CN111023306A

CN111023306A - Self-circulation humidification system of cabinet air conditioner and control method thereof

Info

Publication number: CN111023306A
Application number: CN201911313424.2A
Authority: CN
Inventors: 田院超
Original assignee: Aux Air Conditioning Co Ltd; Ningbo Aux Electric Co Ltd
Current assignee: Aux Air Conditioning Co Ltd; Ningbo Aux Electric Co Ltd
Priority date: 2019-12-18
Filing date: 2019-12-18
Publication date: 2020-04-17

Abstract

The invention provides a cabinet air conditioner self-circulation humidifying system and a control method thereof, wherein the cabinet air conditioner self-circulation humidifying system is arranged at the base position of a cabinet air conditioner and comprises the following components: the device comprises a containing bin, a charging device, a water storage device, a humidifying device and a wireless control module; the accommodating bin is arranged at the bottom of the cabinet air conditioner, and one side of the accommodating bin is provided with a charging device; the water storage device is connected with a water outlet pipe of the cabinet air conditioner, the water storage device is arranged at the top of the accommodating bin, and a water outlet arranged at the bottom of the water storage device extends into the accommodating bin; the humidifying device is accommodated in the accommodating bin; the humidifying device is respectively connected with the water outlet of the water storage device and the charging device; the wireless control module is used for detecting the residual water amount of the humidifying device, detecting the current state information of the humidifying device and controlling the water storage device to respectively carry out water adding and/or charging operation on the humidifying device according to the current state information. The invention utilizes the cabinet air conditioner to provide condensed water and charge for the humidifying device, thereby realizing the effect of self-circulation humidifying of the condensed water.

Description

Self-circulation humidification system of cabinet air conditioner and control method thereof

Technical Field

The invention relates to the technical field of air conditioners, in particular to a self-circulation humidifying system of a cabinet air conditioner and a control method thereof.

Background

In the process of using the air conditioner in summer, a lot of condensed water can be produced, and the condensed water is generally discharged outdoors through a water pipe at present, so that the humidity of indoor air is gradually reduced, and the phenomenon of drying the indoor air is caused. Therefore, the air conditioner is used in summer, and the user often uses the humidifier to humidify the indoor air, but the user needs to add water manually. And condensation water often drops on outdoor passers-by, leading to the noise frame or dispute problem occasionally to take place. Therefore, the above problems caused by using the air conditioner in summer bring cool feeling to the user and also bring much trouble to the user.

It can be seen how to properly dispose of the condensed water and at the same time to alleviate the problem of drying of the indoor air after long-term use of the air conditioner.

Disclosure of Invention

The invention solves the problem of how to recycle the condensed water and relieve the dryness of the indoor air after long-time use of the air conditioner.

In order to solve the above problems, the present invention provides a self-circulation humidification system for a cabinet air conditioner, which is disposed at a base of the cabinet air conditioner, and comprises:

the accommodating bin is provided with an opening at least one side and is arranged at the bottom of the cabinet air conditioner;

the charging device is arranged on one side of the accommodating bin;

the water storage device is connected with a water outlet pipe of the cabinet air conditioner and is used for collecting condensed water; the water storage device is arranged at the top of the containing bin, and a water outlet is formed in the bottom of the water storage device and extends into the containing bin.

The cabinet air conditioner is used for providing the condensate water for the humidifying device, so that the condensate water is recycled, and the aim of humidifying indoor air can be fulfilled without manual water addition of a user.

Further, the method also comprises the following steps: and the wireless control module is used for detecting the residual water amount of the humidifying device and detecting the current state information of the humidifying device, and controlling the water storage device to add water to the humidifying device and/or the charging device to charge the humidifying device according to the current state information.

Further, the method also comprises the following steps: the humidifying device is accommodated in the accommodating bin; the humidifying device is respectively connected with the water outlet of the water storage device and the charging device.

Furthermore, the humidifying device is a sweeping robot with a humidifying function. The functions of the cabinet air conditioner and the floor sweeping robot are combined, the floor sweeping robot humidifies indoor air, the cabinet air conditioner provides condensed water and charges the floor sweeping robot, recycling of the condensed water is achieved, and the purpose of humidifying the indoor air can be achieved without manual water adding of a user.

Further, the method also comprises the following steps: the mobile device is connected with the humidifying device and bears the humidifying device to move. The mobile device bears the humidifying device, so that the humidifying device can humidify indoor air movably.

Further, the wireless control module comprises: the water quantity detection device comprises a wireless sending module, a wireless receiving module and a water quantity detection module; the wireless sending module is arranged on the humidifying device and used for sending the current state information of the humidifying device to the wireless receiving module; the wireless receiving module is arranged on the charging device and used for receiving the current state information of the humidifying device sent by the wireless sending module; the water quantity detection module is arranged on the humidifying device and used for detecting the residual water quantity of the humidifying device.

Further, the method also comprises the following steps: electrical terminals and relays. The electric wiring terminal is electrically connected with the charging device; the relay is arranged between the electric wiring terminal and the charging device.

Further, the method also comprises the following steps: the electromagnetic valve is arranged at the water outlet of the water storage device and used for controlling the water outlet of the water storage device.

Furthermore, the water storage device is also provided with an anti-overflow water outlet which is arranged at the top of the water storage device and is connected with an air conditioner water outlet pipe. When the condensed water collected by the water storage device is full and a user does not need to humidify indoor air, the excessive condensed water is reasonably discharged through the water outlet pipe, and the excessive condensed water is prevented from overflowing the water storage device.

In order to solve the above problems, the present invention further provides a control method for a cabinet air conditioner self-circulation humidification system, comprising the steps of:

A. a water quantity detection module of the wireless control module detects the value s of the residual water quantity of the humidifying device and judges whether s is 0 or not;

B. when s is equal to 0, the wireless receiving module of the wireless control module receives the state identification information sent by the humidifying device; when s is not equal to 0, returning to the step A again;

C. and the wireless receiving module of the wireless control module judges the current state of the humidifying device according to the state identification information and is used for controlling the water storage device to add water to the humidifying device and/or controlling the charging device to charge the humidifying device.

The invention realizes the wireless control of charging and water adding of the humidifying device and realizes the self-circulation humidifying effect of the cabinet air conditioner condensate water.

Further, the state identification information received by the wireless receiving module of the wireless control module in the step B and sent by the humidifying device is a code a, a code B, a code C and a code D respectively; and C, judging the current state of the humidifying device according to the received state marking information, wherein the current state is respectively as follows:

the code A needs to be charged and water needs to be added;

the code B needs to be charged without adding water;

the code C does not need to be charged and needs to be added with water;

the D code does not need to be charged and does not need to be added with water.

The current state is further classified, and charging and water adding are controlled more clearly.

Further, the method further comprises the following step after the step C:

D. the water quantity detection module of the wireless control module detects the residual water quantity s value of the humidifying device again and judges whether s is 1 or not;

E. when s is equal to 1, the wireless control module controls to close the electromagnetic valve and stop adding water; and when s is not equal to 1, returning to the step D.

a', the humidifying device detects the value of s through a water quantity detection module of the wireless control module, and judges whether s is 0 or not;

when B' and s are equal to 0, the humidifying device returns to the accommodating bin and is connected with the charging device;

and C', sending state identification information to a wireless receiving module of the wireless control module so that the wireless control receiving module judges the current state of the humidifying device according to the state identification information to control the water storage device to add water to the humidifying device and/or control the charging device to charge the humidifying device.

Further, in the step C', the state identification information sent by the humidifying device to the wireless receiving module of the wireless control module is a code a, a code B, a code C, and a code D.

Drawings

Fig. 1 is a schematic view of the overall structure of a self-circulation humidifying system of a cabinet air conditioner according to the present invention.

Fig. 2 is a flow chart of a control method of the cabinet air conditioner self-circulation humidifying system of the present invention.

Description of reference numerals:

1-a holding bin;

2-a charging device;

3, a water storage device;

31-a water outlet;

4-a humidifying device;

5-a wireless receiving module;

6-an electrical connection terminal;

7-a relay;

8-an electromagnetic valve;

9-cabinet air conditioner;

10-air conditioner outlet pipe.

Detailed Description

Because the air conditioner is more and more widely used in life, people are more and more accustomed to using the air conditioner to cool the indoor space in hot summer, but the air conditioner always produces a lot of comdenstion water in the refrigeration process, generally discharges the comdenstion water outdoor through the water pipe at present, and such treatment methods often can cause the pollution of environment, the corruption scheduling problem of building body structure. On the other hand, after the air conditioner is used for a long time, the humidity of indoor air is gradually reduced, and the problem of indoor air drying is caused. The invention aims to solve the technical problem of how to reasonably and effectively utilize the condensed water to realize the self-circulation humidification of the air conditioner because the indoor air is dry due to the discharge of the condensed water when the condensed water is discharged.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In one embodiment of the invention, a self-circulation humidifying system of a cabinet air conditioner is provided. Fig. 1 is a schematic view of the overall structure of a self-circulation humidifying system of a cabinet air conditioner according to the present invention. As shown in fig. 1, the self-circulation humidification system of a cabinet air conditioner of the present invention is disposed at a base of the cabinet air conditioner 9, and includes: the device comprises a containing bin 1, a charging device 2, a water storage device 3, a humidifying device 4 and a wireless control module. The accommodating bin 1 is provided with an opening at least at one side, and the accommodating bin 1 is arranged at the bottom of the cabinet air conditioner 9 and is used for accommodating the humidifying device. The charging device 2 is arranged on one side of the accommodating bin 1. The water storage device 3 is connected with a water outlet pipe of the cabinet air conditioner 9 and is used for collecting condensed water; the water storage device 3 is arranged at the top of the accommodating bin 1, and a water outlet of the water storage device 3 extends into the accommodating bin 1. The humidifying device 4 is accommodated in the accommodating bin 1; and the humidifying device 4 is respectively connected with the water outlet of the water storage device 3 and the charging device 2. The wireless control module is used for detecting the residual water quantity of the humidifying device 4 and detecting the current state information of the humidifying device 4, and controlling the water storage device 3 to add water to the humidifying device 4 and/or the charging device 2 to charge the humidifying device 4 according to the current state information. The electric wiring terminal 6 is electrically connected with the charging device 2; the charging device is connected with the cabinet air conditioner 9, and the charging device is supplied with power through the cabinet air conditioner 9.

Optionally, a relay 7 is arranged between the electrical connection terminal 6 and the charging device 2.

In some preferred embodiments of the present invention, the present invention further comprises an electromagnetic valve 8 disposed at the water outlet of the water storage device 3 for controlling the water outlet of the water storage device 3.

In some preferred embodiments of the present invention, the air conditioner further comprises an anti-overflow water outlet, which is arranged at the top of the water storage device 3 and connected to the air conditioner water outlet pipe 10, and when the water storage device 3 is full of water, the water flows out through the anti-overflow water outlet to prevent the water storage device from overflowing.

In some preferred embodiments of the present invention, the humidifying device 4 may be a sweeping robot with a humidifying function. In some preferred embodiments of the present invention, the humidifying device 4 may also be optionally connected to an additional moving device, and the moving device carries the humidifying device 4 to move, so as to achieve the effect of moving the humidifying device.

The following describes each component of the self-circulation humidifying system of the cabinet air conditioner in detail.

Further explanation is needed regarding the water storage apparatus:

a water storage device is designed in the cabinet air conditioner 9 and is used for collecting condensed water generated in the running process of the air conditioner. The water storage device is designed in the air conditioner base, and the bottom of the water storage device is higher than the reserved height of the accommodating bin. The bottom of the water storage device is provided with a water outlet which is used for being connected with a water tank of the humidifying device through a water pipe. The upper part of the water storage device is provided with another water outlet which is used for being connected with an air conditioner water outlet pipe 10, when the condensed water collected by the water storage device is full and a user does not need to humidify indoor air, the excessive condensed water is reasonably discharged through the water outlet pipe, and the excessive condensed water is prevented from overflowing the water storage device. Therefore, the water storage device stores water, and the recovery of condensed water can be realized; water is added to the floor sweeping robot through the water storage tank, and utilization of condensed water is achieved.

Further explanation is needed with respect to the wireless control module:

the wireless control module comprises: the device comprises a wireless sending module, a wireless receiving module 5 and a water quantity detection module. Wherein,

the wireless sending module is arranged on the humidifying device 4 and used for sending the current state information of the humidifying device 4 to the wireless receiving module 5. The infrared code sending device is used for sending infrared code sending signals and carrying out data communication with an air conditioner.

The wireless receiving module 5 is disposed on the charging device 2, and is configured to receive the current state information of the humidifying device 4 sent by the wireless sending module. And when the humidifying device is connected with the charging device, the infrared code sending signal is used for receiving the humidifying device.

The water amount detection module is disposed on the humidifying device 4, and is configured to detect a remaining water amount of the humidifying device 4.

When the humidifying device is charged and the water bin is added, the following four states exist, and the infrared code sending signals of the wireless sending module in the four states are defined as A, B, C, D four code sending signals. The states of the dehumidification device corresponding to the four codes are as follows: when the A code is transmitted, charging and water adding are needed; when the B code is transmitted, charging is needed, and water is not needed to be added; when the C code is transmitted, charging and water adding are not needed; when the D code is transmitted, charging is not needed, water is not needed to be added, and the dehumidifying device is in a standby state of full power and full water in the charging and water adding bin. Further, when the robot of sweeping the floor that has dehumidification function was selected for use as dehydrating unit to this embodiment, when the robot of sweeping the floor returned to charge, add the water storehouse, the robot of sweeping the floor launches infrared signal, and the air conditioner is through detecting the infrared signal that the robot of sweeping the floor launched, judges whether the robot of sweeping the floor needs to charge or the state of adding water, according to different states, through charge switch, the switch of adding water more than the air conditioner control, and then control the air conditioner and accomplish and charge, the task of adding water for the robot of sweeping the floor.

The components such as the accommodating chamber, the charging device, and the relay need to be further described:

the accommodating bin is arranged at the bottom of the cabinet air conditioner 9, and specifically, a certain height space is reserved inside a base of the cabinet air conditioner 9 to be used as the accommodating bin. One side of the accommodating bin is provided with a charging device which is used as a charging interface of the humidifying device. And a relay is arranged in the charging loop to serve as a charging switch, and the charging switch is controlled by an air conditioner, so that the switching of two states of switching on and switching off a power supply of the charging device is realized.

The invention also provides a control method of the cabinet air conditioner self-circulation humidifying system, which comprises the following steps:

and step A, a water quantity detection module of the wireless control module detects the value of the residual water quantity s of the humidifying device and judges whether s is 0 or not.

When the step B, s is equal to 0, the wireless receiving module of the wireless control module receives the state identification information sent by the humidifying device; and returning to the step A again when s is not equal to 0. Furthermore, the status identification information is respectively an a code, a B code, a C code and a D code.

And step C, judging the current state of the humidifying device by a wireless receiving module of the wireless control module according to the state identification information, and controlling the water storage device to add water to the humidifying device and/or controlling the charging device to charge the humidifying device. Further, the current state of the humidifying device is judged according to the received state identification information, which is respectively as follows: the code A needs to be charged and water needs to be added; the code B needs to be charged without adding water; the code C does not need to be charged and needs to be added with water; the D code does not need to be charged and does not need to be added with water.

And D, detecting the residual water quantity s value of the humidifying device again by a water quantity detection module of the wireless control module, and judging whether s is 1 or not.

When the step E, s is equal to 1, the wireless control module controls to close the electromagnetic valve and stop adding water; and when s is not equal to 1, returning to the step D.

and step A', the humidifying device detects the value of s through a water quantity detection module of the wireless control module, and judges whether s is 0 or not.

And when the step B' and the step s are equal to 0, the humidifying device returns to the accommodating bin and is connected with the charging device.

And step C', sending state identification information to a wireless receiving module of the wireless control module so that the wireless control receiving module judges the current state of the humidifying device according to the state identification information and is used for controlling the water storage device to add water to the humidifying device and/or controlling the charging device to charge the humidifying device. Furthermore, the state identification information is that the humidifying device sends the state identification information to the wireless receiving module of the wireless control module, and the state identification information is respectively an a code, a B code, a C code and a D code.

In one embodiment, a control method of a cabinet air conditioner self-circulation humidifying system is provided. Fig. 2 is a flow chart of a control method of the cabinet air conditioner self-circulation humidifying system of the present invention. As shown in fig. 2, the method for controlling the self-circulation humidification system of the cabinet air conditioner of the present invention includes:

and step Q, electrifying the air conditioner, performing refrigerating operation, and collecting the generated condensate water into the water storage device.

And A, detecting the value of the residual water quantity s of the humidifying device through a water quantity detection module of the wireless control module, and judging whether s is 0 or not. Here, the water amount detection module may be a water level sensor, disposed in the water storage tank of the humidification apparatus, and configured to detect a remaining amount of water in the water storage tank of the humidification apparatus, and defined as s. When the residual water amount is zero, defining s as 0; when the residual water amount is the target water amount to be added, s is defined as 1. By judging the s value, whether the sweeping robot needs to add water or not and whether the water adding state is full can be further judged.

When the step B, s is equal to 0, the humidifying device is connected with the charging device in the accommodating bin and then transmits a signal through a wireless transmitting module of the wireless control module; and returning to the step A again when s is not equal to 0. And B, after the humidifying device is connected with the charging device in the accommodating bin in the step B, transmitting signals through a wireless transmitting module of the wireless control module are respectively an A code, a B code, a C code and a D code. When the humidifying device selects the sweeping robot with the humidifying function, when s is 0, the sweeping robot needs to add water, the sweeping robot automatically returns to the accommodating bin, and the cover plate on the top of the water tank is automatically opened to add water or charge; when S is 1, the floor sweeping robot is full of water, the air conditioner stops adding water and charging for the floor sweeping robot, the floor sweeping robot automatically closes the cover plate at the top of the water tank and leaves the accommodating bin, and indoor air is continuously humidified.

And step C, a wireless receiving module of the wireless control module receives the signal and judges the current state of the humidifying device according to the signal. And C, judging the current state of the humidifying device according to the received infrared code, wherein the judgment is as follows: the code A needs to be charged and water needs to be added; the code B needs to be charged without adding water; the code C does not need to be charged and needs to be added with water; the D code does not need to be charged and does not need to be added with water.

And D, controlling the water storage device to add water to the humidifying device and/or controlling the charging device to charge the humidifying device according to the current state of the humidifying device.

And E, when the humidifying device needs to add water, adding water into the humidifying device by the water storage device, detecting the residual water quantity s value of the humidifying device by a water quantity detection module of the wireless control module, and judging whether s is 1 or not.

When the step F, s is equal to 1, the humidifying device finishes adding water, the electromagnetic valve is closed, and the water adding is stopped; and when s is not equal to 1, returning to the step E.

In a second embodiment of the invention, a self-circulation humidifying system of a cabinet air conditioner and a control method thereof are provided. Compared with the cabinet air conditioner self-circulation humidifying system and the control method thereof in the first embodiment, the cabinet air conditioner self-circulation humidifying system and the control method thereof in the embodiment have the following differences:

the humidifying device is characterized by further comprising a moving device connected with the humidifying device 4, and the moving device bears the humidifying device 4 to move. In this case, it can be understood that the moving device and the humidifying device 4 are integrated, and the accommodating chamber 1 should be capable of accommodating the moving device and the humidifying device after being assembled together. The moving device may be any device capable of freely moving, which can be known by those skilled in the art, and is not further limited to the effect that the carrying humidification device can freely move.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. A cabinet air conditioner self-circulation humidification system is arranged at the base position of a cabinet air conditioner and is characterized by comprising:

the accommodating bin (1) is provided with an opening at least at one side, and the accommodating bin (1) is arranged at the bottom of the cabinet air conditioner (9);

the charging device (2) is arranged on one side of the accommodating bin (1);

the water storage device (3) is connected with a water outlet pipe of the cabinet air conditioner (9) and is used for collecting condensed water; the water storage device (3) is arranged at the top of the accommodating bin (1), and a water outlet is formed in the bottom of the water storage device (3) and extends into the accommodating bin (1).

2. The cabinet air conditioner self-circulation humidification system of claim 1, further comprising: the wireless control module is used for detecting the residual water amount of the humidifying device (4), detecting the current state information of the humidifying device (4), and controlling the water storage device (3) to add water to the humidifying device (4) and/or the charging device (2) to charge the humidifying device (4) according to the current state information.

3. The cabinet air conditioner self-circulation humidification system of claim 1, further comprising: the humidifying device (4) is accommodated in the accommodating bin (1); the humidifying device (4) is respectively connected with the water outlet of the water storage device (3) and the charging device (2).

4. The cabinet air-conditioner self-circulation humidifying system according to claim 3, wherein the humidifying device (4) is a sweeping robot with a humidifying function.

5. The cabinet air conditioner self-circulation humidification system of claim 3, further comprising:

and the moving device is connected with the humidifying device (4), and bears the humidifying device (4) to move.

6. The cabinet air conditioner self-circulation humidification system of claim 2, wherein the wireless control module comprises: the water quantity detection device comprises a wireless sending module, a wireless receiving module (5) and a water quantity detection module;

the wireless sending module is arranged on the humidifying device (4) and used for sending the current state information of the humidifying device (4) to the wireless receiving module (5);

the wireless receiving module (5) is arranged on the charging device (2) and used for receiving the current state information of the humidifying device (4) sent by the wireless sending module;

and the water quantity detection module is arranged on the humidifying device (4) and used for detecting the residual water quantity of the humidifying device (4).

7. The cabinet air conditioner self-circulation humidification system of any one of claims 1-6, further comprising:

an electrical connection terminal (6) electrically connected to the charging device (2);

a relay (7) provided between the electric connection terminal (6) and the charging device (2).

8. The cabinet air conditioner self-circulation humidification system of any one of claims 1-6, further comprising:

and the electromagnetic valve (8) is arranged at the water outlet of the water storage device (3) and is used for controlling the water outlet of the water storage device (3).

9. The cabinet air-conditioner self-circulation humidifying system according to any one of claims 1-6, wherein the water storage device (3) is further provided with an anti-overflow water outlet, which is arranged at the top of the water storage device (3) and connected with an air-conditioner water outlet pipe (10).

10. A control method of a cabinet air conditioner self-circulation humidifying system is characterized by comprising the following steps:

11. The control method according to claim 10, wherein in step B, the status identification information received by the wireless receiving module of the wireless control module from the humidifying device is a code a, a code B, a code C, and a code D; and C, judging the current state of the humidifying device according to the received state identification information, wherein the current state is respectively as follows:

the code A needs to be charged and water needs to be added;

the code B needs to be charged without adding water;

the code C does not need to be charged and needs to be added with water;

12. The control method according to claim 10 or 11, characterized by further comprising, after the step C, the step of:

13. A control method of a cabinet air conditioner self-circulation humidifying system is characterized by comprising the following steps:

14. The control method according to claim 13, wherein the status identification information in step C' is that the humidifying device sends status identification information of a code, B code, C code and D code to the wireless receiving module of the wireless control module.