the fan, so that the beneficial effect of humidifying the air in a room by utilizing the condensed water of the air conditioner is finally realized.

This case atomizing machine realizes high-power atomization effect, can utilize most comdenstion water (for example 1.5 produced comdenstion water of air conditioner realize whole atomizing basically, and the air conditioner can't realize the complete atomization comdenstion water more than 1.5, will have some comdenstion water to be discharged), and unnecessary air conditioner comdenstion water realizes the long distance discharge at overflow water pump (the preferred drainage pump that still cooperates), has solved the restriction of discharge distance and direction (the user can handle it or reutilization as required).

Drawings

FIG. 1 is a perspective view of the atomizer of the present invention;

FIG. 2 is a schematic view of the internal structure of the atomizer in the present case;

FIG. 3 is another schematic view of the internal structure of the atomizer of the present invention;

FIG. 4 is a perspective view of the atomizer and splash guard mechanism;

FIG. 5 is a schematic diagram of the design of the water path of the atomizer in the present case;

FIG. 6 is a block diagram of the intelligent control principle of the atomizer;

fig. 7 is a schematic flow chart of the working principle of the atomizer.

Description of the reference symbols

A cabinet 1, a water collection tank 11, a left water collection tank 111, a right water collection tank 112,

an atomizing chamber 12, a mist outlet chamber 13, a mist outlet 131,

a water inlet 14, a left water inlet 141, a right water inlet 142, and a filter mechanism 15;

a splash-proof mechanism 16, a water-retaining umbrella body 161;

an execution component 2, a water injection pump 21, an overflow water pump 22, an ultrasonic atomizer 23, a fan 24,

a left water valve 25, a right water valve 26, a drainage pump 27 and a stepless speed regulator 28;

the intelligent control part 3 is provided with a plurality of intelligent control parts,

a controller 30, a high water level sensor 31, a low water level sensor 32, a water level float switch 33, an atomizer water level switch 34, a drainage path selection switch 35, an emptying water switch 36 and a main switch 37;

a working indicator lamp 381, a drain indicator lamp 382, a valve state indicator lamp 383;

the remote control module 39, the WIFI switch module 391 and the infrared remote control module 392.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

The present invention relates to an air conditioner condensed water atomizer, as shown in fig. 1-7, which mainly comprises a casing 1, an executing component 2 and an intelligent control part 3.

A water collecting tank 11 and an atomizing cavity 12 are formed in the machine shell 1, and are specifically realized through a partition plate, so that the water collecting tank 11 and the atomizing cavity 12 which are independent are formed. The casing 1 is provided with a water inlet 14 communicated with the water collecting tank 11, and the water inlet 14 is provided for an air conditioner condensate water discharge pipe to directly extend into so as to be communicated with the water collecting tank 11. The design of the atomizing cavity 12 and the water collecting tank 11 and the atomizing cavity 12 mainly aims at realizing high-power atomizing effect in a matching manner (see details in the description later), and the atomizing cavity 13 is specially designed for matching high-power atomizing, so that a transfer temporary storage space is provided for a large amount of water mist generated by the atomizing cavity.

A mist outlet 131 corresponding to the mist outlet chamber 13 is formed on the side surface of the housing 1. In the specific design of the mist outlet cavity 13, the mist outlet cavity can be not only limited to the space right above the mist outlet cavity 12, but also can extend from two sides in the past, so that the volume of the mist outlet cavity 13 is reasonably enlarged, and meanwhile, the mist outlet 131 can also be correspondingly designed into a strip shape, so that the mist is beneficial to being uniformly spread and sent out, and the mist humidification effect is improved. The atomizer is mainly matched with a wall-mounted air conditioner for use in application and can be directly arranged below the air conditioner, the directions of the mist outlet 131 and the air outlet of the air conditioner are the same, and the mist outlet 131 is closer to the air outlet of the air conditioner and can be used for diffusing water mist again by means of the wind power of the air conditioner; so to the indoor effect of water smoke humidification better.

Regarding the arrangement relationship between the water collecting tank 11 and the atomizing chamber 12, in a preferred embodiment, the atomizing chamber 12 and the water collecting tank 11 are arranged in an inner-outer surrounding manner, that is, the atomizing chamber 12 is arranged in an inner-outer surrounding manner, and the water collecting tank 11 is arranged in a fully-surrounding or semi-surrounding manner (for example, three-sided surrounding manner), so that the water collecting tank 11 is formed with the left water collecting tank 111 and the right water collecting tank 112 communicated with each other, and one water inlet 14 is arranged on each of the left and right sides, that is, the left and right end positions of the casing 1 are provided with the left water inlet 141 and the right water inlet 142 respectively communicated with the left water collecting tank 111 and the right water collecting tank 112.

Corresponding to the above preferred scheme, the casing 1 is preferably in a long strip structure corresponding to the shape of the air conditioner, which is beneficial to the surrounding arrangement of the water collecting tank 11 and the atomizing cavity 12, is beneficial to the above strip extension design of the mist outlet cavity 13 and the mist outlet 131, and is also beneficial to being connected with an air conditioner condensate water discharge pipe.

The execution assembly 2 mainly comprises a water injection pump 21, an overflow water pump 22, an ultrasonic atomizer 23 and a fan 24. The water inlet pipe and the water outlet pipe of the water injection pump 21 extend to the water collection tank 11 and the atomization chamber 12, respectively, so that the water injection pump 21 performs an operation of injecting water in the water collection tank 11 to the atomization chamber 12. An overflow pump 22 is installed in the water collection tank 11, and preferably a submersible pump, performs an operation of discharging water in the water collection tank 11 as an overflow.

The ultrasonic atomizer 23 is arranged in the atomizing cavity 12 and is provided with a high-power atomizing plate group 231 which adopts a complete immersion type, and in the specific design, the high-power atomizing plate group 231 is arranged in six plates, so that the high-power standard of 3000 plus 4000ml per hour is realized. The high-power atomizing sheet set 231 is in a complete immersion type working mode, and the structure of the water collecting tank 11 and the atomizing cavity 12 is designed in the scheme, and the operation of obtaining the optimal atomizing water level is automatically controlled by matching with a water pump, so that the high-power atomizing sheet set 231 is ensured to be in a working state with a specific optimal distance (for example, 4cm) from the water surface above the high-power atomizing sheet set, the duration of the working state is ensured to be maximized, and the high-power atomizing effect is finally ensured to be achieved.

The fan 24 is arranged above the mist outlet chamber 13 and arranged to blow air downwards. The fan 24 blows air downward from above the mist outlet chamber 13 to press (blow) the water mist filled in the mist outlet chamber 13 out of the mist outlet chamber 13. The design of the fan 24 is also specially designed for matching with high-power fog, and the fan is assisted by adopting a lateral pressure mode relative to the fog outlet direction, so that the air outlet force can be more uniform, and the fog outlet effect is better than that of direct forward blowing. The blower 24 is preferably a waterproof silent fan.

The intelligent control part 3 mainly comprises a controller 30, and a high water level sensor 31, a low water level sensor 32, a water level float switch 33 and an atomizer water level switch 34 which are electrically connected with the controller 30. The high water level sensor 31 and the low water level sensor 32 are respectively used for detecting the highest water level and the lowest water level of the water collection tank 11, and in a specific design, the high water level sensor 31 and the low water level sensor 32 can both adopt non-contact water level switches (in fig. 7, the non-contact water level switch 1 of the water tank refers to the high water level sensor 31, and the non-contact water level switch 2 of the water tank refers to the low water level sensor 32), and are hermetically mounted on the side wall of the water collection tank 11. The water level can be accurately controlled by utilizing the high precision of the non-contact water level switch, the installation is convenient, the user can easily adjust the highest water level/the lowest water level, and the high/low water storage capacity of the water collecting tank 11 is controlled. The water level float switch 33 and the atomizer water level switch 34 are respectively used for detecting the highest water level and the working water level of the atomizing chamber 12; adopt water level float switch 33 can avoid the water smoke influence well, ensure to detect accurate nature. The atomizer water level switch 34 can be a water level switch (which can be an associated inductive switch of the ultrasonic atomizer) which is in contact with and integrated in the ultrasonic atomizer.

The atomizer operates, is detected and provides trigger signal by relevant inductor response, and relevant executive component work is controlled by controller 30, specifically: (1) the water injection pump 21 starts to work under the condition that the water collection tank 11 reaches the lowest water level and the atomization cavity 12 is lower than the highest water level, and performs the operation of injecting water in the water collection tank 11 into the atomization cavity 12; of course, when the condition is not satisfied, the water injection pump 21 stops operating. The water collecting tank 11 is limited to reach the lowest water level, and the operation is guaranteed to be continued on the premise that a certain amount of water is stored, so that the main purpose is to avoid the idling problem of the water injection pump 21 and to enable the whole machine working system to be stable. (2) The ultrasonic atomizer 23 is started to work under the condition that the atomizing cavity 12 reaches the working water level, the generated water mist fills the mist outlet cavity 13, and meanwhile, the fan 24 is started to work to press out the water mist in the mist outlet cavity 13, so that the high-power atomizing and humidifying effect is realized; of course, when the condition is not satisfied, the ultrasonic atomizer 23 stops working, and the blower 24 may stop working after delaying for a certain short time, so as to press out all the water mist in the mist outlet chamber 13 as much as possible. (3) The overflow water pump 22 is started to work under the condition that the water collecting tank 11 reaches the highest water level, and the operation of overflowing and discharging the water in the water collecting tank 11 is executed; similarly, when the condition is not satisfied, the overflow pump 22 stops working, so that the discharge of the condensed water is reduced as much as possible, and the utilization rate of the condensed water is improved.

Aiming at the problem of discharging the part of the unused condensed water, the proposal proposes the optimal proposal that the machine shell 1 is provided with a water outlet which is provided with a left water outlet and a right water outlet which are arranged on the left and the right. With controlling the water inlet design and being the same, control the setting of outlet, the user can select left side or the right drainage according to the air conditioner mounting means, promotes installation convenience and practicality. For the left and right water outlet structures, the water discharge pipeline is designed corresponding to the water discharge pipeline, and the water discharge pipeline has left and right water discharge ends (see fig. 5, the thick line in the figure is the water discharge pipeline, the solid line is the water inlet pipeline of each water pump, and the dotted line is the water outlet pipeline of each water pump), and the left and right water discharge ends respectively extend out of the left and right water outlets to realize water discharge. The actuating assembly 3 further comprises a left water valve 25 and a right water valve 26 which are electrically connected with the controller 30, and the left water valve 25 and the right water valve 26 are arranged on respective drainage pipelines of the left drainage port and the right drainage port, namely on the left drainage end and the right drainage end. The intelligent control part 3 further comprises a drainage path selection switch 35 electrically connected with the controller 30, wherein the drainage path selection switch 35 controls one of the left water valve 25 and the right water valve 26 to be in a normally open state, and the selected one of the left water valve 25 and the right water valve 26 is used as a fixed drainage path according to installation, so that the atomizer is ensured to have a function of normally draining water under any condition. The drain selector switch 35 may be a single-pole double-throw switch (illustrated by a left drain switch and a right drain switch in fig. 7), and the left water valve 25 and the right water valve 26 may be normally closed solenoid valves (in fig. 7, a left drain port normally closed solenoid valve refers to the left water valve 25, and a right drain port normally closed solenoid valve refers to the right water valve 26).

Preferably, the actuating assembly 2 further comprises a drain pump 27 for performing the operation of completely draining the water inside the nebulization chamber 12. The intelligent control part 3 also comprises an emptying water switch 36 electrically connected with the controller 30; the emptying water switch 36 controls the water pump 21 to pump up the water in the water collecting tank 11 (to fill the water into the atomizing chamber 12) on the premise that the atomizing chamber 12 is lower than the highest water level, and the drainage pump 27 starts up the operation to completely drain the water in the atomizing chamber 12. Of course, when the atomizing chamber 12 reaches the maximum water level, the water injection pump 21 automatically stops the water injection operation. The emptying water switch 36 is preferably a double-pole single-throw switch (illustrated in fig. 7 by the drain switch 1 and the drain switch 2), and this switching characteristic is used to implement different modes of operation of the water injection pump 21, i.e., to make the water injection pump 21 bypass the restriction of the lowest water level of the water collection sump 11, so as to implement a complete water drainage function.

The water discharge pump 27 and the emptying water switch 36 of the preferred scheme are specially designed aiming at the condition that the atomizer is not used for a long time, the atomizer is matched with an air conditioner for use, the air conditioner is used seasonally or randomly, therefore, the atomizer can be continuously used for a certain long time, at the moment, because the atomizer always remains water in the atomizer after being used every time, in order to ensure that the remaining water can be completely discharged under the condition of not being used for a long time, the service life of the atomizer is ensured, the preferred scheme is specially designed, the emptying water switch 36 is operated, the water in the water collection tank 11 is pumped by the water injection pump 21, the pumped water is firstly injected into the atomizing cavity 12, then the water in the atomizing cavity 12 is drained by the water discharge pump 27, and thus the whole storage structure in the atomizer is ensured to be in a completely anhydrous state. Here, especially, the drainage flow direction of the water collecting tank 11-the atomizing chamber 12-is adopted, so that the design of the water pump can be reduced, the utilization of the structural space can be improved, some inconvenient factors in installation can be overcome, and the utilization rate of the existing equipment can be improved in a limited space.

In a preferable scheme, the executing assembly 2 further comprises a stepless speed regulator 28, and the stepless speed regulator 28 is electrically connected between the controller 30 and the ultrasonic atomizer 23 to adjust the mist output of the ultrasonic atomizer 23, and finally, the practical requirement of flexible and adjustable mist effect is realized. The ultrasonic atomizer 23 is powered by a 36V waterproof transformer, the voltage input into the ultrasonic atomizer 23 is controlled by the stepless speed regulator 28, the stepless speed regulator can also be electrically connected with a potentiometer, and a user can simply regulate and control the mist output of the atomizer according to personal habits.

Preferably, the intelligent control part 3 further includes a remote control module 39 electrically connected to the controller 30, and the remote control module 39 may take various forms, such as a WIFI switch module 391 and an infrared remote control module 392, and one or both of the forms may be selected. So the user makes can use cell-phone APP remote control atomizing machine equipment, also can regularly close the function through the cell-phone setting simultaneously. Of course, the infrared remote control function can also be carried out on site through the related remote controller.

Preferably, the atomizer can also be designed with the relevant pilot lamp that is connected with the controller mutually electricity, plays the warning effect of instructing. The indicator light can be designed according to actual needs, for example, the indicator light includes an operation indicator light 381, a drain indicator light 382, and a valve status indicator light 383, the operation indicator light 381 is used for indicating that the atomizer is in the atomization operation state, the drain indicator light 382 is used for indicating that the atomizer is in the drain treatment state, and the valve status indicator light 383 is used for indicating that the left water valve 25 or the right water valve 26 is in the normally open state. In addition, the atomizer is also provided with a power supply module, and the atomizer is preferably further provided with a main switch 37 (preferably with an indicator light) for starting the atomizer.

Preferably, a water path for communicating the water collecting tank 11 and the water inlets 14 is further provided with a filtering mechanism 15, and the filtering mechanism 15 is provided with a left filtering mechanism and a right filtering mechanism in the same manner corresponding to the design of the left water inlet 14 and the right water inlet 14. The air conditioner condensate drain pipe may be directly inserted into the filter mechanism 15. One embodiment of the filter mechanism 15 has a cylindrical filter screen assembly with a mesh size controlled between 0.5mm and 1.0 mm. The size is limited, large-particle substances can be effectively filtered to enter the water collecting tank 11, influence on an internal water pump is prevented, and excessive overflow caused by filtering is avoided when water enters the water collecting tank. Moreover, a detachable mounting cover can be arranged at the water inlet, and the filter screen assembly can be simply detached and cleaned through the mounting cover.

Preferably, the ultrasonic atomizer 23 is further provided with a splash-proof mechanism 16, the splash-proof mechanism 16 has water-retaining umbrella bodies 161 corresponding to the atomizing sheets of the high-power atomizing sheet set 231 one by one, and the water-retaining umbrella bodies 16 are arranged above the highest water level of the atomizing chamber 12 through supporting columns 162. The height of the water blocking umbrella 16 is preferably controlled to be 0.5-1.4cm, for example, the height of the water surface (highest water level) of the atomizing cavity is 6cm, and the installation height of the water blocking umbrella is 6.5-7.4 cm. In the specific design, the water retaining umbrella bodies 161 can be connected into a whole, and the four support columns 162 arranged pairwise on the left and the right are connected with the atomizer to be uniformly supported. The water-retaining umbrella body 161 is provided with a drainage cavity in an inverted cone shape. Under the working state of the ultrasonic atomizer 23, the high-power atomizing plate group 231 is completely immersed in water and has a certain distance with the water surface, so that the high-power atomizing plate group can splash at the upper part of the atomizing plate during working.

The treatment control principle of the atomizer comprises two parts: A) atomization treatment control and B) drainage treatment control; as shown in fig. 6-7, wherein,

A) the atomization treatment control principle is as follows:

1) collecting air conditioner condensate water into a water collecting tank 11;

2) under the condition that the water collecting tank 11 reaches the lowest water level and the atomizing cavity 12 is lower than the highest water level, the water injection pump 21 starts to work to perform the operation of injecting the water in the water collecting tank 11 to the atomizing cavity 12; of course, when the condition is not satisfied, the water injection pump 21 stops operating;

3) under the condition that the atomizing cavity 12 reaches the working water level, the ultrasonic atomizer 23 starts to work to execute high-power atomization, and formed water mist fills the atomizing cavity 12; the fan 24 is started to work to press the water mist in the mist outlet cavity 13 out of the mist outlet cavity 13. The high power atomization function of the ultrasonic atomizer 23 can be seen from the above description, and will not be described in detail here.

B) The drainage treatment control principle is as follows: when the water collection tub 12 reaches the highest water level, the overflow pump 22 is operated to perform an operation of discharging the water in the water collection tub 12 until it is lower than the highest water level.

The scheme realizes a high-power atomization effect, most of condensed water can be utilized (for example, the condensed water generated by 1.5P air conditioners basically realizes all atomization, the air conditioners above 1.5P cannot realize complete atomization of the condensed water, and a part of the condensed water can be discharged), and the redundant condensed water of the air conditioners is discharged in a long distance at the overflow water pump 22, so that the limitation of the discharge distance and direction is solved (a user can process or secondarily utilize the condensed water as required).

The above description is only a preferred embodiment of the present invention, and all equivalent changes and modifications made within the scope of the claims of the present invention should fall within the scope of the claims of the present invention.

Claims (10)

1. The utility model provides an air conditioner comdenstion water atomizing machine which characterized in that: comprises a shell, an execution assembly and an intelligent control part; wherein,

a water collecting tank and an atomizing cavity are formed in the shell; the shell is provided with a water inlet communicated with the water collecting tank; a mist outlet cavity is formed above the atomizing cavity, and a mist outlet corresponding to the mist outlet cavity is formed in the side surface of the machine shell;

the execution assembly comprises a water injection pump, an overflow water pump, an ultrasonic atomizer and a fan; the water injection pump performs the operation of injecting water in the water collecting tank to the atomizing cavity, and the overflow water pump performs the operation of overflowing and discharging the water in the water collecting tank; the ultrasonic atomizer is arranged in the atomizing cavity and is provided with a high-power atomizing sheet set which adopts a complete immersion type; the fan is arranged above the mist outlet cavity and is arranged for blowing downwards;

the intelligent control part comprises a controller, and a high water level sensor, a low water level sensor, a water level float switch and an atomizer water level switch which are electrically connected with the controller; the high water level sensor and the low water level sensor respectively detect the highest water level and the lowest water level of the water collecting tank, and the water level float switch and the atomizer water level switch respectively detect the highest water level and the working water level of the atomizing cavity;

the controller controls the execution assembly to work, wherein the water injection pump starts to work under the condition that the water collection tank reaches the lowest water level and the atomization cavity is lower than the highest water level; the ultrasonic atomizer starts to work under the condition that the atomizing cavity reaches the working water level, and the fan and the ultrasonic atomizer work synchronously; the overflow water pump is started to work under the condition that the water collecting tank reaches the highest water level.

2. An air conditioner condensate atomizing unit as set forth in claim 1, wherein: the atomizing chamber and the water catch bowl are arranged in an inner and outer surrounding mode, a left water collecting groove and a right water collecting groove which are communicated with each other are formed corresponding to the water collecting grooves, and a left water inlet and a right water inlet which are respectively communicated with the left water collecting groove and the right water collecting groove are arranged at the left end position and the right end position of the machine shell.

3. An air conditioner condensate atomizing unit as set forth in claim 1, wherein: the shell is provided with a water outlet, and the water outlet is provided with a left water outlet and a right water outlet which are arranged on the left and the right; the executing component also comprises a left water valve and a right water valve which are electrically connected with the controller, and the left water valve and the right water valve are arranged on respective water discharging pipelines of the left water discharging port and the right water discharging port; the intelligent control part also comprises a drainage route selection switch electrically connected with the controller, and the drainage route selection switch controls one of the left water valve and the right water valve to be in a normally open state.

4. An air conditioner condensate atomizer as claimed in claim 1 or 3, wherein: the execution assembly further comprises a drainage pump for completely draining the water in the atomization cavity, and the intelligent control part further comprises an emptying water switch electrically connected with the controller; the emptying water switch controls the water injection pump to pump water in the water collecting tank completely on the premise that the atomization cavity is lower than the highest water level, and simultaneously controls the drainage pump to start working.

5. An air conditioner condensate atomizing unit as set forth in claim 4, wherein: the emptying water switch adopts a double-pole single-throw switch.

6. An air conditioner condensate atomizing unit as set forth in claim 1, wherein: and a water collecting groove is communicated with the water inlet, a filtering mechanism is further arranged on a water path, and the mesh size of a filtering net component of the filtering mechanism is controlled between 0.5mm and 1.0 mm.

7. An air conditioner condensate atomizing unit as set forth in claim 1, wherein: the ultrasonic atomizer is also provided with a splash-proof mechanism, the splash-proof mechanism is provided with water-retaining umbrella bodies which are in one-to-one correspondence with the atomizing sheets of the high-power atomizing sheet group, the water-retaining umbrella bodies are higher than the highest water level of the atomizing cavity, and the water-retaining umbrella bodies are provided with inverted cone-shaped drainage cavities.

8. An air conditioner condensate atomizing unit as set forth in claim 1, wherein: the executive component also comprises a stepless speed regulator which is electrically connected between the controller and the ultrasonic atomizer so as to adjust the fog output of the ultrasonic atomizer.

9. An air conditioner condensate atomizing unit as set forth in claim 1, wherein: the intelligent control part also comprises a remote control module electrically connected with the controller, and the remote control module is at least one of a WIFI switch module and an infrared remote control module.

10. An air conditioner condensate atomizing unit as set forth in claim 1, wherein: the execution assembly further comprises an indicator light electrically connected with the controller, and the indicator light comprises a working indicator light and a drainage indicator light.

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