CN216602758U - Cleaning device - Google Patents

Abstract

The application relates to a cleaning device, which comprises a machine body, a cleaning device and a cleaning device, wherein a sewage recovery channel is formed in the machine body; the collecting piece is matched and connected with the machine body and is configured to collect current pollution information of sewage in the sewage recovery channel in the working process of the cleaning equipment; the cleaning related device is matched with the machine body; the controller is electrically connected with the acquisition part and the cleaning related device, and is used for determining the current pollution parameters of the current cleaning area according to the current pollution information and controlling the cleaning related device to work according to preset working parameters when the current pollution parameters determine that the pollution improvement conditions are met. The cleaning equipment provided by the application can automatically identify the dirt degree of the surface to be cleaned.

Description

Cleaning device

Technical Field

The application relates to the technical field of household appliances, in particular to a cleaning device.

Background

With the progress of technology and the development of society, cleaning equipment (such as floor washers and vacuum cleaners) for cleaning indoor floors gradually come into the lives of people. Traditional cleaning device is at the clean in-process of treating clean surface, can't treat the dirty degree of clean surface and carry out automatic identification, and it is relatively poor to lead to cleaning device's clean effect, and user's experience is not high.

SUMMERY OF THE UTILITY MODEL

In view of this, it is necessary to provide a cleaning apparatus capable of automatically recognizing the degree of contamination of a surface to be cleaned, in order to solve the problem that the cleaning apparatus cannot automatically recognize the degree of contamination of the surface to be cleaned.

A cleaning device, the cleaning device comprising:

a body having a sewage recovery channel formed therein;

the collecting piece is connected to the machine body in a matching mode and is configured to be used for collecting current pollution information of the sewage in the sewage recovery channel in the working process of the cleaning equipment;

a cleaning-related device coupled to the body; and

and the controller is electrically connected with the acquisition part and the cleaning related device, and is used for determining the current pollution parameters of the current cleaning area according to the current pollution information and controlling the cleaning related device to work according to preset working parameters when the current pollution parameters determine that the pollution improvement conditions are met.

In one embodiment, the collecting member is an absorbance collecting member configured to collect a current absorbance of the wastewater in the wastewater recovery channel during operation of the cleaning apparatus.

In one embodiment, the collecting member is an infrared collecting member, and the infrared collecting member is configured to collect the current infrared absorbance of the sewage in the sewage recovery channel during the operation of the cleaning device.

In one embodiment, the cleaning related device includes a clean water injection member, the preset operating parameter includes a preset clean water injection amount, and the controller controls the clean water injection member to inject clean water of the preset clean water injection amount to the rolling brush to improve the contamination degree of the current cleaning area when it is determined that the contamination improvement condition is satisfied based on the current contamination parameter.

In one embodiment, the clean water injection member includes a clean water injection pump and a clean water injection pipe, the clean water injection pump is electrically connected to the controller, an input end of the clean water injection pipe is communicated with an output end of the clean water injection pump, and a water outlet of the clean water injection pipe is arranged toward the roller brush.

In one embodiment, the fresh water injection member further comprises a fresh water storage tank configured to store fresh water, the input of the fresh water injection pump being in communication with the fresh water storage tank.

In one embodiment, the cleaning-related device includes a cleaning agent injection member, the preset operation parameter includes a preset cleaning agent injection amount, and the controller controls the cleaning agent injection member to inject the cleaning agent of the preset cleaning agent injection amount to the drum brush to improve the degree of soiling of the current cleaning area when it is determined that the soiling improvement condition is satisfied based on the current soiling parameter.

In one embodiment, the cleaning agent injection member comprises a cleaning agent injection pump and a cleaning agent injection pipe, the cleaning agent injection pump is electrically connected with the controller, the input end of the cleaning agent injection pipe is communicated with the output end of the cleaning agent injection pump, and the water outlet of the cleaning agent injection pipe is arranged towards the rolling brush.

In one embodiment, the detergent injection part further includes a detergent storage tank configured to store detergent, and the input end of the detergent injection pump is communicated with the detergent storage tank.

In one embodiment, the cleaning-related device comprises a roller brush electrically connected to the controller, and the preset working parameter comprises a preset roller brush rotating speed; and when the controller determines that the dirt improvement condition is met based on the current dirt parameter, the rolling brush is controlled to rotate according to the preset rolling brush rotating speed so as to improve the dirt degree of the current cleaning area.

Above-mentioned cleaning equipment, gather the piece and connect in the organism to be constructed and be arranged in cleaning equipment course of operation, gather the current pollution information of sewage in the sewage recovery passageway, clean relevant device connects in the organism in coordination, the controller is connected with gathering the piece and clean relevant device electricity, the controller is used for acquireing current pollution information in real time, and confirm the current dirty parameter of current clean region according to current pollution information, if when confirming to satisfy dirty improvement condition based on current dirty parameter, control clean relevant device and work according to preset working parameter, in order to improve the dirty degree in current clean region. So, cleaning equipment can carry out automatic identification to the dirty degree in current clean region to dirty degree automatic adjustment according to current clean region cleans relevant device work, effectively cleans and improves current clean region's dirty degree, thereby has better clean effect.

Drawings

FIG. 1 is a flow chart of a method of controlling a cleaning apparatus according to an embodiment of the present application;

FIG. 2 is a flow chart of a method of controlling a cleaning apparatus according to another embodiment of the present application;

FIG. 3 is a flow chart of a method of controlling a cleaning apparatus according to yet another embodiment of the present application;

FIG. 4 is a flow chart of a method of controlling a cleaning apparatus according to yet another embodiment of the present application;

FIG. 5 is a flow chart of a method of controlling a cleaning apparatus according to another embodiment of the present application;

FIG. 6 is a flow chart of a method of controlling a cleaning apparatus according to yet another embodiment of the present application;

FIG. 7 is a flow chart of a method of controlling a cleaning apparatus according to yet another embodiment of the present application;

FIG. 8 is a flow chart of a method of controlling a cleaning apparatus according to another embodiment of the present application;

FIG. 9 is a flow chart of a method of controlling a cleaning apparatus according to yet another embodiment of the present application;

FIG. 10 is a flow chart of a method of controlling a cleaning apparatus according to yet another embodiment of the present application;

FIG. 11 is a block diagram of a control device of a cleaning apparatus according to an embodiment of the present application;

FIG. 12 is a schematic view of a cleaning apparatus according to an embodiment of the present application;

fig. 13 is a cross-sectional view of the cleaning device shown in fig. 12.

Reference numerals:

100. an acquisition module; 200. a determination module; 300. a control module; 400. cleaning equipment; 410. a body; 411. a sewage recovery channel; 420. collecting parts; 421. a transmitting section; 423. a receiving section; 430. a clear water injection member; 431. a clean water jet pump; 433. a clear water injection pipe; 435. a fresh water storage tank; 440. a detergent spray member; 441. a detergent injection pump; 443. a detergent spray pipe; 445. a detergent storage tank; 450. rolling and brushing; 460. a fan.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present application more comprehensible, embodiments accompanying the present application are described in detail below with reference to the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present application. This application is capable of embodiments in many different forms than those described herein and that modifications may be made by one skilled in the art without departing from the spirit and scope of the application and it is therefore not intended to be limited to the specific embodiments disclosed below.

In the description of the present application, it is to be understood that the terms "center," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the present application and for simplicity in description, and are not intended to indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

In this application, unless expressly stated or limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can include, for example, fixed connections, removable connections, or integral parts; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

In this application, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may be directly contacting the first and second features or indirectly contacting the first and second features through intervening media. Also, a first feature "on," "over," and "above" a second feature may be directly or diagonally above the second feature, or may simply indicate that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature may be directly under or obliquely under the first feature, or may simply mean that the first feature is at a lesser elevation than the second feature.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "upper," "lower," "left," "right," and the like as used herein are for illustrative purposes only and do not denote a unique embodiment.

Referring to fig. 1, a method for controlling a cleaning apparatus includes steps S100, S200, and S300.

And S100, acquiring current pollution information of the sewage in the sewage recovery channel in the working process of the cleaning equipment.

It is to be understood that the manner in which the controller obtains the current pollution information of the sewage is not exclusive, and in one embodiment, the cleaning device is provided with a collecting member for collecting the current pollution information. The acquisition part is used for acquiring current pollution information, and then transmitting the acquired current pollution information to the controller to finish the operation of acquiring the current pollution information by the controller. And the current pollution information collected by the collecting piece is information according with the current objective fact of sewage. In other embodiments, the current contamination information may also be implemented by user input or the like. Specifically, the current pollution information input by the user may be one that conforms to the current objective fact of sewage. Alternatively, the user may input information that is both subjective and objective according to his or her own usage habit. Alternatively, the user may input subjective information completely according to his or her own usage habit. Preferably, the current contamination information is acquired by the acquisition element. The current pollution information is matched with the current pollution degree of the sewage.

Specifically, the type of the current pollution information of the sewage is not unique, and may be a current pollution value of the sewage, or may also be a current absorbance of the sewage, or may also be a current light reflection value of the sewage, or the like, as long as the current pollution information is a parameter related to the current pollution degree of the sewage. It should be noted that, in an embodiment, the controller may obtain the current pollution information of the sewage in real time, so that when the current pollution information changes, the controller can make corresponding adjustment according to the current pollution information in time, and it is ensured that the cleaning device has an optimal cleaning effect.

And step S200, determining the current pollution parameters of the current cleaning area according to the current pollution information.

After the controller obtains the current pollution information, the current pollution parameter of the current cleaning area cleaned by the cleaning device is determined according to the current pollution information. It should be noted that the type of the current soiling parameter is not exclusive, and may specifically include the type of soiling of the current cleaning area, such as oil, coffee, or the like, and may also include the soiling level of the current cleaning area, and the like.

And step S300, if the current dirt parameter is determined to meet the dirt improvement condition, controlling cleaning related devices to work according to preset working parameters so as to improve the dirt degree of the current cleaning area.

Specifically, after determining that the current contamination parameter of the current cleaning region is obtained, the controller further determines whether the contamination improvement condition is satisfied according to the current contamination parameter. And if so, controlling the cleaning related device to work according to preset working parameters so as to improve the dirt degree of the current cleaning area. Specifically, the preset working parameter may be a parameter set in the controller in advance, or a parameter input into the controller by a user before the cleaning device is started, and may be specifically set according to a requirement. It will be appreciated that the predetermined operating parameter is greater than the current operating parameter of the cleaning-related device, so that the degree of soiling of the currently cleaned area is improved.

Specifically, the current contamination parameter is determined to satisfy the contamination improvement condition, and it may be determined that the current parameter satisfies the contamination improvement condition when the current contamination parameter is greater than or equal to the set threshold, or it may be determined that the contamination type is determined according to the current contamination parameter, and it is determined that the current parameter satisfies the contamination improvement condition when the contamination type is a set type of contamination, and the determination may be specifically set according to a requirement.

Specifically, the kind of the cleaning-related device is not exclusive, and may include at least one of a roll brush, a clean water spray, a detergent spray, and a blower. The specific type of the cleaning related device is not limited, and only when the cleaning related device works according to preset working parameters, the degree of dirt in the current cleaning area can be improved.

The control method of the cleaning device includes the steps of S100: acquiring current pollution information of sewage in a sewage recovery channel in the working process of the cleaning equipment; step S200: determining current pollution parameters of a current cleaning area according to the current pollution information; and step S300: if the current dirty parameter is determined to meet the dirty improvement condition, the cleaning related device is controlled to work according to preset working parameters so as to improve the dirty degree of the current cleaning area, the dirty degree of the current cleaning area can be automatically identified, the cleaning related device is automatically adjusted to work according to the dirty degree of the current cleaning area, the current cleaning area is effectively cleaned, the dirty degree of the current cleaning area is improved, and therefore the cleaning effect is good.

Referring to fig. 2, in addition, the method for controlling the cleaning apparatus further includes step S400: and if the dirt improvement condition is determined not to be met based on the current dirt parameter, controlling the cleaning related device to work according to the current working parameter. That is, if it is determined based on the current contamination parameter that the contamination improvement condition is not satisfied, the cleaning-related device maintains the operation parameter unchanged. It is understood that the current operating parameter is less than the preset operating parameter, and the current operating parameter may be zero, or may be greater than zero. It is worth mentioning that when the cleaning equipment works according to the current working parameters, the cleaning equipment has a better cleaning effect and can save energy and reduce emission.

Referring to fig. 3, in an embodiment, the current contamination information includes a current absorbance, and when the current contamination information includes the current absorbance, the step S100 may specifically include the step S110: and in the working process of the cleaning equipment, acquiring the current absorbance of the sewage in the sewage recovery channel. The step S200 may specifically include a step S210 of determining a current soiling parameter of the current cleaning area according to the current absorbance.

Specifically, the cleaning equipment further comprises a collecting piece, wherein the collecting piece is an absorbance collecting component and collects the current absorbance of the sewage in the sewage recovery channel in the working process of the cleaning equipment. The collecting piece comprises a transmitting part and a receiving part, the transmitting part and the receiving part are arranged on two opposite sides of a flow path of sewage in the sewage recovery channel at intervals, the transmitting part emits light beams, and the receiving part receives the light beams emitted by the transmitter. Due to the blockage of the sewage, the light beam parameter (such as light intensity) of the light beam which can be received by the receiver is smaller than the light beam parameter (such as light intensity) of the light beam which is emitted by the emitter, and the current absorbance of the sewage can be obtained by the receiver according to the difference between the light beam parameter of the light beam which is emitted by the emitter and the light beam parameter of the light beam which is received by the receiver and is sent to the controller. Because the light beam does not react with any substance in the sewage at the in-process of transmission and receipt, so gather the present absorbance of collection sewage that the piece can be accurate, the controller can be according to the present dirty parameter of the current clean region of the accurate acquisition of present absorbance to make the controller can make corresponding adjustment according to current dirty parameter, guarantee that cleaning device has better clean effect.

Referring to fig. 4, further, the current absorbance includes a current infrared absorbance, and when the current absorbance includes the current infrared absorbance, the step S110 may specifically include the step S111: and in the working process of the cleaning equipment, acquiring the current infrared absorbance of the sewage in the sewage recovery channel. The step S210 may specifically include the step S211: and determining the current soiling parameters of the current cleaning area according to the current infrared absorbance.

Specifically, the collecting part is an infrared collecting part, the infrared collecting part collects current infrared absorbance in the sewage recovery channel and sends the current infrared absorbance to the controller, and the controller determines current pollution parameters of the current cleaning area according to the current infrared absorbance. The mode of obtaining current infrared absorbance through infrared collection piece collection is comparatively stable and accurate to can promote the control precision of controller.

Of course, in some other embodiments, the current pollution information includes a current pollution image, and when the current pollution information includes the current pollution image, the step S100 may specifically include the steps of: and acquiring a current pollution image of the sewage in the sewage recovery channel in the working process of the cleaning equipment. The step S200 may specifically include a step of determining a current contamination parameter of the current cleaning area according to the current contamination image.

Specifically, cleaning device still includes the piece of making a video recording, and the piece of making a video recording gathers the current contaminated image of sewage among the sewage recovery passageway and sends to the controller in cleaning device working process, and the current dirty parameter of current clean region is confirmed according to the current contaminated image that acquires to make the controller can make corresponding adjustment according to current dirty parameter, guarantee that cleaning device has better clean effect.

Referring to fig. 5, in an embodiment, the cleaning-related device includes a clean water spraying device, and the preset operating parameter includes a preset clean water spraying amount. When the cleaning-related device includes a fresh water spraying member and the preset operating parameter includes a preset fresh water spraying amount, the step S300 may specifically include the step S310: and if the dirt improvement condition is determined to be met based on the current dirt parameter, the clean water injection piece is controlled to inject the clean water with the preset clean water injection amount to the rolling brush so as to improve the dirt degree of the current cleaning area.

It is to be understood that, when the current soiling parameter determines that the soiling improvement condition is not satisfied, the clean water jet member maintains the current amount of water sprayed constant, and the roll brush can contact and clean the current cleaning area surface during rotation of the roll brush. Under the current water spray quantity, the cleaning equipment has better cleaning effect and saves water. The preset clear water spraying amount is larger than the current water spraying amount, and the more the clear water spraying piece sprays water to the rolling brush, the more the rolling brush is wet. Further, the more the water amount drops to the current cleaning area, so that the dirt can be further softened, and the dirt can be conveniently cleaned by the rolling brush. It can be understood that the preset clean water spraying amount can be a numerical value preset in the controller or a numerical value input into the controller by a user, and the preset clean water spraying amount can be specifically set according to requirements, and only by ensuring that when the clean water spraying piece sprays the sewage with the preset clean water spraying amount, the pollution degree of the current cleaning area can be improved.

It is worth mentioning that, in order to ensure that the cleaning equipment can normally operate, no matter whether the current dirty parameters meet the dirty improvement conditions or not, the clear water injection part needs to inject clear water to the rolling brush.

Referring to fig. 6, further, the cleaning-related device includes a detergent spraying member, and the preset operation parameter includes a preset spraying amount of the detergent. When the cleaning-related device includes a detergent spraying part and the preset operation parameter includes a preset detergent spraying amount, the step S300 may specifically include the step S320: and if the dirt improvement condition is determined to be met based on the current dirt parameter, controlling the cleaning agent injection member to inject the cleaning agent with the preset cleaning agent injection amount to the rolling brush so as to improve the dirt degree of the current cleaning area. Specifically, the cleaning agent is a liquid cleaning agent with good fluidity, the cleaning agent sprayed to the rolling brush can be fully contacted with water on the rolling brush and fused to form a mixed solution, and along with the rotation of the rolling brush, the mixed solution is contacted with the surface of the current cleaning area and softens dirt or chemically reacts with the dirt, so that the cleaning equipment has a better cleaning effect.

It is worth mentioning that when the current soiling parameters do not satisfy the soiling improvement condition, the detergent injection member may not be started for resource saving and work cost reduction on the premise that the current cleaning area has a better cleaning effect. That is, when the current stain parameter does not satisfy the stain improvement condition, the current operating parameter of the detergent injection member is zero. When the current stain parameter satisfies the stain improvement condition, the detergent injection member is activated and injects the detergent to the drum brush.

Specifically, the preset detergent ejection amount is also smaller than the preset detergent ejection amount, and therefore, the detergent can be better mixed with the fresh water, and less foam is generated during the rotation of the drum brush and the cleaning of the current cleaning area, so that the cleaning of the current cleaning area can be facilitated.

Referring to fig. 7, the step S320 may specifically include a step S330 and a step S340.

Step S330: if the current dirt parameter is larger than a first threshold value, controlling the cleaning agent spraying piece to spray cleaning agent with a first preset spraying amount to the rolling brush so as to improve the dirt degree of the current cleaning area, wherein the preset spraying amount of the cleaning agent comprises the first preset spraying amount;

step S340: if the current dirt parameter is larger than a second threshold value, the cleaning agent spraying piece is controlled to spray cleaning agent with a second preset spraying amount to the rolling brush, so that the dirt degree of the current cleaning area is improved, the preset cleaning agent spraying amount comprises the second preset spraying amount, the second preset spraying amount is larger than the first preset spraying amount, and the second threshold value is larger than the first threshold value.

It is understood that when the current soiling parameter is greater than the first threshold value, the degree of soiling of the current cleaning area is relatively low, and the degree of soiling of the current cleaning area can be improved by the detergent injection member injecting a small amount of detergent. When the current dirt parameter is larger than the second threshold value, the dirt degree of the current cleaning area is serious, and the detergent injection part needs to inject a large amount of detergent to improve the dirt degree of the current cleaning area.

Therefore, through setting the step S330 and the step S340, the controller can control the detergent injection member to inject different amounts of detergent when the current dirt parameter is determined to meet different dirt improvement conditions, so that the dirt degree of the current cleaning area can be improved, the cleaning device has a better cleaning effect, and meanwhile, the using amount of the detergent can be saved, so that resources can be saved, and the use cost of the cleaning device can be reduced.

Referring to fig. 8, further, the step S330 may specifically include the step S332: and if the current dirt parameter is larger than the first threshold value, controlling the cleaning agent injection piece to inject the cleaning agent with the first preset injection amount to the rolling brush for a first time length so as to improve the dirt degree of the current cleaning area.

It can be understood that when the current soiling parameter is greater than the first threshold value, the degree of soiling of the current cleaning area is relatively low, the cleaning agent injection member injects the cleaning agent for a relatively short time, and the injection amount of the cleaning agent can meet the requirement for improving the degree of soiling of the current cleaning area.

The step S340 may specifically include the step S342: and if the current dirt parameter is larger than the second threshold value, controlling the cleaning agent injection piece to inject the cleaning agent with the second preset injection amount to the rolling brush for a second time length to improve the dirt degree of the current cleaning area, wherein the second time length is larger than the first time length.

The longer the detergent is sprayed, the greater the specific gravity of the detergent in the mixed liquid is, and the mixed liquid can be brought into sufficient contact with and effectively clean the current cleaning area by the roller brush. When the current dirty parameter is greater than the second threshold value, the dirty degree in current clean region is more serious, then cleaner sprays the cleaner that the piece sprayed longer time, and the jet volume of cleaner just can satisfy the demand that improves the dirty degree in current clean region. Therefore, by setting the steps S332 and S342, the controller can control the detergent injection member to inject different amounts of detergent according to different injection times when the current contamination parameter is determined to meet different contamination improvement conditions, so that the contamination degree of the current cleaning area can be improved, the cleaning device has a better cleaning effect, and meanwhile, the amount of the detergent can be saved, so that resources are saved, and the use cost of the cleaning device is reduced.

Referring to fig. 9, the cleaning-related device includes a roller brush, and the preset operating parameter includes a preset roller brush rotation speed. When the cleaning-related device includes a rolling brush and the preset working parameter includes a preset rolling brush rotation speed, the step S300 may specifically include the step S350: and if the dirt improvement condition is determined to be met based on the current dirt parameter, controlling the rolling brush to rotate according to the preset rolling brush rotating speed so as to improve the dirt degree of the current cleaning area.

It is to be understood that, when the current soiling parameter determines that the soiling improvement condition is not satisfied, the drum brush maintains the current drum brush rotational speed constant, and the drum brush may contact and clean the current cleaning area surface during rotation of the drum brush at the current drum brush rotational speed. At the current rotational speed of the rolling brush, the cleaning equipment also has better cleaning effect and saves electricity. The preset rotating speed of the rolling brush is greater than the current rotating speed of the rolling brush, and the faster the rotating speed of the rolling brush is, the more frequent the rolling brush is in contact with the surface of the current cleaning area, so that the better the cleaning effect is. It can be understood that preset rolling brush rotational speed can be the numerical value that is preset in the controller, also can be the numerical value that the user input was to in the controller, and it specifically can set up as required, only needs to ensure that, when the rolling brush rotated according to preset rolling brush rotational speed, the dirty degree in current clean region can be improved can.

It is worth mentioning that in order to ensure that the cleaning equipment can normally operate, no matter whether the current dirt parameters meet the dirt improvement conditions or not, the rolling brush needs to rotate in the working process of the cleaning equipment.

Referring to fig. 10, the cleaning related device further includes a fan, and the preset working parameter includes a preset fan rotation speed. When the cleaning-related device further includes a fan and the preset working parameter includes a preset fan rotation speed, the step S300 may specifically include the step S360: and if the current dirt parameter is determined to meet the dirt improvement condition, controlling the fan to rotate according to the preset fan rotating speed so as to improve the dirt degree of the current cleaning area.

It can be understood that, when the current dirty parameter is determined not to satisfy the dirty improvement condition, the fan maintains the current fan rotation speed unchanged, and in the process that the fan rotates at the current fan rotation speed, the sewage in the current cleaning area can be guided by the sewage recovery channel and recovered under the action of the fan, so that the current cleaning area has a better cleaning effect. At present fan rotational speed, cleaning device has the clean effect of preferred, and still the power saving. The preset fan rotating speed is greater than the current fan rotating speed, the faster the fan rotating speed is, the better the sewage recovery effect is, and the better the cleaning effect of the current cleaning area is. It can be understood that preset fan rotational speed can be the numerical value of presetting in the controller, also can be the numerical value of user input to in the controller, and it specifically can set up according to the demand, only needs to ensure that, when the fan rotates according to preset fan rotational speed, current clean regional dirty degree can be improved can.

It is worth mentioning that in order to ensure that the cleaning equipment can normally operate, in the working process of the cleaning equipment, the fan needs to rotate no matter whether the current dirt parameters meet the dirt improvement condition or not.

Therefore, in the working process of the cleaning equipment, when the current dirt parameters determine that the dirt improvement condition is not met, the clean water injection piece, the rolling brush and the fan are all in the working state, and the cleaning agent injection piece can be selectively started or not started. When the current dirt parameters are determined to meet the dirt improvement conditions, the clean water injection part, the rolling brush and the fan are all in working states, and at least one of the clean water injection part, the rolling brush, the fan and the cleaning agent injection part works according to preset working parameters so as to improve the dirt degree of the current cleaning area.

Referring to fig. 11, the present application further provides a control device of a cleaning apparatus, which includes an obtaining module 100, a determining module 200, and a control module 300.

The obtaining module 100 is configured to obtain current pollution information of sewage in the sewage recycling channel during a working process of the cleaning device. The determination module 200 is configured to determine a current contamination parameter of a current cleaning area according to the current contamination information. The control module 300 is configured to control the cleaning-related device to operate according to a preset working parameter if it is determined that the contamination improvement condition is satisfied based on the current contamination parameter, so as to improve the contamination degree of the current cleaning area. Through setting up and obtaining module 100, confirm module 200 and control module 300, controlling means can carry out automatic identification to the dirty degree in current clean region to according to the dirty degree automatic adjustment in current clean region clean relevant device work, with effectively clean and improve the dirty degree in current clean region to current clean region, thereby have better clean effect. The specific operation process is similar to the embodiment corresponding to the above method, and is not described herein again.

In an embodiment, the control module 300 is further configured to control the cleaning-related device to operate according to the current operating parameter if it is determined that the contamination improvement condition is not satisfied based on the current contamination parameter. The specific operation process is similar to the embodiment corresponding to the above method, and is not described herein again.

In an embodiment, the obtaining module 100 is further configured to obtain a current absorbance of the sewage in the sewage recovery channel during the operation of the cleaning device. The determination module 200 is further configured to determine a current soiling parameter of the current cleaning area from the current absorbance. The specific operation process is similar to the embodiment corresponding to the above method, and is not described herein again.

In an embodiment, the obtaining module 100 is further configured to obtain a current infrared absorbance of the sewage in the sewage recovery channel during a working process of the cleaning device. The determination module 200 is further configured to determine a current soiling parameter of the current cleaning area from the current infrared absorbance.

In an embodiment, the control module 300 is further configured to control the clean water injection member to inject the preset clean water injection amount of clean water to the roller brush to improve the contamination degree of the current cleaning area if it is determined that the contamination improvement condition is met based on the current contamination parameter. The specific operation process is similar to the embodiment corresponding to the above method, and is not described herein again.

In an embodiment, the control module 300 is further configured to control the detergent injection member to inject the preset injection amount of the detergent to the roller brush to improve the degree of soiling of the current cleaning region if it is determined that the soiling improvement condition is satisfied based on the current soiling parameter. The specific operation process is similar to the embodiment corresponding to the above method, and is not described herein again.

In an embodiment, the control module 300 is further configured to control the detergent spraying member to spray a first preset spraying amount of detergent to the roller brush to improve the degree of contamination of the current cleaning area if the current contamination parameter is greater than a first threshold, where the preset spraying amount of detergent includes the first preset spraying amount. If the current dirt parameter is larger than a second threshold value, the cleaning agent spraying piece is controlled to spray cleaning agent with a second preset spraying amount to the rolling brush, so that the dirt degree of the current cleaning area is improved, the preset cleaning agent spraying amount comprises the second preset spraying amount, the second preset spraying amount is larger than the first preset spraying amount, and the second threshold value is larger than the first threshold value. The specific operation process is similar to the embodiment corresponding to the above method, and is not described herein again.

In an embodiment, the control module 300 is further configured to control the detergent injection member to inject the detergent with the first preset injection amount to the roller brush for a first duration if the current fouling parameter is greater than the first threshold, so as to improve the fouling degree of the current cleaning area. The specific operation process is similar to the embodiment corresponding to the above method, and is not described herein again.

In an embodiment, the control module 300 is further configured to control the detergent injection member to inject the second predetermined injection amount of the detergent to the roller brush for a second duration if the current soiling parameter is greater than the second threshold, so as to improve the soiling degree of the current cleaning area, where the second duration is greater than the first duration. The specific operation process is similar to the embodiment corresponding to the above method, and is not described herein again.

In an embodiment, the control module 300 is further configured to control the rolling brush to rotate at the preset rolling brush rotation speed to improve the contamination degree of the current cleaning area if it is determined that the contamination improvement condition is met based on the current contamination parameter. The specific operation process is similar to the embodiment corresponding to the above method, and is not described herein again.

In an embodiment, the control module 300 is further configured to control the fan to rotate according to the preset fan rotation speed to improve the contamination degree of the current cleaning area if it is determined that the contamination improvement condition is met based on the current contamination parameter. The specific operation process is similar to the embodiment corresponding to the above method, and is not described herein again.

Referring to fig. 12 and 13, the present application further provides a cleaning apparatus 400, and a control method for the cleaning apparatus. The cleaning device 400 comprises a body 410, a collecting part 420, cleaning related devices and a controller, wherein a sewage recovery channel 411 is formed in the body 410, the collecting part 420 is connected to the body 410 in a matching mode and is configured to be used for collecting current pollution information of sewage in the sewage recovery channel 411 in the working process of the cleaning device 400, the cleaning related devices are connected to the body 410 in a matching mode, the controller is electrically connected with the collecting part 420 and the cleaning related devices, the controller is used for acquiring the current pollution information in real time and determining current pollution parameters of a current cleaning area according to the current pollution information, and if the current pollution parameters determine that a pollution improvement condition is met, the cleaning related devices are controlled to work according to preset working parameters so as to improve the pollution degree of the current cleaning area. So, cleaning device 400 can carry out automatic identification to the dirty degree in current clean area to dirty degree automatic adjustment according to current clean area cleans relevant device work, effectively cleans and improves the dirty degree in current clean area to current clean area, thereby has better clean effect.

Specifically, the type of the current pollution information of the sewage is not unique, and may be a current pollution value of the sewage, or may also be a current absorbance of the sewage, or may also be a current light reflection value of the sewage, or the like, as long as the current pollution information is a parameter related to the current pollution degree of the sewage. It should be noted that, in one embodiment, the controller obtains the current pollution information of the sewage in real time, so that when the current pollution information changes, the controller can make corresponding adjustment according to the current pollution information in time, and the cleaning device 400 is ensured to have the optimal cleaning effect.

Specifically, after the controller obtains the current contamination information, it determines the current contamination parameter of the current cleaning area cleaned by the cleaning device 400 according to the current contamination information. It should be noted that the type of the current soiling parameter is not exclusive, and may specifically include the type of soiling of the current cleaning area, such as oil, coffee, or the like, and may also include the soiling level of the current cleaning area, and the like.

Specifically, after determining that the current contamination parameter of the current cleaning region is obtained, the controller further determines whether the contamination improvement condition is satisfied according to the current contamination parameter. And if so, controlling the cleaning related device to work according to preset working parameters so as to improve the dirt degree of the current cleaning area. Specifically, the preset operation parameter may be a parameter set in the controller in advance, or may be a parameter input into the controller by a user before the cleaning apparatus 400 is started, and may be specifically set according to a requirement. It will be appreciated that the predetermined operating parameter is greater than the current operating parameter of the cleaning-related device, so that the degree of soiling of the currently cleaned area is improved.

Specifically, the current contamination parameter is determined to satisfy the contamination improvement condition, and it may be determined that the current parameter satisfies the contamination improvement condition when the current contamination parameter is greater than or equal to the set threshold, or it may be determined that the contamination type is determined according to the current contamination parameter, and it is determined that the current parameter satisfies the contamination improvement condition when the contamination type is a set type of contamination, and the determination may be specifically set according to a requirement.

Specifically, the kind of the cleaning-related device is not exclusive, and it may include at least one of the drum brush 450, the fresh water spray 430, the detergent spray 440, and the blower fan 460. The specific type of the cleaning related device is not limited, and only when the cleaning related device works according to preset working parameters, the degree of dirt in the current cleaning area can be improved.

The controller is further configured to control the cleaning-related device to operate according to the current operating parameter upon determining that the contamination improvement condition is not satisfied based on the current contamination parameter. That is, if it is determined based on the current contamination parameter that the contamination improvement condition is not satisfied, the cleaning-related device maintains the operation parameter unchanged. It is understood that the current operating parameter is less than the preset operating parameter, and the current operating parameter may be zero, or may be greater than zero. It is worth mentioning that when the cleaning device 400 operates with the current operating parameters, the cleaning device 400 has a better cleaning effect, and can also save energy and reduce emission.

Specifically, the collecting member 420 is an absorbance collecting member configured to collect the current absorbance of the sewage in the sewage recovery channel 411 during the operation of the cleaning apparatus 400. It can be understood that the collecting member 420 includes an emitting portion 421 and a receiving portion 423, the emitting portion 421 and the receiving portion 423 are disposed at two opposite sides of the flowing path of the sewage in the sewage collecting channel 411 at intervals, the emitting portion 421 emits a light beam, and the receiving portion 423 receives the light beam emitted by the emitter. Due to the blockage of the sewage, the light beam parameter (such as light intensity) of the light beam which can be received by the receiver is smaller than the light beam parameter (such as light intensity) of the light beam which is emitted by the emitter, and the current absorbance of the sewage can be obtained by the receiver according to the difference between the light beam parameter of the light beam which is emitted by the emitter and the light beam parameter of the light beam which is received by the receiver and is sent to the controller.

Because the light beam does not react with any substance in the sewage in the transmitting and receiving processes, the current absorbance of the sewage can be accurately collected by the collecting part 420, and the controller can accurately obtain the current dirty parameters of the current cleaning area according to the current absorbance, so that the controller can make corresponding adjustment according to the current dirty parameters, and the cleaning device 400 is guaranteed to have a better cleaning effect.

Further, the collecting member 420 is an infrared collecting member 420, and the infrared collecting member 420 is configured to collect the current infrared absorbance of the wastewater in the wastewater recovery channel 411 during the operation of the cleaning apparatus 400. Specifically, the infrared collecting member 420 includes an infrared emitting portion 421 and an infrared receiving portion 423, the infrared emitting portion 421 and the infrared receiving portion 423 are disposed at intervals on two opposite sides of a flow path of the sewage in the sewage recycling channel 411, the infrared emitting portion 421 emits an infrared beam, and the infrared receiving portion 423 receives the infrared beam emitted by the emitter. And the receiver obtains the current infrared absorbance of the sewage according to the difference between the beam parameter of the infrared beam transmitted by the transmitter and the beam parameter of the infrared beam received by the receiver and sends the current infrared absorbance to the controller. The mode of obtaining current infrared absorbance through collection 420 is comparatively stable and accurate to can promote the control precision of controller.

The cleaning-related device includes a clean water injection member 430, the preset operating parameter includes a preset clean water injection amount, and the controller controls the clean water injection member 430 to inject clean water of the preset clean water injection amount to the rolling brush 450 to improve the contamination degree of the current cleaning area when it is determined that the contamination improvement condition is satisfied based on the current contamination parameter.

It is to be understood that, when the current soiling parameter determines that the soiling improvement condition is not satisfied, the clean water spray member 430 maintains the current amount of water sprayed constant, and the roll brush 450 may contact and clean the current cleaning area surface during the rotation of the roll brush 450. At the current amount of water sprayed, the cleaning apparatus 400 has better cleaning effect and also saves water. The preset fresh water spraying amount is larger than the current water spraying amount, and the more the fresh water spraying member 430 sprays the water to the rolling brush 450, the more the rolling brush 450 is wet. Further, the more water drops to the current cleaning area, and thus, the more the dirt can be softened, so that the roller brush 450 can clean the dirt conveniently. It can be understood that the preset clean water spraying amount can be a value preset in the controller, or a value input into the controller by a user, and the preset clean water spraying amount can be specifically set according to requirements, and it is only required to ensure that when the clean water spraying member 430 sprays the sewage with the preset clean water spraying amount, the pollution degree of the current clean area can be improved.

It should be noted that, in order to ensure that the cleaning apparatus 400 can operate normally, the clean water injection member 430 needs to inject clean water to the rolling brush 450 during the operation of the cleaning apparatus 400, no matter whether the current dirt parameters satisfy the dirt improvement condition.

Specifically, the clean water injection member 430 includes a clean water injection pump 431 and a clean water injection pipe 433, the clean water injection pump 431 is electrically connected to the controller, an input end of the clean water injection pipe 433 is communicated with an output end of the clean water injection pump 431, and a water outlet of the clean water injection pipe 433 is disposed toward the roller brush 450. Under the action of the clean water injection pump 431, the clean water can be reliably input into the clean water injection pipe 433 and ejected from the water outlet of the clean water injection pipe 433 toward the roll brush 450.

Further, the fresh water injection member 430 further comprises a fresh water storage tank 435, the fresh water storage tank 435 being configured for storing fresh water, an input of the fresh water injection pump 431 being in communication with the fresh water storage tank 435. By providing the fresh water storage tank 435, fresh water can be sprayed onto the roll without the need for connection to an external water source, thereby making the cleaning apparatus 400 more flexible.

The cleaning-related device further includes a detergent injection member 440, the preset operation parameter includes a preset detergent injection amount, and the controller controls the detergent injection member 440 to inject the detergent of the preset detergent injection amount to the drum brush 450 to improve the degree of contamination of the current cleaning area when it is determined that the contamination improvement condition is satisfied based on the current contamination parameter.

Specifically, the cleaning agent is a liquid cleaning agent with good fluidity, the cleaning agent sprayed to the rolling brush 450 can be fully contacted with the water on the rolling brush 450 and fused to form a mixed solution, and along with the rotation of the rolling brush 450, the mixed solution is contacted with the surface of the current cleaning area and softens the dirt or chemically reacts with the dirt, so that the cleaning device 400 has a better cleaning effect.

It is worth mentioning that the detergent spraying member 440 may not be activated for saving resources and reducing working costs on the premise of having a better cleaning effect in the current cleaning area when the current soiling parameter does not satisfy the soiling improvement condition. That is, when the current stain parameter does not satisfy the stain improvement condition, the current operation parameter of the detergent spray member 440 is zero. When the current stain parameter satisfies the stain improvement condition, the detergent injection member 440 is activated and injects the detergent to the drum brush 450.

Specifically, the preset detergent ejection amount is also smaller than the preset detergent ejection amount, and thus, the detergent can be well mixed with the fresh water, and less foam is generated during the rotation of the drum brush 450 and the cleaning of the current cleaning area, so that the cleaning of the current cleaning area can be facilitated.

Further, the controller also controls the detergent injection member 440 to inject a first preset injection amount of detergent, including the first preset injection amount, to the drum brush 450 when the current stain parameter is greater than the first threshold value, so as to improve the stain level of the current cleaning area. The controller also controls the detergent injection member 440 to inject a second preset injection amount of detergent to the drum brush 450 to improve the degree of contamination of the current cleaning region when the current contamination parameter is greater than a second threshold, the preset detergent injection amount including the second preset injection amount, the second preset injection amount being greater than the first preset injection amount, the second threshold being greater than the first threshold. It is understood that when the current stain parameter is greater than the first threshold, the stain level of the current cleaning region is low, and the stain level of the current cleaning region can be improved by injecting a small amount of detergent into the detergent injection member 440. When the current stain parameter is greater than the second threshold, the stain level of the current cleaning region is relatively high, and the detergent injection member 440 needs to inject a relatively large amount of detergent to improve the stain level of the current cleaning region. Therefore, the controller can control the detergent injection member 440 to inject different amounts of detergent when the current soiling parameter is determined to satisfy different soiling improvement conditions, so that the degree of soiling of the current cleaning area can be improved, the cleaning apparatus 400 has a better cleaning effect, and the amount of detergent used can be saved, so that resources can be saved, and the use cost of the cleaning apparatus 400 can be reduced.

Further, the controller controls the detergent injection member 440 to inject the detergent of the first preset injection amount to the drum brush 450 for the first time period when the current contamination parameter is greater than the first threshold value, so as to improve the degree of contamination of the current cleaning region. The controller also controls the detergent injection member 440 to inject a second preset injection amount of detergent to the drum brush 450 for a second duration greater than the first duration when the current soiling parameter is greater than a second threshold, so as to improve the degree of soiling of the current cleaning area.

It can be understood that the longer the detergent is sprayed, the greater the specific gravity of the detergent in the mixed liquid, and the mixed liquid can be sufficiently contacted with and effectively clean the current cleaning region by the roller brush 450. When the current stain parameter is greater than the first threshold value, the stain degree of the current cleaning area is light, the cleaning agent injection member 440 injects the cleaning agent for a short time, and the injection amount of the cleaning agent can meet the requirement of improving the stain degree of the current cleaning area. When the current stain parameter is greater than the second threshold value, the stain degree of the current cleaning area is relatively serious, the cleaning agent injection member 440 injects the cleaning agent for a relatively long time, and the injection amount of the cleaning agent can meet the requirement of improving the stain degree of the current cleaning area. Therefore, the controller can control the detergent injection member 440 to inject different amounts of detergent according to different injection times when the current soiling parameter is determined to satisfy different soiling improvement conditions, so that the degree of soiling of the current cleaning area can be improved, the cleaning device 400 has a good cleaning effect, and the amount of detergent can be saved, so that resources are saved, and the use cost of the cleaning device 400 is reduced.

Specifically, the detergent injection member 440 includes a detergent injection pump 441 and a detergent injection pipe 443, the detergent injection pump 441 is electrically connected to the controller, an input end of the detergent injection pipe 443 is communicated with an output end of the detergent injection pump 441, and a water outlet of the detergent injection pipe 443 is disposed toward the drum brush 450. By the detergent injection pump 441, the detergent can be reliably inputted into the detergent injection pipe 443 and ejected from the water outlet of the detergent injection pipe 443 toward the drum brush 450.

Further, the detergent injection member 440 further includes a detergent storage tank 445, the detergent storage tank 445 being configured to store detergent, and an input end of the detergent injection pump 441 is communicated with the detergent storage tank 445. By providing the detergent storage tank 445, detergent can be sprayed toward the roller without connection to an external detergent source, thereby making the movement of the cleaning apparatus 400 more flexible.

The cleaning-related devices comprise a rolling brush 450 electrically connected with the controller, and the preset working parameters comprise a preset rolling brush rotating speed; the controller also controls the drum brush 450 to rotate at a preset drum brush rotation speed to improve the contamination level of the current cleaning region when it is determined that the contamination improvement condition is satisfied based on the current contamination parameter.

It is to be understood that, when the current soiling parameter determines that the soiling improvement condition is not satisfied, the drum brush 450 maintains the current drum brush rotation speed constant, and during the rotation of the drum brush 450 at the current drum brush rotation speed, the drum brush 450 may contact and clean the surface of the current cleaning region. At the current rotational speed of the roller brush, the cleaning apparatus 400 also has a better cleaning effect and also saves power. The preset rotating speed of the rolling brush is greater than the current rotating speed of the rolling brush, and the faster the rotating speed of the rolling brush 450 is, the more frequent the contact with the surface of the current cleaning area is, and the better the cleaning effect is. It can be understood that the preset rolling brush rotating speed can be a numerical value preset in the controller, or a numerical value input into the controller by a user, and the preset rolling brush rotating speed can be specifically set according to requirements, and only by ensuring that when the rolling brush 450 rotates according to the preset rolling brush rotating speed, the dirt degree of the current cleaning area can be improved.

It is worth mentioning that in order to ensure that the cleaning device 400 can operate normally, the rolling brush 450 needs to rotate no matter whether the current dirt parameters satisfy the dirt improvement condition or not in the working process of the cleaning device 400.

The cleaning-related device further comprises a fan 460, and the preset operating parameter comprises a preset fan speed. If it is determined that the stain improvement condition is satisfied based on the current stain parameter, the controller controls the fan 460 to rotate at a preset fan rotation speed to improve the stain level of the current cleaning area.

It can be understood that, when the current contamination parameter determines that the contamination improvement condition is not satisfied, the fan 460 maintains the current fan rotation speed, and during the rotation of the fan 460 at the current fan rotation speed, the contaminated water in the current cleaning area can be guided by the contaminated water recovery passage 411 and recovered (the path of the recovered contaminated water is the path indicated by the straight arrow in fig. 13) under the action of the fan 460, so that the current cleaning area has a better cleaning effect. At the current fan speed, the cleaning apparatus 400 has a better cleaning effect and also saves power. The preset fan rotating speed is greater than the current fan rotating speed, and the faster the fan 460 rotating speed is, the better the sewage recovery effect is, and the better the cleaning effect of the current cleaning area is. It can be understood that the preset fan speed can be a numerical value preset in the controller, or a numerical value input into the controller by a user, and the preset fan speed can be specifically set according to requirements, and only need to ensure that when the fan 460 rotates according to the preset fan speed, the dirt degree of the current cleaning area can be improved.

It is worth mentioning that in order to ensure that the cleaning device 400 can operate normally, the fan 460 needs to rotate during the operation of the cleaning device 400 no matter whether the current dirt parameters satisfy the dirt improvement condition or not.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A cleaning device, characterized in that the cleaning device comprises:

a body having a sewage recovery channel formed therein;

the collecting piece is matched and connected with the machine body and is configured to be used for collecting current pollution information of the sewage in the sewage recovery channel in the working process of the cleaning equipment;

a cleaning-related device coupled to the body; and

and the controller is electrically connected with the acquisition part and the cleaning related device, and is used for determining the current pollution parameters of the current cleaning area according to the current pollution information and controlling the cleaning related device to work according to preset working parameters when the current pollution parameters meet pollution improvement conditions.

2. The cleaning apparatus as claimed in claim 1, wherein the collecting member is an absorbance collecting member configured to collect a current absorbance of the wastewater in the wastewater recovery channel during operation of the cleaning apparatus.

3. The cleaning apparatus defined in claim 2, wherein the collection member is an infrared collection member configured to collect a current infrared absorbance of the wastewater in the wastewater recovery channel during operation of the cleaning apparatus.

4. The cleaning apparatus as claimed in claim 1, wherein the cleaning-related device includes a clean water injection member, the preset operation parameter includes a preset clean water ejection amount, and the controller controls the clean water injection member to eject the clean water of the preset clean water ejection amount to the drum brush to improve the degree of contamination of the current cleaning area when it is determined that the contamination improvement condition is satisfied based on the current contamination parameter.

5. The cleaning apparatus as claimed in claim 4, wherein the clean water injection member comprises a clean water injection pump and a clean water injection pipe, the clean water injection pump is electrically connected with the controller, an input end of the clean water injection pipe is communicated with an output end of the clean water injection pump, and a water outlet of the clean water injection pipe is arranged towards the roller brush.

6. The cleaning apparatus defined in claim 5, wherein the fresh water injection member further comprises a fresh water storage tank configured for storing fresh water, the input of the fresh water injection pump being in communication with the fresh water storage tank.

7. The cleaning apparatus according to any one of claims 1 to 6, wherein the cleaning-related device includes a cleaning agent injection member, the preset operation parameter includes a preset detergent ejection amount, and the controller controls the cleaning agent injection member to eject the preset detergent ejection amount of the cleaning agent to the drum brush to improve the degree of soiling of the current cleaning area when it is determined that the soiling improvement condition is satisfied based on the current soiling parameter.

8. The cleaning apparatus as claimed in claim 7, wherein the cleaning agent injection member includes a cleaning agent injection pump and a cleaning agent injection pipe, the cleaning agent injection pump is electrically connected to the controller, an input end of the cleaning agent injection pipe is communicated with an output end of the cleaning agent injection pump, and a water outlet of the cleaning agent injection pipe is disposed toward the drum brush.

9. The cleaning apparatus as claimed in claim 8, wherein the detergent injection member further includes a detergent storage tank configured to store detergent, the input of the detergent injection pump being in communication with the detergent storage tank.

10. The cleaning apparatus defined in claim 1, wherein the cleaning-related device comprises a roller brush electrically connected to the controller, the preset operating parameter comprising a preset roller brush speed; and when the controller determines that the dirt improvement condition is met based on the current dirt parameter, the rolling brush is controlled to rotate according to the preset rolling brush rotating speed so as to improve the dirt degree of the current cleaning area.

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