CN114788673A - Control method of cleaning base station and cleaning base station - Google Patents

Abstract

The application discloses a control method of a cleaning base station and the cleaning base station, and relates to the technical field of cleaning equipment. Clean basic station is equipped with the robot accommodation space with external intercommunication, clean basic station includes fan, heating member and air pipe, air pipe's one end with the fan links to each other, air pipe's the other end with the robot accommodation space is linked together, the heating member set up in the air pipe, control method includes: responding to a drying instruction, and opening the fan to ventilate the ventilation pipeline; acquiring a first working parameter of the fan and a second working parameter of the heating element; and when the first working parameter exceeds a first preset range and/or the second working parameter exceeds a second preset range, the fan and the heating element are closed. This scheme can solve the comparatively single problem of protection mode of drying is assisted to present clean basic station's heat.

Description

Control method of cleaning base station and cleaning base station

Technical Field

The application belongs to the technical field of cleaning equipment, and particularly relates to a control method of a cleaning base station and the cleaning base station.

Background

Along with the development of science and technology and the acceleration of life rhythm, utilize cleaning machines people to carry out the environmental cleaning, not only can improve clean efficiency, can realize liberating the purpose of both hands moreover. Therefore, cleaning robots on the market are currently favored by people.

Usually, the cleaning robot is equipped with a cleaning base station, and after completing the cleaning operation, the cleaning robot needs to return to the base station to perform charging and self-cleaning, such as mop cleaning and mop drying. Most clean basic station all adopts hot assistance drying method to carry out drying process to the mop at present, however, the safeguard measure of hot assistance drying method is comparatively single, in case the circumstances such as takes place that control device damages, hardware circuit are unusual, probably leads to hot assistance stoving inefficacy, can damage the protection piece of clean basic station even, the safety problem appears.

Disclosure of Invention

The embodiment of the application aims to provide a control method for a cleaning base station and the cleaning base station, and the problem that the protection mode of heat-assisted drying of the existing cleaning base station is single can be solved.

In order to solve the technical problem, the present application is implemented as follows:

in a first aspect, an embodiment of the present application provides a clean basic station, clean basic station is equipped with the robot accommodation space with external intercommunication, clean basic station includes fan, heating member and air pipe, air pipe's one end with the fan links to each other, air pipe's the other end with robot accommodation space is linked together, the heating member set up in the air pipe, control method includes:

responding to a drying instruction, and opening the fan to ventilate the ventilation pipeline;

acquiring a first working parameter of the fan and a second working parameter of the heating element;

and when the first working parameter exceeds a first preset range and/or the second working parameter exceeds a second preset range, the fan and the heating element are turned off.

In a second aspect, an embodiment of the present application further provides a clean base station, where the control method is applied, and the clean base station further includes:

the first control module is used for responding to a drying instruction and opening the fan so as to enable the fan to ventilate the ventilation pipeline;

the acquisition module is used for acquiring a first working parameter of the fan and a second working parameter of the heating element;

and the second control module is used for closing the fan and the heating element when the first working parameter exceeds a first preset range and/or the second working parameter exceeds a second preset range.

In the embodiment of the application, when the mop of cleaning machines people needs to be dried, the fan ventilates to air pipe, then the gas that produces the fan through heating member heats, in order to improve air pipe's air-out temperature, thereby improve drying efficiency, in the stoving in-process, in case the first working parameter of fan surpasss first predetermined scope, or the second working parameter of heating member surpasss the second predetermined scope, or the first working parameter of fan and the second working parameter of heating member surpass first predetermined scope and second predetermined scope respectively again, then fan and heating member all close, thereby protect clean basic station, the stoving functional failure is assisted to the heat of avoiding clean basic station. Therefore, the problem that the protection mode of drying is assisted to present clean basic station's heat can be solved to this application embodiment.

Drawings

Fig. 1 is a schematic structural diagram of a part of a structure of a cleaning base station disclosed in an embodiment of the present application;

fig. 2 is a flowchart illustrating a control method for cleaning a base station according to an embodiment of the present disclosure.

Description of reference numerals:

100-a fan;

200-a heating element;

300-a ventilation pipeline, 310-a main pipeline, 320-a first branch pipeline and 330-a second branch pipeline;

400-temperature sensor.

Detailed Description

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some, but not all, embodiments of the present application. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

The terms first, second and the like in the description and in the claims of the present application are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It should be understood that the data so used may be interchanged under appropriate circumstances such that embodiments of the application may be implemented in sequences other than those illustrated or described herein. In addition, "and/or" in the specification and claims means at least one of connected objects, a character "/", and generally means that the former and latter related objects are in an "or" relationship.

The following describes in detail a control method for a clean base station and the clean base station provided in the embodiments of the present application through specific embodiments and application scenarios thereof with reference to the accompanying drawings.

Referring to fig. 1 to 2, an embodiment of the present application discloses a control method for a cleaning base station, where the cleaning base station is provided with a robot accommodating space communicated with the outside, and a cleaning disc is arranged in the robot accommodating space, so that a cleaning robot can return to the robot accommodating space to perform operations such as self-cleaning and charging after completing a cleaning operation. Clean basic station includes fan 100, add heat piece 200 and ventilation pipe 300, ventilation pipe 300's one end links to each other with fan 100, ventilation pipe 300's the other end and robot accommodation space are linked together, it sets up in ventilation pipe 300 to add heat piece 200, fan 100 is used for ventilating in to ventilation pipe 300, add heat piece 200 and heat the gas that fan 100 produced, thereby promote ventilation pipe 300's air-out temperature, and then accelerate the drying efficiency of mop. Alternatively, the heating element 200 may be provided with a fuse, which melts when the temperature of the heating element 200 is too high, so that the heating element 200 is turned off, and even the entire cleaning base station may be turned off, thereby achieving a protective effect. The control method for cleaning the base station comprises the following steps:

and S110, responding to the drying instruction, and turning on the fan 100 to ventilate the fan 100 into the ventilation pipeline 300.

The drying instruction in this step specifically refers to an instruction for drying the mop of the cleaning robot.

S120, acquiring a first working parameter of the fan 100 and a second working parameter of the heating element 200.

A first operating parameter of the blower 100 may be indicative of a current operating state of the blower 100 and, similarly, a second operating parameter of the heating element 200 may be indicative of an operating parameter of the heating element 200.

S130, when the first working parameter exceeds a first preset range and/or the second working parameter exceeds a second preset range, the fan 100 and the heating element 200 are turned off.

The first preset range in this step may be a specific numerical value, or a numerical range including a plurality of numerical values, if the first working parameter is within the first preset range, the blower 100 is in a normal working state, and once the first working parameter exceeds the first preset range, the blower 100 is in an abnormal state, and at this time, both the blower 100 and the heating element 200 are turned off; the second preset range may be a specific numerical value, or a numerical range including a plurality of numerical values, if the second operating parameter is within the second preset range, the heating element 200 is in a normal operating state, and once the second operating parameter exceeds the second preset range, the heating element 200 is in an abnormal state, and at this time, both the blower 100 and the heating element 200 are turned off. It should be noted that, as long as the operating parameter of at least one of the fan 100 and the heating element 200 exceeds the preset range, both the fan 100 and the heating element 200 are turned off, so that the drying mode of the cleaning base station is stopped.

In the embodiment of the present application, when the mop of the cleaning robot needs to be dried, the fan 100 ventilates into the ventilation duct 300, and then heats the air generated by the fan 100 through the heating element 200, so as to improve the air outlet temperature of the ventilation duct 300, thereby improving the drying efficiency. In the drying process, once the first working parameter of the fan 100 exceeds the first preset range, or the second working parameter of the heating element 200 exceeds the second preset range, or the first working parameter of the fan 100 and the second working parameter of the heating element 200 exceed the first preset range and the second preset range respectively, the fan 100 and the heating element 200 are both closed, so that the cleaning base station is protected, and the heat-assisted drying mode of the cleaning base station is prevented from being failed. Therefore, the problem that the protection mode of drying is assisted to present clean basic station's heat can be solved to this application embodiment.

The cleaning base station further comprises a controller, the controller is used for controlling a first working parameter of the fan 100 and a second working parameter of the heating element 200 according to the air outlet temperature, the first working parameter can specifically refer to the rotating speed, the current and the like of the fan 110, the second working parameter can specifically refer to the current, the voltage and the like of the heating element 200, so that the air outlet temperature is kept in a preset range, the preset range can specifically refer to a range capable of meeting the requirement of drying the mop, and the damage to the mop, a cleaning disc and other structures can be reduced to the minimum or even a damage-free gas temperature numerical range.

Optionally, the ventilation duct 300 includes a main duct 310, a first branch duct 320 and a second branch duct 330, one end of the main duct 310 is connected to the blower 110, the other end of the main duct 310 is respectively connected to one end of the first branch duct 320 and one end of the second branch duct 330, the other end of the first branch duct 320 and the other end of the second branch duct 330 are respectively communicated with the robot accommodating space, and the mops are dried through a plurality of air outlets at the same time, so that the drying efficiency is improved; optionally, the number of mops of the cleaning robot may be at least two, including a first mop and a second mop, at which time the first branch pipe 320 is disposed opposite to the first mop to dry the first mop, and the second branch pipe 330 is disposed opposite to the second mop to dry the second mop, in which a manner of respectively drying the first mop and the second mop is adopted to improve drying efficiency.

Alternatively, the diameter of the main duct 310 may be larger than the diameters of the first and second branch ducts 320 and 330, respectively, to accelerate the circulation efficiency of the gas. The heating members 200 may be respectively disposed in the first branch pipe 320 and the second branch pipe 330, at least two heating members 200 are required to be disposed at this time, and the diameters of the first branch pipe 220 and the second branch pipe 230 are both small, which is inconvenient for disposing the heating members 200. Therefore, further optionally, the heating elements 200 are disposed in the main pipe 310, only one heating element 200 may be disposed at this time, and the diameter of the main pipe 310 is larger, so as to facilitate the disposition of the heating elements 200, and of course, at least two heating elements 200 may be disposed in the main pipe 310, so as to improve the heating efficiency, and the number of the heating elements 200 is not particularly limited.

In an optional embodiment, the control method for cleaning the base station further includes:

and S140, detecting the air outlet temperature of the ventilation duct 300.

The outlet air temperature in this step may be detected by a temperature detection element, or may be detected by other detection elements, which is not limited specifically here.

S150, when the outlet air temperature is higher than the preset temperature, the fan 100 and the heating element 200 are turned off.

The preset range in this step indicates the gas temperature range that can satisfy the demand of drying the mop, and can reduce the damage to structures such as mop, washing dish to minimum, not damaged even.

When the air-out temperature is greater than the preset temperature, the air-out temperature is over high, the cleaning base station is easily damaged under the condition, the fan 100 and the heating element 200 are closed at the moment, the air-out temperature can be reduced, and therefore the purpose of protecting the cleaning base station is achieved. The embodiment protects the clean base station more comprehensively by monitoring more parameters.

In addition, in a further embodiment, the air outlet temperature obtained through detection can be used for adjusting the first working parameter of the fan 100 and the second working parameter of the heating element 200 in real time, so that the first working parameter is within a first preset range, and the second working parameter is within a second preset range, and therefore the protection effect of the heat auxiliary drying mode of the cleaning base station is improved.

In a further optional embodiment, the method for controlling a clean base station further includes:

and S160, acquiring the working mode of the clean base station.

The working mode of the cleaning base station in this step may specifically refer to a low-temperature gear and a high-temperature gear, and a user may select different gears according to actual use requirements, and certainly, may set more gears according to actual requirements, which is not specifically limited herein.

S170, acquiring a corresponding first preset range, a corresponding second preset range and a corresponding preset temperature according to the working mode.

The first preset range, the second preset range and the preset temperature corresponding to different working modes can be different, so that whether the first working parameter of the fan 100 and the second working parameter of the heating element 200 are in the normal range or not can be determined more accurately in different working modes. Therefore, the embodiment can correspondingly control the cleaning base station according to the working mode of the cleaning base station.

When the user selects to adopt low temperature fender to dry, if want to switch to high temperature fender, through the first working parameter of adjustment fan 110 and the second working parameter of heating member 200 to promote air pipe 200's air-out temperature and air-out speed, and then satisfy fast drying's demand. When the user selects the high temperature fender to dry, if want to switch to the low temperature fender, through the first working parameter of adjusting fan 110 and the second working parameter of heating member 200 to reduce air pipe 200's air-out temperature and air-out speed, the wind that leads to on the mop this moment is softer, can protect the mop. Therefore, the user can select different gears according to actual use requirements, and can flexibly switch among the gears, so that various choices are provided for the user, and the control precision of heat-assisted drying is favorably improved.

In another alternative embodiment, the cleaning base station further includes a temperature sensor 400 disposed inside the ventilation duct 300, and the temperature sensor 400 is used for detecting the outlet air temperature of the ventilation duct 300. Optionally, the temperature sensor 400 is disposed on the heating member 200, the temperature sensor 400 is a thermistor, and the step S100 specifically includes:

and S111, responding to the drying instruction, controlling the heating element 200 to be in a closed state, and turning on the fan 100 to ventilate the fan 100 into the ventilation pipeline 300.

In this step, because clean basic station dries the operation after wasing the mop, and the washing mop in-process can produce the heat, and the temperature that leads to ventilation duct 300 and heating member 200 is higher, so when drying the operation, need lead to cold wind in ventilation duct 300 through fan 100 earlier, thereby cool down ventilation duct 300 and heating member 200, so that the temperature of ventilation duct 300 and heating member 200 drops to the room temperature, then select different fender position according to the demand to dry the mop.

And S112, after the fan works for the first time, acquiring the room temperature through the temperature sensor 400.

The temperature sensor 400 in this step can provide a reference for the control method of the cleaning base station, so that the heat-assisted drying precision of the cleaning base station is improved, and the protection effect of the cleaning base station is further improved; in addition, the temperature sensor 400 acquires the room temperature, and a separate temperature detection member is not required to be additionally added to detect the room temperature, thereby saving the cost.

Obtain current room temperature according to the numerical value that temperature sensor 300 detected, and then select different air-out temperatures according to the in-service use demand, if current room temperature is not in predetermineeing the temperature, then can open heating member 200, heat the gas that fan 100 produced through heating member 200, then obtain ventilation pipe 200's air-out temperature through the calculation according to thermistor's resistance change to realize fast drying and protect the purpose of clean basic station.

In a further optional embodiment, after step S120, the method further includes:

s113, acquiring a first preset range, a second preset range and a preset temperature corresponding to the room temperature.

The first preset range and the second preset range in this step may be continuous numerical ranges, and both the first preset range and the second preset range may be integers or decimal numbers, which is not limited herein.

When the temperature value detected by the temperature sensor 400 is lower, the air outlet temperature of the ventilation duct 200 can be raised by adjusting the first working parameter of the fan 110 and the second working parameter of the heating element 120, so that the air outlet temperature is within a first preset range; similarly, when the temperature value detected by the temperature sensor 400 is higher, the first operating parameter of the fan 110 and the second operating parameter of the heating element 120 may be adjusted, so as to reduce the air outlet temperature of the ventilation duct 200, so that the air outlet temperature is within a second preset range. In this application embodiment, clean basic station can be according to the air-out temperature that temperature sensor 400 detected to adjustment fan 110 and the working parameter who adds heat-insulating material 120, and then with ventilation pipe 200's air-out temperature regulation to the different preset within range, in order to satisfy the in-service use demand. Therefore, the provision of the temperature sensor 400 is advantageous to further improve the control accuracy of cleaning the base station.

In another optional embodiment, the first operating parameter includes at least one of a first current and a rotation speed of the wind turbine 100 during operation, that is, the first operating parameter may be the first current of the wind turbine 100 during operation, the rotation speed of the wind turbine 100 during operation, or the first current and the rotation speed of the wind turbine 100 during operation. The second operating parameter includes a second current at which the heating element 200 is operated. Therefore, the embodiment of the application provides a plurality of parameters for the control method of the cleaning base station, so as to be flexibly selected, reduce the dependence of the control method on a single component, and provide a plurality of parameters for the control mode of the same component, so as to be convenient for control.

In a further optional embodiment, the method for controlling a clean base station further includes:

and S180, judging whether the rotating speed is less than or equal to a preset rotating speed or not when the first current is less than or equal to a first preset current and the second current is less than or equal to a second preset current.

Alternatively, the first current in this step may be an actual operating current of the fan 100, the first preset current may be a rated current of the fan 100, the second current may be an actual operating current of the heating element 200, the second preset current may be a rated current of the heating element 200, and the preset rotation speed may be a rated rotation speed of the fan 100.

And S190, when the rotating speed is less than or equal to the preset rotating speed, judging whether the air outlet temperature is less than or equal to the preset temperature.

When the actual operating current of the fan 100 is less than or equal to the rated current of the fan 100 and the actual operating current of the heating element 200 is less than or equal to the rated current of the heating element 200, if the actual rotating speed of the fan 100 is less than or equal to the rated rotating speed of the fan 100, the air outlet temperature of the ventilation duct 300 is adjusted according to the preset temperature of the cleaning base station. That is to say, under the condition of ensuring that the actual operating current of fan 100 and heating member 200 is in the normal range, then judge whether the rotational speed of fan 100 is in the normal range again, further, only under the condition that the rotational speed of fan 100 is in the normal range, just judge whether the air-out temperature is less than or equal to preset temperature, this embodiment has avoided judging whether the actual operating current of fan 100 and heating member 200 is normal again under the arbitrary condition, whether the rotational speed of fan 100 is normal, and whether the air-out temperature is normal, thereby simplify control procedure, reduce the operation burden of clean basic station.

In another alternative embodiment, after step S300, the method further includes:

s210, detecting whether an interruption drying instruction exists in the cleaning base station or not under the condition that the fan 100 and the heating element 200 are kept closed.

The drying interruption command in this step may specifically refer to a command for cleaning a mop, a command for draining water, and the like, which will terminate the current drying program, and is not limited in this respect.

S220, when the drying interruption instruction does not exist in the cleaning base station, after the fan 100 and the heating element 200 are kept in the closed state for a second time, returning to the step of turning on the fan 100 in response to the drying instruction.

In this embodiment, when there is no interruption drying instruction in the cleaning base station, the blower 100 and the heating element 200 may automatically resume entering the drying mode without being manually turned on by the user, so as to facilitate the operation.

In another optional embodiment, the method for controlling a clean base station further includes:

and S230, finishing the drying task when the drying interruption instruction exists in the cleaning base station.

If the controller of the cleaning base station receives other instructions, such as a mop cleaning instruction, a drainage instruction and the like, the drying mode is ended, and the drying instruction needs to be received again to enter the drying mode again. That is, when there is an interruption drying instruction, the user may not want to continue drying, and the cleaning base station does not need to resume the drying process but wait for a new instruction, so that the power consumption of the blower 100 and the heating element 200 can be reduced in this manner.

It should be noted that, in the control method provided in the embodiment of the present application, the execution main body may be a control device, or a control module in the control device for executing the control method. In the embodiment of the present application, a control device executing a control method is taken as an example to describe the control device for cleaning a base station provided in the embodiment of the present application.

The control device for cleaning the base station comprises a first control module, an acquisition module and a second control module. The first control module is used for responding to a drying instruction and turning on the fan 100 so as to enable the fan 100 to ventilate the ventilation pipeline 300; the acquisition module is used for acquiring a first working parameter of the fan 100 and a second working parameter of the heating element 200; the second control module is used for turning off the fan 100 and the heating element 200 when the first working parameter exceeds a first preset range and/or the second working parameter exceeds a second preset range.

After the control device is adopted, in the drying process, once the first working parameter of the fan 100 exceeds a first preset range, or the second working parameter of the heating element 200 exceeds a second preset range, or the first working parameter of the fan 100 and the second working parameter of the heating element 200 exceed the first preset range and the second preset range respectively, the fan 100 and the heating element 200 are both closed, so that a cleaning base station is protected, and the heat-assisted drying mode of the cleaning base station is prevented from being failed. Therefore, the problem that the protection mode of drying is assisted to present clean basic station's heat can be solved to this application embodiment.

In the process of drying the mop in the cleaning base station, the first working parameter of the fan 100 is smaller than or equal to the first preset range, and the second working parameter of the heating element 200 is smaller than or equal to the second preset range, so that the safety of the cleaning base station is improved, and the service life of the cleaning base station is prolonged.

Based on the cleaning base station disclosed by the embodiment of the application, the embodiment of the application further discloses a cleaning robot system which comprises the cleaning base station and the cleaning robot, wherein the cleaning base station is the cleaning base station disclosed by any embodiment, and the cleaning base station can accommodate the cleaning robot.

While the present embodiments have been described with reference to the accompanying drawings, it is to be understood that the present embodiments are not limited to those precise embodiments, which are intended to be illustrative rather than restrictive, and that various changes and modifications may be effected therein by one skilled in the art without departing from the scope of the appended claims.

Claims (10)

1. The utility model provides a control method of clean basic station, its characterized in that, clean basic station is equipped with the robot accommodation space with external intercommunication, clean basic station includes fan, heating member and air pipe, air pipe's one end with the fan links to each other, air pipe's the other end with robot accommodation space is linked together, the heating member set up in the air pipe, control method includes:

responding to a drying instruction, and turning on the fan to ventilate the ventilation pipeline;

acquiring a first working parameter of the fan and a second working parameter of the heating element;

and when the first working parameter exceeds a first preset range and/or the second working parameter exceeds a second preset range, the fan and the heating element are closed.

2. The control method according to claim 1, characterized by further comprising:

detecting the air outlet temperature of the ventilation pipeline;

and when the air outlet temperature is higher than the preset temperature, the fan and the heating element are closed.

3. The control method according to claim 2, characterized by further comprising:

acquiring a working mode of the cleaning base station;

and acquiring the corresponding first preset range, the second preset range and the preset temperature according to the working mode.

4. The control method according to claim 2, wherein the cleaning base station further includes a temperature sensor disposed in the ventilation duct, and the turning on the fan in response to the drying instruction to ventilate the ventilation duct includes:

responding to the drying instruction, controlling the heating element to be in a closed state, and opening the fan to ventilate the ventilation pipeline;

and after the fan works for the first time, the room temperature is obtained through the temperature sensor.

5. The control method according to claim 4, further comprising, after the room temperature is obtained by the temperature sensor:

and acquiring the corresponding first preset range, the second preset range and the preset temperature according to the room temperature.

6. The control method according to claim 1, wherein the first operating parameter includes at least one of a first current and a rotational speed at which the blower is operated, and the second operating parameter includes a second current at which the heating element is operated.

7. The control method according to claim 6, characterized by further comprising:

when the first current is less than or equal to a first preset current and the second current is less than or equal to a second preset current, judging whether the rotating speed is less than or equal to a preset rotating speed;

and when the rotating speed is less than or equal to the preset rotating speed, judging whether the air outlet temperature is less than or equal to the preset temperature.

8. The control method according to claim 1, further comprising, after said turning off the fan and the heating element:

detecting whether an interruption drying instruction exists in the cleaning base station or not under the condition that the fan and the heating element are kept closed;

and when the drying interruption instruction does not exist in the cleaning base station, after the fan and the heating element are kept in the off state for a second time period, returning to the step of responding to the drying instruction and turning on the fan.

9. The control method according to claim 8, characterized by further comprising:

and when the drying interruption instruction exists in the cleaning base station, finishing the drying task.

10. A clean base station to which the control method of any one of claims 1 to 9 is applied, the clean base station further comprising:

the first control module is used for responding to a drying instruction and opening the fan so as to enable the fan to ventilate the ventilation pipeline;

the acquisition module is used for acquiring a first working parameter of the fan and a second working parameter of the heating element;

and the second control module is used for closing the fan and the heating element when the first working parameter exceeds a first preset range and/or the second working parameter exceeds a second preset range.

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