CN114198821A

CN114198821A - Intelligent dehumidification method without manual water pouring

Info

Publication number: CN114198821A
Application number: CN202111446873.1A
Authority: CN
Inventors: 刘向阳; 曹峰
Original assignee: Ningbo Runner Industrial Corp
Current assignee: Ningbo Runner Industrial Corp
Priority date: 2021-11-30
Filing date: 2021-11-30
Publication date: 2022-03-18

Abstract

The invention discloses an intelligent dehumidification method without manual water pouring, which is applied to a dehumidifier and a charging seat matched with the dehumidifier and relates to a dehumidification technology. The charging and the draining processes of the dehumidifier can be carried out simultaneously, the charging seat is provided with two magnetic suction type charging interfaces and a water receiving interface which are independent of each other, after the dehumidifier is connected to the charging seat, the microcomputer controls the lithium battery of the dehumidifier to be charged at the magnetic suction type charging interfaces, and simultaneously, the microcomputer also controls the water suction pump in the water tank to drain water synchronously through the water receiving interface, so that charging equipment and draining equipment do not need to be prepared independently.

Description

Intelligent dehumidification method without manual water pouring

Technical Field

The invention relates to a dehumidification technology, in particular to an intelligent dehumidification method without manual water pouring.

Background

The dehumidifier is mainly used for dehumidifying, so that moisture and dew in a room are reduced, mildew is prevented, water drops on walls and floors are reduced, and the walls and the floors are protected.

Most of the dehumidifiers in the market adopt a compressor refrigeration type dehumidification mode, namely, the dehumidifier condenses moisture on a low-temperature surface, namely, moist air is pumped into the dehumidifier by a fan, passes through a heat exchanger, water molecules in the air are condensed into water drops, the treated dry air is discharged out of the dehumidifier, and the indoor humidity is kept at a proper relative humidity through circulation.

The condensed water is collected and flows into a water receiving tank arranged below the heat exchanger, and then along with the operation of the dehumidifier, the condensed water in the water receiving tank is prevented from overflowing to cause water leakage. Therefore, a water level switch is arranged in the water receiving tank, when the water level in the water receiving tank reaches a set height, the water level switch acts, the whole dehumidifier stops running and does not dehumidify any more, and the dehumidifier can continue to dehumidify after water in the water receiving tank is poured out manually. When the dehumidification amount is too large, water needs to be poured frequently, and the process is quite troublesome. Or the dehumidifier is not working when the user forgets to pour water, so that the experience is influenced.

Therefore, the dehumidifier cannot continuously dehumidify, in order to continuously operate the dehumidifier on the market, the condensate water generated by the dehumidifier can be continuously discharged through the drain pipe by externally connecting the drain pipe to places such as a toilet and the like, and the dehumidifying operation of the dehumidifier is ensured. However, the drainage mode is only suitable for the dehumidifier to be used at a certain fixed place close to the place where the drainage pipe can be connected, and the dehumidifier cannot move and cannot meet the requirement of moving to multiple rooms for dehumidification.

Disclosure of Invention

Aiming at the problems that the existing dehumidifier cannot move and cannot meet the dehumidification requirements of moving to a plurality of rooms, the dehumidifier aims to provide an intelligent dehumidification method without manual water pouring.

The specific technical scheme is as follows:

an intelligent dehumidification method without manual water pouring is applied to a dehumidifier and a charging seat matched with the dehumidifier, wherein when the water level inside the dehumidifier reaches a preset water level or the electric quantity is lower than the preset electric quantity, the dehumidifier automatically searches the charging seat and charges and drains water on the charging seat.

According to the intelligent dehumidification method without manual water pouring, the interior of the dehumidifier comprises the compressor, the fan and the microcomputer, when the water level in the dehumidifier reaches a preset water level or the electric quantity is lower than the preset electric quantity, the compressor and the fan stop running, the dehumidifier stops dehumidifying work temporarily, and the microcomputer marks the current position A and then automatically searches for the charging seat B.

Preferably, the moving module comprises a motor arranged in the dehumidifier base and a steering engine arranged in the dehumidifier base, the motor drives a universal wheel to rotate, and the steering engine realizes turning of the universal wheel, so that the whole dehumidifier can realize spontaneous movement.

According to the intelligent dehumidification method without manual water pouring, a water tank for collecting condensed water is arranged in the dehumidifier, a water pump electrically connected with the microcomputer is arranged in the water tank, and when the dehumidifier is charged on the charging seat, the microcomputer controls the water pump to drain water.

According to the intelligent dehumidification method without manual water pouring, the two ends of the charging seat are respectively provided with the magnetic type charging interface and the water receiving interface, after the dehumidifier moves to the position B, the microcomputer controls the moving module to adjust the position of the dehumidifier, and then the microcomputer detects whether the charging end of the dehumidifier and the water outlet of the water pump are correctly connected to the corresponding magnetic type charging interface and the corresponding water receiving interface.

According to the intelligent dehumidification method without manual water pouring, when the microcomputer detects that the charging end of the dehumidifier and the water outlet of the water pump are correctly connected to the corresponding magnetic type charging interface and the corresponding water receiving interface, the microcomputer respectively controls the charging of the dehumidifier and the water draining of the water pump.

The intelligent dehumidification method without manual water pouring is characterized in that the water pump drains water for a period of time t1, the dehumidifier is charged for a period of time t2, and then the microcomputer controls the dehumidifier to return to the state A for continuous dehumidification, preferably, t1 is 1min, and t2 is not less than 1 min.

According to the intelligent dehumidification method without manual water pouring, when the microcomputer detects that the charging end of the dehumidifier and the water outlet of the water pump are not correctly connected to the corresponding magnetic type charging interface and the corresponding water receiving interface, the microcomputer drives the mobile module to adjust the position of the dehumidifier.

According to the intelligent dehumidification method without manual water pouring, a sensor for detecting the water level in real time is further arranged in the water tank, and the sensor is electrically connected with the microcomputer.

Compared with the prior art, the technical scheme has the positive effects that:

the charging and the draining processes of the dehumidifier can be carried out simultaneously, the charging seat is provided with two magnetic suction type charging interfaces and a water receiving interface which are independent of each other, after the dehumidifier is connected to the charging seat, the microcomputer controls the lithium battery of the dehumidifier to be charged at the magnetic suction type charging interfaces, and simultaneously, the microcomputer also controls the water suction pump in the water tank to drain water synchronously through the water receiving interface, so that charging equipment and draining equipment do not need to be prepared independently.

Drawings

Fig. 1 is a logic block diagram of an intelligent dehumidification method without manual water pouring according to the present invention.

Detailed Description

The invention is further described with reference to the following drawings and specific examples, which are not intended to be limiting.

As shown in fig. 1, the intelligent dehumidification method without manual water pouring of the application includes the following steps:

s1: in the working process of the dehumidifier, a microcomputer arranged in the dehumidifier detects the electric quantity of a lithium battery of the dehumidifier and the water level in the water tank in real time, and when the electric quantity of the lithium battery is lower than the preset electric quantity or the water level in the water tank is higher than the preset water level, S2 is executed;

s2: informing the work of a compressor and a fan in the dehumidifier, namely, temporarily stopping the dehumidification work of the dehumidifier, and executing S3 after the microcomputer marks the current position of the dehumidifier as A;

s3: microcomputer control complete machine removes module, drives the universal wheel through the motor that sets up in the dehumidifier base promptly and rotates, and the steering wheel of setting in the dehumidifier base realizes the universal wheel and turns, makes the dehumidifier complete machine realize spontaneous position B who removes to the charging seat, carries out S4:

s4: after the microcomputer adjusts the position of the dehumidifier through the control mobile module, the microcomputer detects whether the charging end of the dehumidifier and the water outlet of the water pump are correctly connected to the corresponding magnetic suction type charging interface and the corresponding water receiving interface, if yes, S5 is executed, and if not, S6 is executed:

s5: the lithium battery starts to be charged, the water pump starts to pump water and lasts for 1min, the microcomputer detects whether the electric quantity of the lithium battery can be maintained for the next dehumidification work, if yes, S8 is executed, and if not, S7 is executed;

s6: and after the dehumidifier leaves the position B and is readjusted, returning to the step S4:

s7: the lithium battery continues to be charged, and the step returns to S5:

s8: the microcomputer plans a route back to the position A and continues the previous dehumidification work.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims

1. An intelligent dehumidification method without manual water pouring is applied to a dehumidifier and a charging seat matched with the dehumidifier, and is characterized in that when the water level inside the dehumidifier reaches a preset water level or the electric quantity is lower than a preset electric quantity, the dehumidifier automatically searches the charging seat and charges and drains water on the charging seat.

2. The intelligent dehumidification method without manual water pouring according to claim 1, wherein the interior of the dehumidifier comprises a compressor, a fan and a microcomputer, when the water level in the dehumidifier reaches a preset water level or the electric quantity is lower than a preset electric quantity, the compressor and the fan stop running, the dehumidifier stops the dehumidification work temporarily, the microcomputer marks that after the current position is A, the microcomputer automatically searches for a charging seat located at B.

3. An intelligent dehumidifying method without manual water pouring as claimed in claim 2 wherein a moving module is provided at the bottom of the compressor, and the microcomputer controls the moving module to drive the dehumidifier to move to the position B.

4. An intelligent dehumidification method without manual water pouring as defined in claim 3, wherein a water tank for collecting condensed water is provided inside said dehumidifier, a water pump electrically connected to said microcomputer is provided inside said water tank, and said microcomputer controls said water pump to drain water when said dehumidifier is charged on said charging stand.

5. The intelligent dehumidification method without manual water pouring according to claim 4, wherein a magnetic suction type charging port and a water receiving port are respectively arranged at two ends of the charging seat, after the dehumidifier moves to B, the microcomputer controls the moving module to adjust the position of the dehumidifier, and then the microcomputer detects whether the charging port of the dehumidifier and the water outlet of the water pump are correctly connected to the corresponding magnetic suction type charging port and the corresponding water receiving port.

6. The intelligent dehumidification method without manual water pouring according to claim 5, wherein when the microcomputer detects that the charging end of the dehumidifier and the water outlet of the water pump are correctly connected to the corresponding magnetic-type charging interface and the corresponding water inlet, the microcomputer controls the charging of the dehumidifier and the water draining of the water pump respectively.

7. The intelligent dehumidification method without manual water pouring as claimed in claim 6, wherein said water pump drains water for a period of time t1, and after said dehumidifier charges for a period of time t2, said microcomputer controls said dehumidifier to return to A for continuous dehumidification.

8. The intelligent dehumidification method without manual water pouring according to claim 5, wherein when the microcomputer detects that the charging port of the dehumidifier and the water outlet of the water pump are not correctly connected to the corresponding magnetic-type charging port and the corresponding water receiving port, the microcomputer drives the mobile module to adjust the position of the dehumidifier.

9. The intelligent dehumidification method without manual water pouring as defined in claim 4, wherein a sensor for real-time water level detection is further installed in said water tank, said sensor being electrically connected to said microcomputer.